file_name
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78
| original_function_name
stringlengths 1
588
⌀ | stripped_function_name
stringlengths 2
57
| decompiled_code_original
stringlengths 34
161k
⌀ | decompiled_code_stripped
stringlengths 34
227k
⌀ | assembly_code
stringlengths 5
527k
⌀ | dataflowgraph_original
float64 | dataflowgraph_stripped
float64 | graphImage_original
float64 | graphImage_stripped
float64 | pcode_edges_original
stringlengths 11
14.6M
| pcode_edges_stripped
stringlengths 11
37.7M
| pcode_graph_original
float64 | pcode_graph_stripped
float64 | address
stringlengths 8
8
| arch
stringclasses 1
value | opt_level
stringclasses 1
value | S-Expression_of_decompiled_code_stripped
stringlengths 339
5.54M
⌀ | S-Expression_decompiled_code_original
stringlengths 339
2.96M
⌀ | S-Expression_decompiled_code_original_noisy
stringlengths 0
5.54M
| S-Expression_decompiled_code_original_clean
stringlengths 0
757k
| S-Expression_decompiled_code_original_root
stringlengths 0
5.71M
| Replace_function_name_and_variable_name
stringlengths 0
163k
| S-Expression_decompiled_code_stripped
stringclasses 1
value | Root Node
stringlengths 0
1.15M
| decompiled_code_original_masked
stringclasses 1
value | decompiled_code_stripped_masked
stringlengths 35
227k
⌀ | __index_level_0__
int64 0
86.2k
|
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
18_expand_and_expand_strip.c
|
fwrite
|
fwrite
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)
{
size_t sVar1;
sVar1 = (*(code *)PTR_fwrite_00028058)();
return sVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)
{
size_t sVar1;
sVar1 = (*(code *)PTR_fwrite_00028058)();
return sVar1;
}
|
adr r12,0x10e78
add r12,r12,#0x17000
ldr pc,[r12,#0x1e0]!
| null | null | null | null |
[(u'INDIRECT_-1205989668', u'COPY_-1205989727'), (u'CALLIND_-1205989741', u'RETURN_-1205989738'), ('const-0', u'RETURN_-1205989738'), ('tmp_138', u'CAST_-1205989663'), (u'CALLIND_-1205989741', u'INDIRECT_-1205989668'), (u'CAST_-1205989663', u'CALLIND_-1205989741')]
|
[(u'INDIRECT_-1205989668', u'COPY_-1205989727'), (u'CALLIND_-1205989741', u'RETURN_-1205989738'), ('const-0', u'RETURN_-1205989738'), ('tmp_138', u'CAST_-1205989663'), (u'CALLIND_-1205989741', u'INDIRECT_-1205989668'), (u'CAST_-1205989663', u'CALLIND_-1205989741')]
| null | null |
00010e70
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}\n\n" comment (function_definition "size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" primitive_type (function_declarator "fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)" identifier (parameter_list "(void *__ptr,size_t __size,size_t __n,FILE *__s)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) , (parameter_declaration "size_t __size" primitive_type identifier) , (parameter_declaration "size_t __n" primitive_type identifier) , (parameter_declaration "FILE *__s" type_identifier (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" { (declaration "size_t sVar1;" primitive_type identifier ;) (expression_statement "sVar1 = (*(code *)PTR_fwrite_00028058)();" (assignment_expression "sVar1 = (*(code *)PTR_fwrite_00028058)()" identifier = (call_expression "(*(code *)PTR_fwrite_00028058)()" (parenthesized_expression "(*(code *)PTR_fwrite_00028058)" ( (pointer_expression "*(code *)PTR_fwrite_00028058" * (cast_expression "(code *)PTR_fwrite_00028058" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return sVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}\n\n" comment (function_definition "size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" primitive_type (function_declarator "fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)" identifier (parameter_list "(void *__ptr,size_t __size,size_t __n,FILE *__s)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) , (parameter_declaration "size_t __size" primitive_type identifier) , (parameter_declaration "size_t __n" primitive_type identifier) , (parameter_declaration "FILE *__s" type_identifier (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" { (declaration "size_t sVar1;" primitive_type identifier ;) (expression_statement "sVar1 = (*(code *)PTR_fwrite_00028058)();" (assignment_expression "sVar1 = (*(code *)PTR_fwrite_00028058)()" identifier = (call_expression "(*(code *)PTR_fwrite_00028058)()" (parenthesized_expression "(*(code *)PTR_fwrite_00028058)" ( (pointer_expression "*(code *)PTR_fwrite_00028058" * (cast_expression "(code *)PTR_fwrite_00028058" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return sVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}\n\n" comment (function_definition "size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" primitive_type (function_declarator "fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)" identifier (parameter_list "(void *__ptr,size_t __size,size_t __n,FILE *__s)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) , (parameter_declaration "size_t __size" primitive_type identifier) , (parameter_declaration "size_t __n" primitive_type identifier) , (parameter_declaration "FILE *__s" type_identifier (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" { (declaration "size_t sVar1;" primitive_type identifier ;) (expression_statement "sVar1 = (*(code *)PTR_fwrite_00028058)();" (assignment_expression "sVar1 = (*(code *)PTR_fwrite_00028058)()" identifier = (call_expression "(*(code *)PTR_fwrite_00028058)()" (parenthesized_expression "(*(code *)PTR_fwrite_00028058)" ( (pointer_expression "*(code *)PTR_fwrite_00028058" * (cast_expression "(code *)PTR_fwrite_00028058" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return sVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "size_t fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)\n\n{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" (primitive_type "size_t") (function_declarator "fwrite(void *__ptr,size_t __size,size_t __n,FILE *__s)" (identifier "fwrite") (parameter_list "(void *__ptr,size_t __size,size_t __n,FILE *__s)" (( "(") (parameter_declaration "void *__ptr" (primitive_type "void") (pointer_declarator "*__ptr" (* "*") (identifier "__ptr"))) (, ",") (parameter_declaration "size_t __size" (primitive_type "size_t") (identifier "__size")) (, ",") (parameter_declaration "size_t __n" (primitive_type "size_t") (identifier "__n")) (, ",") (parameter_declaration "FILE *__s" (type_identifier "FILE") (pointer_declarator "*__s" (* "*") (identifier "__s"))) () ")"))) (compound_statement "{\n size_t sVar1;\n \n sVar1 = (*(code *)PTR_fwrite_00028058)();\n return sVar1;\n}" ({ "{") (declaration "size_t sVar1;" (primitive_type "size_t") (identifier "sVar1") (; ";")) (expression_statement "sVar1 = (*(code *)PTR_fwrite_00028058)();" (assignment_expression "sVar1 = (*(code *)PTR_fwrite_00028058)()" (identifier "sVar1") (= "=") (call_expression "(*(code *)PTR_fwrite_00028058)()" (parenthesized_expression "(*(code *)PTR_fwrite_00028058)" (( "(") (pointer_expression "*(code *)PTR_fwrite_00028058" (* "*") (cast_expression "(code *)PTR_fwrite_00028058" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_fwrite_00028058"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return sVar1;" (return "return") (identifier "sVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t function_1(void *__ptr,size_t __size,size_t __n,type_1 *__s)
{
size_t sVar1;
sVar1 = (*(type_2 *)PTR_fwrite_00028058)();
return sVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t MASKED(void *__ptr,size_t __size,size_t __n,FILE *__s)
{
size_t sVar1;
sVar1 = (*(code *)PTR_MASKED_00028058)();
return sVar1;
}
| 13,986 |
||
6_sg_vpd_and_sg_vpd_strip.c
|
strcmp
|
strcmp
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int strcmp(char *__s1,char *__s2)
{
int iVar1;
iVar1 = (*(code *)PTR_strcmp_00037ef0)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int strcmp(char *__s1,char *__s2)
{
int iVar1;
iVar1 = (*(code *)PTR_strcmp_00037ef0)();
return iVar1;
}
|
adr r12,0x117d4
add r12,r12,#0x26000
ldr pc,[r12,#0x71c]!
| null | null | null | null |
[(u'CALLIND_-1205987345', u'RETURN_-1205987342'), (u'CALLIND_-1205987345', u'INDIRECT_-1205987274'), (u'INDIRECT_-1205987274', u'COPY_-1205987333'), ('tmp_126', u'CAST_-1205987269'), (u'CAST_-1205987269', u'CALLIND_-1205987345'), ('const-0', u'RETURN_-1205987342')]
|
[(u'CALLIND_-1205987345', u'RETURN_-1205987342'), (u'CALLIND_-1205987345', u'INDIRECT_-1205987274'), (u'INDIRECT_-1205987274', u'COPY_-1205987333'), ('tmp_126', u'CAST_-1205987269'), (u'CAST_-1205987269', u'CALLIND_-1205987345'), ('const-0', u'RETURN_-1205987342')]
| null | null |
000117cc
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}\n\n" comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_strcmp_00037ef0)();" (assignment_expression "iVar1 = (*(code *)PTR_strcmp_00037ef0)()" identifier = (call_expression "(*(code *)PTR_strcmp_00037ef0)()" (parenthesized_expression "(*(code *)PTR_strcmp_00037ef0)" ( (pointer_expression "*(code *)PTR_strcmp_00037ef0" * (cast_expression "(code *)PTR_strcmp_00037ef0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}\n\n" comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_strcmp_00037ef0)();" (assignment_expression "iVar1 = (*(code *)PTR_strcmp_00037ef0)()" identifier = (call_expression "(*(code *)PTR_strcmp_00037ef0)()" (parenthesized_expression "(*(code *)PTR_strcmp_00037ef0)" ( (pointer_expression "*(code *)PTR_strcmp_00037ef0" * (cast_expression "(code *)PTR_strcmp_00037ef0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}\n\n" comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_strcmp_00037ef0)();" (assignment_expression "iVar1 = (*(code *)PTR_strcmp_00037ef0)()" identifier = (call_expression "(*(code *)PTR_strcmp_00037ef0)()" (parenthesized_expression "(*(code *)PTR_strcmp_00037ef0)" ( (pointer_expression "*(code *)PTR_strcmp_00037ef0" * (cast_expression "(code *)PTR_strcmp_00037ef0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "strcmp(char *__s1,char *__s2)" (identifier "strcmp") (parameter_list "(char *__s1,char *__s2)" (( "(") (parameter_declaration "char *__s1" (primitive_type "char") (pointer_declarator "*__s1" (* "*") (identifier "__s1"))) (, ",") (parameter_declaration "char *__s2" (primitive_type "char") (pointer_declarator "*__s2" (* "*") (identifier "__s2"))) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_strcmp_00037ef0)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_strcmp_00037ef0)();" (assignment_expression "iVar1 = (*(code *)PTR_strcmp_00037ef0)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_strcmp_00037ef0)()" (parenthesized_expression "(*(code *)PTR_strcmp_00037ef0)" (( "(") (pointer_expression "*(code *)PTR_strcmp_00037ef0" (* "*") (cast_expression "(code *)PTR_strcmp_00037ef0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_strcmp_00037ef0"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(char *__s1,char *__s2)
{
int iVar1;
iVar1 = (*(type_1 *)PTR_strcmp_00037ef0)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(char *__s1,char *__s2)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_00037ef0)();
return iVar1;
}
| 33,159 |
||
250_arm-linux-gnueabi-strip_and_arm-linux-gnueabi-strip_strip.c
|
debug_get_parameter_types
|
FUN_0001f55c
|
debug_type_conflict *
debug_get_parameter_types(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)
{
debug_type_s *pdVar1;
if (type == (debug_type_conflict)0x0) {
return (debug_type_conflict *)0x0;
}
pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0);
if (pdVar1 != (debug_type_s *)0x0) {
if (pdVar1->kind == DEBUG_KIND_FUNCTION) {
*pvarargs = ((pdVar1->u).kclass)->id;
return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;
}
if (pdVar1->kind == DEBUG_KIND_METHOD) {
*pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;
return (debug_type_conflict *)((pdVar1->u).kclass)->id;
}
}
return (debug_type_conflict *)0x0;
}
|
undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)
{
int *piVar1;
if (param_2 == 0) {
return 0;
}
piVar1 = (int *)FUN_0001c270(param_1,param_2,0);
if (piVar1 != (int *)0x0) {
if (*piVar1 == 0xd) {
*param_3 = *(undefined4 *)(piVar1[3] + 8);
return *(undefined4 *)(piVar1[3] + 4);
}
if (*piVar1 == 0x13) {
*param_3 = *(undefined4 *)(piVar1[3] + 0xc);
return *(undefined4 *)(piVar1[3] + 8);
}
}
return 0;
}
|
cmp r1,#0x0
beq 0x0001f5c8
stmdb sp!,{r4,lr}
cpy r4,r2
mov r2,#0x0
bl 0x0001c270
cmp r0,#0x0
beq 0x0001f590
ldr r3,[r0,#0x0]
cmp r3,#0xd
beq 0x0001f5b0
cmp r3,#0x13
beq 0x0001f598
mov r0,#0x0
ldmia sp!,{r4,pc}
ldr r3,[r0,#0xc]
ldr r3,[r3,#0xc]
str r3,[r4,#0x0]
ldr r3,[r0,#0xc]
ldr r0,[r3,#0x8]
ldmia sp!,{r4,pc}
ldr r3,[r0,#0xc]
ldr r3,[r3,#0x8]
str r3,[r4,#0x0]
ldr r3,[r0,#0xc]
ldr r0,[r3,#0x4]
ldmia sp!,{r4,pc}
mov r0,#0x0
bx lr
| null | null | null | null |
[(u'INT_EQUAL_-1205930638', u'CBRANCH_-1205930635'), (u'LOAD_-1205930465', u'PTRSUB_-1205930292'), (u'PTRSUB_-1205930297', u'PTRSUB_-1205930286'), (u'CAST_-1205930283', u'RETURN_-1205930436'), ('const-417', u'LOAD_-1205930483'), (u'PTRSUB_-1205930279', u'LOAD_-1205930438'), (u'LOAD_-1205930438', u'PTRSUB_-1205930278'), ('const-19', u'INT_EQUAL_-1205930520'), (u'CALL_-1205930596', u'PTRSUB_-1205930283'), (u'PTRSUB_-1205930269', u'PTRSUB_-1205930266'), (u'CALL_-1205930596', u'INT_NOTEQUAL_-1205930575'), (u'PTRSUB_-1205930300', u'LOAD_-1205930483'), (u'CALL_-1205930596', u'PTRSUB_-1205930311'), ('const-0', u'RETURN_-1205930436'), ('tmp_480', u'INT_EQUAL_-1205930638'), ('const-8', u'PTRSUB_-1205930278'), ('const-417', u'LOAD_-1205930432'), (u'PTRSUB_-1205930266', u'LOAD_-1205930420'), ('const-13', u'INT_EQUAL_-1205930545'), (u'LOAD_-1205930570', u'INT_EQUAL_-1205930545'), (u'PTRSUB_-1205930283', u'PTRSUB_-1205930279'), ('const-417', u'LOAD_-1205930465'), ('const-417', u'LOAD_-1205930438'), ('const-12', u'PTRSUB_-1205930283'), (u'PTRSUB_-1205930340', u'LOAD_-1205930570'), ('const-417', u'STORE_-1205930470'), ('const-12', u'PTRSUB_-1205930297'), ('tmp_147', u'CBRANCH_-1205930573'), (u'CALL_-1205930596', u'PTRSUB_-1205930340'), ('tmp_481', u'STORE_-1205930425'), (u'CAST_-1205930293', u'STORE_-1205930470'), ('const-0', u'INT_EQUAL_-1205930638'), ('const-12', u'PTRSUB_-1205930311'), ('tmp_480', u'CALL_-1205930596'), ('const-0', u'CALL_-1205930596'), ('const-0', u'RETURN_-1205930366'), (u'PTRSUB_-1205930306', u'LOAD_-1205930477'), (u'CAST_-1205930259', u'RETURN_-1205930391'), (u'LOAD_-1205930570', u'INT_EQUAL_-1205930520'), ('const-0', u'COPY_-1205930388'), (u'LOAD_-1205930483', u'PTRSUB_-1205930306'), ('const-12', u'PTRSUB_-1205930306'), ('tmp_481', u'STORE_-1205930470'), ('const-417', u'LOAD_-1205930420'), ('tmp_245', u'CBRANCH_-1205930517'), (u'PTRSUB_-1205930286', u'LOAD_-1205930465'), ('const-0', u'PTRSUB_-1205930340'), ('const-8', u'PTRSUB_-1205930292'), ('const-417', u'LOAD_-1205930414'), (u'COPY_-1205930388', u'RETURN_-1205930366'), ('tmp_44', u'CBRANCH_-1205930635'), (u'INT_NOTEQUAL_-1205930575', u'CBRANCH_-1205930573'), (u'LOAD_-1205930420', u'PTRSUB_-1205930264'), ('const-4', u'PTRSUB_-1205930264'), ('const-417', u'LOAD_-1205930459'), ('const-0', u'PTRSUB_-1205930279'), ('const-417', u'STORE_-1205930425'), ('const-12', u'PTRSUB_-1205930269'), (u'CALL_-1205930596', u'PTRSUB_-1205930297'), (u'COPY_-1205930509', u'RETURN_-1205930481'), (u'PTRSUB_-1205930292', u'LOAD_-1205930459'), ('const-0', u'RETURN_-1205930391'), ('tmp_479', u'CALL_-1205930596'), ('const-0', u'PTRSUB_-1205930286'), (u'LOAD_-1205930477', u'CAST_-1205930293'), ('const-417', u'LOAD_-1205930570'), ('const-0', u'PTRSUB_-1205930300'), (u'INT_EQUAL_-1205930545', u'CBRANCH_-1205930542'), (u'LOAD_-1205930414', u'CAST_-1205930259'), (u'PTRSUB_-1205930278', u'LOAD_-1205930432'), ('const-0', u'COPY_-1205930509'), (u'CALL_-1205930596', u'PTRSUB_-1205930269'), (u'PTRSUB_-1205930311', u'PTRSUB_-1205930300'), (u'PTRSUB_-1205930264', u'LOAD_-1205930414'), ('const-0', u'PTRSUB_-1205930266'), (u'LOAD_-1205930432', u'STORE_-1205930425'), ('const-417', u'LOAD_-1205930477'), (u'LOAD_-1205930459', u'CAST_-1205930283'), ('tmp_199', u'CBRANCH_-1205930542'), (u'INT_EQUAL_-1205930520', u'CBRANCH_-1205930517'), ('const-0', u'RETURN_-1205930481'), ('const-0', u'INT_NOTEQUAL_-1205930575')]
|
[(u'INT_EQUAL_-1205930638', u'CBRANCH_-1205930635'), ('const-417', u'LOAD_-1205930459'), ('const-13', u'INT_EQUAL_-1205930545'), (u'LOAD_-1205930438', u'INT_ADD_-1205930416'), (u'LOAD_-1205930483', u'INT_ADD_-1205930461'), ('const-0', u'RETURN_-1205930436'), (u'INT_ADD_-1205930416', u'CAST_-1205930280'), (u'PTRADD_-1205930312', u'LOAD_-1205930483'), (u'INT_ADD_-1205930398', u'CAST_-1205930267'), ('tmp_608', u'STORE_-1205930425'), (u'CAST_-1205930349', u'PTRADD_-1205930312'), ('const-0', u'CALL_-1205930596'), (u'CAST_-1205930349', u'LOAD_-1205930570'), ('const-12', u'INT_ADD_-1205930461'), (u'CAST_-1205930349', u'PTRADD_-1205930286'), (u'CAST_-1205930349', u'PTRADD_-1205930299'), ('const-4', u'INT_ADD_-1205930398'), (u'LOAD_-1205930570', u'INT_EQUAL_-1205930545'), (u'INT_ADD_-1205930461', u'CAST_-1205930302'), ('const-4', u'PTRADD_-1205930273'), ('const-417', u'LOAD_-1205930465'), ('const-417', u'STORE_-1205930470'), ('const-8', u'INT_ADD_-1205930443'), ('const-4', u'PTRADD_-1205930299'), (u'PTRADD_-1205930299', u'LOAD_-1205930465'), ('tmp_613', u'CALL_-1205930596'), ('const-417', u'LOAD_-1205930477'), (u'CAST_-1205930289', u'LOAD_-1205930459'), ('tmp_147', u'CBRANCH_-1205930573'), ('const-417', u'LOAD_-1205930420'), (u'CAST_-1205930302', u'LOAD_-1205930477'), ('const-3', u'PTRADD_-1205930286'), ('const-417', u'LOAD_-1205930414'), ('const-417', u'LOAD_-1205930570'), (u'LOAD_-1205930414', u'RETURN_-1205930391'), (u'CAST_-1205930349', u'INT_NOTEQUAL_-1205930575'), ('const-4', u'PTRADD_-1205930286'), ('const-0', u'RETURN_-1205930366'), (u'LOAD_-1205930570', u'INT_EQUAL_-1205930520'), ('const-4', u'PTRADD_-1205930312'), ('const-0', u'COPY_-1205930388'), ('const-417', u'LOAD_-1205930483'), ('const-0', u'INT_NOTEQUAL_-1205930575'), (u'CAST_-1205930280', u'LOAD_-1205930432'), ('const-8', u'INT_ADD_-1205930416'), ('tmp_245', u'CBRANCH_-1205930517'), (u'COPY_-1205930388', u'RETURN_-1205930366'), ('tmp_44', u'CBRANCH_-1205930635'), (u'INT_NOTEQUAL_-1205930575', u'CBRANCH_-1205930573'), ('const-417', u'LOAD_-1205930438'), (u'LOAD_-1205930465', u'INT_ADD_-1205930443'), ('const-417', u'LOAD_-1205930432'), (u'PTRADD_-1205930273', u'LOAD_-1205930420'), ('tmp_604', u'CALL_-1205930596'), (u'CALL_-1205930596', u'CAST_-1205930349'), ('const-19', u'INT_EQUAL_-1205930520'), (u'COPY_-1205930509', u'RETURN_-1205930481'), (u'LOAD_-1205930459', u'RETURN_-1205930436'), ('const-0', u'RETURN_-1205930391'), ('tmp_604', u'INT_EQUAL_-1205930638'), (u'INT_ADD_-1205930443', u'CAST_-1205930289'), ('const-417', u'STORE_-1205930425'), (u'INT_EQUAL_-1205930545', u'CBRANCH_-1205930542'), ('const-0', u'INT_EQUAL_-1205930638'), (u'CAST_-1205930267', u'LOAD_-1205930414'), ('tmp_608', u'STORE_-1205930470'), ('const-3', u'PTRADD_-1205930299'), (u'LOAD_-1205930477', u'STORE_-1205930470'), ('const-0', u'COPY_-1205930509'), ('const-3', u'PTRADD_-1205930273'), (u'LOAD_-1205930420', u'INT_ADD_-1205930398'), ('const-3', u'PTRADD_-1205930312'), (u'LOAD_-1205930432', u'STORE_-1205930425'), (u'CAST_-1205930349', u'PTRADD_-1205930273'), ('tmp_199', u'CBRANCH_-1205930542'), (u'PTRADD_-1205930286', u'LOAD_-1205930438'), (u'INT_EQUAL_-1205930520', u'CBRANCH_-1205930517'), ('const-0', u'RETURN_-1205930481')]
| null | null |
0001f55c
|
arm
|
O2
|
(translation_unit "undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)\n\n{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}\n\n" (function_definition "undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)\n\n{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" type_identifier (function_declarator "FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)" identifier (parameter_list "(undefined4 param_1,int param_2,undefined4 *param_3)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) ))) (compound_statement "{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (if_statement "if (param_2 == 0) {\n return 0;\n }" if (parenthesized_expression "(param_2 == 0)" ( (binary_expression "param_2 == 0" identifier == number_literal) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "piVar1 = (int *)FUN_0001c270(param_1,param_2,0);" (assignment_expression "piVar1 = (int *)FUN_0001c270(param_1,param_2,0)" identifier = (cast_expression "(int *)FUN_0001c270(param_1,param_2,0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_0001c270(param_1,param_2,0)" identifier (argument_list "(param_1,param_2,0)" ( identifier , identifier , number_literal ))))) ;) (if_statement "if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" if (parenthesized_expression "(piVar1 != (int *)0x0)" ( (binary_expression "piVar1 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" { (if_statement "if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" if (parenthesized_expression "(*piVar1 == 0xd)" ( (binary_expression "*piVar1 == 0xd" (pointer_expression "*piVar1" * identifier) == number_literal) )) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" { (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 8);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 8)" (pointer_expression "*param_3" * identifier) = (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" * (cast_expression "(undefined4 *)(piVar1[3] + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 8)" ( (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) ))))) ;) (return_statement "return *(undefined4 *)(piVar1[3] + 4);" return (pointer_expression "*(undefined4 *)(piVar1[3] + 4)" * (cast_expression "(undefined4 *)(piVar1[3] + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 4)" ( (binary_expression "piVar1[3] + 4" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) )))) ;) })) (if_statement "if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" if (parenthesized_expression "(*piVar1 == 0x13)" ( (binary_expression "*piVar1 == 0x13" (pointer_expression "*piVar1" * identifier) == number_literal) )) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" { (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 0xc);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 0xc)" (pointer_expression "*param_3" * identifier) = (pointer_expression "*(undefined4 *)(piVar1[3] + 0xc)" * (cast_expression "(undefined4 *)(piVar1[3] + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 0xc)" ( (binary_expression "piVar1[3] + 0xc" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) ))))) ;) (return_statement "return *(undefined4 *)(piVar1[3] + 8);" return (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" * (cast_expression "(undefined4 *)(piVar1[3] + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 8)" ( (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) )))) ;) })) })) (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit "debug_type_conflict *\ndebug_get_parameter_types(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)\n\n{\n debug_type_s *pdVar1;\n \n if (type == (debug_type_conflict)0x0) {\n return (debug_type_conflict *)0x0;\n }\n pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0);\n if (pdVar1 != (debug_type_s *)0x0) {\n if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }\n if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }\n }\n return (debug_type_conflict *)0x0;\n}\n\n" (function_definition "debug_type_conflict *\ndebug_get_parameter_types(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)\n\n{\n debug_type_s *pdVar1;\n \n if (type == (debug_type_conflict)0x0) {\n return (debug_type_conflict *)0x0;\n }\n pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0);\n if (pdVar1 != (debug_type_s *)0x0) {\n if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }\n if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }\n }\n return (debug_type_conflict *)0x0;\n}" type_identifier (pointer_declarator "*\ndebug_get_parameter_types(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)" * (function_declarator "debug_get_parameter_types(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)" identifier (parameter_list "(void *handle,debug_type_conflict type,bfd_boolean *pvarargs)" ( (parameter_declaration "void *handle" primitive_type (pointer_declarator "*handle" * identifier)) , (parameter_declaration "debug_type_conflict type" type_identifier identifier) , (parameter_declaration "bfd_boolean *pvarargs" type_identifier (pointer_declarator "*pvarargs" * identifier)) )))) (compound_statement "{\n debug_type_s *pdVar1;\n \n if (type == (debug_type_conflict)0x0) {\n return (debug_type_conflict *)0x0;\n }\n pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0);\n if (pdVar1 != (debug_type_s *)0x0) {\n if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }\n if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }\n }\n return (debug_type_conflict *)0x0;\n}" { (declaration "debug_type_s *pdVar1;" type_identifier (pointer_declarator "*pdVar1" * identifier) ;) (if_statement "if (type == (debug_type_conflict)0x0) {\n return (debug_type_conflict *)0x0;\n }" if (parenthesized_expression "(type == (debug_type_conflict)0x0)" ( (binary_expression "type == (debug_type_conflict)0x0" identifier == (cast_expression "(debug_type_conflict)0x0" ( (type_descriptor "debug_type_conflict" type_identifier) ) number_literal)) )) (compound_statement "{\n return (debug_type_conflict *)0x0;\n }" { (return_statement "return (debug_type_conflict *)0x0;" return (cast_expression "(debug_type_conflict *)0x0" ( (type_descriptor "debug_type_conflict *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal) ;) })) (expression_statement "pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0);" (assignment_expression "pdVar1 = debug_get_real_type(handle,type,(debug_type_real_list *)0x0)" identifier = (call_expression "debug_get_real_type(handle,type,(debug_type_real_list *)0x0)" identifier (argument_list "(handle,type,(debug_type_real_list *)0x0)" ( identifier , identifier , (cast_expression "(debug_type_real_list *)0x0" ( (type_descriptor "debug_type_real_list *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal) )))) ;) (if_statement "if (pdVar1 != (debug_type_s *)0x0) {\n if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }\n if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }\n }" if (parenthesized_expression "(pdVar1 != (debug_type_s *)0x0)" ( (binary_expression "pdVar1 != (debug_type_s *)0x0" identifier != (cast_expression "(debug_type_s *)0x0" ( (type_descriptor "debug_type_s *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }\n if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }\n }" { (if_statement "if (pdVar1->kind == DEBUG_KIND_FUNCTION) {\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }" if (parenthesized_expression "(pdVar1->kind == DEBUG_KIND_FUNCTION)" ( (binary_expression "pdVar1->kind == DEBUG_KIND_FUNCTION" (field_expression "pdVar1->kind" identifier -> field_identifier) == identifier) )) (compound_statement "{\n *pvarargs = ((pdVar1->u).kclass)->id;\n return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;\n }" { (expression_statement "*pvarargs = ((pdVar1->u).kclass)->id;" (assignment_expression "*pvarargs = ((pdVar1->u).kclass)->id" (pointer_expression "*pvarargs" * identifier) = (field_expression "((pdVar1->u).kclass)->id" (parenthesized_expression "((pdVar1->u).kclass)" ( (field_expression "(pdVar1->u).kclass" (parenthesized_expression "(pdVar1->u)" ( (field_expression "pdVar1->u" identifier -> field_identifier) )) . field_identifier) )) -> field_identifier)) ;) (return_statement "return (debug_type_conflict *)((pdVar1->u).kindirect)->tag;" return (cast_expression "(debug_type_conflict *)((pdVar1->u).kindirect)->tag" ( (type_descriptor "debug_type_conflict *" type_identifier (abstract_pointer_declarator "*" *)) ) (field_expression "((pdVar1->u).kindirect)->tag" (parenthesized_expression "((pdVar1->u).kindirect)" ( (field_expression "(pdVar1->u).kindirect" (parenthesized_expression "(pdVar1->u)" ( (field_expression "pdVar1->u" identifier -> field_identifier) )) . field_identifier) )) -> field_identifier)) ;) })) (if_statement "if (pdVar1->kind == DEBUG_KIND_METHOD) {\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }" if (parenthesized_expression "(pdVar1->kind == DEBUG_KIND_METHOD)" ( (binary_expression "pdVar1->kind == DEBUG_KIND_METHOD" (field_expression "pdVar1->kind" identifier -> field_identifier) == identifier) )) (compound_statement "{\n *pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;\n return (debug_type_conflict *)((pdVar1->u).kclass)->id;\n }" { (expression_statement "*pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses;" (assignment_expression "*pvarargs = (bfd_boolean)((pdVar1->u).kclass)->baseclasses" (pointer_expression "*pvarargs" * identifier) = (field_expression "(bfd_boolean)((pdVar1->u).kclass)->baseclasses" (call_expression "(bfd_boolean)((pdVar1->u).kclass)" (parenthesized_expression "(bfd_boolean)" ( identifier )) (argument_list "((pdVar1->u).kclass)" ( (field_expression "(pdVar1->u).kclass" (parenthesized_expression "(pdVar1->u)" ( (field_expression "pdVar1->u" identifier -> field_identifier) )) . field_identifier) ))) -> field_identifier)) ;) (return_statement "return (debug_type_conflict *)((pdVar1->u).kclass)->id;" return (cast_expression "(debug_type_conflict *)((pdVar1->u).kclass)->id" ( (type_descriptor "debug_type_conflict *" type_identifier (abstract_pointer_declarator "*" *)) ) (field_expression "((pdVar1->u).kclass)->id" (parenthesized_expression "((pdVar1->u).kclass)" ( (field_expression "(pdVar1->u).kclass" (parenthesized_expression "(pdVar1->u)" ( (field_expression "pdVar1->u" identifier -> field_identifier) )) . field_identifier) )) -> field_identifier)) ;) })) })) (return_statement "return (debug_type_conflict *)0x0;" return (cast_expression "(debug_type_conflict *)0x0" ( (type_descriptor "debug_type_conflict *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal) ;) })))
|
(translation_unit "undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)\n\n{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}\n\n" (function_definition "undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)\n\n{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" type_identifier (function_declarator "FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)" identifier (parameter_list "(undefined4 param_1,int param_2,undefined4 *param_3)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) ))) (compound_statement "{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (if_statement "if (param_2 == 0) {\n return 0;\n }" if (parenthesized_expression "(param_2 == 0)" ( (binary_expression "param_2 == 0" identifier == number_literal) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "piVar1 = (int *)FUN_0001c270(param_1,param_2,0);" (assignment_expression "piVar1 = (int *)FUN_0001c270(param_1,param_2,0)" identifier = (cast_expression "(int *)FUN_0001c270(param_1,param_2,0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_0001c270(param_1,param_2,0)" identifier (argument_list "(param_1,param_2,0)" ( identifier , identifier , number_literal ))))) ;) (if_statement "if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" if (parenthesized_expression "(piVar1 != (int *)0x0)" ( (binary_expression "piVar1 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" { (if_statement "if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" if (parenthesized_expression "(*piVar1 == 0xd)" ( (binary_expression "*piVar1 == 0xd" (pointer_expression "*piVar1" * identifier) == number_literal) )) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" { (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 8);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 8)" (pointer_expression "*param_3" * identifier) = (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" * (cast_expression "(undefined4 *)(piVar1[3] + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 8)" ( (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) ))))) ;) (return_statement "return *(undefined4 *)(piVar1[3] + 4);" return (pointer_expression "*(undefined4 *)(piVar1[3] + 4)" * (cast_expression "(undefined4 *)(piVar1[3] + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 4)" ( (binary_expression "piVar1[3] + 4" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) )))) ;) })) (if_statement "if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" if (parenthesized_expression "(*piVar1 == 0x13)" ( (binary_expression "*piVar1 == 0x13" (pointer_expression "*piVar1" * identifier) == number_literal) )) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" { (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 0xc);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 0xc)" (pointer_expression "*param_3" * identifier) = (pointer_expression "*(undefined4 *)(piVar1[3] + 0xc)" * (cast_expression "(undefined4 *)(piVar1[3] + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 0xc)" ( (binary_expression "piVar1[3] + 0xc" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) ))))) ;) (return_statement "return *(undefined4 *)(piVar1[3] + 8);" return (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" * (cast_expression "(undefined4 *)(piVar1[3] + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar1[3] + 8)" ( (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" identifier [ number_literal ]) + number_literal) )))) ;) })) })) (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (return_statement return LIT ;) })) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT , IDENT , LIT ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) + LIT) ))))) ;) (return_statement return (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) + LIT) )))) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) + LIT) ))))) ;) (return_statement return (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) + LIT) )))) ;) })) })) (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)\n\n{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" (type_identifier "undefined4") (function_declarator "FUN_0001f55c(undefined4 param_1,int param_2,undefined4 *param_3)" (identifier "FUN_0001f55c") (parameter_list "(undefined4 param_1,int param_2,undefined4 *param_3)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 *param_3" (type_identifier "undefined4") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) () ")"))) (compound_statement "{\n int *piVar1;\n \n if (param_2 == 0) {\n return 0;\n }\n piVar1 = (int *)FUN_0001c270(param_1,param_2,0);\n if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }\n return 0;\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (if_statement "if (param_2 == 0) {\n return 0;\n }" (if "if") (parenthesized_expression "(param_2 == 0)" (( "(") (binary_expression "param_2 == 0" (identifier "param_2") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n return 0;\n }" ({ "{") (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}"))) (expression_statement "piVar1 = (int *)FUN_0001c270(param_1,param_2,0);" (assignment_expression "piVar1 = (int *)FUN_0001c270(param_1,param_2,0)" (identifier "piVar1") (= "=") (cast_expression "(int *)FUN_0001c270(param_1,param_2,0)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "FUN_0001c270(param_1,param_2,0)" (identifier "FUN_0001c270") (argument_list "(param_1,param_2,0)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (number_literal "0") () ")"))))) (; ";")) (if_statement "if (piVar1 != (int *)0x0) {\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" (if "if") (parenthesized_expression "(piVar1 != (int *)0x0)" (( "(") (binary_expression "piVar1 != (int *)0x0" (identifier "piVar1") (!= "!=") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }\n if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }\n }" ({ "{") (if_statement "if (*piVar1 == 0xd) {\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" (if "if") (parenthesized_expression "(*piVar1 == 0xd)" (( "(") (binary_expression "*piVar1 == 0xd" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (== "==") (number_literal "0xd")) () ")")) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 8);\n return *(undefined4 *)(piVar1[3] + 4);\n }" ({ "{") (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 8);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 8)" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (= "=") (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" (* "*") (cast_expression "(undefined4 *)(piVar1[3] + 8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar1[3] + 8)" (( "(") (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" (identifier "piVar1") ([ "[") (number_literal "3") (] "]")) (+ "+") (number_literal "8")) () ")"))))) (; ";")) (return_statement "return *(undefined4 *)(piVar1[3] + 4);" (return "return") (pointer_expression "*(undefined4 *)(piVar1[3] + 4)" (* "*") (cast_expression "(undefined4 *)(piVar1[3] + 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar1[3] + 4)" (( "(") (binary_expression "piVar1[3] + 4" (subscript_expression "piVar1[3]" (identifier "piVar1") ([ "[") (number_literal "3") (] "]")) (+ "+") (number_literal "4")) () ")")))) (; ";")) (} "}"))) (if_statement "if (*piVar1 == 0x13) {\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" (if "if") (parenthesized_expression "(*piVar1 == 0x13)" (( "(") (binary_expression "*piVar1 == 0x13" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (== "==") (number_literal "0x13")) () ")")) (compound_statement "{\n *param_3 = *(undefined4 *)(piVar1[3] + 0xc);\n return *(undefined4 *)(piVar1[3] + 8);\n }" ({ "{") (expression_statement "*param_3 = *(undefined4 *)(piVar1[3] + 0xc);" (assignment_expression "*param_3 = *(undefined4 *)(piVar1[3] + 0xc)" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (= "=") (pointer_expression "*(undefined4 *)(piVar1[3] + 0xc)" (* "*") (cast_expression "(undefined4 *)(piVar1[3] + 0xc)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar1[3] + 0xc)" (( "(") (binary_expression "piVar1[3] + 0xc" (subscript_expression "piVar1[3]" (identifier "piVar1") ([ "[") (number_literal "3") (] "]")) (+ "+") (number_literal "0xc")) () ")"))))) (; ";")) (return_statement "return *(undefined4 *)(piVar1[3] + 8);" (return "return") (pointer_expression "*(undefined4 *)(piVar1[3] + 8)" (* "*") (cast_expression "(undefined4 *)(piVar1[3] + 8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar1[3] + 8)" (( "(") (binary_expression "piVar1[3] + 8" (subscript_expression "piVar1[3]" (identifier "piVar1") ([ "[") (number_literal "3") (] "]")) (+ "+") (number_literal "8")) () ")")))) (; ";")) (} "}"))) (} "}"))) (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}")))
|
type_1 *
function_1(void *handle,type_1 var_1,type_2 *pvarargs)
{
type_3 *var_3;
if (var_1 == (type_1)0x0) {
return (type_1 *)0x0;
}
var_3 = var_2(handle,var_1,(type_4 *)0x0);
if (var_3 != (type_3 *)0x0) {
if (var_3->kind == var_4) {
*pvarargs = ((var_3->u).kclass)->id;
return (type_1 *)((var_3->u).kindirect)->tag;
}
if (var_3->kind == var_5) {
*pvarargs = (type_2)((var_3->u).kclass)->baseclasses;
return (type_1 *)((var_3->u).kclass)->id;
}
}
return (type_1 *)0x0;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))))))) (return_statement (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))))))) (return_statement (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal)))))))))) (return_statement (number_literal)))))
|
undefined4 MASKED(undefined4 param_1,int param_2,undefined4 *param_3)
{
int *piVar1;
if (param_2 == 0) {
return 0;
}
piVar1 = (int *)FUN_0001c270(param_1,param_2,0);
if (piVar1 != (int *)0x0) {
if (*piVar1 == 0xd) {
*param_3 = *(undefined4 *)(piVar1[3] + 8);
return *(undefined4 *)(piVar1[3] + 4);
}
if (*piVar1 == 0x13) {
*param_3 = *(undefined4 *)(piVar1[3] + 0xc);
return *(undefined4 *)(piVar1[3] + 8);
}
}
return 0;
}
| 39,504 |
||
148_cflow_and_cflow_strip.c
|
tokdel
|
FUN_000198b0
|
void tokdel(int beg,int end)
{
int iVar1;
int iVar2;
int *piVar3;
piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);
iVar1 = *piVar3;
if (iVar1 <= end) {
*piVar3 = iVar1 - ((end - beg) + 1);
return;
}
iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);
memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc);
FUN_000198d8();
return;
}
|
void FUN_000198b0(int param_1,int param_2)
{
int iVar1;
int iVar2;
int *piVar3;
piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);
iVar1 = *piVar3;
if (param_2 < iVar1) {
iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);
memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),
((iVar1 - param_2) + -1) * 0xc);
iVar1 = *piVar3;
}
*piVar3 = iVar1 - ((param_2 - param_1) + 1);
return;
}
|
ldr r12,[0x19928]
ldr r3,[0x1992c]
add r12,pc,r12
stmdb sp!,{r4,r5,r6,lr}
ldr r5,[r12,r3]
cpy r4,r1
ldr r2,[r5,#0x0]
cpy r6,r0
cmp r2,r1
bgt 0x000198ec
sub r4,r4,r6
add r4,r4,#0x1
sub r2,r2,r4
str r2,[r5,#0x0]
ldmia sp!,{r4,r5,r6,pc}
ldr r3,[0x19930]
sub r2,r2,r1
ldr r3,[r12,r3]
sub r2,r2,#0x1
ldr r3,[r3,#0x0]
add r1,r1,#0x1
add r2,r2,r2, lsl #0x1
add r1,r1,r1, lsl #0x1
add r0,r0,r0, lsl #0x1
mov r2,r2, lsl #0x2
add r1,r3,r1, lsl #0x2
add r0,r3,r0, lsl #0x2
bl 0x00011a48
ldr r2,[r5,#0x0]
b 0x000198d8
| null | null | null | null |
[(u'INDIRECT_-1205953958', u'COPY_-1205954016'), (u'INT_SLESSEQUAL_-1205954297', u'CBRANCH_-1205954305'), (u'CAST_-1205954042', u'LOAD_-1205954346'), (u'INT_ADD_-1205954089', u'CAST_-1205953951'), (u'INT_ADD_-1205954210', u'CAST_-1205953989'), ('tmp_803', u'INT_ADD_-1205954351'), (u'CALL_-1205954082', u'INDIRECT_-1205953958'), (u'LOAD_-1205954335', u'INT_SLESSEQUAL_-1205954297'), ('const-417', u'LOAD_-1205954346'), (u'STORE_-1205954265', u'INDIRECT_-1205954024'), ('const-417', u'LOAD_-1205954335'), ('tmp_804', u'INT_ADD_-1205954330'), (u'INT_ADD_-1205954351', u'INT_ADD_-1205954330'), (u'INDIRECT_-1205953963', u'COPY_-1205954021'), ('tmp_521', u'INT_SUB_-1205954282'), ('tmp_521', u'INT_ADD_-1205954173'), (u'INDIRECT_-1205954019', u'COPY_-1205954077'), (u'LOAD_-1205954346', u'STORE_-1205954265'), ('const-0', u'RETURN_-1205954239'), (u'CALL_-1205954093', u'INDIRECT_-1205953967'), (u'INT_ADD_-1205954330', u'CAST_-1205954042'), (u'CALL_-1205954093', u'INDIRECT_-1205953977'), (u'INT_MULT_-1205954079', u'INT_ADD_-1205954089'), (u'INT_ADD_-1205954351', u'INT_ADD_-1205954210'), (u'INT_ADD_-1205954195', u'INT_MULT_-1205954107'), (u'INT_SUB_-1205954256', u'STORE_-1205954265'), (u'LOAD_-1205954335', u'INT_SUB_-1205954256'), ('const-4294967295', u'INT_ADD_-1205954195'), (u'INT_ADD_-1205954103', u'CAST_-1205953956'), (u'INT_ADD_-1205954173', u'INT_MULT_-1205954093'), ('const-104640', u'INT_ADD_-1205954351'), ('const-417', u'STORE_-1205954265'), (u'CAST_-1205953956', u'CALL_-1205954093'), (u'INDIRECT_-1205953968', u'COPY_-1205954026'), (u'INDIRECT_-1205954024', u'COPY_-1205954082'), (u'INT_MULT_-1205954107', u'CALL_-1205954093'), (u'INDIRECT_-1205954029', u'COPY_-1205954087'), ('const-0', u'RETURN_-1205954078'), (u'CAST_-1205953989', u'LOAD_-1205954226'), ('const-12', u'INT_MULT_-1205954079'), (u'CALL_-1205954082', u'INDIRECT_-1205953963'), (u'CAST_-1205953951', u'CALL_-1205954093'), ('tmp_520', u'INT_SUB_-1205954282'), ('tmp_521', u'INT_SUB_-1205954216'), (u'INT_SUB_-1205954216', u'INT_ADD_-1205954195'), (u'INT_SUB_-1205954282', u'INT_ADD_-1205954267'), ('const-417', u'LOAD_-1205954226'), ('tmp_105', u'CBRANCH_-1205954305'), ('const-1', u'INT_ADD_-1205954267'), (u'STORE_-1205954265', u'INDIRECT_-1205954019'), ('const-1', u'INT_ADD_-1205954173'), (u'INT_MULT_-1205954093', u'INT_ADD_-1205954103'), (u'LOAD_-1205954204', u'INT_ADD_-1205954103'), ('tmp_521', u'INT_SLESSEQUAL_-1205954297'), ('const-12', u'INT_MULT_-1205954093'), (u'LOAD_-1205954346', u'LOAD_-1205954335'), (u'LOAD_-1205954335', u'INT_SUB_-1205954216'), ('tmp_805', u'INT_ADD_-1205954210'), ('const-417', u'LOAD_-1205954204'), ('const-12', u'INT_MULT_-1205954107'), (u'STORE_-1205954265', u'INDIRECT_-1205954029'), (u'CALL_-1205954082', u'INDIRECT_-1205953968'), (u'LOAD_-1205954226', u'LOAD_-1205954204'), ('tmp_520', u'INT_MULT_-1205954079'), (u'LOAD_-1205954204', u'INT_ADD_-1205954089'), (u'CALL_-1205954093', u'INDIRECT_-1205953972'), (u'INT_ADD_-1205954267', u'INT_SUB_-1205954256')]
|
[('tmp_825', u'MULTIEQUAL_-1205954034'), ('const-12', u'INT_MULT_-1205954107'), ('const-12', u'INT_MULT_-1205954093'), (u'INDIRECT_-1205954022', u'COPY_-1205954079'), ('tmp_826', u'MULTIEQUAL_-1205954030'), (u'STORE_-1205954265', u'INDIRECT_-1205954014'), (u'CALL_-1205954093', u'INDIRECT_-1205953964'), (u'INT_ADD_-1205954351', u'INT_ADD_-1205954330'), (u'STORE_-1205954265', u'INDIRECT_-1205954018'), ('const-4294967295', u'INT_ADD_-1205954195'), (u'INT_ADD_-1205954330', u'CAST_-1205954037'), ('tmp_826', u'INT_ADD_-1205954330'), (u'LOAD_-1205954346', u'LOAD_-1205954092'), ('const-417', u'STORE_-1205954265'), (u'LOAD_-1205954335', u'MULTIEQUAL_-1205954085'), (u'STORE_-1205954265', u'INDIRECT_-1205954022'), (u'CAST_-1205954037', u'LOAD_-1205954346'), (u'LOAD_-1205954346', u'STORE_-1205954265'), ('tmp_688', u'INT_ADD_-1205954173'), ('const-104640', u'INT_ADD_-1205954351'), (u'INT_MULT_-1205954079', u'INT_ADD_-1205954089'), (u'INDIRECT_-1205953960', u'MULTIEQUAL_-1205954026'), (u'INT_SLESS_-1205954298', u'CBRANCH_-1205954305'), (u'INT_ADD_-1205954351', u'INT_ADD_-1205954210'), ('const-12', u'INT_MULT_-1205954079'), (u'INT_ADD_-1205954195', u'INT_MULT_-1205954107'), (u'INT_SUB_-1205954256', u'STORE_-1205954265'), (u'INT_ADD_-1205954103', u'CAST_-1205953951'), ('const-417', u'LOAD_-1205954346'), ('tmp_688', u'INT_SUB_-1205954282'), (u'INT_ADD_-1205954173', u'INT_MULT_-1205954093'), (u'LOAD_-1205954092', u'MULTIEQUAL_-1205954085'), (u'INT_MULT_-1205954107', u'CALL_-1205954093'), (u'CAST_-1205953984', u'LOAD_-1205954226'), ('const-0', u'RETURN_-1205954239'), (u'INDIRECT_-1205953964', u'MULTIEQUAL_-1205954030'), (u'CALL_-1205954093', u'INDIRECT_-1205953960'), (u'CAST_-1205953951', u'CALL_-1205954093'), ('const-417', u'LOAD_-1205954092'), (u'LOAD_-1205954335', u'INT_SLESS_-1205954298'), (u'CAST_-1205953946', u'CALL_-1205954093'), (u'INT_SUB_-1205954216', u'INT_ADD_-1205954195'), (u'CALL_-1205954093', u'INDIRECT_-1205953968'), (u'INT_SUB_-1205954282', u'INT_ADD_-1205954267'), ('tmp_514', u'BRANCH_-1205954085'), ('tmp_827', u'MULTIEQUAL_-1205954026'), ('const-417', u'LOAD_-1205954226'), (u'INT_ADD_-1205954210', u'CAST_-1205953984'), ('tmp_825', u'INT_ADD_-1205954351'), ('const-1', u'INT_ADD_-1205954267'), ('tmp_105', u'CBRANCH_-1205954305'), (u'INDIRECT_-1205953968', u'MULTIEQUAL_-1205954034'), ('tmp_688', u'INT_SLESS_-1205954298'), ('const-1', u'INT_ADD_-1205954173'), (u'INT_MULT_-1205954093', u'INT_ADD_-1205954103'), (u'MULTIEQUAL_-1205954085', u'INT_SUB_-1205954256'), (u'LOAD_-1205954204', u'INT_ADD_-1205954103'), ('tmp_688', u'INT_SUB_-1205954216'), ('const-417', u'LOAD_-1205954204'), ('const-417', u'LOAD_-1205954335'), (u'LOAD_-1205954346', u'LOAD_-1205954335'), (u'INDIRECT_-1205954014', u'COPY_-1205954071'), (u'INDIRECT_-1205954018', u'COPY_-1205954075'), ('tmp_689', u'INT_MULT_-1205954079'), (u'LOAD_-1205954335', u'INT_SUB_-1205954216'), (u'INT_ADD_-1205954089', u'CAST_-1205953946'), ('tmp_689', u'INT_SUB_-1205954282'), ('tmp_827', u'INT_ADD_-1205954210'), (u'LOAD_-1205954226', u'LOAD_-1205954204'), (u'LOAD_-1205954204', u'INT_ADD_-1205954089'), (u'INT_ADD_-1205954267', u'INT_SUB_-1205954256')]
| null | null |
000198b0
|
arm
|
O2
|
(translation_unit "void FUN_000198b0(int param_1,int param_2)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}\n\n" (function_definition "void FUN_000198b0(int param_1,int param_2)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" primitive_type (function_declarator "FUN_000198b0(int param_1,int param_2)" identifier (parameter_list "(int param_1,int param_2)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (expression_statement "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);" (assignment_expression "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" identifier = (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_0001992c" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) (if_statement "if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" if (parenthesized_expression "(param_2 < iVar1)" ( (binary_expression "param_2 < iVar1" identifier < identifier) )) (compound_statement "{\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" { (expression_statement "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);" (assignment_expression "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" identifier = (pointer_expression "**(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_00019930" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) )))))) ;) (expression_statement "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);" (call_expression "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" identifier (argument_list "((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" ( (cast_expression "(void *)(iVar2 + param_1 * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + param_1 * 0xc)" ( (binary_expression "iVar2 + param_1 * 0xc" identifier + (binary_expression "param_1 * 0xc" identifier * number_literal)) ))) , (cast_expression "(void *)(iVar2 + (param_2 + 1) * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + (param_2 + 1) * 0xc)" ( (binary_expression "iVar2 + (param_2 + 1) * 0xc" identifier + (binary_expression "(param_2 + 1) * 0xc" (parenthesized_expression "(param_2 + 1)" ( (binary_expression "param_2 + 1" identifier + number_literal) )) * number_literal)) ))) , (binary_expression "((iVar1 - param_2) + -1) * 0xc" (parenthesized_expression "((iVar1 - param_2) + -1)" ( (binary_expression "(iVar1 - param_2) + -1" (parenthesized_expression "(iVar1 - param_2)" ( (binary_expression "iVar1 - param_2" identifier - identifier) )) + number_literal) )) * number_literal) ))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) })) (expression_statement "*piVar3 = iVar1 - ((param_2 - param_1) + 1);" (assignment_expression "*piVar3 = iVar1 - ((param_2 - param_1) + 1)" (pointer_expression "*piVar3" * identifier) = (binary_expression "iVar1 - ((param_2 - param_1) + 1)" identifier - (parenthesized_expression "((param_2 - param_1) + 1)" ( (binary_expression "(param_2 - param_1) + 1" (parenthesized_expression "(param_2 - param_1)" ( (binary_expression "param_2 - param_1" identifier - identifier) )) + number_literal) )))) ;) (return_statement "return;" return ;) })))
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(translation_unit "void tokdel(int beg,int end)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (iVar1 <= end) {\n *piVar3 = iVar1 - ((end - beg) + 1);\n return;\n }\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc);\n FUN_000198d8();\n return;\n}\n\n" (function_definition "void tokdel(int beg,int end)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (iVar1 <= end) {\n *piVar3 = iVar1 - ((end - beg) + 1);\n return;\n }\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc);\n FUN_000198d8();\n return;\n}" primitive_type (function_declarator "tokdel(int beg,int end)" identifier (parameter_list "(int beg,int end)" ( (parameter_declaration "int beg" primitive_type identifier) , (parameter_declaration "int end" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (iVar1 <= end) {\n *piVar3 = iVar1 - ((end - beg) + 1);\n return;\n }\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc);\n FUN_000198d8();\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (expression_statement "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);" (assignment_expression "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" identifier = (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_0001992c" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) (if_statement "if (iVar1 <= end) {\n *piVar3 = iVar1 - ((end - beg) + 1);\n return;\n }" if (parenthesized_expression "(iVar1 <= end)" ( (binary_expression "iVar1 <= end" identifier <= identifier) )) (compound_statement "{\n *piVar3 = iVar1 - ((end - beg) + 1);\n return;\n }" { (expression_statement "*piVar3 = iVar1 - ((end - beg) + 1);" (assignment_expression "*piVar3 = iVar1 - ((end - beg) + 1)" (pointer_expression "*piVar3" * identifier) = (binary_expression "iVar1 - ((end - beg) + 1)" identifier - (parenthesized_expression "((end - beg) + 1)" ( (binary_expression "(end - beg) + 1" (parenthesized_expression "(end - beg)" ( (binary_expression "end - beg" identifier - identifier) )) + number_literal) )))) ;) (return_statement "return;" return ;) })) (expression_statement "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);" (assignment_expression "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" identifier = (pointer_expression "**(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_00019930" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) )))))) ;) (expression_statement "memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc);" (call_expression "memmove((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc)" identifier (argument_list "((void *)(iVar2 + beg * 0xc),(void *)(iVar2 + (end + 1) * 0xc),((iVar1 - end) + -1) * 0xc)" ( (cast_expression "(void *)(iVar2 + beg * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + beg * 0xc)" ( (binary_expression "iVar2 + beg * 0xc" identifier + (binary_expression "beg * 0xc" identifier * number_literal)) ))) , (cast_expression "(void *)(iVar2 + (end + 1) * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + (end + 1) * 0xc)" ( (binary_expression "iVar2 + (end + 1) * 0xc" identifier + (binary_expression "(end + 1) * 0xc" (parenthesized_expression "(end + 1)" ( (binary_expression "end + 1" identifier + number_literal) )) * number_literal)) ))) , (binary_expression "((iVar1 - end) + -1) * 0xc" (parenthesized_expression "((iVar1 - end) + -1)" ( (binary_expression "(iVar1 - end) + -1" (parenthesized_expression "(iVar1 - end)" ( (binary_expression "iVar1 - end" identifier - identifier) )) + number_literal) )) * number_literal) ))) ;) (expression_statement "FUN_000198d8();" (call_expression "FUN_000198d8()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_000198b0(int param_1,int param_2)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}\n\n" (function_definition "void FUN_000198b0(int param_1,int param_2)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" primitive_type (function_declarator "FUN_000198b0(int param_1,int param_2)" identifier (parameter_list "(int param_1,int param_2)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (expression_statement "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);" (assignment_expression "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" identifier = (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_0001992c)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_0001992c" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) (if_statement "if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" if (parenthesized_expression "(param_2 < iVar1)" ( (binary_expression "param_2 < iVar1" identifier < identifier) )) (compound_statement "{\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" { (expression_statement "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);" (assignment_expression "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" identifier = (pointer_expression "**(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" * (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_00019930)" ( (binary_expression "DAT_00019928 + 0x198c0 + DAT_00019930" (binary_expression "DAT_00019928 + 0x198c0" identifier + number_literal) + identifier) )))))) ;) (expression_statement "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);" (call_expression "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" identifier (argument_list "((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" ( (cast_expression "(void *)(iVar2 + param_1 * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + param_1 * 0xc)" ( (binary_expression "iVar2 + param_1 * 0xc" identifier + (binary_expression "param_1 * 0xc" identifier * number_literal)) ))) , (cast_expression "(void *)(iVar2 + (param_2 + 1) * 0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + (param_2 + 1) * 0xc)" ( (binary_expression "iVar2 + (param_2 + 1) * 0xc" identifier + (binary_expression "(param_2 + 1) * 0xc" (parenthesized_expression "(param_2 + 1)" ( (binary_expression "param_2 + 1" identifier + number_literal) )) * number_literal)) ))) , (binary_expression "((iVar1 - param_2) + -1) * 0xc" (parenthesized_expression "((iVar1 - param_2) + -1)" ( (binary_expression "(iVar1 - param_2) + -1" (parenthesized_expression "(iVar1 - param_2)" ( (binary_expression "iVar1 - param_2" identifier - identifier) )) + number_literal) )) * number_literal) ))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) })) (expression_statement "*piVar3 = iVar1 - ((param_2 - param_1) + 1);" (assignment_expression "*piVar3 = iVar1 - ((param_2 - param_1) + 1)" (pointer_expression "*piVar3" * identifier) = (binary_expression "iVar1 - ((param_2 - param_1) + 1)" identifier - (parenthesized_expression "((param_2 - param_1) + 1)" ( (binary_expression "(param_2 - param_1) + 1" (parenthesized_expression "(param_2 - param_1)" ( (binary_expression "param_2 - param_1" identifier - identifier) )) + number_literal) )))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) )))))) ;) (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) ))) , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression (parenthesized_expression ( (binary_expression IDENT + LIT) )) * LIT)) ))) , (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT - IDENT) )) + LIT) )) * LIT) ))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) })) (expression_statement (assignment_expression (pointer_expression * IDENT) = (binary_expression IDENT - (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT - IDENT) )) + LIT) )))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000198b0(int param_1,int param_2)\n\n{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" (primitive_type "void") (function_declarator "FUN_000198b0(int param_1,int param_2)" (identifier "FUN_000198b0") (parameter_list "(int param_1,int param_2)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) () ")"))) (compound_statement "{\n int iVar1;\n int iVar2;\n int *piVar3;\n \n piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);\n iVar1 = *piVar3;\n if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }\n *piVar3 = iVar1 - ((param_2 - param_1) + 1);\n return;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int *piVar3;" (primitive_type "int") (pointer_declarator "*piVar3" (* "*") (identifier "piVar3")) (; ";")) (expression_statement "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);" (assignment_expression "piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" (identifier "piVar3") (= "=") (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" (* "*") (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_0001992c)" (( "(") (binary_expression "DAT_00019928 + 0x198c0 + DAT_0001992c" (binary_expression "DAT_00019928 + 0x198c0" (identifier "DAT_00019928") (+ "+") (number_literal "0x198c0")) (+ "+") (identifier "DAT_0001992c")) () ")"))))) (; ";")) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" (identifier "iVar1") (= "=") (pointer_expression "*piVar3" (* "*") (identifier "piVar3"))) (; ";")) (if_statement "if (param_2 < iVar1) {\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" (if "if") (parenthesized_expression "(param_2 < iVar1)" (( "(") (binary_expression "param_2 < iVar1" (identifier "param_2") (< "<") (identifier "iVar1")) () ")")) (compound_statement "{\n iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);\n memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);\n iVar1 = *piVar3;\n }" ({ "{") (expression_statement "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);" (assignment_expression "iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" (identifier "iVar2") (= "=") (pointer_expression "**(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" (* "*") (pointer_expression "*(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" (* "*") (cast_expression "(int **)(DAT_00019928 + 0x198c0 + DAT_00019930)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00019928 + 0x198c0 + DAT_00019930)" (( "(") (binary_expression "DAT_00019928 + 0x198c0 + DAT_00019930" (binary_expression "DAT_00019928 + 0x198c0" (identifier "DAT_00019928") (+ "+") (number_literal "0x198c0")) (+ "+") (identifier "DAT_00019930")) () ")")))))) (; ";")) (expression_statement "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc);" (call_expression "memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" (identifier "memmove") (argument_list "((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),\n ((iVar1 - param_2) + -1) * 0xc)" (( "(") (cast_expression "(void *)(iVar2 + param_1 * 0xc)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + param_1 * 0xc)" (( "(") (binary_expression "iVar2 + param_1 * 0xc" (identifier "iVar2") (+ "+") (binary_expression "param_1 * 0xc" (identifier "param_1") (* "*") (number_literal "0xc"))) () ")"))) (, ",") (cast_expression "(void *)(iVar2 + (param_2 + 1) * 0xc)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + (param_2 + 1) * 0xc)" (( "(") (binary_expression "iVar2 + (param_2 + 1) * 0xc" (identifier "iVar2") (+ "+") (binary_expression "(param_2 + 1) * 0xc" (parenthesized_expression "(param_2 + 1)" (( "(") (binary_expression "param_2 + 1" (identifier "param_2") (+ "+") (number_literal "1")) () ")")) (* "*") (number_literal "0xc"))) () ")"))) (, ",") (binary_expression "((iVar1 - param_2) + -1) * 0xc" (parenthesized_expression "((iVar1 - param_2) + -1)" (( "(") (binary_expression "(iVar1 - param_2) + -1" (parenthesized_expression "(iVar1 - param_2)" (( "(") (binary_expression "iVar1 - param_2" (identifier "iVar1") (- "-") (identifier "param_2")) () ")")) (+ "+") (number_literal "-1")) () ")")) (* "*") (number_literal "0xc")) () ")"))) (; ";")) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" (identifier "iVar1") (= "=") (pointer_expression "*piVar3" (* "*") (identifier "piVar3"))) (; ";")) (} "}"))) (expression_statement "*piVar3 = iVar1 - ((param_2 - param_1) + 1);" (assignment_expression "*piVar3 = iVar1 - ((param_2 - param_1) + 1)" (pointer_expression "*piVar3" (* "*") (identifier "piVar3")) (= "=") (binary_expression "iVar1 - ((param_2 - param_1) + 1)" (identifier "iVar1") (- "-") (parenthesized_expression "((param_2 - param_1) + 1)" (( "(") (binary_expression "(param_2 - param_1) + 1" (parenthesized_expression "(param_2 - param_1)" (( "(") (binary_expression "param_2 - param_1" (identifier "param_2") (- "-") (identifier "param_1")) () ")")) (+ "+") (number_literal "1")) () ")")))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(int var_5,int var_4)
{
int var_3;
int var_8;
int *piVar3;
piVar3 = *(int **)(var_1 + 0x198c0 + var_2);
var_3 = *piVar3;
if (var_3 <= var_4) {
*piVar3 = var_3 - ((var_4 - var_5) + 1);
return;
}
var_8 = **(int **)(var_1 + 0x198c0 + var_6);
var_7((void *)(var_8 + var_5 * 0xc),(void *)(var_8 + (var_4 + 1) * 0xc),((var_3 - var_4) + -1) * 0xc);
var_9();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))) (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (number_literal))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (number_literal)))))) (return_statement))))
|
void MASKED(int param_1,int param_2)
{
int iVar1;
int iVar2;
int *piVar3;
piVar3 = *(int **)(DAT_00019928 + 0x198c0 + DAT_0001992c);
iVar1 = *piVar3;
if (param_2 < iVar1) {
iVar2 = **(int **)(DAT_00019928 + 0x198c0 + DAT_00019930);
memmove((void *)(iVar2 + param_1 * 0xc),(void *)(iVar2 + (param_2 + 1) * 0xc),
((iVar1 - param_2) + -1) * 0xc);
iVar1 = *piVar3;
}
*piVar3 = iVar1 - ((param_2 - param_1) + 1);
return;
}
| 5,258 |
||
568_pscp_and_pscp_strip.c
|
bigval_add
|
FUN_000473a4
|
void bigval_add(bigval *r,bigval *a,bigval *b)
{
uint uVar1;
BignumInt BVar2;
BignumInt BVar3;
uint uVar4;
uint uVar5;
uint uVar6;
uint uVar7;
uint uVar8;
uint uVar9;
uint uVar10;
uVar1 = (uint)CARRY4(b->w[0],a->w[0]);
uVar6 = b->w[1] + a->w[1];
uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6);
uVar4 = b->w[2] + a->w[2];
uVar9 = b->w[3];
uVar5 = a->w[3];
uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4);
BVar3 = b->w[4];
BVar2 = a->w[4];
uVar8 = uVar9 + uVar5;
r->w[0] = a->w[0] + b->w[0];
r->w[1] = uVar1 + uVar6;
r->w[2] = uVar10 + uVar4;
r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);
r->w[3] = uVar7 + uVar8;
return;
}
|
void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
uint uVar7;
uint uVar8;
uint uVar9;
uint uVar10;
uVar1 = (uint)CARRY4(*param_3,*param_2);
uVar6 = param_3[1] + param_2[1];
uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);
uVar4 = param_3[2] + param_2[2];
uVar9 = param_3[3];
uVar5 = param_2[3];
uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);
uVar3 = param_3[4];
uVar2 = param_2[4];
uVar8 = uVar9 + uVar5;
*param_1 = *param_2 + *param_3;
param_1[1] = uVar1 + uVar6;
param_1[2] = uVar10 + uVar4;
param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);
param_1[3] = uVar7 + uVar8;
return;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
ldr r7,[r2,#0x0]
ldr r6,[r1,#0x0]
ldr r8,[r2,#0x4]
ldr r3,[r1,#0x4]
adds r10,r7,r6
mov r5,#0x0
adc r11,r5,#0x0
adds r10,r8,r3
ldr r4,[r2,#0x8]
cpy r8,r10
cpy lr,r11
ldr r10,[r1,#0x8]
mov r9,#0x0
adc r11,r9,#0x0
mov r3,#0x0
adds lr,lr,r8
adc r12,r3,r11
mov r5,#0x0
adds r8,r4,r10
adc r9,r5,#0x0
cpy r4,r8
ldr r11,[r2,#0xc]
ldr r8,[r1,#0xc]
adds r12,r12,r4
cpy r5,r9
adc r10,r3,r5
ldr r2,[r2,#0x10]
ldr r1,[r1,#0x10]
mov r5,#0x0
cpy r9,r10
adds r10,r11,r8
adc r11,r5,#0x0
cpy r4,r10
cpy r8,r10
adds r10,r9,r10
add r2,r1,r2
adc r3,r3,r11
add r6,r6,r7
add r2,r2,r3
cpy r5,r11
stmia r0,{r6,lr}
str r12,[r0,#0x8]
str r2,[r0,#0x10]
str r10,[r0,#0xc]
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,r11,pc}
| null | null | null | null |
[(u'INT_ADD_-1206160238', u'INT_CARRY_-1206160157'), (u'INT_ADD_-1206160238', u'INT_ADD_-1206160157'), ('const-4', u'PTRADD_-1206159901'), ('const-417', u'STORE_-1206159988'), (u'LOAD_-1206160431', u'INT_CARRY_-1206160352'), (u'LOAD_-1206160431', u'INT_ADD_-1206160352'), ('tmp_983', u'PTRSUB_-1206160042'), (u'INT_CARRY_-1206160352', u'INT_ZEXT_-1206160289'), ('tmp_982', u'PTRSUB_-1206160026'), (u'LOAD_-1206160139', u'INT_ADD_-1206160025'), ('tmp_983', u'PTRSUB_-1206160004'), ('const-0', u'PTRSUB_-1206159924'), ('const-3', u'PTRADD_-1206159923'), ('const-417', u'STORE_-1206159990'), ('const-4', u'PTRADD_-1206159833'), ('const-3', u'PTRADD_-1206159928'), ('tmp_981', u'PTRSUB_-1206159845'), (u'PTRADD_-1206159906', u'LOAD_-1206160139'), (u'PTRADD_-1206159833', u'STORE_-1206159969'), ('const-4', u'PTRADD_-1206159843'), (u'PTRADD_-1206159838', u'STORE_-1206159975'), ('const-417', u'LOAD_-1206160431'), ('const-417', u'STORE_-1206159975'), (u'INT_CARRY_-1206160087', u'INT_ZEXT_-1206160062'), (u'INT_CARRY_-1206160260', u'INT_ZEXT_-1206160241'), ('const-417', u'LOAD_-1206160133'), ('const-417', u'STORE_-1206159981'), ('const-0', u'PTRSUB_-1206159845'), (u'INT_ADD_-1206160130', u'INT_CARRY_-1206160039'), (u'INT_ADD_-1206160130', u'INT_ADD_-1206160039'), (u'LOAD_-1206160133', u'INT_ADD_-1206160025'), (u'LOAD_-1206160449', u'INT_ADD_-1206159997'), (u'LOAD_-1206160437', u'INT_CARRY_-1206160352'), (u'LOAD_-1206160437', u'INT_ADD_-1206160352'), (u'INT_ADD_-1206160087', u'INT_CARRY_-1206160039'), (u'INT_ADD_-1206160087', u'INT_ADD_-1206160039'), ('const-4', u'PTRADD_-1206159982'), ('tmp_981', u'PTRSUB_-1206159857'), ('const-0', u'PTRSUB_-1206159942'), (u'LOAD_-1206160182', u'INT_CARRY_-1206160087'), (u'LOAD_-1206160182', u'INT_ADD_-1206160087'), (u'PTRSUB_-1206160042', u'LOAD_-1206160449'), ('const-0', u'PTRSUB_-1206159948'), ('tmp_981', u'PTRSUB_-1206159864'), ('const-4', u'PTRADD_-1206159838'), (u'PTRSUB_-1206159990', u'PTRADD_-1206159969'), ('const-2', u'PTRADD_-1206159982'), ('const-417', u'LOAD_-1206160357'), ('const-2', u'PTRADD_-1206159969'), (u'INT_CARRY_-1206160039', u'INT_ZEXT_-1206160010'), ('const-0', u'PTRSUB_-1206160042'), ('tmp_982', u'PTRSUB_-1206159990'), ('const-417', u'LOAD_-1206160182'), (u'LOAD_-1206160443', u'INT_ADD_-1206159997'), (u'INT_ADD_-1206159997', u'STORE_-1206159990'), (u'PTRADD_-1206159928', u'LOAD_-1206160188'), (u'INT_CARRY_-1206160157', u'INT_ZEXT_-1206160133'), (u'PTRSUB_-1206159851', u'PTRADD_-1206159838'), (u'PTRADD_-1206159923', u'LOAD_-1206160182'), ('const-4', u'PTRADD_-1206159969'), ('const-0', u'PTRSUB_-1206159863'), (u'INT_ZEXT_-1206160133', u'INT_ADD_-1206160130'), (u'PTRSUB_-1206159864', u'STORE_-1206159990'), ('const-4', u'PTRADD_-1206159906'), (u'PTRSUB_-1206159857', u'PTRADD_-1206159843'), (u'INT_ZEXT_-1206160365', u'INT_CARRY_-1206160260'), (u'INT_ZEXT_-1206160365', u'INT_ADD_-1206160260'), ('const-0', u'PTRSUB_-1206160004'), (u'INT_CARRY_-1206160406', u'INT_ZEXT_-1206160365'), (u'PTRSUB_-1206159948', u'PTRADD_-1206159928'), ('const-417', u'STORE_-1206159969'), (u'INT_ADD_-1206160039', u'STORE_-1206159969'), ('const-0', u'PTRSUB_-1206160037'), (u'LOAD_-1206160443', u'INT_CARRY_-1206160406'), ('const-0', u'PTRSUB_-1206160026'), (u'INT_ZEXT_-1206160289', u'INT_ADD_-1206160238'), (u'PTRSUB_-1206159863', u'PTRADD_-1206159848'), (u'PTRADD_-1206160008', u'LOAD_-1206160437'), (u'INT_ADD_-1206160007', u'INT_ADD_-1206159987'), (u'INT_ADD_-1206160260', u'STORE_-1206159988'), (u'INT_ZEXT_-1206160241', u'INT_ADD_-1206160238'), (u'INT_ADD_-1206160157', u'STORE_-1206159981'), ('const-1', u'PTRADD_-1206159848'), ('const-4', u'PTRADD_-1206159901'), (u'PTRADD_-1206159969', u'LOAD_-1206160341'), ('tmp_982', u'PTRSUB_-1206159942'), (u'LOAD_-1206160188', u'INT_CARRY_-1206160087'), (u'LOAD_-1206160188', u'INT_ADD_-1206160087'), ('const-4', u'PTRADD_-1206159906'), ('const-417', u'LOAD_-1206160443'), (u'INT_ADD_-1206160352', u'INT_CARRY_-1206160260'), (u'INT_ADD_-1206160352', u'INT_ADD_-1206160260'), ('const-0', u'RETURN_-1206159933'), ('const-3', u'PTRADD_-1206159833'), ('tmp_983', u'PTRSUB_-1206159948'), ('const-4', u'PTRADD_-1206159928'), (u'INT_ADD_-1206160025', u'INT_ADD_-1206159987'), ('const-0', u'PTRSUB_-1206159864'), (u'PTRSUB_-1206159845', u'PTRADD_-1206159833'), ('tmp_983', u'PTRSUB_-1206160032'), ('tmp_982', u'PTRSUB_-1206160037'), (u'INT_ZEXT_-1206160187', u'INT_ADD_-1206160130'), ('const-0', u'PTRSUB_-1206159918'), ('const-0', u'PTRSUB_-1206159851'), (u'PTRADD_-1206159982', u'LOAD_-1206160357'), (u'LOAD_-1206160449', u'INT_CARRY_-1206160406'), ('const-4', u'PTRADD_-1206160008'), (u'PTRSUB_-1206159942', u'PTRADD_-1206159923'), (u'PTRSUB_-1206160032', u'PTRADD_-1206160008'), (u'PTRSUB_-1206160037', u'LOAD_-1206160443'), (u'INT_CARRY_-1206160212', u'INT_ZEXT_-1206160187'), ('const-417', u'LOAD_-1206160449'), ('const-1', u'PTRADD_-1206160008'), ('const-417', u'LOAD_-1206160188'), ('const-0', u'PTRSUB_-1206159857'), (u'PTRADD_-1206159848', u'STORE_-1206159988'), ('const-417', u'LOAD_-1206160139'), (u'PTRSUB_-1206160026', u'PTRADD_-1206160003'), (u'INT_ZEXT_-1206160062', u'INT_ADD_-1206160007'), (u'PTRADD_-1206160003', u'LOAD_-1206160431'), ('const-417', u'LOAD_-1206160437'), ('const-0', u'PTRSUB_-1206160032'), ('const-4', u'PTRADD_-1206160003'), (u'INT_ZEXT_-1206160010', u'INT_ADD_-1206160007'), (u'PTRADD_-1206159843', u'STORE_-1206159981'), ('const-1', u'PTRADD_-1206160003'), ('const-4', u'PTRADD_-1206159838'), (u'PTRADD_-1206159901', u'LOAD_-1206160133'), ('tmp_982', u'PTRSUB_-1206159918'), (u'LOAD_-1206160357', u'INT_CARRY_-1206160212'), (u'LOAD_-1206160357', u'INT_ADD_-1206160212'), ('tmp_983', u'PTRSUB_-1206159924'), (u'PTRSUB_-1206159918', u'PTRADD_-1206159901'), (u'PTRSUB_-1206160004', u'PTRADD_-1206159982'), ('tmp_981', u'PTRSUB_-1206159863'), (u'LOAD_-1206160341', u'INT_CARRY_-1206160212'), (u'LOAD_-1206160341', u'INT_ADD_-1206160212'), ('const-4', u'PTRADD_-1206159848'), (u'INT_ADD_-1206160212', u'INT_CARRY_-1206160157'), (u'INT_ADD_-1206160212', u'INT_ADD_-1206160157'), ('const-4', u'PTRADD_-1206159923'), ('tmp_981', u'PTRSUB_-1206159851'), ('const-417', u'LOAD_-1206160341'), (u'INT_ADD_-1206159987', u'STORE_-1206159975'), ('const-2', u'PTRADD_-1206159843'), ('const-0', u'PTRSUB_-1206159990'), (u'PTRSUB_-1206159924', u'PTRADD_-1206159906')]
|
[(u'INT_ADD_-1206160238', u'INT_CARRY_-1206160157'), (u'INT_ADD_-1206160238', u'INT_ADD_-1206160157'), (u'LOAD_-1206160431', u'INT_CARRY_-1206160352'), (u'LOAD_-1206160431', u'INT_ADD_-1206160352'), (u'PTRADD_-1206159996', u'LOAD_-1206160341'), ('const-417', u'LOAD_-1206160431'), (u'INT_CARRY_-1206160352', u'INT_ZEXT_-1206160289'), ('tmp_993', u'LOAD_-1206160449'), (u'LOAD_-1206160139', u'INT_ADD_-1206160025'), ('tmp_996', u'PTRADD_-1206159865'), ('const-1', u'PTRADD_-1206160035'), ('tmp_993', u'PTRADD_-1206160009'), ('tmp_996', u'PTRADD_-1206159875'), (u'PTRADD_-1206159950', u'LOAD_-1206160182'), (u'PTRADD_-1206159928', u'LOAD_-1206160133'), (u'INT_CARRY_-1206160087', u'INT_ZEXT_-1206160062'), (u'INT_CARRY_-1206160260', u'INT_ZEXT_-1206160241'), ('const-3', u'PTRADD_-1206159955'), ('const-3', u'PTRADD_-1206159950'), ('const-4', u'PTRADD_-1206159928'), (u'INT_ADD_-1206160130', u'INT_CARRY_-1206160039'), (u'INT_ADD_-1206160130', u'INT_ADD_-1206160039'), (u'LOAD_-1206160133', u'INT_ADD_-1206160025'), ('const-4', u'PTRADD_-1206159996'), (u'LOAD_-1206160449', u'INT_ADD_-1206159997'), (u'LOAD_-1206160437', u'INT_CARRY_-1206160352'), (u'LOAD_-1206160437', u'INT_ADD_-1206160352'), (u'INT_ADD_-1206160087', u'INT_CARRY_-1206160039'), (u'INT_ADD_-1206160087', u'INT_ADD_-1206160039'), (u'LOAD_-1206160182', u'INT_ADD_-1206160087'), (u'LOAD_-1206160182', u'INT_CARRY_-1206160087'), ('tmp_996', u'STORE_-1206159990'), ('const-417', u'STORE_-1206159975'), ('const-4', u'PTRADD_-1206159950'), ('tmp_994', u'PTRADD_-1206159996'), ('const-2', u'PTRADD_-1206159870'), (u'PTRADD_-1206159955', u'LOAD_-1206160188'), ('const-417', u'LOAD_-1206160357'), ('const-4', u'PTRADD_-1206159933'), (u'INT_CARRY_-1206160039', u'INT_ZEXT_-1206160010'), ('const-417', u'LOAD_-1206160449'), (u'LOAD_-1206160443', u'INT_ADD_-1206159997'), (u'INT_ADD_-1206159997', u'STORE_-1206159990'), (u'INT_CARRY_-1206160157', u'INT_ZEXT_-1206160133'), ('tmp_993', u'PTRADD_-1206159933'), ('const-4', u'PTRADD_-1206159955'), (u'INT_ZEXT_-1206160133', u'INT_ADD_-1206160130'), ('const-4', u'PTRADD_-1206160035'), ('const-417', u'LOAD_-1206160188'), (u'PTRADD_-1206159865', u'STORE_-1206159975'), (u'INT_ZEXT_-1206160365', u'INT_CARRY_-1206160260'), (u'INT_ZEXT_-1206160365', u'INT_ADD_-1206160260'), ('const-4', u'PTRADD_-1206159865'), ('const-4', u'PTRADD_-1206160030'), (u'INT_CARRY_-1206160406', u'INT_ZEXT_-1206160365'), (u'INT_ADD_-1206160039', u'STORE_-1206159969'), ('const-2', u'PTRADD_-1206160009'), (u'PTRADD_-1206159870', u'STORE_-1206159981'), ('const-4', u'PTRADD_-1206159933'), (u'LOAD_-1206160443', u'INT_CARRY_-1206160406'), (u'INT_ZEXT_-1206160289', u'INT_ADD_-1206160238'), ('tmp_994', u'PTRADD_-1206159928'), ('tmp_993', u'PTRADD_-1206160035'), (u'PTRADD_-1206159933', u'LOAD_-1206160139'), ('const-417', u'LOAD_-1206160182'), (u'INT_ADD_-1206160007', u'INT_ADD_-1206159987'), (u'INT_ADD_-1206160260', u'STORE_-1206159988'), (u'INT_ZEXT_-1206160241', u'INT_ADD_-1206160238'), ('const-417', u'LOAD_-1206160139'), (u'INT_ADD_-1206160157', u'STORE_-1206159981'), (u'LOAD_-1206160188', u'INT_CARRY_-1206160087'), (u'LOAD_-1206160188', u'INT_ADD_-1206160087'), ('const-417', u'STORE_-1206159969'), ('tmp_994', u'LOAD_-1206160443'), (u'INT_ADD_-1206160352', u'INT_CARRY_-1206160260'), (u'INT_ADD_-1206160352', u'INT_ADD_-1206160260'), ('const-0', u'RETURN_-1206159933'), (u'PTRADD_-1206160035', u'LOAD_-1206160437'), (u'INT_ADD_-1206160025', u'INT_ADD_-1206159987'), (u'INT_ZEXT_-1206160187', u'INT_ADD_-1206160130'), ('tmp_996', u'PTRADD_-1206159870'), ('const-4', u'PTRADD_-1206159875'), (u'LOAD_-1206160449', u'INT_CARRY_-1206160406'), ('tmp_994', u'PTRADD_-1206159950'), ('const-3', u'PTRADD_-1206159860'), ('const-4', u'PTRADD_-1206159870'), (u'INT_CARRY_-1206160212', u'INT_ZEXT_-1206160187'), ('const-1', u'PTRADD_-1206160030'), ('const-417', u'STORE_-1206159988'), ('tmp_996', u'PTRADD_-1206159860'), ('const-2', u'PTRADD_-1206159996'), ('const-417', u'LOAD_-1206160133'), ('const-4', u'PTRADD_-1206160009'), ('const-4', u'PTRADD_-1206159928'), (u'INT_ZEXT_-1206160062', u'INT_ADD_-1206160007'), (u'PTRADD_-1206159860', u'STORE_-1206159969'), ('tmp_993', u'PTRADD_-1206159955'), ('const-417', u'LOAD_-1206160437'), (u'INT_ZEXT_-1206160010', u'INT_ADD_-1206160007'), ('const-417', u'STORE_-1206159981'), ('const-4', u'PTRADD_-1206159865'), ('tmp_994', u'PTRADD_-1206160030'), (u'PTRADD_-1206159875', u'STORE_-1206159988'), (u'LOAD_-1206160357', u'INT_CARRY_-1206160212'), (u'LOAD_-1206160357', u'INT_ADD_-1206160212'), ('const-1', u'PTRADD_-1206159875'), (u'PTRADD_-1206160030', u'LOAD_-1206160431'), ('const-417', u'STORE_-1206159990'), (u'LOAD_-1206160341', u'INT_ADD_-1206160212'), (u'LOAD_-1206160341', u'INT_CARRY_-1206160212'), ('const-4', u'PTRADD_-1206159860'), ('const-417', u'LOAD_-1206160443'), ('const-417', u'LOAD_-1206160341'), (u'PTRADD_-1206160009', u'LOAD_-1206160357'), (u'INT_ADD_-1206160212', u'INT_CARRY_-1206160157'), (u'INT_ADD_-1206160212', u'INT_ADD_-1206160157'), (u'INT_ADD_-1206159987', u'STORE_-1206159975')]
| null | null |
000473a4
|
arm
|
O2
|
(translation_unit "void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}\n\n" (function_definition "void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" primitive_type (function_declarator "FUN_000473a4(int *param_1,uint *param_2,uint *param_3)" identifier (parameter_list "(int *param_1,uint *param_2,uint *param_3)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "uint *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "uint *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) ))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (expression_statement "uVar1 = (uint)CARRY4(*param_3,*param_2);" (assignment_expression "uVar1 = (uint)CARRY4(*param_3,*param_2)" identifier = (cast_expression "(uint)CARRY4(*param_3,*param_2)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(*param_3,*param_2)" identifier (argument_list "(*param_3,*param_2)" ( (pointer_expression "*param_3" * identifier) , (pointer_expression "*param_2" * identifier) ))))) ;) (expression_statement "uVar6 = param_3[1] + param_2[1];" (assignment_expression "uVar6 = param_3[1] + param_2[1]" identifier = (binary_expression "param_3[1] + param_2[1]" (subscript_expression "param_3[1]" identifier [ number_literal ]) + (subscript_expression "param_2[1]" identifier [ number_literal ]))) ;) (expression_statement "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);" (assignment_expression "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" identifier = (binary_expression "(uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" (cast_expression "(uint)CARRY4(param_3[1],param_2[1])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3[1],param_2[1])" identifier (argument_list "(param_3[1],param_2[1])" ( (subscript_expression "param_3[1]" identifier [ number_literal ]) , (subscript_expression "param_2[1]" identifier [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar1,uVar6)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,uVar6)" identifier (argument_list "(uVar1,uVar6)" ( identifier , identifier )))))) ;) (expression_statement "uVar4 = param_3[2] + param_2[2];" (assignment_expression "uVar4 = param_3[2] + param_2[2]" identifier = (binary_expression "param_3[2] + param_2[2]" (subscript_expression "param_3[2]" identifier [ number_literal ]) + (subscript_expression "param_2[2]" identifier [ number_literal ]))) ;) (expression_statement "uVar9 = param_3[3];" (assignment_expression "uVar9 = param_3[3]" identifier = (subscript_expression "param_3[3]" identifier [ number_literal ])) ;) (expression_statement "uVar5 = param_2[3];" (assignment_expression "uVar5 = param_2[3]" identifier = (subscript_expression "param_2[3]" identifier [ number_literal ])) ;) (expression_statement "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);" (assignment_expression "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" identifier = (binary_expression "(uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" (cast_expression "(uint)CARRY4(param_3[2],param_2[2])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3[2],param_2[2])" identifier (argument_list "(param_3[2],param_2[2])" ( (subscript_expression "param_3[2]" identifier [ number_literal ]) , (subscript_expression "param_2[2]" identifier [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar10,uVar4)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar10,uVar4)" identifier (argument_list "(uVar10,uVar4)" ( identifier , identifier )))))) ;) (expression_statement "uVar3 = param_3[4];" (assignment_expression "uVar3 = param_3[4]" identifier = (subscript_expression "param_3[4]" identifier [ number_literal ])) ;) (expression_statement "uVar2 = param_2[4];" (assignment_expression "uVar2 = param_2[4]" identifier = (subscript_expression "param_2[4]" identifier [ number_literal ])) ;) (expression_statement "uVar8 = uVar9 + uVar5;" (assignment_expression "uVar8 = uVar9 + uVar5" identifier = (binary_expression "uVar9 + uVar5" identifier + identifier)) ;) (expression_statement "*param_1 = *param_2 + *param_3;" (assignment_expression "*param_1 = *param_2 + *param_3" (pointer_expression "*param_1" * identifier) = (binary_expression "*param_2 + *param_3" (pointer_expression "*param_2" * identifier) + (pointer_expression "*param_3" * identifier))) ;) (expression_statement "param_1[1] = uVar1 + uVar6;" (assignment_expression "param_1[1] = uVar1 + uVar6" (subscript_expression "param_1[1]" identifier [ number_literal ]) = (binary_expression "uVar1 + uVar6" identifier + identifier)) ;) (expression_statement "param_1[2] = uVar10 + uVar4;" (assignment_expression "param_1[2] = uVar10 + uVar4" (subscript_expression "param_1[2]" identifier [ number_literal ]) = (binary_expression "uVar10 + uVar4" identifier + identifier)) ;) (expression_statement "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);" (assignment_expression "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (subscript_expression "param_1[4]" identifier [ number_literal ]) = (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5)" (binary_expression "uVar2 + uVar3" identifier + identifier) + (cast_expression "(uint)CARRY4(uVar9,uVar5)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar9,uVar5)" identifier (argument_list "(uVar9,uVar5)" ( identifier , identifier ))))) + (cast_expression "(uint)CARRY4(uVar7,uVar8)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar7,uVar8)" identifier (argument_list "(uVar7,uVar8)" ( identifier , identifier )))))) ;) (expression_statement "param_1[3] = uVar7 + uVar8;" (assignment_expression "param_1[3] = uVar7 + uVar8" (subscript_expression "param_1[3]" identifier [ number_literal ]) = (binary_expression "uVar7 + uVar8" identifier + identifier)) ;) (return_statement "return;" return ;) })))
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(translation_unit "void bigval_add(bigval *r,bigval *a,bigval *b)\n\n{\n uint uVar1;\n BignumInt BVar2;\n BignumInt BVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(b->w[0],a->w[0]);\n uVar6 = b->w[1] + a->w[1];\n uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = b->w[2] + a->w[2];\n uVar9 = b->w[3];\n uVar5 = a->w[3];\n uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4);\n BVar3 = b->w[4];\n BVar2 = a->w[4];\n uVar8 = uVar9 + uVar5;\n r->w[0] = a->w[0] + b->w[0];\n r->w[1] = uVar1 + uVar6;\n r->w[2] = uVar10 + uVar4;\n r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n r->w[3] = uVar7 + uVar8;\n return;\n}\n\n" (function_definition "void bigval_add(bigval *r,bigval *a,bigval *b)\n\n{\n uint uVar1;\n BignumInt BVar2;\n BignumInt BVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(b->w[0],a->w[0]);\n uVar6 = b->w[1] + a->w[1];\n uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = b->w[2] + a->w[2];\n uVar9 = b->w[3];\n uVar5 = a->w[3];\n uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4);\n BVar3 = b->w[4];\n BVar2 = a->w[4];\n uVar8 = uVar9 + uVar5;\n r->w[0] = a->w[0] + b->w[0];\n r->w[1] = uVar1 + uVar6;\n r->w[2] = uVar10 + uVar4;\n r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n r->w[3] = uVar7 + uVar8;\n return;\n}" primitive_type (function_declarator "bigval_add(bigval *r,bigval *a,bigval *b)" identifier (parameter_list "(bigval *r,bigval *a,bigval *b)" ( (parameter_declaration "bigval *r" type_identifier (pointer_declarator "*r" * identifier)) , (parameter_declaration "bigval *a" type_identifier (pointer_declarator "*a" * identifier)) , (parameter_declaration "bigval *b" type_identifier (pointer_declarator "*b" * identifier)) ))) (compound_statement "{\n uint uVar1;\n BignumInt BVar2;\n BignumInt BVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(b->w[0],a->w[0]);\n uVar6 = b->w[1] + a->w[1];\n uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = b->w[2] + a->w[2];\n uVar9 = b->w[3];\n uVar5 = a->w[3];\n uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4);\n BVar3 = b->w[4];\n BVar2 = a->w[4];\n uVar8 = uVar9 + uVar5;\n r->w[0] = a->w[0] + b->w[0];\n r->w[1] = uVar1 + uVar6;\n r->w[2] = uVar10 + uVar4;\n r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n r->w[3] = uVar7 + uVar8;\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "BignumInt BVar2;" type_identifier identifier ;) (declaration "BignumInt BVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (expression_statement "uVar1 = (uint)CARRY4(b->w[0],a->w[0]);" (assignment_expression "uVar1 = (uint)CARRY4(b->w[0],a->w[0])" identifier = (cast_expression "(uint)CARRY4(b->w[0],a->w[0])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(b->w[0],a->w[0])" identifier (argument_list "(b->w[0],a->w[0])" ( (subscript_expression "b->w[0]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]) , (subscript_expression "a->w[0]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]) ))))) ;) (expression_statement "uVar6 = b->w[1] + a->w[1];" (assignment_expression "uVar6 = b->w[1] + a->w[1]" identifier = (binary_expression "b->w[1] + a->w[1]" (subscript_expression "b->w[1]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]) + (subscript_expression "a->w[1]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]))) ;) (expression_statement "uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6);" (assignment_expression "uVar10 = (uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6)" identifier = (binary_expression "(uint)CARRY4(b->w[1],a->w[1]) + (uint)CARRY4(uVar1,uVar6)" (cast_expression "(uint)CARRY4(b->w[1],a->w[1])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(b->w[1],a->w[1])" identifier (argument_list "(b->w[1],a->w[1])" ( (subscript_expression "b->w[1]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]) , (subscript_expression "a->w[1]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar1,uVar6)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,uVar6)" identifier (argument_list "(uVar1,uVar6)" ( identifier , identifier )))))) ;) (expression_statement "uVar4 = b->w[2] + a->w[2];" (assignment_expression "uVar4 = b->w[2] + a->w[2]" identifier = (binary_expression "b->w[2] + a->w[2]" (subscript_expression "b->w[2]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]) + (subscript_expression "a->w[2]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]))) ;) (expression_statement "uVar9 = b->w[3];" (assignment_expression "uVar9 = b->w[3]" identifier = (subscript_expression "b->w[3]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ])) ;) (expression_statement "uVar5 = a->w[3];" (assignment_expression "uVar5 = a->w[3]" identifier = (subscript_expression "a->w[3]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ])) ;) (expression_statement "uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4);" (assignment_expression "uVar7 = (uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4)" identifier = (binary_expression "(uint)CARRY4(b->w[2],a->w[2]) + (uint)CARRY4(uVar10,uVar4)" (cast_expression "(uint)CARRY4(b->w[2],a->w[2])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(b->w[2],a->w[2])" identifier (argument_list "(b->w[2],a->w[2])" ( (subscript_expression "b->w[2]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]) , (subscript_expression "a->w[2]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar10,uVar4)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar10,uVar4)" identifier (argument_list "(uVar10,uVar4)" ( identifier , identifier )))))) ;) (expression_statement "BVar3 = b->w[4];" (assignment_expression "BVar3 = b->w[4]" identifier = (subscript_expression "b->w[4]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ])) ;) (expression_statement "BVar2 = a->w[4];" (assignment_expression "BVar2 = a->w[4]" identifier = (subscript_expression "a->w[4]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ])) ;) (expression_statement "uVar8 = uVar9 + uVar5;" (assignment_expression "uVar8 = uVar9 + uVar5" identifier = (binary_expression "uVar9 + uVar5" identifier + identifier)) ;) (expression_statement "r->w[0] = a->w[0] + b->w[0];" (assignment_expression "r->w[0] = a->w[0] + b->w[0]" (subscript_expression "r->w[0]" (field_expression "r->w" identifier -> field_identifier) [ number_literal ]) = (binary_expression "a->w[0] + b->w[0]" (subscript_expression "a->w[0]" (field_expression "a->w" identifier -> field_identifier) [ number_literal ]) + (subscript_expression "b->w[0]" (field_expression "b->w" identifier -> field_identifier) [ number_literal ]))) ;) (expression_statement "r->w[1] = uVar1 + uVar6;" (assignment_expression "r->w[1] = uVar1 + uVar6" (subscript_expression "r->w[1]" (field_expression "r->w" identifier -> field_identifier) [ number_literal ]) = (binary_expression "uVar1 + uVar6" identifier + identifier)) ;) (expression_statement "r->w[2] = uVar10 + uVar4;" (assignment_expression "r->w[2] = uVar10 + uVar4" (subscript_expression "r->w[2]" (field_expression "r->w" identifier -> field_identifier) [ number_literal ]) = (binary_expression "uVar10 + uVar4" identifier + identifier)) ;) (expression_statement "r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);" (assignment_expression "r->w[4] = BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (subscript_expression "r->w[4]" (field_expression "r->w" identifier -> field_identifier) [ number_literal ]) = (binary_expression "BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (binary_expression "BVar2 + BVar3 + (uint)CARRY4(uVar9,uVar5)" (binary_expression "BVar2 + BVar3" identifier + identifier) + (cast_expression "(uint)CARRY4(uVar9,uVar5)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar9,uVar5)" identifier (argument_list "(uVar9,uVar5)" ( identifier , identifier ))))) + (cast_expression "(uint)CARRY4(uVar7,uVar8)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar7,uVar8)" identifier (argument_list "(uVar7,uVar8)" ( identifier , identifier )))))) ;) (expression_statement "r->w[3] = uVar7 + uVar8;" (assignment_expression "r->w[3] = uVar7 + uVar8" (subscript_expression "r->w[3]" (field_expression "r->w" identifier -> field_identifier) [ number_literal ]) = (binary_expression "uVar7 + uVar8" identifier + identifier)) ;) (return_statement "return;" return ;) })))
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(translation_unit "void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}\n\n" (function_definition "void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" primitive_type (function_declarator "FUN_000473a4(int *param_1,uint *param_2,uint *param_3)" identifier (parameter_list "(int *param_1,uint *param_2,uint *param_3)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "uint *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "uint *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) ))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (expression_statement "uVar1 = (uint)CARRY4(*param_3,*param_2);" (assignment_expression "uVar1 = (uint)CARRY4(*param_3,*param_2)" identifier = (cast_expression "(uint)CARRY4(*param_3,*param_2)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(*param_3,*param_2)" identifier (argument_list "(*param_3,*param_2)" ( (pointer_expression "*param_3" * identifier) , (pointer_expression "*param_2" * identifier) ))))) ;) (expression_statement "uVar6 = param_3[1] + param_2[1];" (assignment_expression "uVar6 = param_3[1] + param_2[1]" identifier = (binary_expression "param_3[1] + param_2[1]" (subscript_expression "param_3[1]" identifier [ number_literal ]) + (subscript_expression "param_2[1]" identifier [ number_literal ]))) ;) (expression_statement "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);" (assignment_expression "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" identifier = (binary_expression "(uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" (cast_expression "(uint)CARRY4(param_3[1],param_2[1])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3[1],param_2[1])" identifier (argument_list "(param_3[1],param_2[1])" ( (subscript_expression "param_3[1]" identifier [ number_literal ]) , (subscript_expression "param_2[1]" identifier [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar1,uVar6)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,uVar6)" identifier (argument_list "(uVar1,uVar6)" ( identifier , identifier )))))) ;) (expression_statement "uVar4 = param_3[2] + param_2[2];" (assignment_expression "uVar4 = param_3[2] + param_2[2]" identifier = (binary_expression "param_3[2] + param_2[2]" (subscript_expression "param_3[2]" identifier [ number_literal ]) + (subscript_expression "param_2[2]" identifier [ number_literal ]))) ;) (expression_statement "uVar9 = param_3[3];" (assignment_expression "uVar9 = param_3[3]" identifier = (subscript_expression "param_3[3]" identifier [ number_literal ])) ;) (expression_statement "uVar5 = param_2[3];" (assignment_expression "uVar5 = param_2[3]" identifier = (subscript_expression "param_2[3]" identifier [ number_literal ])) ;) (expression_statement "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);" (assignment_expression "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" identifier = (binary_expression "(uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" (cast_expression "(uint)CARRY4(param_3[2],param_2[2])" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3[2],param_2[2])" identifier (argument_list "(param_3[2],param_2[2])" ( (subscript_expression "param_3[2]" identifier [ number_literal ]) , (subscript_expression "param_2[2]" identifier [ number_literal ]) )))) + (cast_expression "(uint)CARRY4(uVar10,uVar4)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar10,uVar4)" identifier (argument_list "(uVar10,uVar4)" ( identifier , identifier )))))) ;) (expression_statement "uVar3 = param_3[4];" (assignment_expression "uVar3 = param_3[4]" identifier = (subscript_expression "param_3[4]" identifier [ number_literal ])) ;) (expression_statement "uVar2 = param_2[4];" (assignment_expression "uVar2 = param_2[4]" identifier = (subscript_expression "param_2[4]" identifier [ number_literal ])) ;) (expression_statement "uVar8 = uVar9 + uVar5;" (assignment_expression "uVar8 = uVar9 + uVar5" identifier = (binary_expression "uVar9 + uVar5" identifier + identifier)) ;) (expression_statement "*param_1 = *param_2 + *param_3;" (assignment_expression "*param_1 = *param_2 + *param_3" (pointer_expression "*param_1" * identifier) = (binary_expression "*param_2 + *param_3" (pointer_expression "*param_2" * identifier) + (pointer_expression "*param_3" * identifier))) ;) (expression_statement "param_1[1] = uVar1 + uVar6;" (assignment_expression "param_1[1] = uVar1 + uVar6" (subscript_expression "param_1[1]" identifier [ number_literal ]) = (binary_expression "uVar1 + uVar6" identifier + identifier)) ;) (expression_statement "param_1[2] = uVar10 + uVar4;" (assignment_expression "param_1[2] = uVar10 + uVar4" (subscript_expression "param_1[2]" identifier [ number_literal ]) = (binary_expression "uVar10 + uVar4" identifier + identifier)) ;) (expression_statement "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);" (assignment_expression "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (subscript_expression "param_1[4]" identifier [ number_literal ]) = (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5)" (binary_expression "uVar2 + uVar3" identifier + identifier) + (cast_expression "(uint)CARRY4(uVar9,uVar5)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar9,uVar5)" identifier (argument_list "(uVar9,uVar5)" ( identifier , identifier ))))) + (cast_expression "(uint)CARRY4(uVar7,uVar8)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar7,uVar8)" identifier (argument_list "(uVar7,uVar8)" ( identifier , identifier )))))) ;) (expression_statement "param_1[3] = uVar7 + uVar8;" (assignment_expression "param_1[3] = uVar7 + uVar8" (subscript_expression "param_1[3]" identifier [ number_literal ]) = (binary_expression "uVar7 + uVar8" identifier + identifier)) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( (pointer_expression * IDENT) , (pointer_expression * IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (subscript_expression IDENT [ LIT ]) + (subscript_expression IDENT [ LIT ]))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( (subscript_expression IDENT [ LIT ]) , (subscript_expression IDENT [ LIT ]) )))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT )))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (subscript_expression IDENT [ LIT ]) + (subscript_expression IDENT [ LIT ]))) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( (subscript_expression IDENT [ LIT ]) , (subscript_expression IDENT [ LIT ]) )))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT )))))) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (binary_expression (pointer_expression * IDENT) + (pointer_expression * IDENT))) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (binary_expression (binary_expression (binary_expression IDENT + IDENT) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT ))))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT )))))) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (binary_expression IDENT + IDENT)) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000473a4(int *param_1,uint *param_2,uint *param_3)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" (primitive_type "void") (function_declarator "FUN_000473a4(int *param_1,uint *param_2,uint *param_3)" (identifier "FUN_000473a4") (parameter_list "(int *param_1,uint *param_2,uint *param_3)" (( "(") (parameter_declaration "int *param_1" (primitive_type "int") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "uint *param_2" (type_identifier "uint") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "uint *param_3" (type_identifier "uint") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) () ")"))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n \n uVar1 = (uint)CARRY4(*param_3,*param_2);\n uVar6 = param_3[1] + param_2[1];\n uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);\n uVar4 = param_3[2] + param_2[2];\n uVar9 = param_3[3];\n uVar5 = param_2[3];\n uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);\n uVar3 = param_3[4];\n uVar2 = param_2[4];\n uVar8 = uVar9 + uVar5;\n *param_1 = *param_2 + *param_3;\n param_1[1] = uVar1 + uVar6;\n param_1[2] = uVar10 + uVar4;\n param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);\n param_1[3] = uVar7 + uVar8;\n return;\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (declaration "uint uVar2;" (type_identifier "uint") (identifier "uVar2") (; ";")) (declaration "uint uVar3;" (type_identifier "uint") (identifier "uVar3") (; ";")) (declaration "uint uVar4;" (type_identifier "uint") (identifier "uVar4") (; ";")) (declaration "uint uVar5;" (type_identifier "uint") (identifier "uVar5") (; ";")) (declaration "uint uVar6;" (type_identifier "uint") (identifier "uVar6") (; ";")) (declaration "uint uVar7;" (type_identifier "uint") (identifier "uVar7") (; ";")) (declaration "uint uVar8;" (type_identifier "uint") (identifier "uVar8") (; ";")) (declaration "uint uVar9;" (type_identifier "uint") (identifier "uVar9") (; ";")) (declaration "uint uVar10;" (type_identifier "uint") (identifier "uVar10") (; ";")) (expression_statement "uVar1 = (uint)CARRY4(*param_3,*param_2);" (assignment_expression "uVar1 = (uint)CARRY4(*param_3,*param_2)" (identifier "uVar1") (= "=") (cast_expression "(uint)CARRY4(*param_3,*param_2)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(*param_3,*param_2)" (identifier "CARRY4") (argument_list "(*param_3,*param_2)" (( "(") (pointer_expression "*param_3" (* "*") (identifier "param_3")) (, ",") (pointer_expression "*param_2" (* "*") (identifier "param_2")) () ")"))))) (; ";")) (expression_statement "uVar6 = param_3[1] + param_2[1];" (assignment_expression "uVar6 = param_3[1] + param_2[1]" (identifier "uVar6") (= "=") (binary_expression "param_3[1] + param_2[1]" (subscript_expression "param_3[1]" (identifier "param_3") ([ "[") (number_literal "1") (] "]")) (+ "+") (subscript_expression "param_2[1]" (identifier "param_2") ([ "[") (number_literal "1") (] "]")))) (; ";")) (expression_statement "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);" (assignment_expression "uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" (identifier "uVar10") (= "=") (binary_expression "(uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6)" (cast_expression "(uint)CARRY4(param_3[1],param_2[1])" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(param_3[1],param_2[1])" (identifier "CARRY4") (argument_list "(param_3[1],param_2[1])" (( "(") (subscript_expression "param_3[1]" (identifier "param_3") ([ "[") (number_literal "1") (] "]")) (, ",") (subscript_expression "param_2[1]" (identifier "param_2") ([ "[") (number_literal "1") (] "]")) () ")")))) (+ "+") (cast_expression "(uint)CARRY4(uVar1,uVar6)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar1,uVar6)" (identifier "CARRY4") (argument_list "(uVar1,uVar6)" (( "(") (identifier "uVar1") (, ",") (identifier "uVar6") () ")")))))) (; ";")) (expression_statement "uVar4 = param_3[2] + param_2[2];" (assignment_expression "uVar4 = param_3[2] + param_2[2]" (identifier "uVar4") (= "=") (binary_expression "param_3[2] + param_2[2]" (subscript_expression "param_3[2]" (identifier "param_3") ([ "[") (number_literal "2") (] "]")) (+ "+") (subscript_expression "param_2[2]" (identifier "param_2") ([ "[") (number_literal "2") (] "]")))) (; ";")) (expression_statement "uVar9 = param_3[3];" (assignment_expression "uVar9 = param_3[3]" (identifier "uVar9") (= "=") (subscript_expression "param_3[3]" (identifier "param_3") ([ "[") (number_literal "3") (] "]"))) (; ";")) (expression_statement "uVar5 = param_2[3];" (assignment_expression "uVar5 = param_2[3]" (identifier "uVar5") (= "=") (subscript_expression "param_2[3]" (identifier "param_2") ([ "[") (number_literal "3") (] "]"))) (; ";")) (expression_statement "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);" (assignment_expression "uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" (identifier "uVar7") (= "=") (binary_expression "(uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4)" (cast_expression "(uint)CARRY4(param_3[2],param_2[2])" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(param_3[2],param_2[2])" (identifier "CARRY4") (argument_list "(param_3[2],param_2[2])" (( "(") (subscript_expression "param_3[2]" (identifier "param_3") ([ "[") (number_literal "2") (] "]")) (, ",") (subscript_expression "param_2[2]" (identifier "param_2") ([ "[") (number_literal "2") (] "]")) () ")")))) (+ "+") (cast_expression "(uint)CARRY4(uVar10,uVar4)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar10,uVar4)" (identifier "CARRY4") (argument_list "(uVar10,uVar4)" (( "(") (identifier "uVar10") (, ",") (identifier "uVar4") () ")")))))) (; ";")) (expression_statement "uVar3 = param_3[4];" (assignment_expression "uVar3 = param_3[4]" (identifier "uVar3") (= "=") (subscript_expression "param_3[4]" (identifier "param_3") ([ "[") (number_literal "4") (] "]"))) (; ";")) (expression_statement "uVar2 = param_2[4];" (assignment_expression "uVar2 = param_2[4]" (identifier "uVar2") (= "=") (subscript_expression "param_2[4]" (identifier "param_2") ([ "[") (number_literal "4") (] "]"))) (; ";")) (expression_statement "uVar8 = uVar9 + uVar5;" (assignment_expression "uVar8 = uVar9 + uVar5" (identifier "uVar8") (= "=") (binary_expression "uVar9 + uVar5" (identifier "uVar9") (+ "+") (identifier "uVar5"))) (; ";")) (expression_statement "*param_1 = *param_2 + *param_3;" (assignment_expression "*param_1 = *param_2 + *param_3" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (= "=") (binary_expression "*param_2 + *param_3" (pointer_expression "*param_2" (* "*") (identifier "param_2")) (+ "+") (pointer_expression "*param_3" (* "*") (identifier "param_3")))) (; ";")) (expression_statement "param_1[1] = uVar1 + uVar6;" (assignment_expression "param_1[1] = uVar1 + uVar6" (subscript_expression "param_1[1]" (identifier "param_1") ([ "[") (number_literal "1") (] "]")) (= "=") (binary_expression "uVar1 + uVar6" (identifier "uVar1") (+ "+") (identifier "uVar6"))) (; ";")) (expression_statement "param_1[2] = uVar10 + uVar4;" (assignment_expression "param_1[2] = uVar10 + uVar4" (subscript_expression "param_1[2]" (identifier "param_1") ([ "[") (number_literal "2") (] "]")) (= "=") (binary_expression "uVar10 + uVar4" (identifier "uVar10") (+ "+") (identifier "uVar4"))) (; ";")) (expression_statement "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);" (assignment_expression "param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (subscript_expression "param_1[4]" (identifier "param_1") ([ "[") (number_literal "4") (] "]")) (= "=") (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8)" (binary_expression "uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5)" (binary_expression "uVar2 + uVar3" (identifier "uVar2") (+ "+") (identifier "uVar3")) (+ "+") (cast_expression "(uint)CARRY4(uVar9,uVar5)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar9,uVar5)" (identifier "CARRY4") (argument_list "(uVar9,uVar5)" (( "(") (identifier "uVar9") (, ",") (identifier "uVar5") () ")"))))) (+ "+") (cast_expression "(uint)CARRY4(uVar7,uVar8)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar7,uVar8)" (identifier "CARRY4") (argument_list "(uVar7,uVar8)" (( "(") (identifier "uVar7") (, ",") (identifier "uVar8") () ")")))))) (; ";")) (expression_statement "param_1[3] = uVar7 + uVar8;" (assignment_expression "param_1[3] = uVar7 + uVar8" (subscript_expression "param_1[3]" (identifier "param_1") ([ "[") (number_literal "3") (] "]")) (= "=") (binary_expression "uVar7 + uVar8" (identifier "uVar7") (+ "+") (identifier "uVar8"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
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void function_1(type_1 *r,type_1 *a,type_1 *b)
{
type_2 var_4;
type_3 var_8;
type_3 var_9;
type_2 var_7;
type_2 var_3;
type_2 var_5;
type_2 var_10;
type_2 var_11;
type_2 var_2;
type_2 var_6;
var_4 = (type_2)var_1(b->w[0],a->w[0]);
var_5 = b->w[1] + a->w[1];
var_6 = (type_2)var_1(b->w[1],a->w[1]) + (type_2)var_1(var_4,var_5);
var_7 = b->w[2] + a->w[2];
var_2 = b->w[3];
var_3 = a->w[3];
var_10 = (type_2)var_1(b->w[2],a->w[2]) + (type_2)var_1(var_6,var_7);
var_9 = b->w[4];
var_8 = a->w[4];
var_11 = var_2 + var_3;
r->w[0] = a->w[0] + b->w[0];
r->w[1] = var_4 + var_5;
r->w[2] = var_6 + var_7;
r->w[4] = var_8 + var_9 + (type_2)var_1(var_2,var_3) + (type_2)var_1(var_10,var_11);
r->w[3] = var_10 + var_11;
return;
}
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(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (pointer_expression argument: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (subscript_expression argument: (identifier) index: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal))))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (subscript_expression argument: (identifier) index: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal))))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (binary_expression left: (identifier) right: (identifier)))) (return_statement))))
|
void MASKED(int *param_1,uint *param_2,uint *param_3)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
uint uVar7;
uint uVar8;
uint uVar9;
uint uVar10;
uVar1 = (uint)CARRY4(*param_3,*param_2);
uVar6 = param_3[1] + param_2[1];
uVar10 = (uint)CARRY4(param_3[1],param_2[1]) + (uint)CARRY4(uVar1,uVar6);
uVar4 = param_3[2] + param_2[2];
uVar9 = param_3[3];
uVar5 = param_2[3];
uVar7 = (uint)CARRY4(param_3[2],param_2[2]) + (uint)CARRY4(uVar10,uVar4);
uVar3 = param_3[4];
uVar2 = param_2[4];
uVar8 = uVar9 + uVar5;
*param_1 = *param_2 + *param_3;
param_1[1] = uVar1 + uVar6;
param_1[2] = uVar10 + uVar4;
param_1[4] = uVar2 + uVar3 + (uint)CARRY4(uVar9,uVar5) + (uint)CARRY4(uVar7,uVar8);
param_1[3] = uVar7 + uVar8;
return;
}
| 48,190 |
||
15_factor_and_factor_strip.c
|
free
|
free
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void free(void *__ptr)
{
(*(code *)PTR_free_00034044)();
return;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void free(void *__ptr)
{
(*(code *)PTR_free_00034044)();
return;
}
|
adr r12,0x11374
add r12,r12,#0x22000
ldr pc,[r12,#0xcd0]!
| null | null | null | null |
[(u'CAST_-1205988390', u'CALLIND_-1205988465'), ('const-0', u'RETURN_-1205988462'), ('tmp_119', u'CAST_-1205988390'), (u'CALLIND_-1205988465', u'INDIRECT_-1205988395'), (u'INDIRECT_-1205988395', u'COPY_-1205988454')]
|
[(u'CAST_-1205988390', u'CALLIND_-1205988465'), ('const-0', u'RETURN_-1205988462'), ('tmp_119', u'CAST_-1205988390'), (u'CALLIND_-1205988465', u'INDIRECT_-1205988395'), (u'INDIRECT_-1205988395', u'COPY_-1205988454')]
| null | null |
0001136c
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}\n\n" comment (function_definition "void free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}" primitive_type (function_declarator "free(void *__ptr)" identifier (parameter_list "(void *__ptr)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_free_00034044)();\n return;\n}" { (expression_statement "(*(code *)PTR_free_00034044)();" (call_expression "(*(code *)PTR_free_00034044)()" (parenthesized_expression "(*(code *)PTR_free_00034044)" ( (pointer_expression "*(code *)PTR_free_00034044" * (cast_expression "(code *)PTR_free_00034044" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}\n\n" comment (function_definition "void free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}" primitive_type (function_declarator "free(void *__ptr)" identifier (parameter_list "(void *__ptr)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_free_00034044)();\n return;\n}" { (expression_statement "(*(code *)PTR_free_00034044)();" (call_expression "(*(code *)PTR_free_00034044)()" (parenthesized_expression "(*(code *)PTR_free_00034044)" ( (pointer_expression "*(code *)PTR_free_00034044" * (cast_expression "(code *)PTR_free_00034044" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}\n\n" comment (function_definition "void free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}" primitive_type (function_declarator "free(void *__ptr)" identifier (parameter_list "(void *__ptr)" ( (parameter_declaration "void *__ptr" primitive_type (pointer_declarator "*__ptr" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_free_00034044)();\n return;\n}" { (expression_statement "(*(code *)PTR_free_00034044)();" (call_expression "(*(code *)PTR_free_00034044)()" (parenthesized_expression "(*(code *)PTR_free_00034044)" ( (pointer_expression "*(code *)PTR_free_00034044" * (cast_expression "(code *)PTR_free_00034044" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "void free(void *__ptr)\n\n{\n (*(code *)PTR_free_00034044)();\n return;\n}" (primitive_type "void") (function_declarator "free(void *__ptr)" (identifier "free") (parameter_list "(void *__ptr)" (( "(") (parameter_declaration "void *__ptr" (primitive_type "void") (pointer_declarator "*__ptr" (* "*") (identifier "__ptr"))) () ")"))) (compound_statement "{\n (*(code *)PTR_free_00034044)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_free_00034044)();" (call_expression "(*(code *)PTR_free_00034044)()" (parenthesized_expression "(*(code *)PTR_free_00034044)" (( "(") (pointer_expression "*(code *)PTR_free_00034044" (* "*") (cast_expression "(code *)PTR_free_00034044" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_free_00034044"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(void *__ptr)
{
(*(type_1 *)PTR_free_00034044)();
return;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void MASKED(void *__ptr)
{
(*(code *)PTR_MASKED_00034044)();
return;
}
| 2,695 |
||
374_libsqlite3.so.0.8_and_libsqlite3.so.0.8_strip.c
|
last_insert_rowid
|
FUN_00025574
|
void last_insert_rowid(sqlite3_context *context,int NotUsed,sqlite3_value **NotUsed2)
{
sqlite3 *db;
i64 in_stack_00000000;
db = sqlite3_context_db_handle(context);
sqlite3_last_insert_rowid(db);
sqlite3_result_int64(context,in_stack_00000000);
return;
}
|
void FUN_00025574(undefined4 param_1)
{
undefined4 uVar1;
undefined8 uVar2;
sqlite3_context_db_handle();
uVar2 = sqlite3_last_insert_rowid();
uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);
sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);
return;
}
|
stmdb sp!,{r4,lr}
cpy r4,r0
bl 0x00016950
bl 0x00016ab8
cpy r2,r0
cpy r3,r1
cpy r0,r4
ldmia sp!,{r4,lr}
b 0x00016bc0
| null | null | null | null |
[('tmp_55', u'CALL_-1206037073'), (u'CALL_-1206037109', u'CALL_-1206037103'), ('tmp_55', u'CALL_-1206037109'), ('const-0', u'RETURN_-1206037069'), ('tmp_199', u'CALL_-1206037073')]
|
[(u'CALL_-1206037103', u'SUBPIECE_-1206036998'), (u'SUBPIECE_-1206036997', u'CALL_-1206037073'), (u'INT_RIGHT_-1206037029', u'SUBPIECE_-1206036997'), (u'CALL_-1206037103', u'CAST_-1206036994'), ('tmp_150', u'CALL_-1206037073'), (u'SUBPIECE_-1206036998', u'CALL_-1206037073'), ('const-32', u'INT_RIGHT_-1206037029'), ('const-0', u'SUBPIECE_-1206036998'), ('const-0', u'RETURN_-1206037069'), ('const-0', u'SUBPIECE_-1206036997'), (u'CAST_-1206036994', u'INT_RIGHT_-1206037029')]
| null | null |
00025574
|
arm
|
O2
|
(translation_unit "void FUN_00025574(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}\n\n" (function_definition "void FUN_00025574(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" primitive_type (function_declarator "FUN_00025574(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined8 uVar2;" type_identifier identifier ;) (expression_statement "sqlite3_context_db_handle();" (call_expression "sqlite3_context_db_handle()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar2 = sqlite3_last_insert_rowid();" (assignment_expression "uVar2 = sqlite3_last_insert_rowid()" identifier = (call_expression "sqlite3_last_insert_rowid()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);" (assignment_expression "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20)" identifier = (call_expression "(undefined4)((ulonglong)uVar2 >> 0x20)" (parenthesized_expression "(undefined4)" ( identifier )) (argument_list "((ulonglong)uVar2 >> 0x20)" ( (binary_expression "(ulonglong)uVar2 >> 0x20" (cast_expression "(ulonglong)uVar2" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);" (call_expression "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1)" identifier (argument_list "(param_1,uVar1,(int)uVar2,uVar1)" ( identifier , identifier , (cast_expression "(int)uVar2" ( (type_descriptor "int" primitive_type) ) identifier) , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void last_insert_rowid(sqlite3_context *context,int NotUsed,sqlite3_value **NotUsed2)\n\n{\n sqlite3 *db;\n i64 in_stack_00000000;\n \n db = sqlite3_context_db_handle(context);\n sqlite3_last_insert_rowid(db);\n sqlite3_result_int64(context,in_stack_00000000);\n return;\n}\n\n" (function_definition "void last_insert_rowid(sqlite3_context *context,int NotUsed,sqlite3_value **NotUsed2)\n\n{\n sqlite3 *db;\n i64 in_stack_00000000;\n \n db = sqlite3_context_db_handle(context);\n sqlite3_last_insert_rowid(db);\n sqlite3_result_int64(context,in_stack_00000000);\n return;\n}" primitive_type (function_declarator "last_insert_rowid(sqlite3_context *context,int NotUsed,sqlite3_value **NotUsed2)" identifier (parameter_list "(sqlite3_context *context,int NotUsed,sqlite3_value **NotUsed2)" ( (parameter_declaration "sqlite3_context *context" type_identifier (pointer_declarator "*context" * identifier)) , (parameter_declaration "int NotUsed" primitive_type identifier) , (parameter_declaration "sqlite3_value **NotUsed2" type_identifier (pointer_declarator "**NotUsed2" * (pointer_declarator "*NotUsed2" * identifier))) ))) (compound_statement "{\n sqlite3 *db;\n i64 in_stack_00000000;\n \n db = sqlite3_context_db_handle(context);\n sqlite3_last_insert_rowid(db);\n sqlite3_result_int64(context,in_stack_00000000);\n return;\n}" { (declaration "sqlite3 *db;" type_identifier (pointer_declarator "*db" * identifier) ;) (declaration "i64 in_stack_00000000;" type_identifier identifier ;) (expression_statement "db = sqlite3_context_db_handle(context);" (assignment_expression "db = sqlite3_context_db_handle(context)" identifier = (call_expression "sqlite3_context_db_handle(context)" identifier (argument_list "(context)" ( identifier )))) ;) (expression_statement "sqlite3_last_insert_rowid(db);" (call_expression "sqlite3_last_insert_rowid(db)" identifier (argument_list "(db)" ( identifier ))) ;) (expression_statement "sqlite3_result_int64(context,in_stack_00000000);" (call_expression "sqlite3_result_int64(context,in_stack_00000000)" identifier (argument_list "(context,in_stack_00000000)" ( identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_00025574(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}\n\n" (function_definition "void FUN_00025574(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" primitive_type (function_declarator "FUN_00025574(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined8 uVar2;" type_identifier identifier ;) (expression_statement "sqlite3_context_db_handle();" (call_expression "sqlite3_context_db_handle()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar2 = sqlite3_last_insert_rowid();" (assignment_expression "uVar2 = sqlite3_last_insert_rowid()" identifier = (call_expression "sqlite3_last_insert_rowid()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);" (assignment_expression "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20)" identifier = (call_expression "(undefined4)((ulonglong)uVar2 >> 0x20)" (parenthesized_expression "(undefined4)" ( identifier )) (argument_list "((ulonglong)uVar2 >> 0x20)" ( (binary_expression "(ulonglong)uVar2 >> 0x20" (cast_expression "(ulonglong)uVar2" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);" (call_expression "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1)" identifier (argument_list "(param_1,uVar1,(int)uVar2,uVar1)" ( identifier , identifier , (cast_expression "(int)uVar2" ( (type_descriptor "int" primitive_type) ) identifier) , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , (cast_expression ( (type_descriptor TYPE) ) IDENT) , IDENT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00025574(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00025574(undefined4 param_1)" (identifier "FUN_00025574") (parameter_list "(undefined4 param_1)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) () ")"))) (compound_statement "{\n undefined4 uVar1;\n undefined8 uVar2;\n \n sqlite3_context_db_handle();\n uVar2 = sqlite3_last_insert_rowid();\n uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);\n sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);\n return;\n}" ({ "{") (declaration "undefined4 uVar1;" (type_identifier "undefined4") (identifier "uVar1") (; ";")) (declaration "undefined8 uVar2;" (type_identifier "undefined8") (identifier "uVar2") (; ";")) (expression_statement "sqlite3_context_db_handle();" (call_expression "sqlite3_context_db_handle()" (identifier "sqlite3_context_db_handle") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "uVar2 = sqlite3_last_insert_rowid();" (assignment_expression "uVar2 = sqlite3_last_insert_rowid()" (identifier "uVar2") (= "=") (call_expression "sqlite3_last_insert_rowid()" (identifier "sqlite3_last_insert_rowid") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);" (assignment_expression "uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20)" (identifier "uVar1") (= "=") (call_expression "(undefined4)((ulonglong)uVar2 >> 0x20)" (parenthesized_expression "(undefined4)" (( "(") (identifier "undefined4") () ")")) (argument_list "((ulonglong)uVar2 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar2 >> 0x20" (cast_expression "(ulonglong)uVar2" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar2")) (>> ">>") (number_literal "0x20")) () ")")))) (; ";")) (expression_statement "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);" (call_expression "sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1)" (identifier "sqlite3_result_int64") (argument_list "(param_1,uVar1,(int)uVar2,uVar1)" (( "(") (identifier "param_1") (, ",") (identifier "uVar1") (, ",") (cast_expression "(int)uVar2" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar2")) (, ",") (identifier "uVar1") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(type_1 *context,int NotUsed,type_2 **NotUsed2)
{
type_3 *db;
type_4 in_stack_00000000;
db = var_1(context);
var_2(db);
var_3(context,in_stack_00000000);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) (identifier)))) (return_statement))))
|
void MASKED(undefined4 param_1)
{
undefined4 uVar1;
undefined8 uVar2;
sqlite3_context_db_handle();
uVar2 = sqlite3_last_insert_rowid();
uVar1 = (undefined4)((ulonglong)uVar2 >> 0x20);
sqlite3_result_int64(param_1,uVar1,(int)uVar2,uVar1);
return;
}
| 67,563 |
||
651_libcurl.so.4.5_and_libcurl.so.4.5_strip.c
|
Curl_verboseconnect
|
FUN_0002c4c4
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void Curl_verboseconnect(connectdata *conn)
{
if ((conn->data->set).verbose != false) {
/* WARNING: Subroutine does not return */
Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);
}
return;
}
|
void FUN_0002c4c4(int *param_1)
{
int iVar1;
if (*(char *)(*param_1 + 0x958) == '\0') {
return;
}
if (*(char *)((int)param_1 + 599) == '\0') {
if (*(char *)((int)param_1 + 0x256) == '\0') {
if (*(char *)((int)param_1 + 0x253) == '\0') {
iVar1 = param_1[0x28];
}
else {
iVar1 = param_1[0x2e];
}
}
else {
iVar1 = param_1[0x3a];
}
}
else {
iVar1 = param_1[0x32];
}
FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);
return;
}
|
ldr r1,[r0,#0x0]
ldrb r3,[r1,#0x958]
cmp r3,#0x0
bxeq lr
ldrb r3,[r0,#0x257]
str lr,[sp,#-0x4]!
cmp r3,#0x0
sub sp,sp,#0xc
beq 0x0002c518
ldr r2,[r0,#0xc8]
ldr lr,[r0,#0x48]
ldr r12,[r0,#0xfc]
cpy r3,r0
cpy r0,r1
ldr r1,[0x2c53c]
stmia sp,{r12,lr}
add r3,r3,#0x5c
add r1,pc,r1
bl 0x00025198
add sp,sp,#0xc
ldr pc,[sp],#0x4
ldrb r3,[r0,#0x256]
cmp r3,#0x0
ldrne r2,[r0,#0xe8]
bne 0x0002c4ec
ldrb r3,[r0,#0x253]
cmp r3,#0x0
ldrne r2,[r0,#0xb8]
ldreq r2,[r0,#0xa0]
b 0x0002c4ec
| null | null | null | null |
[('tmp_60', u'CBRANCH_-1206008597'), (u'INDIRECT_-1206008293', u'COPY_-1206008351'), (u'LOAD_-1206008633', u'CALL_-1206008461'), (u'LOAD_-1206008633', u'PTRSUB_-1206008344'), ('const-0', u'PTRSUB_-1206008349'), (u'PTRSUB_-1206008334', u'LOAD_-1206008627'), ('const-1', u'RETURN_-1206008456'), ('const-968', u'PTRSUB_-1206008334'), (u'INT_NOTEQUAL_-1206008600', u'CBRANCH_-1206008597'), ('const-1424', u'PTRSUB_-1206008344'), ('const-417', u'LOAD_-1206008627'), (u'CALL_-1206008461', u'INDIRECT_-1206008293'), ('const-0', u'RETURN_-1206008587'), (u'PTRADD_-1206008411', u'CALL_-1206008461'), ('tmp_656', u'COPY_-1206008412'), (u'PTRSUB_-1206008349', u'LOAD_-1206008633'), (u'PTRSUB_-1206008282', u'PTRADD_-1206008411'), ('const-0', u'PTRSUB_-1206008282'), ('tmp_417', u'PTRSUB_-1206008349'), (u'LOAD_-1206008627', u'INT_NOTEQUAL_-1206008600'), (u'PTRSUB_-1206008344', u'PTRSUB_-1206008334'), ('const-1', u'PTRADD_-1206008411'), ('const-181520', u'PTRSUB_-1206008282'), ('tmp_656', u'PTRADD_-1206008411'), ('const-417', u'LOAD_-1206008633'), ('const-0', u'INT_NOTEQUAL_-1206008600')]
|
[(u'CAST_-1206008238', u'LOAD_-1206008432'), ('tmp_60', u'CBRANCH_-1206008597'), ('const-4', u'PTRADD_-1206008237'), ('tmp_713', u'COPY_-1206008394'), (u'CAST_-1206008239', u'INT_ADD_-1206008416'), ('tmp_651', u'CAST_-1206008239'), ('const-417', u'LOAD_-1206008627'), (u'INT_EQUAL_-1206008557', u'CBRANCH_-1206008538'), ('const-63', u'PTRADD_-1206008287'), ('tmp_449', u'CBRANCH_-1206008359'), ('const-4', u'PTRADD_-1206008297'), (u'LOAD_-1206008589', u'INT_EQUAL_-1206008557'), (u'CAST_-1206008308', u'LOAD_-1206008589'), (u'PTRADD_-1206008220', u'LOAD_-1206008360'), (u'LOAD_-1206008627', u'INT_EQUAL_-1206008601'), ('const-599', u'INT_ADD_-1206008573'), (u'INT_ADD_-1206008573', u'CAST_-1206008308'), ('const-46', u'PTRADD_-1206008220'), ('const-4', u'PTRADD_-1206008287'), ('tmp_651', u'LOAD_-1206008633'), ('const-2392', u'INT_ADD_-1206008611'), ('const-0', u'INT_EQUAL_-1206008557'), ('const-18', u'PTRADD_-1206008292'), (u'LOAD_-1206008633', u'INT_ADD_-1206008611'), ('tmp_651', u'PTRADD_-1206008266'), ('const-0', u'RETURN_-1206008587'), (u'PTRADD_-1206008292', u'LOAD_-1206008529'), ('tmp_651', u'PTRADD_-1206008287'), ('const-50', u'PTRADD_-1206008297'), ('const-4', u'PTRADD_-1206008220'), ('tmp_651', u'CAST_-1206008221'), ('const-0', u'INT_EQUAL_-1206008601'), ('const-4', u'PTRADD_-1206008266'), ('const-0', u'RETURN_-1206008430'), ('const-417', u'LOAD_-1206008633'), (u'LOAD_-1206008432', u'INT_EQUAL_-1206008406'), (u'LOAD_-1206008529', u'CALL_-1206008461'), (u'PTRADD_-1206008237', u'LOAD_-1206008402'), ('const-417', u'LOAD_-1206008390'), ('tmp_381', u'CBRANCH_-1206008401'), ('const-4', u'PTRADD_-1206008292'), (u'LOAD_-1206008352', u'MULTIEQUAL_-1206008343'), ('tmp_651', u'PTRADD_-1206008220'), ('const-40', u'PTRADD_-1206008215'), (u'INT_ADD_-1206008416', u'CAST_-1206008238'), (u'INT_ADD_-1206008457', u'CALL_-1206008461'), (u'LOAD_-1206008523', u'CALL_-1206008461'), ('const-181520', u'INT_ADD_-1206008457'), (u'LOAD_-1206008535', u'MULTIEQUAL_-1206008343'), ('const-417', u'LOAD_-1206008360'), ('tmp_651', u'PTRADD_-1206008215'), ('const-4', u'PTRADD_-1206008215'), (u'CAST_-1206008221', u'INT_ADD_-1206008374'), (u'PTRADD_-1206008297', u'LOAD_-1206008535'), (u'LOAD_-1206008633', u'CALL_-1206008461'), (u'LOAD_-1206008390', u'INT_EQUAL_-1206008364'), ('const-417', u'LOAD_-1206008432'), (u'PTRADD_-1206008287', u'LOAD_-1206008523'), ('tmp_168', u'CBRANCH_-1206008538'), ('const-595', u'INT_ADD_-1206008374'), (u'PTRADD_-1206008266', u'CALL_-1206008461'), (u'INT_EQUAL_-1206008364', u'CBRANCH_-1206008359'), ('const-417', u'LOAD_-1206008589'), ('tmp_651', u'PTRADD_-1206008297'), ('tmp_651', u'PTRADD_-1206008292'), (u'CAST_-1206008309', u'INT_ADD_-1206008573'), ('tmp_651', u'CAST_-1206008309'), (u'INT_ADD_-1206008611', u'CAST_-1206008322'), ('const-417', u'LOAD_-1206008523'), (u'INT_EQUAL_-1206008601', u'CBRANCH_-1206008597'), (u'LOAD_-1206008402', u'MULTIEQUAL_-1206008343'), ('const-58', u'PTRADD_-1206008237'), (u'INT_EQUAL_-1206008406', u'CBRANCH_-1206008401'), ('tmp_713', u'INT_ADD_-1206008457'), ('const-0', u'INT_EQUAL_-1206008406'), (u'CAST_-1206008322', u'LOAD_-1206008627'), ('const-598', u'INT_ADD_-1206008416'), ('const-417', u'LOAD_-1206008402'), (u'CAST_-1206008220', u'LOAD_-1206008390'), (u'PTRADD_-1206008215', u'LOAD_-1206008352'), (u'INT_ADD_-1206008374', u'CAST_-1206008220'), ('const-0', u'INT_EQUAL_-1206008364'), ('const-417', u'LOAD_-1206008535'), (u'CALL_-1206008461', u'INDIRECT_-1206008275'), (u'MULTIEQUAL_-1206008343', u'CALL_-1206008461'), (u'INDIRECT_-1206008275', u'COPY_-1206008325'), ('tmp_651', u'PTRADD_-1206008237'), ('const-417', u'LOAD_-1206008529'), (u'LOAD_-1206008360', u'MULTIEQUAL_-1206008343'), ('const-23', u'PTRADD_-1206008266'), ('const-417', u'LOAD_-1206008352')]
| null | null |
0002c4c4
|
arm
|
O2
|
(translation_unit "void FUN_0002c4c4(int *param_1)\n\n{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}\n\n" (function_definition "void FUN_0002c4c4(int *param_1)\n\n{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" primitive_type (function_declarator "FUN_0002c4c4(int *param_1)" identifier (parameter_list "(int *param_1)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (if_statement "if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }" if (parenthesized_expression "(*(char *)(*param_1 + 0x958) == '\0')" ( (binary_expression "*(char *)(*param_1 + 0x958) == '\0'" (pointer_expression "*(char *)(*param_1 + 0x958)" * (cast_expression "(char *)(*param_1 + 0x958)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*param_1 + 0x958)" ( (binary_expression "*param_1 + 0x958" (pointer_expression "*param_1" * identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 599) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 599) == '\0'" (pointer_expression "*(char *)((int)param_1 + 599)" * (cast_expression "(char *)((int)param_1 + 599)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 599)" ( (binary_expression "(int)param_1 + 599" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }" { (if_statement "if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 0x256) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 0x256) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x256)" * (cast_expression "(char *)((int)param_1 + 0x256)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x256)" ( (binary_expression "(int)param_1 + 0x256" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }" { (if_statement "if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 0x253) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 0x253) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x253)" * (cast_expression "(char *)((int)param_1 + 0x253)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x253)" ( (binary_expression "(int)param_1 + 0x253" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n iVar1 = param_1[0x28];\n }" { (expression_statement "iVar1 = param_1[0x28];" (assignment_expression "iVar1 = param_1[0x28]" identifier = (subscript_expression "param_1[0x28]" identifier [ number_literal ])) ;) }) (else_clause "else {\n iVar1 = param_1[0x2e];\n }" else (compound_statement "{\n iVar1 = param_1[0x2e];\n }" { (expression_statement "iVar1 = param_1[0x2e];" (assignment_expression "iVar1 = param_1[0x2e]" identifier = (subscript_expression "param_1[0x2e]" identifier [ number_literal ])) ;) }))) }) (else_clause "else {\n iVar1 = param_1[0x3a];\n }" else (compound_statement "{\n iVar1 = param_1[0x3a];\n }" { (expression_statement "iVar1 = param_1[0x3a];" (assignment_expression "iVar1 = param_1[0x3a]" identifier = (subscript_expression "param_1[0x3a]" identifier [ number_literal ])) ;) }))) }) (else_clause "else {\n iVar1 = param_1[0x32];\n }" else (compound_statement "{\n iVar1 = param_1[0x32];\n }" { (expression_statement "iVar1 = param_1[0x32];" (assignment_expression "iVar1 = param_1[0x32]" identifier = (subscript_expression "param_1[0x32]" identifier [ number_literal ])) ;) }))) (expression_statement "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);" (call_expression "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" identifier (argument_list "(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" ( (pointer_expression "*param_1" * identifier) , (binary_expression "DAT_0002c53c + 0x2c510" identifier + number_literal) , identifier , (binary_expression "param_1 + 0x17" identifier + number_literal) , (subscript_expression "param_1[0x3f]" identifier [ number_literal ]) , (subscript_expression "param_1[0x12]" identifier [ number_literal ]) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Enum "anon_enum_32": Some values do not have unique names */\n\nvoid Curl_verboseconnect(connectdata *conn)\n\n{\n if ((conn->data->set).verbose != false) {\n /* WARNING: Subroutine does not return */\n Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);\n }\n return;\n}\n\n" comment (function_definition "void Curl_verboseconnect(connectdata *conn)\n\n{\n if ((conn->data->set).verbose != false) {\n /* WARNING: Subroutine does not return */\n Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);\n }\n return;\n}" primitive_type (function_declarator "Curl_verboseconnect(connectdata *conn)" identifier (parameter_list "(connectdata *conn)" ( (parameter_declaration "connectdata *conn" type_identifier (pointer_declarator "*conn" * identifier)) ))) (compound_statement "{\n if ((conn->data->set).verbose != false) {\n /* WARNING: Subroutine does not return */\n Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);\n }\n return;\n}" { (if_statement "if ((conn->data->set).verbose != false) {\n /* WARNING: Subroutine does not return */\n Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);\n }" if (parenthesized_expression "((conn->data->set).verbose != false)" ( (binary_expression "(conn->data->set).verbose != false" (field_expression "(conn->data->set).verbose" (parenthesized_expression "(conn->data->set)" ( (field_expression "conn->data->set" (field_expression "conn->data" identifier -> field_identifier) -> field_identifier) )) . field_identifier) != false) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);\n }" { comment (expression_statement "Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c);" (call_expression "Curl_infof(conn->data,&UNK_0002c510 + DAT_0002c53c)" identifier (argument_list "(conn->data,&UNK_0002c510 + DAT_0002c53c)" ( (field_expression "conn->data" identifier -> field_identifier) , (binary_expression "&UNK_0002c510 + DAT_0002c53c" (pointer_expression "&UNK_0002c510" & identifier) + identifier) ))) ;) })) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_0002c4c4(int *param_1)\n\n{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}\n\n" (function_definition "void FUN_0002c4c4(int *param_1)\n\n{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" primitive_type (function_declarator "FUN_0002c4c4(int *param_1)" identifier (parameter_list "(int *param_1)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (if_statement "if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }" if (parenthesized_expression "(*(char *)(*param_1 + 0x958) == '\0')" ( (binary_expression "*(char *)(*param_1 + 0x958) == '\0'" (pointer_expression "*(char *)(*param_1 + 0x958)" * (cast_expression "(char *)(*param_1 + 0x958)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*param_1 + 0x958)" ( (binary_expression "*param_1 + 0x958" (pointer_expression "*param_1" * identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 599) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 599) == '\0'" (pointer_expression "*(char *)((int)param_1 + 599)" * (cast_expression "(char *)((int)param_1 + 599)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 599)" ( (binary_expression "(int)param_1 + 599" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }" { (if_statement "if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 0x256) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 0x256) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x256)" * (cast_expression "(char *)((int)param_1 + 0x256)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x256)" ( (binary_expression "(int)param_1 + 0x256" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }" { (if_statement "if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }" if (parenthesized_expression "(*(char *)((int)param_1 + 0x253) == '\0')" ( (binary_expression "*(char *)((int)param_1 + 0x253) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x253)" * (cast_expression "(char *)((int)param_1 + 0x253)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x253)" ( (binary_expression "(int)param_1 + 0x253" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n iVar1 = param_1[0x28];\n }" { (expression_statement "iVar1 = param_1[0x28];" (assignment_expression "iVar1 = param_1[0x28]" identifier = (subscript_expression "param_1[0x28]" identifier [ number_literal ])) ;) }) (else_clause "else {\n iVar1 = param_1[0x2e];\n }" else (compound_statement "{\n iVar1 = param_1[0x2e];\n }" { (expression_statement "iVar1 = param_1[0x2e];" (assignment_expression "iVar1 = param_1[0x2e]" identifier = (subscript_expression "param_1[0x2e]" identifier [ number_literal ])) ;) }))) }) (else_clause "else {\n iVar1 = param_1[0x3a];\n }" else (compound_statement "{\n iVar1 = param_1[0x3a];\n }" { (expression_statement "iVar1 = param_1[0x3a];" (assignment_expression "iVar1 = param_1[0x3a]" identifier = (subscript_expression "param_1[0x3a]" identifier [ number_literal ])) ;) }))) }) (else_clause "else {\n iVar1 = param_1[0x32];\n }" else (compound_statement "{\n iVar1 = param_1[0x32];\n }" { (expression_statement "iVar1 = param_1[0x32];" (assignment_expression "iVar1 = param_1[0x32]" identifier = (subscript_expression "param_1[0x32]" identifier [ number_literal ])) ;) }))) (expression_statement "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);" (call_expression "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" identifier (argument_list "(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" ( (pointer_expression "*param_1" * identifier) , (binary_expression "DAT_0002c53c + 0x2c510" identifier + number_literal) , identifier , (binary_expression "param_1 + 0x17" identifier + number_literal) , (subscript_expression "param_1[0x3f]" identifier [ number_literal ]) , (subscript_expression "param_1[0x12]" identifier [ number_literal ]) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (return_statement return ;) })) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) }))) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) }))) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) }))) (expression_statement (call_expression IDENT (argument_list ( (pointer_expression * IDENT) , (binary_expression IDENT + LIT) , IDENT , (binary_expression IDENT + LIT) , (subscript_expression IDENT [ LIT ]) , (subscript_expression IDENT [ LIT ]) ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0002c4c4(int *param_1)\n\n{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" (primitive_type "void") (function_declarator "FUN_0002c4c4(int *param_1)" (identifier "FUN_0002c4c4") (parameter_list "(int *param_1)" (( "(") (parameter_declaration "int *param_1" (primitive_type "int") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")"))) (compound_statement "{\n int iVar1;\n \n if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }\n if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }\n FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);\n return;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (if_statement "if (*(char *)(*param_1 + 0x958) == '\0') {\n return;\n }" (if "if") (parenthesized_expression "(*(char *)(*param_1 + 0x958) == '\0')" (( "(") (binary_expression "*(char *)(*param_1 + 0x958) == '\0'" (pointer_expression "*(char *)(*param_1 + 0x958)" (* "*") (cast_expression "(char *)(*param_1 + 0x958)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*param_1 + 0x958)" (( "(") (binary_expression "*param_1 + 0x958" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (+ "+") (number_literal "0x958")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (if_statement "if (*(char *)((int)param_1 + 599) == '\0') {\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }\n else {\n iVar1 = param_1[0x32];\n }" (if "if") (parenthesized_expression "(*(char *)((int)param_1 + 599) == '\0')" (( "(") (binary_expression "*(char *)((int)param_1 + 599) == '\0'" (pointer_expression "*(char *)((int)param_1 + 599)" (* "*") (cast_expression "(char *)((int)param_1 + 599)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_1 + 599)" (( "(") (binary_expression "(int)param_1 + 599" (cast_expression "(int)param_1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_1")) (+ "+") (number_literal "599")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }\n }" ({ "{") (if_statement "if (*(char *)((int)param_1 + 0x256) == '\0') {\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }\n else {\n iVar1 = param_1[0x3a];\n }" (if "if") (parenthesized_expression "(*(char *)((int)param_1 + 0x256) == '\0')" (( "(") (binary_expression "*(char *)((int)param_1 + 0x256) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x256)" (* "*") (cast_expression "(char *)((int)param_1 + 0x256)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_1 + 0x256)" (( "(") (binary_expression "(int)param_1 + 0x256" (cast_expression "(int)param_1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_1")) (+ "+") (number_literal "0x256")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }\n }" ({ "{") (if_statement "if (*(char *)((int)param_1 + 0x253) == '\0') {\n iVar1 = param_1[0x28];\n }\n else {\n iVar1 = param_1[0x2e];\n }" (if "if") (parenthesized_expression "(*(char *)((int)param_1 + 0x253) == '\0')" (( "(") (binary_expression "*(char *)((int)param_1 + 0x253) == '\0'" (pointer_expression "*(char *)((int)param_1 + 0x253)" (* "*") (cast_expression "(char *)((int)param_1 + 0x253)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_1 + 0x253)" (( "(") (binary_expression "(int)param_1 + 0x253" (cast_expression "(int)param_1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_1")) (+ "+") (number_literal "0x253")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n iVar1 = param_1[0x28];\n }" ({ "{") (expression_statement "iVar1 = param_1[0x28];" (assignment_expression "iVar1 = param_1[0x28]" (identifier "iVar1") (= "=") (subscript_expression "param_1[0x28]" (identifier "param_1") ([ "[") (number_literal "0x28") (] "]"))) (; ";")) (} "}")) (else_clause "else {\n iVar1 = param_1[0x2e];\n }" (else "else") (compound_statement "{\n iVar1 = param_1[0x2e];\n }" ({ "{") (expression_statement "iVar1 = param_1[0x2e];" (assignment_expression "iVar1 = param_1[0x2e]" (identifier "iVar1") (= "=") (subscript_expression "param_1[0x2e]" (identifier "param_1") ([ "[") (number_literal "0x2e") (] "]"))) (; ";")) (} "}")))) (} "}")) (else_clause "else {\n iVar1 = param_1[0x3a];\n }" (else "else") (compound_statement "{\n iVar1 = param_1[0x3a];\n }" ({ "{") (expression_statement "iVar1 = param_1[0x3a];" (assignment_expression "iVar1 = param_1[0x3a]" (identifier "iVar1") (= "=") (subscript_expression "param_1[0x3a]" (identifier "param_1") ([ "[") (number_literal "0x3a") (] "]"))) (; ";")) (} "}")))) (} "}")) (else_clause "else {\n iVar1 = param_1[0x32];\n }" (else "else") (compound_statement "{\n iVar1 = param_1[0x32];\n }" ({ "{") (expression_statement "iVar1 = param_1[0x32];" (assignment_expression "iVar1 = param_1[0x32]" (identifier "iVar1") (= "=") (subscript_expression "param_1[0x32]" (identifier "param_1") ([ "[") (number_literal "0x32") (] "]"))) (; ";")) (} "}")))) (expression_statement "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);" (call_expression "FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" (identifier "FUN_00025198") (argument_list "(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12])" (( "(") (pointer_expression "*param_1" (* "*") (identifier "param_1")) (, ",") (binary_expression "DAT_0002c53c + 0x2c510" (identifier "DAT_0002c53c") (+ "+") (number_literal "0x2c510")) (, ",") (identifier "iVar1") (, ",") (binary_expression "param_1 + 0x17" (identifier "param_1") (+ "+") (number_literal "0x17")) (, ",") (subscript_expression "param_1[0x3f]" (identifier "param_1") ([ "[") (number_literal "0x3f") (] "]")) (, ",") (subscript_expression "param_1[0x12]" (identifier "param_1") ([ "[") (number_literal "0x12") (] "]")) () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void function_1(type_1 *conn)
{
if ((conn->data->set).verbose != false) {
/* WARNING: Subroutine does not return */
var_1(conn->data,&UNK_0002c510 + var_2);
}
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (return_statement))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (binary_expression left: (identifier) right: (number_literal)) (identifier) (binary_expression left: (identifier) right: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal))))) (return_statement))))
|
void MASKED(int *param_1)
{
int iVar1;
if (*(char *)(*param_1 + 0x958) == '\0') {
return;
}
if (*(char *)((int)param_1 + 599) == '\0') {
if (*(char *)((int)param_1 + 0x256) == '\0') {
if (*(char *)((int)param_1 + 0x253) == '\0') {
iVar1 = param_1[0x28];
}
else {
iVar1 = param_1[0x2e];
}
}
else {
iVar1 = param_1[0x3a];
}
}
else {
iVar1 = param_1[0x32];
}
FUN_00025198(*param_1,DAT_0002c53c + 0x2c510,iVar1,param_1 + 0x17,param_1[0x3f],param_1[0x12]);
return;
}
| 62,592 |
||
89_join_and_join_strip.c
|
clone_quoting_options
|
FUN_00015818
|
quoting_options * clone_quoting_options(quoting_options *o)
{
int *piVar1;
quoting_options *pqVar2;
int iVar3;
piVar1 = __errno_location();
iVar3 = *piVar1;
if (o == (quoting_options *)0x0) {
o = (quoting_options *)(DAT_00015858 + 0x15954);
}
pqVar2 = (quoting_options *)xmemdup(o,0x30);
*piVar1 = iVar3;
return pqVar2;
}
|
void FUN_00015818(int param_1)
{
int *piVar1;
int iVar2;
piVar1 = __errno_location();
iVar2 = *piVar1;
if (param_1 == 0) {
param_1 = DAT_00015858 + 0x15954;
}
FUN_00016750(param_1,0x30);
*piVar1 = iVar2;
return;
}
|
stmdb sp!,{r4,r5,r6,lr}
cpy r4,r0
bl 0x00011018
cmp r4,#0x0
cpy r5,r0
ldr r6,[r0,#0x0]
beq 0x00015848
cpy r0,r4
mov r1,#0x30
bl 0x00016750
str r6,[r5,#0x0]
ldmia sp!,{r4,r5,r6,pc}
ldr r4,[0x15858]
add r4,pc,r4
add r4,r4,#0x100
b 0x00015834
| null | null | null | null |
[('const-417', u'LOAD_-1205970867'), ('tmp_234', u'BRANCH_-1205970771'), ('const-417', u'STORE_-1205970828'), ('const-88404', u'INT_ADD_-1205970763'), (u'CALL_-1205970893', u'INDIRECT_-1205970709'), (u'INT_EQUAL_-1205970873', u'CBRANCH_-1205970859'), (u'CALL_-1205970893', u'LOAD_-1205970867'), ('tmp_239', u'INT_EQUAL_-1205970873'), (u'CAST_-1205970665', u'RETURN_-1205970802'), (u'LOAD_-1205970867', u'STORE_-1205970828'), (u'STORE_-1205970828', u'INDIRECT_-1205970674'), (u'INDIRECT_-1205970709', u'INT_ADD_-1205970763'), (u'MULTIEQUAL_-1205970732', u'CALL_-1205970830'), ('const-48', u'CALL_-1205970830'), (u'CALL_-1205970830', u'CAST_-1205970665'), (u'CALL_-1205970893', u'STORE_-1205970828'), (u'CALL_-1205970830', u'INDIRECT_-1205970680'), (u'CAST_-1205970646', u'MULTIEQUAL_-1205970732'), ('const-0', u'INT_EQUAL_-1205970873'), ('tmp_239', u'MULTIEQUAL_-1205970732'), ('tmp_88', u'CBRANCH_-1205970859'), (u'INDIRECT_-1205970674', u'COPY_-1205970731'), (u'INT_ADD_-1205970763', u'CAST_-1205970646'), ('const-0', u'RETURN_-1205970802')]
|
[('tmp_396', u'MULTIEQUAL_-1205970731'), (u'CALL_-1205970893', u'INDIRECT_-1205970708'), (u'CALL_-1205970893', u'STORE_-1205970828'), ('tmp_234', u'BRANCH_-1205970771'), (u'INT_ADD_-1205970763', u'MULTIEQUAL_-1205970731'), ('const-0', u'INT_EQUAL_-1205970873'), (u'INDIRECT_-1205970673', u'COPY_-1205970730'), (u'INT_EQUAL_-1205970873', u'CBRANCH_-1205970859'), (u'CALL_-1205970893', u'LOAD_-1205970867'), (u'CALL_-1205970830', u'INDIRECT_-1205970679'), ('tmp_88', u'CBRANCH_-1205970859'), (u'MULTIEQUAL_-1205970731', u'CALL_-1205970830'), ('const-417', u'LOAD_-1205970867'), ('const-48', u'CALL_-1205970830'), ('tmp_396', u'INT_EQUAL_-1205970873'), ('const-88404', u'INT_ADD_-1205970763'), (u'STORE_-1205970828', u'INDIRECT_-1205970673'), ('const-417', u'STORE_-1205970828'), ('const-0', u'RETURN_-1205970802'), (u'LOAD_-1205970867', u'STORE_-1205970828'), (u'INDIRECT_-1205970708', u'INT_ADD_-1205970763')]
| null | null |
00015818
|
arm
|
O2
|
(translation_unit "void FUN_00015818(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}\n\n" (function_definition "void FUN_00015818(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" primitive_type (function_declarator "FUN_00015818(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "piVar1 = __errno_location();" (assignment_expression "piVar1 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (if_statement "if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }" if (parenthesized_expression "(param_1 == 0)" ( (binary_expression "param_1 == 0" identifier == number_literal) )) (compound_statement "{\n param_1 = DAT_00015858 + 0x15954;\n }" { (expression_statement "param_1 = DAT_00015858 + 0x15954;" (assignment_expression "param_1 = DAT_00015858 + 0x15954" identifier = (binary_expression "DAT_00015858 + 0x15954" identifier + number_literal)) ;) })) (expression_statement "FUN_00016750(param_1,0x30);" (call_expression "FUN_00016750(param_1,0x30)" identifier (argument_list "(param_1,0x30)" ( identifier , number_literal ))) ;) (expression_statement "*piVar1 = iVar2;" (assignment_expression "*piVar1 = iVar2" (pointer_expression "*piVar1" * identifier) = identifier) ;) (return_statement "return;" return ;) })))
|
(translation_unit "quoting_options * clone_quoting_options(quoting_options *o)\n\n{\n int *piVar1;\n quoting_options *pqVar2;\n int iVar3;\n \n piVar1 = __errno_location();\n iVar3 = *piVar1;\n if (o == (quoting_options *)0x0) {\n o = (quoting_options *)(DAT_00015858 + 0x15954);\n }\n pqVar2 = (quoting_options *)xmemdup(o,0x30);\n *piVar1 = iVar3;\n return pqVar2;\n}\n\n" (function_definition "quoting_options * clone_quoting_options(quoting_options *o)\n\n{\n int *piVar1;\n quoting_options *pqVar2;\n int iVar3;\n \n piVar1 = __errno_location();\n iVar3 = *piVar1;\n if (o == (quoting_options *)0x0) {\n o = (quoting_options *)(DAT_00015858 + 0x15954);\n }\n pqVar2 = (quoting_options *)xmemdup(o,0x30);\n *piVar1 = iVar3;\n return pqVar2;\n}" type_identifier (pointer_declarator "* clone_quoting_options(quoting_options *o)" * (function_declarator "clone_quoting_options(quoting_options *o)" identifier (parameter_list "(quoting_options *o)" ( (parameter_declaration "quoting_options *o" type_identifier (pointer_declarator "*o" * identifier)) )))) (compound_statement "{\n int *piVar1;\n quoting_options *pqVar2;\n int iVar3;\n \n piVar1 = __errno_location();\n iVar3 = *piVar1;\n if (o == (quoting_options *)0x0) {\n o = (quoting_options *)(DAT_00015858 + 0x15954);\n }\n pqVar2 = (quoting_options *)xmemdup(o,0x30);\n *piVar1 = iVar3;\n return pqVar2;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "quoting_options *pqVar2;" type_identifier (pointer_declarator "*pqVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "piVar1 = __errno_location();" (assignment_expression "piVar1 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar3 = *piVar1;" (assignment_expression "iVar3 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (if_statement "if (o == (quoting_options *)0x0) {\n o = (quoting_options *)(DAT_00015858 + 0x15954);\n }" if (parenthesized_expression "(o == (quoting_options *)0x0)" ( (binary_expression "o == (quoting_options *)0x0" identifier == (cast_expression "(quoting_options *)0x0" ( (type_descriptor "quoting_options *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n o = (quoting_options *)(DAT_00015858 + 0x15954);\n }" { (expression_statement "o = (quoting_options *)(DAT_00015858 + 0x15954);" (assignment_expression "o = (quoting_options *)(DAT_00015858 + 0x15954)" identifier = (cast_expression "(quoting_options *)(DAT_00015858 + 0x15954)" ( (type_descriptor "quoting_options *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00015858 + 0x15954)" ( (binary_expression "DAT_00015858 + 0x15954" identifier + number_literal) )))) ;) })) (expression_statement "pqVar2 = (quoting_options *)xmemdup(o,0x30);" (assignment_expression "pqVar2 = (quoting_options *)xmemdup(o,0x30)" identifier = (cast_expression "(quoting_options *)xmemdup(o,0x30)" ( (type_descriptor "quoting_options *" type_identifier (abstract_pointer_declarator "*" *)) ) (call_expression "xmemdup(o,0x30)" identifier (argument_list "(o,0x30)" ( identifier , number_literal ))))) ;) (expression_statement "*piVar1 = iVar3;" (assignment_expression "*piVar1 = iVar3" (pointer_expression "*piVar1" * identifier) = identifier) ;) (return_statement "return pqVar2;" return identifier ;) })))
|
(translation_unit "void FUN_00015818(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}\n\n" (function_definition "void FUN_00015818(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" primitive_type (function_declarator "FUN_00015818(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "piVar1 = __errno_location();" (assignment_expression "piVar1 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (if_statement "if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }" if (parenthesized_expression "(param_1 == 0)" ( (binary_expression "param_1 == 0" identifier == number_literal) )) (compound_statement "{\n param_1 = DAT_00015858 + 0x15954;\n }" { (expression_statement "param_1 = DAT_00015858 + 0x15954;" (assignment_expression "param_1 = DAT_00015858 + 0x15954" identifier = (binary_expression "DAT_00015858 + 0x15954" identifier + number_literal)) ;) })) (expression_statement "FUN_00016750(param_1,0x30);" (call_expression "FUN_00016750(param_1,0x30)" identifier (argument_list "(param_1,0x30)" ( identifier , number_literal ))) ;) (expression_statement "*piVar1 = iVar2;" (assignment_expression "*piVar1 = iVar2" (pointer_expression "*piVar1" * identifier) = identifier) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT ))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00015818(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" (primitive_type "void") (function_declarator "FUN_00015818(int param_1)" (identifier "FUN_00015818") (parameter_list "(int param_1)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) () ")"))) (compound_statement "{\n int *piVar1;\n int iVar2;\n \n piVar1 = __errno_location();\n iVar2 = *piVar1;\n if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }\n FUN_00016750(param_1,0x30);\n *piVar1 = iVar2;\n return;\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (expression_statement "piVar1 = __errno_location();" (assignment_expression "piVar1 = __errno_location()" (identifier "piVar1") (= "=") (call_expression "__errno_location()" (identifier "__errno_location") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" (identifier "iVar2") (= "=") (pointer_expression "*piVar1" (* "*") (identifier "piVar1"))) (; ";")) (if_statement "if (param_1 == 0) {\n param_1 = DAT_00015858 + 0x15954;\n }" (if "if") (parenthesized_expression "(param_1 == 0)" (( "(") (binary_expression "param_1 == 0" (identifier "param_1") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n param_1 = DAT_00015858 + 0x15954;\n }" ({ "{") (expression_statement "param_1 = DAT_00015858 + 0x15954;" (assignment_expression "param_1 = DAT_00015858 + 0x15954" (identifier "param_1") (= "=") (binary_expression "DAT_00015858 + 0x15954" (identifier "DAT_00015858") (+ "+") (number_literal "0x15954"))) (; ";")) (} "}"))) (expression_statement "FUN_00016750(param_1,0x30);" (call_expression "FUN_00016750(param_1,0x30)" (identifier "FUN_00016750") (argument_list "(param_1,0x30)" (( "(") (identifier "param_1") (, ",") (number_literal "0x30") () ")"))) (; ";")) (expression_statement "*piVar1 = iVar2;" (assignment_expression "*piVar1 = iVar2" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (= "=") (identifier "iVar2")) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
type_1 * function_1(type_1 *var_2)
{
int *piVar1;
type_1 *pqVar2;
int iVar3;
piVar1 = var_1();
iVar3 = *piVar1;
if (var_2 == (type_1 *)0x0) {
var_2 = (type_1 *)(var_3 + 0x15954);
}
pqVar2 = (type_1 *)var_4(var_2,0x30);
*piVar1 = iVar3;
return pqVar2;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (return_statement))))
|
void MASKED(int param_1)
{
int *piVar1;
int iVar2;
piVar1 = __errno_location();
iVar2 = *piVar1;
if (param_1 == 0) {
param_1 = DAT_00015858 + 0x15954;
}
FUN_00016750(param_1,0x30);
*piVar1 = iVar2;
return;
}
| 2,568 |
||
716_pageant_and_pageant_strip.c
|
__fprintf_chk
|
__fprintf_chk
|
/* WARNING: Control flow encountered bad instruction data */
void __fprintf_chk(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __fprintf_chk@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void __fprintf_chk(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206296390')]
|
[('const-1', u'RETURN_-1206296390')]
| null | null |
000660b0
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__fprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __fprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment (function_definition "void __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __fprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "__fprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __fprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__fprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void __fprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "__fprintf_chk(void)" (identifier "__fprintf_chk") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __fprintf_chk@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 40,774 |
||
96_libgmp.so.10.3_and_libgmp.so.10.3_strip.c
|
__gmpn_dcpi1_divappr_q
|
__gmpn_dcpi1_divappr_q
|
mp_limb_t __gmpn_dcpi1_divappr_q
(mp_ptr qp,mp_ptr np,mp_size_t nn,mp_srcptr dp,mp_size_t dn,gmp_pi1_t *dinv)
{
mp_limb_t mVar1;
mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();
return mVar1;
}
|
void __gmpn_dcpi1_divappr_q(void)
{
(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();
return;
}
|
adr r12,0x17f98
add r12,r12,#0x67000
ldr pc,[r12,#0x204]!
| null | null | null | null |
[(u'INDIRECT_-1205960708', u'COPY_-1205960767'), ('tmp_148', u'CAST_-1205960701'), (u'CALLIND_-1205960781', u'RETURN_-1205960778'), (u'CAST_-1205960701', u'CALLIND_-1205960781'), (u'CALLIND_-1205960781', u'INDIRECT_-1205960708'), ('const-0', u'RETURN_-1205960778')]
|
[(u'INDIRECT_-1205960712', u'COPY_-1205960771'), (u'CALLIND_-1205960781', u'INDIRECT_-1205960712'), ('const-0', u'RETURN_-1205960778'), (u'CAST_-1205960707', u'CALLIND_-1205960781'), ('tmp_113', u'CAST_-1205960707')]
| null | null |
00017f90
|
arm
|
O2
|
(translation_unit "void __gmpn_dcpi1_divappr_q(void)\n\n{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}\n\n" (function_definition "void __gmpn_dcpi1_divappr_q(void)\n\n{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" primitive_type (function_declarator "__gmpn_dcpi1_divappr_q(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" { (expression_statement "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();" (call_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)()" (parenthesized_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)" ( (pointer_expression "*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" * (cast_expression "(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "mp_limb_t __gmpn_dcpi1_divappr_q\n (mp_ptr qp,mp_ptr np,mp_size_t nn,mp_srcptr dp,mp_size_t dn,gmp_pi1_t *dinv)\n\n{\n mp_limb_t mVar1;\n \n mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return mVar1;\n}\n\n" (function_definition "mp_limb_t __gmpn_dcpi1_divappr_q\n (mp_ptr qp,mp_ptr np,mp_size_t nn,mp_srcptr dp,mp_size_t dn,gmp_pi1_t *dinv)\n\n{\n mp_limb_t mVar1;\n \n mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return mVar1;\n}" type_identifier (function_declarator "__gmpn_dcpi1_divappr_q\n (mp_ptr qp,mp_ptr np,mp_size_t nn,mp_srcptr dp,mp_size_t dn,gmp_pi1_t *dinv)" identifier (parameter_list "(mp_ptr qp,mp_ptr np,mp_size_t nn,mp_srcptr dp,mp_size_t dn,gmp_pi1_t *dinv)" ( (parameter_declaration "mp_ptr qp" type_identifier identifier) , (parameter_declaration "mp_ptr np" type_identifier identifier) , (parameter_declaration "mp_size_t nn" type_identifier identifier) , (parameter_declaration "mp_srcptr dp" type_identifier identifier) , (parameter_declaration "mp_size_t dn" type_identifier identifier) , (parameter_declaration "gmp_pi1_t *dinv" type_identifier (pointer_declarator "*dinv" * identifier)) ))) (compound_statement "{\n mp_limb_t mVar1;\n \n mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return mVar1;\n}" { (declaration "mp_limb_t mVar1;" type_identifier identifier ;) (expression_statement "mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();" (assignment_expression "mVar1 = (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)()" identifier = (call_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)()" (parenthesized_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)" ( (pointer_expression "*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" * (cast_expression "(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return mVar1;" return identifier ;) })))
|
(translation_unit "void __gmpn_dcpi1_divappr_q(void)\n\n{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}\n\n" (function_definition "void __gmpn_dcpi1_divappr_q(void)\n\n{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" primitive_type (function_declarator "__gmpn_dcpi1_divappr_q(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" { (expression_statement "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();" (call_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)()" (parenthesized_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)" ( (pointer_expression "*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" * (cast_expression "(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void __gmpn_dcpi1_divappr_q(void)\n\n{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" (primitive_type "void") (function_declarator "__gmpn_dcpi1_divappr_q(void)" (identifier "__gmpn_dcpi1_divappr_q") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();" (call_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)()" (parenthesized_expression "(*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c)" (( "(") (pointer_expression "*(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" (* "*") (cast_expression "(code *)PTR___gmpn_dcpi1_divappr_q_0007f19c" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR___gmpn_dcpi1_divappr_q_0007f19c"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
type_1 function_1
(type_2 qp,type_2 np,type_3 nn,type_4 dp,type_3 dn,type_5 *dinv)
{
type_1 mVar1;
mVar1 = (*(type_6 *)PTR___gmpn_dcpi1_divappr_q_0007f19c)();
return mVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_0007f19c)();
return;
}
| 48,984 |
||
1410_puttytel_and_puttytel_strip.c
|
pango_font_description_get_stretch
|
pango_font_description_get_stretch
|
/* WARNING: Control flow encountered bad instruction data */
void pango_font_description_get_stretch(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void pango_font_description_get_stretch(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206475846')]
|
[('const-1', u'RETURN_-1206475846')]
| null | null |
0009a3b0
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_font_description_get_stretch(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_font_description_get_stretch(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_font_description_get_stretch(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void pango_font_description_get_stretch(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "pango_font_description_get_stretch(void)" (identifier "pango_font_description_get_stretch") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 61,228 |
||
471_wget_and_wget_strip.c
|
cleanup
|
FUN_00037d18
|
void cleanup(EVP_PKEY_CTX *ctx)
{
FILE *__stream;
int iVar1;
int iVar2;
iVar2 = DAT_00037da4 + 0x37d2c;
iVar1 = **(int **)(iVar2 + DAT_00037da8);
**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;
if (iVar1 != 0) {
return;
}
if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {
warc_close();
}
log_close();
__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);
if (__stream == (FILE *)0x0) {
return;
}
if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {
return;
}
**(undefined4 **)(iVar2 + DAT_00037db0) = 0;
iVar1 = fclose(__stream);
if (iVar1 != -1) {
return;
}
inform_exit_status(CLOSEFAILED);
return;
}
|
void FUN_00037d18(void)
{
FILE *__stream;
int iVar1;
int iVar2;
iVar2 = DAT_00037da4 + 0x37d2c;
iVar1 = **(int **)(iVar2 + DAT_00037da8);
**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;
if (iVar1 != 0) {
return;
}
if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {
FUN_00046a30();
}
FUN_00038e28();
__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);
if (__stream == (FILE *)0x0) {
return;
}
if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {
return;
}
**(undefined4 **)(iVar2 + DAT_00037db0) = 0;
iVar1 = fclose(__stream);
if (iVar1 != -1) {
return;
}
FUN_0004d204(0x31);
return;
}
|
stmdb sp!,{r4,lr}
ldr r4,[0x37da4]
ldr r3,[0x37da8]
add r4,pc,r4
ldr r2,[r4,r3]
ldr r3,[r2,#0x0]
cmp r3,#0x0
add r3,r3,#0x1
str r3,[r2,#0x0]
ldmiane sp!,{r4,pc}
ldr r3,[0x37dac]
ldr r3,[r4,r3]
ldr r3,[r3,#0x98]
cmp r3,#0x0
beq 0x00037d58
bl 0x00046a30
bl 0x00038e28
ldr r3,[0x37db0]
ldr r3,[r4,r3]
ldr r0,[r3,#0x0]
cmp r0,#0x0
ldmiaeq sp!,{r4,pc}
ldr r2,[0x37db4]
ldr r2,[r4,r2]
ldr r2,[r2,#0x0]
cmp r0,r2
ldmiaeq sp!,{r4,pc}
mov r2,#0x0
str r2,[r3,#0x0]
bl 0x00015500
cmn r0,#0x1
ldmiane sp!,{r4,pc}
mov r0,#0x31
ldmia sp!,{r4,lr}
b 0x0004d204
| null | null | null | null |
[(u'INDIRECT_-1206092048', u'COPY_-1206092084'), ('const-152', u'INT_ADD_-1206092387'), (u'STORE_-1206092241', u'INDIRECT_-1206091991'), (u'INDIRECT_-1206092024', u'COPY_-1206092060'), (u'INDIRECT_-1206091986', u'COPY_-1206092041'), ('const-0', u'INT_NOTEQUAL_-1206092454'), (u'LOAD_-1206092349', u'CAST_-1206091979'), (u'INDIRECT_-1206091983', u'COPY_-1206092030'), (u'CAST_-1206091979', u'INT_EQUAL_-1206092276'), ('const-417', u'LOAD_-1206092355'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092285'), ('const-417', u'STORE_-1206092241'), (u'STORE_-1206092437', u'INDIRECT_-1206092060'), (u'INDIRECT_-1206092072', u'COPY_-1206092108'), (u'LOAD_-1206092486', u'STORE_-1206092437'), ('const-417', u'LOAD_-1206092301'), (u'INDIRECT_-1206092096', u'MULTIEQUAL_-1206092063'), ('tmp_306', u'CBRANCH_-1206092320'), (u'INDIRECT_-1206091998', u'COPY_-1206092053'), ('const-0', u'RETURN_-1206092158'), ('tmp_499', u'CBRANCH_-1206092206'), (u'INDIRECT_-1206092060', u'COPY_-1206092096'), ('const-417', u'LOAD_-1206092480'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092339'), (u'CALL_-1206092162', u'INDIRECT_-1206091986'), ('const-0', u'INT_EQUAL_-1206092324'), (u'INDIRECT_-1206092072', u'COPY_-1206092087'), (u'CAST_-1206091957', u'INT_EQUAL_-1206092276'), (u'INDIRECT_-1206092048', u'MULTIEQUAL_-1206092015'), (u'INDIRECT_-1206092084', u'MULTIEQUAL_-1206092051'), (u'CALL_-1206092162', u'INDIRECT_-1206091998'), (u'CAST_-1206091979', u'CALL_-1206092231'), (u'CALL_-1206092367', u'INDIRECT_-1206092029'), (u'INDIRECT_-1206091950', u'COPY_-1206092005'), (u'CALL_-1206092162', u'INDIRECT_-1206091962'), ('const-417', u'STORE_-1206092437'), (u'INDIRECT_-1206092048', u'COPY_-1206092109'), (u'CALL_-1206092367', u'INDIRECT_-1206092053'), ('const-0', u'RETURN_-1206092190'), (u'CALL_-1206092231', u'INDIRECT_-1206092019'), (u'INDIRECT_-1206092077', u'MULTIEQUAL_-1206092063'), ('tmp_1120', u'INT_ADD_-1206092477'), ('const-417', u'LOAD_-1206092349'), (u'STORE_-1206092437', u'INDIRECT_-1206092048'), (u'INDIRECT_-1206092096', u'COPY_-1206092157'), (u'CALL_-1206092231', u'INDIRECT_-1206091995'), (u'STORE_-1206092437', u'INDIRECT_-1206092084'), ('const-0', u'RETURN_-1206092412'), (u'CAST_-1206091962', u'LOAD_-1206092301'), (u'INT_NOTEQUAL_-1206092210', u'CBRANCH_-1206092206'), ('const-0', u'INT_NOTEQUAL_-1206092377'), (u'INT_EQUAL_-1206092276', u'CBRANCH_-1206092272'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092393'), (u'INDIRECT_-1206092060', u'MULTIEQUAL_-1206092027'), ('tmp_378', u'CBRANCH_-1206092272'), (u'STORE_-1206092437', u'INDIRECT_-1206092072'), (u'INDIRECT_-1206092041', u'MULTIEQUAL_-1206092027'), (u'INT_EQUAL_-1206092324', u'CBRANCH_-1206092320'), (u'INDIRECT_-1206091995', u'COPY_-1206092042'), (u'LOAD_-1206092486', u'LOAD_-1206092480'), (u'INDIRECT_-1206092053', u'MULTIEQUAL_-1206092039'), (u'INDIRECT_-1206091974', u'COPY_-1206092029'), ('const-0', u'RETURN_-1206092304'), (u'INDIRECT_-1206091962', u'COPY_-1206092017'), (u'CALL_-1206092361', u'INDIRECT_-1206092048'), (u'INT_ADD_-1206092429', u'STORE_-1206092437'), (u'INDIRECT_-1206092019', u'COPY_-1206092066'), (u'LOAD_-1206092480', u'INT_ADD_-1206092429'), ('const-417', u'LOAD_-1206092295'), (u'INDIRECT_-1206092060', u'COPY_-1206092121'), (u'INDIRECT_-1206092036', u'COPY_-1206092051'), (u'CALL_-1206092162', u'INDIRECT_-1206091950'), (u'INDIRECT_-1206092024', u'COPY_-1206092039'), (u'INDIRECT_-1206092072', u'MULTIEQUAL_-1206092039'), (u'INDIRECT_-1206092048', u'COPY_-1206092063'), (u'INT_NOTEQUAL_-1206092454', u'CBRANCH_-1206092428'), (u'CALL_-1206092162', u'INDIRECT_-1206091974'), ('const-417', u'LOAD_-1206092403'), ('tmp_1121', u'INT_ADD_-1206092470'), (u'INDIRECT_-1206092036', u'COPY_-1206092072'), (u'INDIRECT_-1206092065', u'MULTIEQUAL_-1206092051'), (u'STORE_-1206092241', u'INDIRECT_-1206092003'), (u'CALL_-1206092361', u'INDIRECT_-1206092060'), (u'LOAD_-1206092355', u'LOAD_-1206092349'), (u'INDIRECT_-1206092072', u'COPY_-1206092133'), (u'INT_ADD_-1206092393', u'CAST_-1206092014'), ('tmp_235', u'CBRANCH_-1206092375'), ('const-417', u'LOAD_-1206092409'), (u'CALL_-1206092361', u'INDIRECT_-1206092072'), (u'LOAD_-1206092295', u'CAST_-1206091957'), (u'INDIRECT_-1206092024', u'INT_ADD_-1206092285'), (u'INDIRECT_-1206092084', u'COPY_-1206092145'), (u'INDIRECT_-1206091971', u'COPY_-1206092018'), (u'CAST_-1206092014', u'LOAD_-1206092409'), (u'LOAD_-1206092403', u'INT_NOTEQUAL_-1206092377'), (u'CALL_-1206092231', u'INDIRECT_-1206092007'), (u'LOAD_-1206092480', u'INT_NOTEQUAL_-1206092454'), ('const-0', u'STORE_-1206092241'), ('const-4294967295', u'INT_NOTEQUAL_-1206092210'), (u'STORE_-1206092241', u'INDIRECT_-1206091979'), (u'INT_NOTEQUAL_-1206092377', u'CBRANCH_-1206092375'), (u'INDIRECT_-1206092036', u'INT_ADD_-1206092339'), (u'INDIRECT_-1206092060', u'COPY_-1206092075'), ('const-417', u'LOAD_-1206092486'), (u'INT_ADD_-1206092285', u'CAST_-1206091962'), (u'CAST_-1206092043', u'LOAD_-1206092486'), (u'LOAD_-1206092355', u'STORE_-1206092241'), (u'CALL_-1206092231', u'INDIRECT_-1206091983'), (u'CAST_-1206092009', u'LOAD_-1206092403'), (u'INT_ADD_-1206092470', u'CAST_-1206092043'), (u'INDIRECT_-1206092029', u'MULTIEQUAL_-1206092015'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092470'), (u'CALL_-1206092367', u'INDIRECT_-1206092065'), (u'LOAD_-1206092301', u'LOAD_-1206092295'), (u'CALL_-1206092231', u'INDIRECT_-1206091971'), (u'CAST_-1206091979', u'INT_EQUAL_-1206092324'), ('const-1', u'INT_ADD_-1206092429'), (u'CALL_-1206092361', u'INDIRECT_-1206092024'), (u'INT_ADD_-1206092339', u'CAST_-1206091984'), (u'INDIRECT_-1206092007', u'COPY_-1206092054'), ('tmp_146', u'CBRANCH_-1206092428'), (u'CAST_-1206091984', u'LOAD_-1206092355'), ('const-0', u'RETURN_-1206092256'), (u'STORE_-1206092241', u'INDIRECT_-1206091967'), (u'CALL_-1206092367', u'INDIRECT_-1206092041'), (u'INDIRECT_-1206092072', u'INT_ADD_-1206092393'), ('const-228652', u'INT_ADD_-1206092477'), (u'STORE_-1206092437', u'INDIRECT_-1206092096'), (u'LOAD_-1206092409', u'INT_ADD_-1206092387'), (u'CALL_-1206092361', u'INDIRECT_-1206092036'), ('const-49', u'CALL_-1206092162'), (u'STORE_-1206092241', u'INDIRECT_-1206092015'), (u'CALL_-1206092231', u'INT_NOTEQUAL_-1206092210'), (u'INT_ADD_-1206092387', u'CAST_-1206092009'), (u'CALL_-1206092367', u'INDIRECT_-1206092077')]
|
[('const-152', u'INT_ADD_-1206092387'), (u'INDIRECT_-1206092048', u'COPY_-1206092084'), (u'STORE_-1206092241', u'INDIRECT_-1206091991'), (u'INDIRECT_-1206092024', u'COPY_-1206092060'), (u'INDIRECT_-1206091986', u'COPY_-1206092041'), (u'LOAD_-1206092349', u'CAST_-1206091979'), (u'INDIRECT_-1206091983', u'COPY_-1206092030'), (u'CAST_-1206091979', u'INT_EQUAL_-1206092276'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092285'), (u'STORE_-1206092437', u'INDIRECT_-1206092060'), (u'INDIRECT_-1206092072', u'COPY_-1206092108'), (u'LOAD_-1206092486', u'STORE_-1206092437'), (u'INDIRECT_-1206092096', u'MULTIEQUAL_-1206092063'), ('const-0', u'INT_NOTEQUAL_-1206092377'), ('tmp_306', u'CBRANCH_-1206092320'), (u'INDIRECT_-1206091998', u'COPY_-1206092053'), ('const-0', u'RETURN_-1206092158'), ('tmp_499', u'CBRANCH_-1206092206'), (u'INDIRECT_-1206092060', u'COPY_-1206092096'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092339'), ('const-417', u'LOAD_-1206092349'), (u'CALL_-1206092162', u'INDIRECT_-1206091986'), (u'INDIRECT_-1206092072', u'COPY_-1206092087'), (u'CAST_-1206091957', u'INT_EQUAL_-1206092276'), (u'INDIRECT_-1206092048', u'MULTIEQUAL_-1206092015'), (u'INDIRECT_-1206092084', u'MULTIEQUAL_-1206092051'), (u'CALL_-1206092162', u'INDIRECT_-1206091998'), (u'CAST_-1206091979', u'CALL_-1206092231'), ('const-4294967295', u'INT_NOTEQUAL_-1206092210'), (u'CALL_-1206092367', u'INDIRECT_-1206092029'), (u'INDIRECT_-1206091950', u'COPY_-1206092005'), (u'CALL_-1206092162', u'INDIRECT_-1206091962'), ('const-417', u'LOAD_-1206092409'), (u'INDIRECT_-1206092048', u'COPY_-1206092109'), (u'CALL_-1206092367', u'INDIRECT_-1206092053'), ('const-0', u'RETURN_-1206092190'), (u'CALL_-1206092231', u'INDIRECT_-1206092019'), (u'INDIRECT_-1206092077', u'MULTIEQUAL_-1206092063'), ('const-0', u'INT_NOTEQUAL_-1206092454'), (u'STORE_-1206092437', u'INDIRECT_-1206092048'), (u'INDIRECT_-1206092096', u'COPY_-1206092157'), (u'CALL_-1206092231', u'INDIRECT_-1206091995'), (u'STORE_-1206092437', u'INDIRECT_-1206092084'), ('const-0', u'RETURN_-1206092412'), ('const-417', u'LOAD_-1206092301'), (u'CAST_-1206091962', u'LOAD_-1206092301'), (u'INT_NOTEQUAL_-1206092210', u'CBRANCH_-1206092206'), (u'INT_EQUAL_-1206092276', u'CBRANCH_-1206092272'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092393'), (u'INDIRECT_-1206092060', u'MULTIEQUAL_-1206092027'), ('tmp_378', u'CBRANCH_-1206092272'), (u'STORE_-1206092437', u'INDIRECT_-1206092072'), (u'INDIRECT_-1206092041', u'MULTIEQUAL_-1206092027'), (u'INT_EQUAL_-1206092324', u'CBRANCH_-1206092320'), ('const-417', u'LOAD_-1206092480'), (u'INDIRECT_-1206091995', u'COPY_-1206092042'), ('const-49', u'CALL_-1206092162'), (u'LOAD_-1206092486', u'LOAD_-1206092480'), (u'INDIRECT_-1206092053', u'MULTIEQUAL_-1206092039'), ('tmp_1140', u'INT_ADD_-1206092477'), (u'INDIRECT_-1206091974', u'COPY_-1206092029'), ('const-0', u'RETURN_-1206092304'), (u'INDIRECT_-1206091962', u'COPY_-1206092017'), ('const-417', u'LOAD_-1206092403'), (u'CALL_-1206092361', u'INDIRECT_-1206092048'), (u'INT_ADD_-1206092429', u'STORE_-1206092437'), (u'INDIRECT_-1206092019', u'COPY_-1206092066'), (u'LOAD_-1206092480', u'INT_ADD_-1206092429'), (u'INDIRECT_-1206092060', u'COPY_-1206092121'), (u'INDIRECT_-1206092036', u'COPY_-1206092051'), (u'CALL_-1206092162', u'INDIRECT_-1206091950'), (u'INDIRECT_-1206092024', u'COPY_-1206092039'), ('tmp_1141', u'INT_ADD_-1206092470'), (u'INDIRECT_-1206092072', u'MULTIEQUAL_-1206092039'), ('const-417', u'LOAD_-1206092355'), (u'INDIRECT_-1206092048', u'COPY_-1206092063'), (u'INT_NOTEQUAL_-1206092454', u'CBRANCH_-1206092428'), (u'CALL_-1206092162', u'INDIRECT_-1206091974'), ('const-0', u'STORE_-1206092241'), (u'INDIRECT_-1206092036', u'COPY_-1206092072'), (u'INDIRECT_-1206092065', u'MULTIEQUAL_-1206092051'), (u'STORE_-1206092241', u'INDIRECT_-1206092003'), (u'CALL_-1206092361', u'INDIRECT_-1206092060'), (u'LOAD_-1206092355', u'LOAD_-1206092349'), (u'INDIRECT_-1206092072', u'COPY_-1206092133'), (u'INT_ADD_-1206092393', u'CAST_-1206092014'), ('tmp_235', u'CBRANCH_-1206092375'), ('const-417', u'STORE_-1206092437'), (u'CALL_-1206092361', u'INDIRECT_-1206092072'), (u'LOAD_-1206092295', u'CAST_-1206091957'), (u'INDIRECT_-1206092024', u'INT_ADD_-1206092285'), (u'INDIRECT_-1206092084', u'COPY_-1206092145'), (u'INDIRECT_-1206091971', u'COPY_-1206092018'), (u'CAST_-1206092014', u'LOAD_-1206092409'), ('const-417', u'LOAD_-1206092295'), (u'LOAD_-1206092403', u'INT_NOTEQUAL_-1206092377'), (u'CALL_-1206092231', u'INDIRECT_-1206092007'), (u'LOAD_-1206092480', u'INT_NOTEQUAL_-1206092454'), (u'STORE_-1206092241', u'INDIRECT_-1206091979'), (u'INT_NOTEQUAL_-1206092377', u'CBRANCH_-1206092375'), (u'INDIRECT_-1206092036', u'INT_ADD_-1206092339'), (u'INDIRECT_-1206092060', u'COPY_-1206092075'), (u'INT_ADD_-1206092285', u'CAST_-1206091962'), (u'CAST_-1206092043', u'LOAD_-1206092486'), (u'LOAD_-1206092355', u'STORE_-1206092241'), (u'CALL_-1206092231', u'INDIRECT_-1206091983'), (u'CAST_-1206092009', u'LOAD_-1206092403'), (u'INT_ADD_-1206092470', u'CAST_-1206092043'), (u'INDIRECT_-1206092029', u'MULTIEQUAL_-1206092015'), ('const-417', u'STORE_-1206092241'), ('const-228652', u'INT_ADD_-1206092477'), (u'INT_ADD_-1206092477', u'INT_ADD_-1206092470'), (u'CALL_-1206092367', u'INDIRECT_-1206092065'), (u'LOAD_-1206092301', u'LOAD_-1206092295'), (u'CALL_-1206092231', u'INDIRECT_-1206091971'), ('const-417', u'LOAD_-1206092486'), (u'CAST_-1206091979', u'INT_EQUAL_-1206092324'), ('const-1', u'INT_ADD_-1206092429'), (u'CALL_-1206092361', u'INDIRECT_-1206092024'), (u'INT_ADD_-1206092339', u'CAST_-1206091984'), (u'INDIRECT_-1206092007', u'COPY_-1206092054'), ('tmp_146', u'CBRANCH_-1206092428'), (u'CAST_-1206091984', u'LOAD_-1206092355'), ('const-0', u'RETURN_-1206092256'), (u'STORE_-1206092241', u'INDIRECT_-1206091967'), (u'CALL_-1206092367', u'INDIRECT_-1206092041'), (u'INDIRECT_-1206092072', u'INT_ADD_-1206092393'), ('const-0', u'INT_EQUAL_-1206092324'), (u'STORE_-1206092437', u'INDIRECT_-1206092096'), (u'LOAD_-1206092409', u'INT_ADD_-1206092387'), (u'CALL_-1206092361', u'INDIRECT_-1206092036'), (u'STORE_-1206092241', u'INDIRECT_-1206092015'), (u'CALL_-1206092231', u'INT_NOTEQUAL_-1206092210'), (u'INT_ADD_-1206092387', u'CAST_-1206092009'), (u'CALL_-1206092367', u'INDIRECT_-1206092077')]
| null | null |
00037d18
|
arm
|
O2
|
(translation_unit "void FUN_00037d18(void)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}\n\n" (function_definition "void FUN_00037d18(void)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" primitive_type (function_declarator "FUN_00037d18(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" { (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "iVar2 = DAT_00037da4 + 0x37d2c;" (assignment_expression "iVar2 = DAT_00037da4 + 0x37d2c" identifier = (binary_expression "DAT_00037da4 + 0x37d2c" identifier + number_literal)) ;) (expression_statement "iVar1 = **(int **)(iVar2 + DAT_00037da8);" (assignment_expression "iVar1 = **(int **)(iVar2 + DAT_00037da8)" identifier = (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) )))))) ;) (expression_statement "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;" (assignment_expression "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1" (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) ))))) = (binary_expression "iVar1 + 1" identifier + number_literal)) ;) (if_statement "if (iVar1 != 0) {\n return;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }" if (parenthesized_expression "(*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0)" ( (binary_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0" (pointer_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" * (cast_expression "(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (binary_expression "*(int *)(iVar2 + DAT_00037dac) + 0x98" (pointer_expression "*(int *)(iVar2 + DAT_00037dac)" * (cast_expression "(int *)(iVar2 + DAT_00037dac)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + DAT_00037dac)" ( (binary_expression "iVar2 + DAT_00037dac" identifier + identifier) )))) + number_literal) )))) != number_literal) )) (compound_statement "{\n FUN_00046a30();\n }" { (expression_statement "FUN_00046a30();" (call_expression "FUN_00046a30()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "FUN_00038e28();" (call_expression "FUN_00038e28()" identifier (argument_list "()" ( ))) ;) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))))) ;) (if_statement "if (__stream == (FILE *)0x0) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)0x0)" ( (binary_expression "__stream == (FILE *)0x0" identifier == (cast_expression "(FILE *)0x0" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4))" ( (binary_expression "__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" identifier == (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db4)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db4)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db4)" ( (binary_expression "iVar2 + DAT_00037db4" identifier + identifier) ))))))) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "**(undefined4 **)(iVar2 + DAT_00037db0) = 0;" (assignment_expression "**(undefined4 **)(iVar2 + DAT_00037db0) = 0" (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))) = number_literal) ;) (expression_statement "iVar1 = fclose(__stream);" (assignment_expression "iVar1 = fclose(__stream)" identifier = (call_expression "fclose(__stream)" identifier (argument_list "(__stream)" ( identifier )))) ;) (if_statement "if (iVar1 != -1) {\n return;\n }" if (parenthesized_expression "(iVar1 != -1)" ( (binary_expression "iVar1 != -1" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_0004d204(0x31);" (call_expression "FUN_0004d204(0x31)" identifier (argument_list "(0x31)" ( number_literal ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void cleanup(EVP_PKEY_CTX *ctx)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n warc_close();\n }\n log_close();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n inform_exit_status(CLOSEFAILED);\n return;\n}\n\n" (function_definition "void cleanup(EVP_PKEY_CTX *ctx)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n warc_close();\n }\n log_close();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n inform_exit_status(CLOSEFAILED);\n return;\n}" primitive_type (function_declarator "cleanup(EVP_PKEY_CTX *ctx)" identifier (parameter_list "(EVP_PKEY_CTX *ctx)" ( (parameter_declaration "EVP_PKEY_CTX *ctx" type_identifier (pointer_declarator "*ctx" * identifier)) ))) (compound_statement "{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n warc_close();\n }\n log_close();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n inform_exit_status(CLOSEFAILED);\n return;\n}" { (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "iVar2 = DAT_00037da4 + 0x37d2c;" (assignment_expression "iVar2 = DAT_00037da4 + 0x37d2c" identifier = (binary_expression "DAT_00037da4 + 0x37d2c" identifier + number_literal)) ;) (expression_statement "iVar1 = **(int **)(iVar2 + DAT_00037da8);" (assignment_expression "iVar1 = **(int **)(iVar2 + DAT_00037da8)" identifier = (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) )))))) ;) (expression_statement "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;" (assignment_expression "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1" (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) ))))) = (binary_expression "iVar1 + 1" identifier + number_literal)) ;) (if_statement "if (iVar1 != 0) {\n return;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n warc_close();\n }" if (parenthesized_expression "(*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0)" ( (binary_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0" (pointer_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" * (cast_expression "(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (binary_expression "*(int *)(iVar2 + DAT_00037dac) + 0x98" (pointer_expression "*(int *)(iVar2 + DAT_00037dac)" * (cast_expression "(int *)(iVar2 + DAT_00037dac)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + DAT_00037dac)" ( (binary_expression "iVar2 + DAT_00037dac" identifier + identifier) )))) + number_literal) )))) != number_literal) )) (compound_statement "{\n warc_close();\n }" { (expression_statement "warc_close();" (call_expression "warc_close()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "log_close();" (call_expression "log_close()" identifier (argument_list "()" ( ))) ;) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))))) ;) (if_statement "if (__stream == (FILE *)0x0) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)0x0)" ( (binary_expression "__stream == (FILE *)0x0" identifier == (cast_expression "(FILE *)0x0" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4))" ( (binary_expression "__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" identifier == (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db4)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db4)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db4)" ( (binary_expression "iVar2 + DAT_00037db4" identifier + identifier) ))))))) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "**(undefined4 **)(iVar2 + DAT_00037db0) = 0;" (assignment_expression "**(undefined4 **)(iVar2 + DAT_00037db0) = 0" (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))) = number_literal) ;) (expression_statement "iVar1 = fclose(__stream);" (assignment_expression "iVar1 = fclose(__stream)" identifier = (call_expression "fclose(__stream)" identifier (argument_list "(__stream)" ( identifier )))) ;) (if_statement "if (iVar1 != -1) {\n return;\n }" if (parenthesized_expression "(iVar1 != -1)" ( (binary_expression "iVar1 != -1" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "inform_exit_status(CLOSEFAILED);" (call_expression "inform_exit_status(CLOSEFAILED)" identifier (argument_list "(CLOSEFAILED)" ( identifier ))) ;) (return_statement "return;" return ;) })))
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(translation_unit "void FUN_00037d18(void)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}\n\n" (function_definition "void FUN_00037d18(void)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" primitive_type (function_declarator "FUN_00037d18(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" { (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "iVar2 = DAT_00037da4 + 0x37d2c;" (assignment_expression "iVar2 = DAT_00037da4 + 0x37d2c" identifier = (binary_expression "DAT_00037da4 + 0x37d2c" identifier + number_literal)) ;) (expression_statement "iVar1 = **(int **)(iVar2 + DAT_00037da8);" (assignment_expression "iVar1 = **(int **)(iVar2 + DAT_00037da8)" identifier = (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) )))))) ;) (expression_statement "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;" (assignment_expression "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1" (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" * (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" * (cast_expression "(int **)(iVar2 + DAT_00037da8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037da8)" ( (binary_expression "iVar2 + DAT_00037da8" identifier + identifier) ))))) = (binary_expression "iVar1 + 1" identifier + number_literal)) ;) (if_statement "if (iVar1 != 0) {\n return;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }" if (parenthesized_expression "(*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0)" ( (binary_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0" (pointer_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" * (cast_expression "(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar2 + DAT_00037dac) + 0x98)" ( (binary_expression "*(int *)(iVar2 + DAT_00037dac) + 0x98" (pointer_expression "*(int *)(iVar2 + DAT_00037dac)" * (cast_expression "(int *)(iVar2 + DAT_00037dac)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + DAT_00037dac)" ( (binary_expression "iVar2 + DAT_00037dac" identifier + identifier) )))) + number_literal) )))) != number_literal) )) (compound_statement "{\n FUN_00046a30();\n }" { (expression_statement "FUN_00046a30();" (call_expression "FUN_00046a30()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "FUN_00038e28();" (call_expression "FUN_00038e28()" identifier (argument_list "()" ( ))) ;) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))))) ;) (if_statement "if (__stream == (FILE *)0x0) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)0x0)" ( (binary_expression "__stream == (FILE *)0x0" identifier == (cast_expression "(FILE *)0x0" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (if_statement "if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }" if (parenthesized_expression "(__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4))" ( (binary_expression "__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" identifier == (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db4)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db4)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db4)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db4)" ( (binary_expression "iVar2 + DAT_00037db4" identifier + identifier) ))))))) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "**(undefined4 **)(iVar2 + DAT_00037db0) = 0;" (assignment_expression "**(undefined4 **)(iVar2 + DAT_00037db0) = 0" (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" * (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" * (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00037db0)" ( (binary_expression "iVar2 + DAT_00037db0" identifier + identifier) ))))) = number_literal) ;) (expression_statement "iVar1 = fclose(__stream);" (assignment_expression "iVar1 = fclose(__stream)" identifier = (call_expression "fclose(__stream)" identifier (argument_list "(__stream)" ( identifier )))) ;) (if_statement "if (iVar1 != -1) {\n return;\n }" if (parenthesized_expression "(iVar1 != -1)" ( (binary_expression "iVar1 != -1" identifier != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_0004d204(0x31);" (call_expression "FUN_0004d204(0x31)" identifier (argument_list "(0x31)" ( number_literal ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (expression_statement (assignment_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (return_statement return ;) })) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))) + LIT) )))) != LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))))) )) (compound_statement { (return_statement return ;) })) (expression_statement (assignment_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( LIT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00037d18(void)\n\n{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00037d18(void)" (identifier "FUN_00037d18") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n FILE *__stream;\n int iVar1;\n int iVar2;\n \n iVar2 = DAT_00037da4 + 0x37d2c;\n iVar1 = **(int **)(iVar2 + DAT_00037da8);\n **(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;\n if (iVar1 != 0) {\n return;\n }\n if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }\n FUN_00038e28();\n __stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);\n if (__stream == (FILE *)0x0) {\n return;\n }\n if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }\n **(undefined4 **)(iVar2 + DAT_00037db0) = 0;\n iVar1 = fclose(__stream);\n if (iVar1 != -1) {\n return;\n }\n FUN_0004d204(0x31);\n return;\n}" ({ "{") (declaration "FILE *__stream;" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream")) (; ";")) (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (expression_statement "iVar2 = DAT_00037da4 + 0x37d2c;" (assignment_expression "iVar2 = DAT_00037da4 + 0x37d2c" (identifier "iVar2") (= "=") (binary_expression "DAT_00037da4 + 0x37d2c" (identifier "DAT_00037da4") (+ "+") (number_literal "0x37d2c"))) (; ";")) (expression_statement "iVar1 = **(int **)(iVar2 + DAT_00037da8);" (assignment_expression "iVar1 = **(int **)(iVar2 + DAT_00037da8)" (identifier "iVar1") (= "=") (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" (* "*") (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" (* "*") (cast_expression "(int **)(iVar2 + DAT_00037da8)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + DAT_00037da8)" (( "(") (binary_expression "iVar2 + DAT_00037da8" (identifier "iVar2") (+ "+") (identifier "DAT_00037da8")) () ")")))))) (; ";")) (expression_statement "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;" (assignment_expression "**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1" (pointer_expression "**(int **)(iVar2 + DAT_00037da8)" (* "*") (pointer_expression "*(int **)(iVar2 + DAT_00037da8)" (* "*") (cast_expression "(int **)(iVar2 + DAT_00037da8)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + DAT_00037da8)" (( "(") (binary_expression "iVar2 + DAT_00037da8" (identifier "iVar2") (+ "+") (identifier "DAT_00037da8")) () ")"))))) (= "=") (binary_expression "iVar1 + 1" (identifier "iVar1") (+ "+") (number_literal "1"))) (; ";")) (if_statement "if (iVar1 != 0) {\n return;\n }" (if "if") (parenthesized_expression "(iVar1 != 0)" (( "(") (binary_expression "iVar1 != 0" (identifier "iVar1") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (if_statement "if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {\n FUN_00046a30();\n }" (if "if") (parenthesized_expression "(*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0)" (( "(") (binary_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0" (pointer_expression "*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" (* "*") (cast_expression "(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(iVar2 + DAT_00037dac) + 0x98)" (( "(") (binary_expression "*(int *)(iVar2 + DAT_00037dac) + 0x98" (pointer_expression "*(int *)(iVar2 + DAT_00037dac)" (* "*") (cast_expression "(int *)(iVar2 + DAT_00037dac)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + DAT_00037dac)" (( "(") (binary_expression "iVar2 + DAT_00037dac" (identifier "iVar2") (+ "+") (identifier "DAT_00037dac")) () ")")))) (+ "+") (number_literal "0x98")) () ")")))) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n FUN_00046a30();\n }" ({ "{") (expression_statement "FUN_00046a30();" (call_expression "FUN_00046a30()" (identifier "FUN_00046a30") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (expression_statement "FUN_00038e28();" (call_expression "FUN_00038e28()" (identifier "FUN_00038e28") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" (identifier "__stream") (= "=") (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db0)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" (* "*") (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" (* "*") (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + DAT_00037db0)" (( "(") (binary_expression "iVar2 + DAT_00037db0" (identifier "iVar2") (+ "+") (identifier "DAT_00037db0")) () ")"))))))) (; ";")) (if_statement "if (__stream == (FILE *)0x0) {\n return;\n }" (if "if") (parenthesized_expression "(__stream == (FILE *)0x0)" (( "(") (binary_expression "__stream == (FILE *)0x0" (identifier "__stream") (== "==") (cast_expression "(FILE *)0x0" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (if_statement "if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {\n return;\n }" (if "if") (parenthesized_expression "(__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4))" (( "(") (binary_expression "__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" (identifier "__stream") (== "==") (cast_expression "(FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db4)" (* "*") (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db4)" (* "*") (cast_expression "(undefined4 **)(iVar2 + DAT_00037db4)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + DAT_00037db4)" (( "(") (binary_expression "iVar2 + DAT_00037db4" (identifier "iVar2") (+ "+") (identifier "DAT_00037db4")) () ")"))))))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "**(undefined4 **)(iVar2 + DAT_00037db0) = 0;" (assignment_expression "**(undefined4 **)(iVar2 + DAT_00037db0) = 0" (pointer_expression "**(undefined4 **)(iVar2 + DAT_00037db0)" (* "*") (pointer_expression "*(undefined4 **)(iVar2 + DAT_00037db0)" (* "*") (cast_expression "(undefined4 **)(iVar2 + DAT_00037db0)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + DAT_00037db0)" (( "(") (binary_expression "iVar2 + DAT_00037db0" (identifier "iVar2") (+ "+") (identifier "DAT_00037db0")) () ")"))))) (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar1 = fclose(__stream);" (assignment_expression "iVar1 = fclose(__stream)" (identifier "iVar1") (= "=") (call_expression "fclose(__stream)" (identifier "fclose") (argument_list "(__stream)" (( "(") (identifier "__stream") () ")")))) (; ";")) (if_statement "if (iVar1 != -1) {\n return;\n }" (if "if") (parenthesized_expression "(iVar1 != -1)" (( "(") (binary_expression "iVar1 != -1" (identifier "iVar1") (!= "!=") (number_literal "-1")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "FUN_0004d204(0x31);" (call_expression "FUN_0004d204(0x31)" (identifier "FUN_0004d204") (argument_list "(0x31)" (( "(") (number_literal "0x31") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(type_1 *ctx)
{
type_2 *var_9;
int var_4;
int var_2;
var_2 = var_1 + 0x37d2c;
var_4 = **(int **)(var_2 + var_3);
**(int **)(var_2 + var_3) = var_4 + 1;
if (var_4 != 0) {
return;
}
if (*(int *)(*(int *)(var_2 + var_5) + 0x98) != 0) {
var_6();
}
var_7();
var_9 = (type_2 *)**(type_3 **)(var_2 + var_8);
if (var_9 == (type_2 *)0x0) {
return;
}
if (var_9 == (type_2 *)**(type_3 **)(var_2 + var_10)) {
return;
}
**(type_3 **)(var_2 + var_8) = 0;
var_4 = var_11(var_9);
if (var_4 != -1) {
return;
}
var_12(CLOSEFAILED);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) consequence: (compound_statement (return_statement))) (expression_statement (assignment_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal)))) (return_statement))))
|
void MASKED(void)
{
FILE *__stream;
int iVar1;
int iVar2;
iVar2 = DAT_00037da4 + 0x37d2c;
iVar1 = **(int **)(iVar2 + DAT_00037da8);
**(int **)(iVar2 + DAT_00037da8) = iVar1 + 1;
if (iVar1 != 0) {
return;
}
if (*(int *)(*(int *)(iVar2 + DAT_00037dac) + 0x98) != 0) {
FUN_00046a30();
}
FUN_00038e28();
__stream = (FILE *)**(undefined4 **)(iVar2 + DAT_00037db0);
if (__stream == (FILE *)0x0) {
return;
}
if (__stream == (FILE *)**(undefined4 **)(iVar2 + DAT_00037db4)) {
return;
}
**(undefined4 **)(iVar2 + DAT_00037db0) = 0;
iVar1 = fclose(__stream);
if (iVar1 != -1) {
return;
}
FUN_0004d204(0x31);
return;
}
| 51,214 |
||
111_arm-linux-gnueabi-gprof_and_arm-linux-gnueabi-gprof_strip.c
|
core_create_function_syms
|
FUN_00018768
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void core_create_function_syms(void)
{
uint uVar1;
bool bVar2;
int iVar3;
int iVar4;
Sym *pSVar5;
bfd_vma addr;
bfd_boolean bVar6;
Source_File *pSVar7;
char *pcVar8;
byte bVar9;
char *pcVar10;
int iVar11;
int iVar12;
byte bVar13;
uint uVar14;
int iVar15;
int *piVar16;
int iVar17;
FILE *__stream;
int iVar18;
int *piVar19;
Sym_Table *tab;
uint uVar20;
char *filename;
char *func_name;
iVar15 = DAT_00018c70;
iVar18 = DAT_00018c68 + 0x1877c;
uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4);
if (uVar14 < 2) {
bVar2 = false;
}
else if (uVar14 < 6) {
bVar2 = true;
}
else {
bVar2 = uVar14 == 10;
}
piVar19 = (int *)(DAT_00018c70 + 0x187bc);
iVar11 = *(int *)(DAT_00018c70 + 0x187c0);
tab = *(Sym_Table **)(iVar18 + DAT_00018c74);
iVar17 = 0;
tab->len = 0;
if (0 < iVar11) {
iVar11 = 0;
do {
iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));
if (iVar3 != 0) {
uVar14 = **(uint **)(iVar18 + DAT_00018c78);
if (uVar14 == 0) {
if (iVar17 != 0) {
LAB_000187ec:
if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;
}
}
else {
pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);
iVar3 = **(int **)(iVar18 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar14) {
while( true ) {
uVar1 = uVar20 + uVar14 >> 1;
iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));
iVar17 = iVar3 + uVar1 * 0xc;
if (-1 < iVar4) break;
uVar14 = uVar1;
if (uVar1 <= uVar20) goto LAB_000188b0;
}
if (iVar4 == 0) goto LAB_000187ec;
uVar20 = uVar1 + 1;
}
LAB_000188b0:
iVar17 = 0;
}
tab->len = tab->len + 1;
}
LAB_00018808:
iVar11 = iVar11 + 1;
} while (iVar11 < *(int *)(iVar15 + 0x187c0));
if (tab->len != 0) {
pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);
iVar15 = *(int *)(iVar15 + 0x187c0);
tab->base = pSVar5;
tab->limit = pSVar5;
if (iVar15 < 1) {
uVar14 = 0;
}
else {
iVar15 = 0;
piVar19 = (int *)(DAT_00018c80 + 0x18904);
piVar16 = (int *)(DAT_00018c84 + 0x18910);
pcVar8 = (char *)(DAT_00018c88 + 0x1891c);
do {
iVar11 = iVar15 * 4;
iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));
if (iVar3 == 0) {
if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {
iVar11 = *(int *)(*piVar19 + iVar15 * 4);
printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),
*(undefined4 *)(iVar11 + 4));
}
}
else {
uVar14 = **(uint **)(iVar18 + DAT_00018c78);
if (uVar14 == 0) {
if (iVar17 == 0) goto LAB_00018b1c;
LAB_0001893c:
if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;
sym_init(tab->limit);
pSVar5 = tab->limit;
iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);
iVar4 = *(int *)(iVar12 + 0x10);
addr = *(bfd_vma *)(iVar12 + 8);
pSVar5->addr = addr;
if (iVar4 != 0) {
addr = addr + *(int *)(iVar4 + 0x1c);
pSVar5->addr = addr;
}
pcVar10 = *(char **)(iVar17 + 4);
pSVar5->field_0x14 = pSVar5->field_0x14 | 8;
pSVar5->name = pcVar10;
}
else {
pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);
iVar4 = **(int **)(iVar18 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar14) {
while( true ) {
uVar1 = uVar20 + uVar14 >> 1;
iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));
iVar17 = iVar4 + uVar1 * 0xc;
if (-1 < iVar12) break;
uVar14 = uVar1;
if (uVar1 <= uVar20) goto LAB_00018b1c;
}
if (iVar12 == 0) goto LAB_0001893c;
uVar20 = uVar1 + 1;
}
LAB_00018b1c:
sym_init(tab->limit);
pSVar5 = tab->limit;
iVar17 = *(int *)(*piVar16 + iVar11);
iVar4 = *(int *)(iVar17 + 0x10);
addr = *(bfd_vma *)(iVar17 + 8);
pSVar5->addr = addr;
if (iVar4 != 0) {
addr = addr + *(int *)(iVar4 + 0x1c);
pSVar5->addr = addr;
}
pSVar5->name = *(char **)(iVar17 + 4);
iVar17 = 0;
pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;
}
bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);
if (bVar6 != 0) {
pSVar5 = tab->limit;
pSVar7 = source_file_lookup_path(filename);
pSVar5->file = pSVar7;
}
if (bVar2) {
bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)
>> 3) & 1;
}
else {
bVar13 = 1;
}
pSVar5 = tab->limit;
bVar9 = pSVar5->field_0x14 & 0xfe;
pSVar5->field_0x14 = bVar13 | bVar9 | 4;
if (iVar3 == 0x74) {
pSVar5->field_0x14 = bVar13 | bVar9 | 6;
}
if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {
printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,
pSVar5->addr);
pSVar5 = tab->limit;
}
tab->limit = pSVar5 + 1;
}
LAB_00018a28:
iVar15 = iVar15 + 1;
} while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));
uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;
}
tab->len = uVar14;
symtab_finalize(tab);
return;
}
}
__stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0);
pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);
fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),
**(undefined4 **)(iVar18 + DAT_00018cac));
/* WARNING: Subroutine does not return */
done(1);
}
|
void FUN_00018768(void)
{
uint uVar1;
byte bVar2;
bool bVar3;
int iVar4;
int iVar5;
undefined4 uVar6;
char *pcVar7;
int iVar8;
int iVar9;
undefined4 *puVar10;
char *__s1;
byte bVar11;
uint uVar12;
int iVar13;
int *piVar14;
int *piVar15;
int iVar16;
FILE *__stream;
int iVar17;
int *piVar18;
int *piVar19;
uint uVar20;
undefined4 local_30;
undefined1 auStack_2c [8];
iVar13 = DAT_00018c70;
iVar17 = DAT_00018c68 + 0x1877c;
uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);
if (uVar12 < 2) {
bVar3 = false;
}
else if (uVar12 < 6) {
bVar3 = true;
}
else {
bVar3 = uVar12 == 10;
}
piVar18 = (int *)(DAT_00018c70 + 0x187bc);
iVar9 = *(int *)(DAT_00018c70 + 0x187c0);
piVar19 = *(int **)(iVar17 + DAT_00018c74);
iVar16 = 0;
*piVar19 = 0;
if (0 < iVar9) {
iVar9 = 0;
do {
iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));
if (iVar4 != 0) {
uVar12 = **(uint **)(iVar17 + DAT_00018c78);
if (uVar12 == 0) {
if (iVar16 != 0) {
LAB_000187ec:
if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;
}
}
else {
pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);
iVar4 = **(int **)(iVar17 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar12) {
while( true ) {
uVar1 = uVar20 + uVar12 >> 1;
iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));
iVar16 = iVar4 + uVar1 * 0xc;
if (-1 < iVar5) break;
uVar12 = uVar1;
if (uVar1 <= uVar20) goto LAB_000188b0;
}
if (iVar5 == 0) goto LAB_000187ec;
uVar20 = uVar1 + 1;
}
LAB_000188b0:
iVar16 = 0;
}
*piVar19 = *piVar19 + 1;
}
LAB_00018808:
iVar9 = iVar9 + 1;
} while (iVar9 < *(int *)(iVar13 + 0x187c0));
if (*piVar19 != 0) {
iVar9 = xmalloc(*piVar19 * 0xd8);
iVar13 = *(int *)(iVar13 + 0x187c0);
piVar19[1] = iVar9;
piVar19[2] = iVar9;
if (iVar13 < 1) {
iVar13 = 0;
}
else {
iVar13 = 0;
piVar18 = (int *)(DAT_00018c80 + 0x18904);
piVar14 = (int *)(DAT_00018c84 + 0x18910);
pcVar7 = (char *)(DAT_00018c88 + 0x1891c);
do {
iVar9 = iVar13 * 4;
iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));
if (iVar4 == 0) {
if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {
iVar9 = *(int *)(*piVar18 + iVar13 * 4);
printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),
*(undefined4 *)(iVar9 + 4));
}
}
else {
uVar12 = **(uint **)(iVar17 + DAT_00018c78);
if (uVar12 == 0) {
if (iVar16 == 0) goto LAB_00018b1c;
LAB_0001893c:
if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;
FUN_0001c31c(piVar19[2]);
piVar15 = (int *)piVar19[2];
iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);
iVar8 = *(int *)(iVar5 + 0x10);
iVar5 = *(int *)(iVar5 + 8);
*piVar15 = iVar5;
if (iVar8 != 0) {
iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);
*piVar15 = iVar5;
}
iVar8 = *(int *)(iVar16 + 4);
*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;
piVar15[2] = iVar8;
}
else {
__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);
iVar5 = **(int **)(iVar17 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar12) {
while( true ) {
uVar1 = uVar20 + uVar12 >> 1;
iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));
iVar16 = iVar5 + uVar1 * 0xc;
if (-1 < iVar8) break;
uVar12 = uVar1;
if (uVar1 <= uVar20) goto LAB_00018b1c;
}
if (iVar8 == 0) goto LAB_0001893c;
uVar20 = uVar1 + 1;
}
LAB_00018b1c:
FUN_0001c31c(piVar19[2]);
piVar15 = (int *)piVar19[2];
iVar16 = *(int *)(*piVar14 + iVar9);
iVar8 = *(int *)(iVar16 + 0x10);
iVar5 = *(int *)(iVar16 + 8);
*piVar15 = iVar5;
if (iVar8 != 0) {
iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);
*piVar15 = iVar5;
}
piVar15[2] = *(int *)(iVar16 + 4);
iVar16 = 0;
*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;
}
iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);
if (iVar5 != 0) {
iVar5 = piVar19[2];
uVar6 = FUN_0001bd50(local_30);
*(undefined4 *)(iVar5 + 0xc) = uVar6;
}
if (bVar3) {
bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>
3) & 1;
}
else {
bVar11 = 1;
}
puVar10 = (undefined4 *)piVar19[2];
bVar2 = *(byte *)(puVar10 + 5);
*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;
if (iVar4 == 0x74) {
*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;
}
if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {
printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);
puVar10 = (undefined4 *)piVar19[2];
}
piVar19[2] = (int)(puVar10 + 0x36);
}
LAB_00018a28:
iVar13 = iVar13 + 1;
} while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));
iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;
}
*piVar19 = iVar13;
FUN_0001c330(piVar19);
return;
}
}
__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);
pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);
fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),
**(undefined4 **)(iVar17 + DAT_00018cac));
/* WARNING: Subroutine does not return */
FUN_0001a4ec(1);
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
ldr r8,[0x18c68]
ldr r3,[0x18c6c]
add r8,pc,r8
ldr r3,[r8,r3]
sub sp,sp,#0x2c
ldr r3,[r3,#0x0]
ldr r3,[r3,#0x4]
ldr r3,[r3,#0x4]
cmp r3,#0x2
bcc 0x00018c04
cmp r3,#0x5
bls 0x00018bf8
sub r3,r3,#0xa
clz r3,r3
mov r3,r3, lsr #0x5
str r3,[sp,#0x10]
ldr r10,[0x18c70]
ldr r3,[0x18c74]
add r10,pc,r10
ldr r2,[r10,#0x4]
ldr r11,[r8,r3]
cmp r2,#0x0
mov r4,#0x0
str r4,[r11,#0x0]
cpygt r7,r4
strgt r10,[sp,#0x4]
strgt r8,[sp,#0x8]
strgt r11,[sp,#0xc]
bgt 0x0001881c
b 0x00018c18
cmp r4,#0x0
beq 0x000187f8
ldrb r3,[r4,#0x8]
tst r3,#0x1
beq 0x00018808
ldr r2,[sp,#0xc]
ldr r3,[r2,#0x0]
add r3,r3,#0x1
str r3,[r2,#0x0]
ldr r3,[sp,#0x4]
add r7,r7,#0x1
ldr r3,[r3,#0x4]
cmp r3,r7
ble 0x000188b8
ldr r3,[r10,#0x0]
mov r5,r7, lsl #0x2
ldr r0,[r3,r7,lsl #0x2]
bl 0x00017bc8
cmp r0,#0x0
beq 0x00018808
ldr r3,[0x18c78]
ldr r2,[sp,#0x8]
ldr r3,[r2,r3]
ldr r6,[r3,#0x0]
cmp r6,#0x0
beq 0x000187e4
ldr r2,[r10,#0x0]
ldr r3,[0x18c7c]
ldr r1,[sp,#0x8]
ldr r2,[r2,r5]
ldr r3,[r1,r3]
ldr r9,[r2,#0x4]
ldr r8,[r3,#0x0]
mov r11,#0x0
b 0x00018878
beq 0x000187ec
add r11,r5,#0x1
cmp r11,r6
bcs 0x000188b0
add r5,r11,r6
mov r5,r5, lsr #0x1
add r4,r5,r5, lsl #0x1
ldr r1,[r8,r4,lsl #0x2]
cpy r0,r9
bl 0x000111c0
add r4,r8,r4, lsl #0x2
cmp r0,#0x0
bge 0x00018870
cmp r5,r11
cpy r6,r5
bhi 0x00018880
mov r4,#0x0
b 0x000187f8
ldr r11,[sp,#0xc]
ldr r8,[sp,#0x8]
ldr r0,[r11,#0x0]
cmp r0,#0x0
beq 0x00018c18
add r0,r0,r0, lsl #0x1
add r0,r0,r0, lsl #0x3
mov r0,r0, lsl #0x3
bl 0x000112d4
ldr r3,[sp,#0x4]
ldr r3,[r3,#0x4]
cmp r3,#0x0
str r0,[r11,#0x4]
str r0,[r11,#0x8]
ble 0x00018c10
ldr r3,[0x18c80]
mov r7,#0x0
add r3,pc,r3
str r3,[sp,#0xc]
ldr r3,[0x18c84]
add r3,pc,r3
str r3,[sp,#0x1c]
ldr r3,[0x18c88]
add r3,pc,r3
str r3,[sp,#0x18]
b 0x00018a40
ldr r3,[0x18c78]
ldr r3,[r8,r3]
ldr r6,[r3,#0x0]
cmp r6,#0x0
bne 0x00018aa0
cmp r4,#0x0
beq 0x00018b1c
ldrb r3,[r4,#0x8]
tst r3,#0x1
beq 0x00018a28
ldr r0,[r11,#0x8]
bl 0x0001c31c
ldr r2,[0x18c8c]
ldr r1,[sp,#0x4]
add r2,pc,r2
ldr r2,[r2,#0x0]
ldr r3,[r11,#0x8]
ldr r2,[r2,r1]
ldr r1,[r2,#0x10]
ldr r0,[r2,#0x8]
cmp r1,#0x0
str r0,[r3,#0x0]
ldrne r2,[r1,#0x1c]
addne r0,r0,r2
strne r0,[r3,#0x0]
ldrb r2,[r3,#0x14]
ldr r1,[r4,#0x4]
orr r2,r2,#0x8
strb r2,[r3,#0x14]
str r1,[r3,#0x8]
add r3,r3,#0x10
add r2,sp,#0x24
add r1,sp,#0x20
bl 0x000179f8
cmp r0,#0x0
bne 0x00018b70
ldr r3,[sp,#0x10]
cmp r3,#0x0
moveq r3,#0x1
beq 0x000189e0
ldr r3,[0x18c90]
ldr r2,[sp,#0x4]
add r3,pc,r3
ldr r3,[r3,#0x0]
ldr r3,[r3,r2]
ldr r3,[r3,#0xc]
mov r3,r3, lsr #0x3
and r3,r3,#0x1
ldr r2,[r11,#0x8]
ldr r1,[sp,#0x8]
cmp r1,#0x74
ldrb r1,[r2,#0x14]
bic r1,r1,#0x1
orr r3,r3,r1
orr r3,r3,#0x4
strb r3,[r2,#0x14]
andeq r3,r3,#0xff
orreq r3,r3,#0x2
strbeq r3,[r2,#0x14]
ldr r3,[0x18c94]
ldr r3,[r8,r3]
ldr r3,[r3,#0x0]
tst r3,#0x80
bne 0x00018b84
add r2,r2,#0xd8
str r2,[r11,#0x8]
ldr r3,[0x18c98]
add r7,r7,#0x1
add r3,pc,r3
ldr r3,[r3,#0x4]
cmp r3,r7
ble 0x00018bbc
ldr r3,[sp,#0xc]
mov r2,r7, lsl #0x2
ldr r3,[r3,#0x0]
str r2,[sp,#0x4]
ldr r0,[r3,r7,lsl #0x2]
bl 0x00017bc8
subs r3,r0,#0x0
str r3,[sp,#0x8]
bne 0x00018920
ldr r3,[0x18c94]
ldr r3,[r8,r3]
ldr r3,[r3,#0x0]
tst r3,#0x80
beq 0x00018a28
ldr r3,[sp,#0xc]
mov r2,r7, lsl #0x2
ldr r3,[r3,#0x0]
ldr r0,[0x18c9c]
ldr r3,[r3,r2]
add r0,pc,r0
ldr r2,[r3,#0x4]
ldr r1,[r3,#0x8]
bl 0x000111e4
b 0x00018a28
ldr r3,[sp,#0xc]
mov r1,r7, lsl #0x2
ldr r2,[r3,#0x0]
ldr r3,[0x18c7c]
ldr r2,[r2,r1]
ldr r3,[r8,r3]
ldr r2,[r2,#0x4]
ldr r10,[r3,#0x0]
str r7,[sp,#0x14]
mov r9,#0x0
cpy r7,r10
cpy r10,r6
cpy r6,r2
b 0x00018ae0
beq 0x00018bf0
add r9,r5,#0x1
cmp r10,r9
bls 0x00018b18
add r5,r9,r10
mov r5,r5, lsr #0x1
add r4,r5,r5, lsl #0x1
ldr r1,[r7,r4,lsl #0x2]
cpy r0,r6
bl 0x000111c0
add r4,r7,r4, lsl #0x2
cmp r0,#0x0
bge 0x00018ad8
cmp r9,r5
cpy r10,r5
bcc 0x00018ae8
ldr r7,[sp,#0x14]
ldr r0,[r11,#0x8]
bl 0x0001c31c
ldr r3,[sp,#0x1c]
ldr r1,[sp,#0x4]
ldr r2,[r3,#0x0]
ldr r3,[r11,#0x8]
ldr r1,[r2,r1]
ldr r2,[r1,#0x10]
ldr r0,[r1,#0x8]
cmp r2,#0x0
str r0,[r3,#0x0]
ldrne r2,[r2,#0x1c]
addne r0,r0,r2
strne r0,[r3,#0x0]
ldrb r2,[r3,#0x14]
ldr r1,[r1,#0x4]
bic r2,r2,#0x8
str r1,[r3,#0x8]
mov r4,#0x0
strb r2,[r3,#0x14]
b 0x00018998
ldr r0,[sp,#0x20]
ldr r5,[r11,#0x8]
bl 0x0001bd50
str r0,[r5,#0xc]
b 0x000189b0
ldr r1,[r11,#0x4]
ldr r3,[r2,#0x0]
sub r1,r2,r1
mov r1,r1, asr #0x3
add r0,r1,r1, lsl #0x3
add r1,r1,r0, lsl #0x1
rsb r1,r1,r1, lsl #0x9
add r1,r1,r1, lsl #0x12
ldr r2,[r2,#0x8]
rsb r1,r1,#0x0
ldr r0,[sp,#0x18]
bl 0x000111e4
ldr r2,[r11,#0x8]
b 0x00018a20
ldmib r11,{r2,r3}
sub r3,r3,r2
mov r3,r3, asr #0x3
add r2,r3,r3, lsl #0x3
add r3,r3,r2, lsl #0x1
rsb r3,r3,r3, lsl #0x9
add r3,r3,r3, lsl #0x12
rsb r3,r3,#0x0
cpy r0,r11
str r3,[r11,#0x0]
bl 0x0001c330
add sp,sp,#0x2c
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,r11,pc}
ldr r7,[sp,#0x14]
b 0x0001893c
mov r3,#0x1
str r3,[sp,#0x10]
b 0x000187ac
mov r3,#0x0
str r3,[sp,#0x10]
b 0x000187ac
mov r3,#0x0
b 0x00018bdc
ldr r3,[0x18ca0]
ldr r1,[0x18ca4]
ldr r0,[0x18ca8]
ldr r3,[r8,r3]
mov r2,#0x5
add r1,pc,r1
add r0,pc,r0
ldr r4,[r3,#0x0]
bl 0x00011274
ldr r2,[0x18cac]
ldr r3,[0x18cb0]
ldr r1,[r8,r2]
ldr r2,[r8,r3]
ldr r3,[r1,#0x0]
ldr r2,[r2,#0x0]
cpy r1,r0
cpy r0,r4
bl 0x000113c4
mov r0,#0x1
bl 0x0001a4ec
| null | null | null | null |
[(u'STORE_-1205957264', u'INDIRECT_-1205954984'), (u'MULTIEQUAL_-1205954877', u'MULTIEQUAL_-1205954844'), ('const-417', u'LOAD_-1205957299'), ('const-4', u'INT_ADD_-1205957272'), (u'LOAD_-1205958599', u'PTRSUB_-1205953031'), (u'LOAD_-1205958732', u'INT_ADD_-1205958710'), (u'INDIRECT_-1205954818', u'MULTIEQUAL_-1205954795'), (u'INDIRECT_-1205954363', u'MULTIEQUAL_-1205954485'), (u'CAST_-1205953569', u'LOAD_-1205957892'), (u'INDIRECT_-1205955447', u'MULTIEQUAL_-1205954306'), (u'STORE_-1205958556', u'INDIRECT_-1205954943'), (u'INT_SLESS_-1205958538', u'CBRANCH_-1205958545'), (u'INDIRECT_-1205955315', u'MULTIEQUAL_-1205955238'), (u'INDIRECT_-1205954133', u'MULTIEQUAL_-1205954123'), (u'INDIRECT_-1205954363', u'MULTIEQUAL_-1205954346'), (u'LOAD_-1205956389', u'CALL_-1205956373'), (u'INDIRECT_-1205954938', u'MULTIEQUAL_-1205954900'), (u'INDIRECT_-1205953449', u'MULTIEQUAL_-1205953464'), (u'INDIRECT_-1205954592', u'MULTIEQUAL_-1205953814'), (u'LOAD_-1205958353', u'CALL_-1205958342'), ('tmp_1185', u'BRANCH_-1205958040'), (u'INDIRECT_-1205954816', u'MULTIEQUAL_-1205954451'), (u'INDIRECT_-1205954865', u'MULTIEQUAL_-1205955109'), (u'INDIRECT_-1205953790', u'MULTIEQUAL_-1205953764'), (u'INDIRECT_-1205954640', u'MULTIEQUAL_-1205954569'), (u'CALL_-1205957428', u'INT_EQUAL_-1205957408'), ('const-16', u'INT_ADD_-1205956463'), (u'STORE_-1205956356', u'INDIRECT_-1205953999'), (u'STORE_-1205956852', u'INDIRECT_-1205953835'), (u'INDIRECT_-1205954177', u'MULTIEQUAL_-1205954212'), (u'MULTIEQUAL_-1205956221', u'MULTIEQUAL_-1205956263'), (u'LOAD_-1205956485', u'INT_ADD_-1205956387'), (u'MULTIEQUAL_-1205955236', u'MULTIEQUAL_-1205955215'), ('const-12', u'INT_MULT_-1205958090'), (u'CAST_-1205952662', u'LOAD_-1205957338'), (u'CALL_-1205957428', u'INDIRECT_-1205953618'), (u'INT_SLESS_-1205958141', u'CBRANCH_-1205958148'), (u'INT_AND_-1205957347', u'INT_NOTEQUAL_-1205957358'), (u'CALL_-1205956510', u'INDIRECT_-1205954379'), (u'STORE_-1205956446', u'INDIRECT_-1205954262'), (u'CAST_-1205953540', u'LOAD_-1205957452'), (u'INDIRECT_-1205953759', u'MULTIEQUAL_-1205954204'), (u'CALL_-1205957349', u'INDIRECT_-1205954148'), (u'INDIRECT_-1205954363', u'MULTIEQUAL_-1205954286'), (u'INT_NOTEQUAL_-1205957358', u'CBRANCH_-1205957356'), (u'CALL_-1205957899', u'INDIRECT_-1205954686'), (u'INDIRECT_-1205954136', u'MULTIEQUAL_-1205954119'), (u'MULTIEQUAL_-1205955381', u'MULTIEQUAL_-1205955365'), (u'INDIRECT_-1205954424', u'MULTIEQUAL_-1205954059'), (u'INDIRECT_-1205955032', u'MULTIEQUAL_-1205955012'), (u'CAST_-1205953462', u'LOAD_-1205957448'), (u'STORE_-1205956379', u'INDIRECT_-1205954456'), (u'STORE_-1205957331', u'INDIRECT_-1205954286'), (u'INDIRECT_-1205954867', u'MULTIEQUAL_-1205954839'), (u'INDIRECT_-1205954345', u'COPY_-1205954392'), (u'LOAD_-1205957054', u'PTRSUB_-1205953340'), (u'MULTIEQUAL_-1205954829', u'MULTIEQUAL_-1205954598'), (u'INDIRECT_-1205954872', u'MULTIEQUAL_-1205954507'), (u'INDIRECT_-1205954430', u'MULTIEQUAL_-1205954407'), (u'INDIRECT_-1205953766', u'COPY_-1205953825'), (u'INDIRECT_-1205954361', u'MULTIEQUAL_-1205954121'), (u'CAST_-1205953496', u'LOAD_-1205957511'), (u'STORE_-1205956415', u'INDIRECT_-1205954417'), ('const-8', u'INT_ADD_-1205957432'), (u'INT_ADD_-1205958751', u'INT_ADD_-1205957374'), (u'CALL_-1205957349', u'INDIRECT_-1205954204'), ('const-0', u'COPY_-1205958568'), ('const-1', u'CALL_-1205957277'), (u'CALL_-1205957288', u'INDIRECT_-1205954790'), ('tmp_922', u'BRANCH_-1205958210'), (u'INDIRECT_-1205954245', u'MULTIEQUAL_-1205954235'), (u'STORE_-1205956925', u'INDIRECT_-1205954637'), (u'INT_ADD_-1205958124', u'CAST_-1205953657'), (u'INDIRECT_-1205954496', u'MULTIEQUAL_-1205954486'), (u'INDIRECT_-1205954585', u'MULTIEQUAL_-1205954345'), (u'INDIRECT_-1205954816', u'MULTIEQUAL_-1205954038'), (u'CALL_-1205957299', u'INDIRECT_-1205953439'), (u'INT_ADD_-1205958716', u'CAST_-1205953931'), (u'CALL_-1205957405', u'INDIRECT_-1205954622'), (u'INDIRECT_-1205954206', u'MULTIEQUAL_-1205954183'), (u'INDIRECT_-1205954752', u'MULTIEQUAL_-1205955165'), ('const-0', u'INT_NOTEQUAL_-1205957179'), (u'INDIRECT_-1205954775', u'MULTIEQUAL_-1205954655'), (u'INDIRECT_-1205954811', u'MULTIEQUAL_-1205954734'), (u'MULTIEQUAL_-1205955348', u'MULTIEQUAL_-1205955327'), (u'CALL_-1205957200', u'INDIRECT_-1205954365'), (u'STORE_-1205956970', u'INDIRECT_-1205954538'), (u'INT_ADD_-1205958289', u'CAST_-1205953741'), (u'INT_ADD_-1205956501', u'CAST_-1205953094'), (u'INDIRECT_-1205954752', u'MULTIEQUAL_-1205954765'), (u'STORE_-1205957264', u'INDIRECT_-1205955040'), ('const-20', u'PTRSUB_-1205953323'), (u'CALL_-1205957299', u'INDIRECT_-1205953383'), (u'INDIRECT_-1205954289', u'COPY_-1205954336'), (u'COPY_-1205958548', u'MULTIEQUAL_-1205956181'), ('const-128', u'INT_AND_-1205956872'), (u'STORE_-1205956356', u'INDIRECT_-1205954279'), (u'STORE_-1205956446', u'INDIRECT_-1205954486'), (u'CAST_-1205953514', u'CALL_-1205956382'), (u'CALL_-1205958124', u'INDIRECT_-1205954867'), (u'MULTIEQUAL_-1205954680', u'MULTIEQUAL_-1205954671'), (u'INT_ADD_-1205956349', u'MULTIEQUAL_-1205955947'), (u'STORE_-1205956446', u'INDIRECT_-1205953702'), (u'STORE_-1205956860', u'INDIRECT_-1205954664'), (u'INDIRECT_-1205954473', u'MULTIEQUAL_-1205954486'), (u'LOAD_-1205956415', u'CALL_-1205956382'), ('const-417', u'LOAD_-1205957102'), (u'INDIRECT_-1205954309', u'MULTIEQUAL_-1205954260'), (u'MULTIEQUAL_-1205954157', u'MULTIEQUAL_-1205953926'), (u'PTRSUB_-1205953428', u'CALL_-1205957200'), (u'STORE_-1205956415', u'INDIRECT_-1205953913'), (u'LOAD_-1205957305', u'CALL_-1205957288'), (u'MULTIEQUAL_-1205954128', u'MULTIEQUAL_-1205954065'), (u'CALL_-1205957899', u'INDIRECT_-1205954518'), (u'MULTIEQUAL_-1205954072', u'MULTIEQUAL_-1205954009'), (u'CAST_-1205953420', u'LOAD_-1205957370'), (u'STORE_-1205957300', u'INDIRECT_-1205954833'), (u'INDIRECT_-1205955001', u'MULTIEQUAL_-1205954984'), ('const-417', u'LOAD_-1205958374'), (u'INDIRECT_-1205953505', u'COPY_-1205953552'), (u'INT_ADD_-1205957059', u'CAST_-1205953816'), ('const-8', u'PTRSUB_-1205953353'), (u'INDIRECT_-1205954025', u'MULTIEQUAL_-1205953785'), (u'INDIRECT_-1205954068', u'MULTIEQUAL_-1205954212'), (u'LOAD_-1205958599', u'PTRSUB_-1205953280'), (u'INDIRECT_-1205954832', u'MULTIEQUAL_-1205954822'), ('const-417', u'LOAD_-1205956479'), (u'CALL_-1205956429', u'INDIRECT_-1205954232'), (u'CALL_-1205957899', u'INDIRECT_-1205954798'), (u'STORE_-1205956415', u'INDIRECT_-1205953745'), (u'LOAD_-1205957416', u'CALL_-1205957405'), ('const-417', u'LOAD_-1205957323'), (u'INDIRECT_-1205954416', u'MULTIEQUAL_-1205954408'), (u'INT_EQUAL_-1205957480', u'CBRANCH_-1205957476'), (u'STORE_-1205956415', u'INDIRECT_-1205953689'), (u'INDIRECT_-1205954343', u'MULTIEQUAL_-1205954717'), (u'INDIRECT_-1205955113', u'MULTIEQUAL_-1205955096'), (u'INDIRECT_-1205954248', u'MULTIEQUAL_-1205954231'), (u'STORE_-1205957331', u'INDIRECT_-1205954678'), (u'MULTIEQUAL_-1205955681', u'MULTIEQUAL_-1205955706'), (u'LOAD_-1205958599', u'PTRSUB_-1205953515'), (u'STORE_-1205956356', 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u'INDIRECT_-1205954363'), (u'INDIRECT_-1205954111', u'MULTIEQUAL_-1205954570'), (u'LOAD_-1205957892', u'INT_SLESS_-1205957843'), ('const-417', u'LOAD_-1205957333'), (u'MULTIEQUAL_-1205953578', u'INT_ADD_-1205957362'), (u'COPY_-1205953702', u'MULTIEQUAL_-1205956095'), (u'INDIRECT_-1205954553', u'MULTIEQUAL_-1205954536'), (u'STORE_-1205957264', u'INDIRECT_-1205954480'), (u'STORE_-1205956427', u'INDIRECT_-1205953871'), ('const-100288', u'INT_ADD_-1205958589'), ('tmp_14499', u'INT_ADD_-1205958589'), (u'CALL_-1205956429', u'INDIRECT_-1205953616'), (u'INDIRECT_-1205954865', u'MULTIEQUAL_-1205954625'), (u'INDIRECT_-1205954809', u'MULTIEQUAL_-1205954569'), (u'CAST_-1205953926', u'LOAD_-1205958726'), (u'INDIRECT_-1205954930', u'MULTIEQUAL_-1205954907'), (u'INDIRECT_-1205954887', u'MULTIEQUAL_-1205953746'), (u'MULTIEQUAL_-1205954352', u'MULTIEQUAL_-1205954343'), ('const-417', u'LOAD_-1205956438'), (u'INDIRECT_-1205954137', u'MULTIEQUAL_-1205954127'), (u'INDIRECT_-1205954312', 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|
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u'INDIRECT_-1205954116'), (u'LOAD_-1205958353', u'CALL_-1205958342'), ('tmp_1185', u'BRANCH_-1205958040'), (u'CALL_-1205956510', u'INDIRECT_-1205954431'), (u'INDIRECT_-1205954413', u'MULTIEQUAL_-1205954426'), ('const-417', u'LOAD_-1205958222'), (u'STORE_-1205956356', u'INDIRECT_-1205954499'), (u'INT_ADD_-1205958710', u'CAST_-1205953933'), (u'INDIRECT_-1205953667', u'MULTIEQUAL_-1205954041'), (u'CALL_-1205957428', u'INT_EQUAL_-1205957408'), ('const-16', u'INT_ADD_-1205956463'), ('const-0', u'COPY_-1205958548'), (u'INDIRECT_-1205954147', u'MULTIEQUAL_-1205954592'), (u'MULTIEQUAL_-1205954761', u'MULTIEQUAL_-1205954728'), (u'INDIRECT_-1205955252', u'MULTIEQUAL_-1205955232'), (u'INDIRECT_-1205954659', u'MULTIEQUAL_-1205953518'), (u'INDIRECT_-1205954639', u'MULTIEQUAL_-1205954611'), (u'LOAD_-1205956485', u'INT_ADD_-1205956387'), (u'INDIRECT_-1205953445', u'MULTIEQUAL_-1205953881'), ('const-417', u'LOAD_-1205957022'), ('const-1', u'INT_AND_-1205957039'), (u'INT_RIGHT_-1205956387', 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u'MULTIEQUAL_-1205954763'), (u'INDIRECT_-1205955148', u'MULTIEQUAL_-1205954370'), (u'CALL_-1205956510', u'INDIRECT_-1205954599'), (u'INT_ADD_-1205957354', u'CAST_-1205953424'), (u'INDIRECT_-1205954548', u'MULTIEQUAL_-1205954538'), (u'INDIRECT_-1205954637', u'MULTIEQUAL_-1205954460'), ('const-417', u'STORE_-1205957331'), (u'COPY_-1205953091', u'MULTIEQUAL_-1205955441'), (u'MULTIEQUAL_-1205954842', u'MULTIEQUAL_-1205955025'), (u'MULTIEQUAL_-1205954616', u'MULTIEQUAL_-1205954595'), (u'STORE_-1205957258', u'INDIRECT_-1205954135'), (u'CALL_-1205957299', u'INDIRECT_-1205953939'), ('const-417', u'LOAD_-1205957376'), ('const-8', u'INT_ADD_-1205957432'), (u'INT_ADD_-1205958751', u'INT_ADD_-1205957374'), (u'STORE_-1205956860', u'INDIRECT_-1205954604'), ('const-2', u'PTRADD_-1205952941'), (u'CALL_-1205957277', u'INDIRECT_-1205953594'), ('const-0', u'COPY_-1205958568'), (u'MULTIEQUAL_-1205954340', u'MULTIEQUAL_-1205954282'), (u'CALL_-1205956382', u'INDIRECT_-1205954283'), ('tmp_922', u'BRANCH_-1205958210'), ('const-0', u'STORE_-1205958556'), (u'INDIRECT_-1205954245', u'MULTIEQUAL_-1205954235'), (u'INDIRECT_-1205954300', u'MULTIEQUAL_-1205954283'), (u'MULTIEQUAL_-1205954840', u'MULTIEQUAL_-1205953798'), (u'CAST_-1205952975', u'PTRADD_-1205952954'), (u'INDIRECT_-1205954751', u'MULTIEQUAL_-1205954734'), (u'LOAD_-1205958599', u'PTRADD_-1205953034'), (u'CALL_-1205956842', u'INDIRECT_-1205953725'), (u'STORE_-1205956427', u'INDIRECT_-1205954371'), (u'INDIRECT_-1205954636', u'MULTIEQUAL_-1205954619'), (u'MULTIEQUAL_-1205955348', u'MULTIEQUAL_-1205955339'), ('const-417', u'STORE_-1205956415'), (u'CALL_-1205957899', u'STORE_-1205957865'), ('const-12', u'INT_MULT_-1205958112'), (u'INT_AND_-1205955646', u'INT_EQUAL_-1205957049'), (u'MULTIEQUAL_-1205954601', u'MULTIEQUAL_-1205954370'), ('const-128', u'INT_AND_-1205956872'), (u'MULTIEQUAL_-1205954208', u'MULTIEQUAL_-1205954175'), (u'STORE_-1205958199', u'INDIRECT_-1205955270'), (u'INDIRECT_-1205953779', u'MULTIEQUAL_-1205954153'), (u'STORE_-1205957859', u'INDIRECT_-1205954364'), (u'LOAD_-1205956381', u'CAST_-1205952815'), (u'CAST_-1205953888', u'LOAD_-1205958268'), (u'CALL_-1205957349', u'INDIRECT_-1205954200'), (u'LOAD_-1205956415', u'CALL_-1205956382'), (u'MULTIEQUAL_-1205954482', u'MULTIEQUAL_-1205954447'), ('const-417', u'LOAD_-1205957323'), (u'MULTIEQUAL_-1205956259', u'MULTIEQUAL_-1205956238'), (u'CAST_-1205953259', u'STORE_-1205956970'), (u'LOAD_-1205957305', u'CALL_-1205957288'), (u'MULTIEQUAL_-1205955120', u'MULTIEQUAL_-1205954078'), (u'INDIRECT_-1205954269', u'MULTIEQUAL_-1205954252'), ('const-2', u'PTRADD_-1205953436'), (u'MULTIEQUAL_-1205956217', u'INT_NOTEQUAL_-1205957043'), (u'CALL_-1205957288', u'INDIRECT_-1205954114'), (u'CALL_-1205957428', u'INDIRECT_-1205954805'), (u'INDIRECT_-1205954842', u'MULTIEQUAL_-1205954812'), (u'INDIRECT_-1205954751', u'MULTIEQUAL_-1205954723'), (u'STORE_-1205957300', u'INDIRECT_-1205954493'), (u'STORE_-1205956356', u'INDIRECT_-1205953659'), 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u'INDIRECT_-1205955053'), (u'STORE_-1205956860', u'INDIRECT_-1205954716'), (u'CAST_-1205952975', u'PTRADD_-1205952963'), (u'INT_LESS_-1205958701', u'CBRANCH_-1205958697'), (u'COPY_-1205956488', u'MULTIEQUAL_-1205955461'), ('tmp_3267', u'CBRANCH_-1205956962'), ('tmp_3691', u'BRANCH_-1205956374'), (u'MULTIEQUAL_-1205954124', u'MULTIEQUAL_-1205954115'), (u'INT_SRIGHT_-1205956912', u'INT_MULT_-1205954594'), (u'INDIRECT_-1205954771', u'MULTIEQUAL_-1205954651'), (u'STORE_-1205956379', u'INDIRECT_-1205954508'), (u'MULTIEQUAL_-1205954903', u'MULTIEQUAL_-1205954881'), (u'INDIRECT_-1205955252', u'MULTIEQUAL_-1205955124'), (u'MULTIEQUAL_-1205954448', u'MULTIEQUAL_-1205954427'), (u'MULTIEQUAL_-1205954119', u'MULTIEQUAL_-1205954097'), (u'LOAD_-1205957370', u'INT_SLESS_-1205957339'), (u'MULTIEQUAL_-1205954762', u'MULTIEQUAL_-1205954314'), (u'CAST_-1205952881', u'STORE_-1205956427'), (u'CALL_-1205957405', u'INDIRECT_-1205954338'), (u'INT_AND_-1205955298', u'INT_EQUAL_-1205957422'), 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u'INT_LESS_-1205958661'), (u'PTRSUB_-1205953420', u'CALL_-1205957200'), (u'INDIRECT_-1205954756', u'MULTIEQUAL_-1205953978'), (u'INDIRECT_-1205953723', u'MULTIEQUAL_-1205954097'), (u'MULTIEQUAL_-1205955445', u'INT_LESS_-1205956422'), (u'INDIRECT_-1205954618', u'MULTIEQUAL_-1205954706'), ('const-417', u'STORE_-1205956860'), (u'CALL_-1205957299', u'INDIRECT_-1205953435'), (u'INDIRECT_-1205953853', u'MULTIEQUAL_-1205953843'), (u'STORE_-1205958199', u'INDIRECT_-1205955494'), (u'STORE_-1205957300', u'INDIRECT_-1205954661'), (u'MULTIEQUAL_-1205956091', u'MULTIEQUAL_-1205956095'), ('const-4', u'PTRADD_-1205953288'), (u'MULTIEQUAL_-1205955265', u'MULTIEQUAL_-1205955249'), ('const-417', u'LOAD_-1205958140'), (u'MULTIEQUAL_-1205954258', u'MULTIEQUAL_-1205954223'), ('const-4', u'PTRADD_-1205953614'), (u'CALL_-1205956373', u'INDIRECT_-1205954524'), (u'MULTIEQUAL_-1205954153', u'MULTIEQUAL_-1205953922'), (u'INT_SUB_-1205956934', u'INT_SRIGHT_-1205956912'), (u'LOAD_-1205958599', 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u'COPY_-1205954444'), (u'CALL_-1205957405', u'INDIRECT_-1205955010'), (u'CAST_-1205953548', u'LOAD_-1205957452'), (u'INDIRECT_-1205954860', u'MULTIEQUAL_-1205954873'), (u'INT_ADD_-1205956469', u'CAST_-1205952970'), (u'INDIRECT_-1205954107', u'MULTIEQUAL_-1205954566'), (u'INT_SUB_-1205956475', u'INT_SRIGHT_-1205956453'), (u'LOAD_-1205958599', u'PTRADD_-1205952874'), (u'CALL_-1205957277', u'INDIRECT_-1205953762'), (u'CALL_-1205957349', u'INDIRECT_-1205953584'), (u'INDIRECT_-1205954661', u'MULTIEQUAL_-1205954644'), (u'CAST_-1205953112', u'LOAD_-1205957322'), ('const-4', u'PTRADD_-1205952976'), (u'CAST_-1205953577', u'LOAD_-1205957892'), (u'INDIRECT_-1205954539', u'MULTIEQUAL_-1205954984'), (u'LOAD_-1205957892', u'INT_SLESS_-1205957843'), (u'STORE_-1205956925', u'INDIRECT_-1205954521'), (u'INDIRECT_-1205954693', u'MULTIEQUAL_-1205954706'), (u'MULTIEQUAL_-1205955234', u'MULTIEQUAL_-1205955417'), ('const-2', u'INT_LESS_-1205958701'), (u'INDIRECT_-1205954420', u'MULTIEQUAL_-1205953642'), 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u'MULTIEQUAL_-1205954707'), ('const-0', u'INT_NOTEQUAL_-1205957951'), ('const-417', u'LOAD_-1205957358'), (u'CALL_-1205958342', u'INDIRECT_-1205954692'), (u'STORE_-1205957300', u'INDIRECT_-1205954213'), (u'STORE_-1205957859', u'INDIRECT_-1205954588'), (u'INDIRECT_-1205955140', u'MULTIEQUAL_-1205955012'), (u'INDIRECT_-1205953786', u'CALL_-1205956429'), (u'INDIRECT_-1205954581', u'MULTIEQUAL_-1205954594'), (u'MULTIEQUAL_-1205954146', u'MULTIEQUAL_-1205953698'), (u'STORE_-1205957264', u'INDIRECT_-1205955036'), (u'INDIRECT_-1205954639', u'MULTIEQUAL_-1205954562'), ('tmp_14681', u'COPY_-1205954035'), (u'MULTIEQUAL_-1205954900', u'MULTIEQUAL_-1205954891'), (u'LOAD_-1205958239', u'CALL_-1205958124'), (u'INDIRECT_-1205954659', u'MULTIEQUAL_-1205954539'), (u'CALL_-1205956510', u'INDIRECT_-1205954655'), (u'CALL_-1205957899', u'INDIRECT_-1205954458'), ('const-101428', u'INT_ADD_-1205957362'), (u'INDIRECT_-1205954919', u'MULTIEQUAL_-1205954891'), ('const-100612', u'INT_ADD_-1205957806'), (u'INDIRECT_-1205953555', u'MULTIEQUAL_-1205953929'), (u'INDIRECT_-1205954471', u'MULTIEQUAL_-1205954593'), (u'INDIRECT_-1205953740', u'MULTIEQUAL_-1205953669'), (u'MULTIEQUAL_-1205955209', u'MULTIEQUAL_-1205955176'), (u'CALL_-1205957349', u'INDIRECT_-1205954144'), (u'CAST_-1205952660', u'LOAD_-1205957338'), (u'CALL_-1205957299', u'INDIRECT_-1205954219'), (u'INDIRECT_-1205954577', u'MULTIEQUAL_-1205954567'), (u'STORE_-1205957264', u'INDIRECT_-1205954252'), ('const-6', u'INT_OR_-1205956913'), (u'INDIRECT_-1205953445', u'MULTIEQUAL_-1205953460'), (u'INDIRECT_-1205954076', u'MULTIEQUAL_-1205954068'), (u'PTRADD_-1205953516', u'LOAD_-1205957416'), (u'MULTIEQUAL_-1205954788', u'MULTIEQUAL_-1205954779'), (u'INDIRECT_-1205955311', u'MULTIEQUAL_-1205955292'), (u'MULTIEQUAL_-1205954370', u'MULTIEQUAL_-1205953922'), (u'INT_SLESS_-1205958089', u'CBRANCH_-1205958086'), (u'INDIRECT_-1205954132', u'MULTIEQUAL_-1205954124'), (u'CALL_-1205957428', u'INT_EQUAL_-1205957023'), ('const-2', u'PTRADD_-1205953609'), (u'INDIRECT_-1205953725', u'COPY_-1205953772'), (u'SUBPIECE_-1205955045', u'INT_AND_-1205957039'), (u'CALL_-1205956373', u'INDIRECT_-1205954636'), (u'INT_ADD_-1205957388', u'CAST_-1205952695'), (u'STORE_-1205957258', u'INDIRECT_-1205954359'), (u'INT_MULT_-1205957885', u'CALL_-1205957899'), (u'INDIRECT_-1205954636', u'MULTIEQUAL_-1205954508'), (u'MULTIEQUAL_-1205954784', u'MULTIEQUAL_-1205954763'), (u'CALL_-1205956373', u'INDIRECT_-1205954356'), (u'INDIRECT_-1205955420', u'MULTIEQUAL_-1205955417'), (u'INDIRECT_-1205954415', u'MULTIEQUAL_-1205954387'), (u'CAST_-1205953289', u'MULTIEQUAL_-1205955777'), ('const-417', u'STORE_-1205957258'), (u'STORE_-1205956970', u'INDIRECT_-1205954030'), (u'MULTIEQUAL_-1205954623', u'MULTIEQUAL_-1205954601'), (u'INDIRECT_-1205954637', u'MULTIEQUAL_-1205954881'), (u'STORE_-1205956852', u'INDIRECT_-1205953551'), (u'CALL_-1205957428', u'INDIRECT_-1205954525'), (u'LOAD_-1205956909', u'INT_AND_-1205956872'), (u'MULTIEQUAL_-1205955631', u'INT_MULT_-1205956515'), (u'INDIRECT_-1205954580', u'MULTIEQUAL_-1205954593'), (u'INDIRECT_-1205954692', u'MULTIEQUAL_-1205954621'), ('tmp_3413', u'CBRANCH_-1205956880'), (u'STORE_-1205956925', u'INDIRECT_-1205954465'), ('const-417', u'LOAD_-1205957322'), (u'INDIRECT_-1205953908', u'MULTIEQUAL_-1205953837'), (u'CAST_-1205952912', u'STORE_-1205956356'), (u'INDIRECT_-1205954861', u'MULTIEQUAL_-1205955105'), (u'LOAD_-1205958599', u'PTRADD_-1205952941'), (u'STORE_-1205956446', u'INDIRECT_-1205953978'), (u'INDIRECT_-1205954924', u'MULTIEQUAL_-1205954146'), (u'INDIRECT_-1205954076', u'MULTIEQUAL_-1205954489'), (u'INT_ADD_-1205958223', u'CAST_-1205953709'), (u'INDIRECT_-1205954692', u'MULTIEQUAL_-1205954689'), ('const-2', u'PTRADD_-1205953491'), (u'PTRADD_-1205953013', u'LOAD_-1205956491'), (u'INDIRECT_-1205953629', u'MULTIEQUAL_-1205953619'), (u'MULTIEQUAL_-1205954516', u'MULTIEQUAL_-1205954453'), (u'STORE_-1205956427', u'INDIRECT_-1205953979'), (u'INT_MULT_-1205957433', u'INT_ADD_-1205957354'), (u'STORE_-1205958556', u'INDIRECT_-1205955499'), (u'INDIRECT_-1205954748', u'MULTIEQUAL_-1205955161'), (u'STORE_-1205957331', u'INDIRECT_-1205954114'), (u'STORE_-1205957264', u'INDIRECT_-1205954812'), (u'CALL_-1205957200', u'INDIRECT_-1205954921'), (u'INDIRECT_-1205954266', u'COPY_-1205954325'), ('const-0', u'INT_EQUAL_-1205958274'), (u'STORE_-1205956415', u'INDIRECT_-1205954133'), (u'STORE_-1205956427', u'INDIRECT_-1205954035'), (u'INDIRECT_-1205954364', u'MULTIEQUAL_-1205953586'), (u'MULTIEQUAL_-1205954674', u'MULTIEQUAL_-1205954857'), (u'MULTIEQUAL_-1205954012', u'MULTIEQUAL_-1205954003'), (u'MULTIEQUAL_-1205956217', u'MULTIEQUAL_-1205956270'), ('const-417', u'STORE_-1205956925'), (u'LOAD_-1205956403', u'STORE_-1205956379'), ('tmp_2962', u'CBRANCH_-1205957144'), (u'LOAD_-1205956523', u'INT_ADD_-1205956495'), (u'CALL_-1205957288', u'INDIRECT_-1205954562'), (u'INT_ADD_-1205956501', u'CAST_-1205953102'), (u'CALL_-1205956373', u'INT_SLESS_-1205956338'), (u'INDIRECT_-1205953754', u'MULTIEQUAL_-1205953731'), (u'INDIRECT_-1205954941', u'MULTIEQUAL_-1205954924'), (u'CALL_-1205958124', u'INDIRECT_-1205955143'), (u'INDIRECT_-1205954297', u'MULTIEQUAL_-1205954287'), (u'MULTIEQUAL_-1205954231', u'MULTIEQUAL_-1205954209'), (u'CAST_-1205953424', u'LOAD_-1205957370'), (u'MULTIEQUAL_-1205954684', u'MULTIEQUAL_-1205954621'), (u'INDIRECT_-1205954805', u'MULTIEQUAL_-1205954565'), ('tmp_3821', u'CBRANCH_-1205956437'), (u'MULTIEQUAL_-1205954628', u'MULTIEQUAL_-1205954619'), (u'COPY_-1205954035', u'INT_ADD_-1205958156'), (u'STORE_-1205956852', u'INDIRECT_-1205954111'), (u'INDIRECT_-1205953408', u'MULTIEQUAL_-1205953783'), (u'INT_ADD_-1205958751', u'INT_ADD_-1205958744'), (u'CALL_-1205956510', u'INDIRECT_-1205954319'), (u'INDIRECT_-1205953922', u'MULTIEQUAL_-1205953899'), (u'STORE_-1205957264', u'INDIRECT_-1205954084'), (u'INDIRECT_-1205955255', u'MULTIEQUAL_-1205955236'), (u'MULTIEQUAL_-1205953732', u'MULTIEQUAL_-1205953723'), (u'MULTIEQUAL_-1205953574', u'INT_ADD_-1205957362'), (u'CALL_-1205957428', u'INDIRECT_-1205954245')]
| null | null |
00018768
|
arm
|
O2
|
(translation_unit "void FUN_00018768(void)\n\n{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}\n\n" (function_definition "void FUN_00018768(void)\n\n{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" primitive_type (function_declarator "FUN_00018768(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "byte bVar2;" type_identifier identifier ;) (declaration "bool bVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "undefined4 uVar6;" type_identifier identifier ;) (declaration "char *pcVar7;" primitive_type (pointer_declarator "*pcVar7" * identifier) ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "int iVar9;" primitive_type identifier ;) (declaration "undefined4 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "char *__s1;" primitive_type (pointer_declarator "*__s1" * identifier) ;) (declaration "byte bVar11;" type_identifier identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "int iVar13;" primitive_type identifier ;) (declaration "int *piVar14;" primitive_type (pointer_declarator "*piVar14" * identifier) ;) (declaration "int *piVar15;" primitive_type (pointer_declarator "*piVar15" * identifier) ;) (declaration "int iVar16;" primitive_type identifier ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar17;" primitive_type identifier ;) (declaration "int *piVar18;" primitive_type (pointer_declarator "*piVar18" * identifier) ;) (declaration "int *piVar19;" primitive_type (pointer_declarator "*piVar19" * identifier) ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "undefined4 local_30;" type_identifier identifier ;) (declaration "undefined1 auStack_2c [8];" type_identifier (array_declarator "auStack_2c [8]" identifier [ number_literal ]) ;) (expression_statement "iVar13 = DAT_00018c70;" (assignment_expression "iVar13 = DAT_00018c70" identifier = identifier) ;) (expression_statement "iVar17 = DAT_00018c68 + 0x1877c;" (assignment_expression "iVar17 = DAT_00018c68 + 0x1877c" identifier = (binary_expression "DAT_00018c68 + 0x1877c" identifier + number_literal)) ;) (expression_statement "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);" (assignment_expression "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" identifier = (pointer_expression "*(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" * (cast_expression "(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" ( (binary_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4" (pointer_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" * (cast_expression "(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(**(int **)(iVar17 + DAT_00018c6c) + 4)" ( (binary_expression "**(int **)(iVar17 + DAT_00018c6c) + 4" (pointer_expression "**(int **)(iVar17 + DAT_00018c6c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c6c)" * (cast_expression "(int **)(iVar17 + DAT_00018c6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c6c)" ( (binary_expression "iVar17 + DAT_00018c6c" identifier + identifier) ))))) + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" if (parenthesized_expression "(uVar12 < 2)" ( (binary_expression "uVar12 < 2" identifier < number_literal) )) (compound_statement "{\n bVar3 = false;\n }" { (expression_statement "bVar3 = false;" (assignment_expression "bVar3 = false" identifier = false) ;) }) (else_clause "else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" else (if_statement "if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" if (parenthesized_expression "(uVar12 < 6)" ( (binary_expression "uVar12 < 6" identifier < number_literal) )) (compound_statement "{\n bVar3 = true;\n }" { (expression_statement "bVar3 = true;" (assignment_expression "bVar3 = true" identifier = true) ;) }) (else_clause "else {\n bVar3 = uVar12 == 10;\n }" else (compound_statement "{\n bVar3 = uVar12 == 10;\n }" { (expression_statement "bVar3 = uVar12 == 10;" (assignment_expression "bVar3 = uVar12 == 10" identifier = (binary_expression "uVar12 == 10" identifier == number_literal)) ;) }))))) (expression_statement "piVar18 = (int *)(DAT_00018c70 + 0x187bc);" (assignment_expression "piVar18 = (int *)(DAT_00018c70 + 0x187bc)" identifier = (cast_expression "(int *)(DAT_00018c70 + 0x187bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187bc)" ( (binary_expression "DAT_00018c70 + 0x187bc" identifier + number_literal) )))) ;) (expression_statement "iVar9 = *(int *)(DAT_00018c70 + 0x187c0);" (assignment_expression "iVar9 = *(int *)(DAT_00018c70 + 0x187c0)" identifier = (pointer_expression "*(int *)(DAT_00018c70 + 0x187c0)" * (cast_expression "(int *)(DAT_00018c70 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187c0)" ( (binary_expression "DAT_00018c70 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "piVar19 = *(int **)(iVar17 + DAT_00018c74);" (assignment_expression "piVar19 = *(int **)(iVar17 + DAT_00018c74)" identifier = (pointer_expression "*(int **)(iVar17 + DAT_00018c74)" * (cast_expression "(int **)(iVar17 + DAT_00018c74)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c74)" ( (binary_expression "iVar17 + DAT_00018c74" identifier + identifier) ))))) ;) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;) (expression_statement "*piVar19 = 0;" (assignment_expression "*piVar19 = 0" (pointer_expression "*piVar19" * identifier) = number_literal) ;) (if_statement "if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" if (parenthesized_expression "(0 < iVar9)" ( (binary_expression "0 < iVar9" number_literal < identifier) )) (compound_statement "{\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" { (expression_statement "iVar9 = 0;" (assignment_expression "iVar9 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));" do (compound_statement "{\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n }" { (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" identifier = (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" identifier (argument_list "(*(undefined4 *)(*piVar18 + iVar9 * 4))" ( (pointer_expression "*(undefined4 *)(*piVar18 + iVar9 * 4)" * (cast_expression "(undefined4 *)(*piVar18 + iVar9 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar9 * 4)" ( (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar9 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" if (parenthesized_expression "(iVar4 != 0)" ( (binary_expression "iVar4 != 0" identifier != number_literal) )) (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" { (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" * (cast_expression "(uint **)(iVar17 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c78)" ( (binary_expression "iVar17 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" if (parenthesized_expression "(uVar12 == 0)" ( (binary_expression "uVar12 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }" { (if_statement "if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" if (parenthesized_expression "(iVar16 != 0)" ( (binary_expression "iVar16 != 0" identifier != number_literal) )) (compound_statement "{\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" { (labeled_statement "LAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" statement_identifier : (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" if (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" ( (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" * (cast_expression "(byte *)(iVar16 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018808;" goto statement_identifier ;))) })) }) (else_clause "else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" else (compound_statement "{\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" { (expression_statement "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);" (assignment_expression "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar18 + iVar9 * 4) + 4)" ( (binary_expression "*(int *)(*piVar18 + iVar9 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar9 * 4)" * (cast_expression "(int *)(*piVar18 + iVar9 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar9 * 4)" ( (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar9 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar4 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar4 = **(int **)(iVar17 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" * (cast_expression "(int **)(iVar17 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c7c)" ( (binary_expression "iVar17 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar12)" ( (binary_expression "uVar20 < uVar12" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" { (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" identifier = (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));" (assignment_expression "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" identifier = (call_expression "strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" identifier (argument_list "(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar4 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar4 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + uVar1 * 0xc)" ( (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar16 = iVar4 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar4 + uVar1 * 0xc" identifier = (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar5) break;" if (parenthesized_expression "(-1 < iVar5)" ( (binary_expression "-1 < iVar5" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_000188b0;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_000188b0;" goto statement_identifier ;)) })) (if_statement "if (iVar5 == 0) goto LAB_000187ec;" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (goto_statement "goto LAB_000187ec;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_000188b0:\n iVar16 = 0;" statement_identifier : (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;)) }))) (expression_statement "*piVar19 = *piVar19 + 1;" (assignment_expression "*piVar19 = *piVar19 + 1" (pointer_expression "*piVar19" * identifier) = (binary_expression "*piVar19 + 1" (pointer_expression "*piVar19" * identifier) + number_literal)) ;) })) (labeled_statement "LAB_00018808:\n iVar9 = iVar9 + 1;" statement_identifier : (expression_statement "iVar9 = iVar9 + 1;" (assignment_expression "iVar9 = iVar9 + 1" identifier = (binary_expression "iVar9 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar9 < *(int *)(iVar13 + 0x187c0))" ( (binary_expression "iVar9 < *(int *)(iVar13 + 0x187c0)" identifier < (pointer_expression "*(int *)(iVar13 + 0x187c0)" * (cast_expression "(int *)(iVar13 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar13 + 0x187c0)" ( (binary_expression "iVar13 + 0x187c0" identifier + number_literal) ))))) )) ;) (if_statement "if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" if (parenthesized_expression "(*piVar19 != 0)" ( (binary_expression "*piVar19 != 0" (pointer_expression "*piVar19" * identifier) != number_literal) )) (compound_statement "{\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" { (expression_statement "iVar9 = xmalloc(*piVar19 * 0xd8);" (assignment_expression "iVar9 = xmalloc(*piVar19 * 0xd8)" identifier = (call_expression "xmalloc(*piVar19 * 0xd8)" identifier (argument_list "(*piVar19 * 0xd8)" ( (binary_expression "*piVar19 * 0xd8" (pointer_expression "*piVar19" * identifier) * number_literal) )))) ;) (expression_statement "iVar13 = *(int *)(iVar13 + 0x187c0);" (assignment_expression "iVar13 = *(int *)(iVar13 + 0x187c0)" identifier = (pointer_expression "*(int *)(iVar13 + 0x187c0)" * (cast_expression "(int *)(iVar13 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar13 + 0x187c0)" ( (binary_expression "iVar13 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "piVar19[1] = iVar9;" (assignment_expression "piVar19[1] = iVar9" (subscript_expression "piVar19[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "piVar19[2] = iVar9;" (assignment_expression "piVar19[2] = iVar9" (subscript_expression "piVar19[2]" identifier [ number_literal ]) = identifier) ;) (if_statement "if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" if (parenthesized_expression "(iVar13 < 1)" ( (binary_expression "iVar13 < 1" identifier < number_literal) )) (compound_statement "{\n iVar13 = 0;\n }" { (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" identifier = number_literal) ;) }) (else_clause "else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" else (compound_statement "{\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" { (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" identifier = number_literal) ;) (expression_statement "piVar18 = (int *)(DAT_00018c80 + 0x18904);" (assignment_expression "piVar18 = (int *)(DAT_00018c80 + 0x18904)" identifier = (cast_expression "(int *)(DAT_00018c80 + 0x18904)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c80 + 0x18904)" ( (binary_expression "DAT_00018c80 + 0x18904" identifier + number_literal) )))) ;) (expression_statement "piVar14 = (int *)(DAT_00018c84 + 0x18910);" (assignment_expression "piVar14 = (int *)(DAT_00018c84 + 0x18910)" identifier = (cast_expression "(int *)(DAT_00018c84 + 0x18910)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c84 + 0x18910)" ( (binary_expression "DAT_00018c84 + 0x18910" identifier + number_literal) )))) ;) (expression_statement "pcVar7 = (char *)(DAT_00018c88 + 0x1891c);" (assignment_expression "pcVar7 = (char *)(DAT_00018c88 + 0x1891c)" identifier = (cast_expression "(char *)(DAT_00018c88 + 0x1891c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c88 + 0x1891c)" ( (binary_expression "DAT_00018c88 + 0x1891c" identifier + number_literal) )))) ;) (do_statement "do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));" do (compound_statement "{\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n }" { (expression_statement "iVar9 = iVar13 * 4;" (assignment_expression "iVar9 = iVar13 * 4" identifier = (binary_expression "iVar13 * 4" identifier * number_literal)) ;) (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" identifier = (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" identifier (argument_list "(*(undefined4 *)(*piVar18 + iVar13 * 4))" ( (pointer_expression "*(undefined4 *)(*piVar18 + iVar13 * 4)" * (cast_expression "(undefined4 *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (compound_statement "{\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }" { (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" if (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" * (cast_expression "(uint **)(iVar17 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c94)" ( (binary_expression "iVar17 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" { (expression_statement "iVar9 = *(int *)(*piVar18 + iVar13 * 4);" (assignment_expression "iVar9 = *(int *)(*piVar18 + iVar13 * 4)" identifier = (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" * (cast_expression "(int *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) ))))) ;) (expression_statement "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));" (call_expression "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" identifier (argument_list "((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" ( (cast_expression "(char *)(DAT_00018c9c + 0x18a94)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c9c + 0x18a94)" ( (binary_expression "DAT_00018c9c + 0x18a94" identifier + number_literal) ))) , (pointer_expression "*(undefined4 *)(iVar9 + 8)" * (cast_expression "(undefined4 *)(iVar9 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar9 + 8)" ( (binary_expression "iVar9 + 8" identifier + number_literal) )))) , (pointer_expression "*(undefined4 *)(iVar9 + 4)" * (cast_expression "(undefined4 *)(iVar9 + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar9 + 4)" ( (binary_expression "iVar9 + 4" identifier + number_literal) )))) ))) ;) })) }) (else_clause "else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" else (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" { (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" * (cast_expression "(uint **)(iVar17 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c78)" ( (binary_expression "iVar17 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" if (parenthesized_expression "(uVar12 == 0)" ( (binary_expression "uVar12 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }" { (if_statement "if (iVar16 == 0) goto LAB_00018b1c;" if (parenthesized_expression "(iVar16 == 0)" ( (binary_expression "iVar16 == 0" identifier == number_literal) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) (labeled_statement "LAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" statement_identifier : (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" if (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" ( (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" * (cast_expression "(byte *)(iVar16 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018a28;" goto statement_identifier ;))) (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" identifier (argument_list "(piVar19[2])" ( (subscript_expression "piVar19[2]" identifier [ number_literal ]) ))) ;) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" identifier = (cast_expression "(int *)piVar19[2]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);" (assignment_expression "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" * (cast_expression "(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" ( (binary_expression "*(int *)(DAT_00018c8c + 0x18960) + iVar9" (pointer_expression "*(int *)(DAT_00018c8c + 0x18960)" * (cast_expression "(int *)(DAT_00018c8c + 0x18960)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c8c + 0x18960)" ( (binary_expression "DAT_00018c8c + 0x18960" identifier + number_literal) )))) + identifier) ))))) ;) (expression_statement "iVar8 = *(int *)(iVar5 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar5 + 0x10)" identifier = (pointer_expression "*(int *)(iVar5 + 0x10)" * (cast_expression "(int *)(iVar5 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0x10)" ( (binary_expression "iVar5 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "iVar5 = *(int *)(iVar5 + 8);" (assignment_expression "iVar5 = *(int *)(iVar5 + 8)" identifier = (pointer_expression "*(int *)(iVar5 + 8)" * (cast_expression "(int *)(iVar5 + 8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 8)" ( (binary_expression "iVar5 + 8" identifier + number_literal) ))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" if (parenthesized_expression "(iVar8 != 0)" ( (binary_expression "iVar8 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" { (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" identifier = (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar8 + 0x1c)" * (cast_expression "(int *)(iVar8 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + 0x1c)" ( (binary_expression "iVar8 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) })) (expression_statement "iVar8 = *(int *)(iVar16 + 4);" (assignment_expression "iVar8 = *(int *)(iVar16 + 4)" identifier = (pointer_expression "*(int *)(iVar16 + 4)" * (cast_expression "(int *)(iVar16 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 4)" ( (binary_expression "iVar16 + 4" identifier + number_literal) ))))) ;) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) = (binary_expression "*(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) | number_literal)) ;) (expression_statement "piVar15[2] = iVar8;" (assignment_expression "piVar15[2] = iVar8" (subscript_expression "piVar15[2]" identifier [ number_literal ]) = identifier) ;) }) (else_clause "else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" else (compound_statement "{\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" { (expression_statement "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);" (assignment_expression "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar18 + iVar13 * 4) + 4)" ( (binary_expression "*(int *)(*piVar18 + iVar13 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" * (cast_expression "(int *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar5 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar5 = **(int **)(iVar17 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" * (cast_expression "(int **)(iVar17 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c7c)" ( (binary_expression "iVar17 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar12)" ( (binary_expression "uVar20 < uVar12" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" { (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" identifier = (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));" (assignment_expression "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" identifier = (call_expression "strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" identifier (argument_list "(__s1,*(char **)(iVar5 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar5 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar5 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + uVar1 * 0xc)" ( (binary_expression "iVar5 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar16 = iVar5 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar5 + uVar1 * 0xc" identifier = (binary_expression "iVar5 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar8) break;" if (parenthesized_expression "(-1 < iVar8)" ( (binary_expression "-1 < iVar8" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_00018b1c;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) })) (if_statement "if (iVar8 == 0) goto LAB_0001893c;" if (parenthesized_expression "(iVar8 == 0)" ( (binary_expression "iVar8 == 0" identifier == number_literal) )) (goto_statement "goto LAB_0001893c;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_00018b1c:\n FUN_0001c31c(piVar19[2]);" statement_identifier : (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" identifier (argument_list "(piVar19[2])" ( (subscript_expression "piVar19[2]" identifier [ number_literal ]) ))) ;)) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" identifier = (cast_expression "(int *)piVar19[2]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "iVar16 = *(int *)(*piVar14 + iVar9);" (assignment_expression "iVar16 = *(int *)(*piVar14 + iVar9)" identifier = (pointer_expression "*(int *)(*piVar14 + iVar9)" * (cast_expression "(int *)(*piVar14 + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar14 + iVar9)" ( (binary_expression "*piVar14 + iVar9" (pointer_expression "*piVar14" * identifier) + identifier) ))))) ;) (expression_statement "iVar8 = *(int *)(iVar16 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar16 + 0x10)" identifier = (pointer_expression "*(int *)(iVar16 + 0x10)" * (cast_expression "(int *)(iVar16 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 0x10)" ( (binary_expression "iVar16 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "iVar5 = *(int *)(iVar16 + 8);" (assignment_expression "iVar5 = *(int *)(iVar16 + 8)" identifier = (pointer_expression "*(int *)(iVar16 + 8)" * (cast_expression "(int *)(iVar16 + 8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) ))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" if (parenthesized_expression "(iVar8 != 0)" ( (binary_expression "iVar8 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" { (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" identifier = (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar8 + 0x1c)" * (cast_expression "(int *)(iVar8 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + 0x1c)" ( (binary_expression "iVar8 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) })) (expression_statement "piVar15[2] = *(int *)(iVar16 + 4);" (assignment_expression "piVar15[2] = *(int *)(iVar16 + 4)" (subscript_expression "piVar15[2]" identifier [ number_literal ]) = (pointer_expression "*(int *)(iVar16 + 4)" * (cast_expression "(int *)(iVar16 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 4)" ( (binary_expression "iVar16 + 4" identifier + number_literal) ))))) ;) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) = (binary_expression "*(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) & number_literal)) ;) }))) (expression_statement "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);" (assignment_expression "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" identifier = (call_expression "FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" identifier (argument_list "(iVar5,&local_30,auStack_2c,piVar15 + 4)" ( identifier , (pointer_expression "&local_30" & identifier) , identifier , (binary_expression "piVar15 + 4" identifier + number_literal) )))) ;) (if_statement "if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" if (parenthesized_expression "(iVar5 != 0)" ( (binary_expression "iVar5 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" { (expression_statement "iVar5 = piVar19[2];" (assignment_expression "iVar5 = piVar19[2]" identifier = (subscript_expression "piVar19[2]" identifier [ number_literal ])) ;) (expression_statement "uVar6 = FUN_0001bd50(local_30);" (assignment_expression "uVar6 = FUN_0001bd50(local_30)" identifier = (call_expression "FUN_0001bd50(local_30)" identifier (argument_list "(local_30)" ( identifier )))) ;) (expression_statement "*(undefined4 *)(iVar5 + 0xc) = uVar6;" (assignment_expression "*(undefined4 *)(iVar5 + 0xc) = uVar6" (pointer_expression "*(undefined4 *)(iVar5 + 0xc)" * (cast_expression "(undefined4 *)(iVar5 + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0xc)" ( (binary_expression "iVar5 + 0xc" identifier + number_literal) )))) = identifier) ;) })) (if_statement "if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }" if (parenthesized_expression "(bVar3)" ( identifier )) (compound_statement "{\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }" { (expression_statement "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;" (assignment_expression "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" identifier = (binary_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" (call_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" ( (binary_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3" (pointer_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" * (cast_expression "(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" ( (binary_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc" (pointer_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" * (cast_expression "(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" ( (binary_expression "*(int *)(DAT_00018c90 + 0x189d0) + iVar9" (pointer_expression "*(int *)(DAT_00018c90 + 0x189d0)" * (cast_expression "(int *)(DAT_00018c90 + 0x189d0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c90 + 0x189d0)" ( (binary_expression "DAT_00018c90 + 0x189d0" identifier + number_literal) )))) + identifier) )))) + number_literal) )))) >> number_literal) ))) & number_literal)) ;) }) (else_clause "else {\n bVar11 = 1;\n }" else (compound_statement "{\n bVar11 = 1;\n }" { (expression_statement "bVar11 = 1;" (assignment_expression "bVar11 = 1" identifier = number_literal) ;) }))) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" identifier = (cast_expression "(undefined4 *)piVar19[2]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "bVar2 = *(byte *)(puVar10 + 5);" (assignment_expression "bVar2 = *(byte *)(puVar10 + 5)" identifier = (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) ))))) ;) (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4" (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) )))) = (binary_expression "bVar11 | bVar2 & 0xfe | 4" (binary_expression "bVar11 | bVar2 & 0xfe" identifier | (binary_expression "bVar2 & 0xfe" identifier & number_literal)) | number_literal)) ;) (if_statement "if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" if (parenthesized_expression "(iVar4 == 0x74)" ( (binary_expression "iVar4 == 0x74" identifier == number_literal) )) (compound_statement "{\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" { (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6" (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) )))) = (binary_expression "bVar11 | bVar2 & 0xfe | 6" (binary_expression "bVar11 | bVar2 & 0xfe" identifier | (binary_expression "bVar2 & 0xfe" identifier & number_literal)) | number_literal)) ;) })) (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" if (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" * (cast_expression "(uint **)(iVar17 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c94)" ( (binary_expression "iVar17 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" { (expression_statement "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);" (call_expression "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" identifier (argument_list "(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" ( identifier , (binary_expression "((int)puVar10 - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "((int)puVar10 - piVar19[1] >> 3)" ( (binary_expression "(int)puVar10 - piVar19[1] >> 3" (binary_expression "(int)puVar10 - piVar19[1]" (cast_expression "(int)puVar10" ( (type_descriptor "int" primitive_type) ) identifier) - (subscript_expression "piVar19[1]" identifier [ number_literal ])) >> number_literal) )) * number_literal) , (subscript_expression "puVar10[2]" identifier [ number_literal ]) , (pointer_expression "*puVar10" * identifier) ))) ;) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" identifier = (cast_expression "(undefined4 *)piVar19[2]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) })) (expression_statement "piVar19[2] = (int)(puVar10 + 0x36);" (assignment_expression "piVar19[2] = (int)(puVar10 + 0x36)" (subscript_expression "piVar19[2]" identifier [ number_literal ]) = (cast_expression "(int)(puVar10 + 0x36)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(puVar10 + 0x36)" ( (binary_expression "puVar10 + 0x36" identifier + number_literal) )))) ;) }))) (labeled_statement "LAB_00018a28:\n iVar13 = iVar13 + 1;" statement_identifier : (expression_statement "iVar13 = iVar13 + 1;" (assignment_expression "iVar13 = iVar13 + 1" identifier = (binary_expression "iVar13 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar13 < *(int *)(DAT_00018c98 + 0x18a3c))" ( (binary_expression "iVar13 < *(int *)(DAT_00018c98 + 0x18a3c)" identifier < (pointer_expression "*(int *)(DAT_00018c98 + 0x18a3c)" * (cast_expression "(int *)(DAT_00018c98 + 0x18a3c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c98 + 0x18a3c)" ( (binary_expression "DAT_00018c98 + 0x18a3c" identifier + number_literal) ))))) )) ;) (expression_statement "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;" (assignment_expression "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13" identifier = (binary_expression "(piVar19[2] - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "(piVar19[2] - piVar19[1] >> 3)" ( (binary_expression "piVar19[2] - piVar19[1] >> 3" (binary_expression "piVar19[2] - piVar19[1]" (subscript_expression "piVar19[2]" identifier [ number_literal ]) - (subscript_expression "piVar19[1]" identifier [ number_literal ])) >> number_literal) )) * number_literal)) ;) }))) (expression_statement "*piVar19 = iVar13;" (assignment_expression "*piVar19 = iVar13" (pointer_expression "*piVar19" * identifier) = identifier) ;) (expression_statement "FUN_0001c330(piVar19);" (call_expression "FUN_0001c330(piVar19)" identifier (argument_list "(piVar19)" ( identifier ))) ;) (return_statement "return;" return ;) })) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018ca0)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018ca0)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018ca0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018ca0)" ( (binary_expression "iVar17 + DAT_00018ca0" identifier + identifier) ))))))) ;) (expression_statement "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);" (assignment_expression "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier = (cast_expression "(char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier (argument_list "(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (binary_expression "DAT_00018ca8 + 0x18c38" identifier + number_literal) , (binary_expression "DAT_00018ca4 + 0x18c34" identifier + number_literal) , number_literal ))))) ;) (expression_statement "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));" (call_expression "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" identifier (argument_list "(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" ( identifier , identifier , (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cb0)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cb0)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018cb0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018cb0)" ( (binary_expression "iVar17 + DAT_00018cb0" identifier + identifier) ))))) , (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cac)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cac)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018cac)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018cac)" ( (binary_expression "iVar17 + DAT_00018cac" identifier + identifier) ))))) ))) ;) comment (expression_statement "FUN_0001a4ec(1);" (call_expression "FUN_0001a4ec(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid core_create_function_syms(void)\n\n{\n uint uVar1;\n bool bVar2;\n int iVar3;\n int iVar4;\n Sym *pSVar5;\n bfd_vma addr;\n bfd_boolean bVar6;\n Source_File *pSVar7;\n char *pcVar8;\n byte bVar9;\n char *pcVar10;\n int iVar11;\n int iVar12;\n byte bVar13;\n uint uVar14;\n int iVar15;\n int *piVar16;\n int iVar17;\n FILE *__stream;\n int iVar18;\n int *piVar19;\n Sym_Table *tab;\n uint uVar20;\n char *filename;\n char *func_name;\n \n iVar15 = DAT_00018c70;\n iVar18 = DAT_00018c68 + 0x1877c;\n uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4);\n if (uVar14 < 2) {\n bVar2 = false;\n }\n else if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }\n piVar19 = (int *)(DAT_00018c70 + 0x187bc);\n iVar11 = *(int *)(DAT_00018c70 + 0x187c0);\n tab = *(Sym_Table **)(iVar18 + DAT_00018c74);\n iVar17 = 0;\n tab->len = 0;\n if (0 < iVar11) {\n iVar11 = 0;\n do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));\n if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0);\n pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n done(1);\n}\n\n" comment (function_definition "void core_create_function_syms(void)\n\n{\n uint uVar1;\n bool bVar2;\n int iVar3;\n int iVar4;\n Sym *pSVar5;\n bfd_vma addr;\n bfd_boolean bVar6;\n Source_File *pSVar7;\n char *pcVar8;\n byte bVar9;\n char *pcVar10;\n int iVar11;\n int iVar12;\n byte bVar13;\n uint uVar14;\n int iVar15;\n int *piVar16;\n int iVar17;\n FILE *__stream;\n int iVar18;\n int *piVar19;\n Sym_Table *tab;\n uint uVar20;\n char *filename;\n char *func_name;\n \n iVar15 = DAT_00018c70;\n iVar18 = DAT_00018c68 + 0x1877c;\n uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4);\n if (uVar14 < 2) {\n bVar2 = false;\n }\n else if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }\n piVar19 = (int *)(DAT_00018c70 + 0x187bc);\n iVar11 = *(int *)(DAT_00018c70 + 0x187c0);\n tab = *(Sym_Table **)(iVar18 + DAT_00018c74);\n iVar17 = 0;\n tab->len = 0;\n if (0 < iVar11) {\n iVar11 = 0;\n do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));\n if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0);\n pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n done(1);\n}" primitive_type (function_declarator "core_create_function_syms(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n uint uVar1;\n bool bVar2;\n int iVar3;\n int iVar4;\n Sym *pSVar5;\n bfd_vma addr;\n bfd_boolean bVar6;\n Source_File *pSVar7;\n char *pcVar8;\n byte bVar9;\n char *pcVar10;\n int iVar11;\n int iVar12;\n byte bVar13;\n uint uVar14;\n int iVar15;\n int *piVar16;\n int iVar17;\n FILE *__stream;\n int iVar18;\n int *piVar19;\n Sym_Table *tab;\n uint uVar20;\n char *filename;\n char *func_name;\n \n iVar15 = DAT_00018c70;\n iVar18 = DAT_00018c68 + 0x1877c;\n uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4);\n if (uVar14 < 2) {\n bVar2 = false;\n }\n else if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }\n piVar19 = (int *)(DAT_00018c70 + 0x187bc);\n iVar11 = *(int *)(DAT_00018c70 + 0x187c0);\n tab = *(Sym_Table **)(iVar18 + DAT_00018c74);\n iVar17 = 0;\n tab->len = 0;\n if (0 < iVar11) {\n iVar11 = 0;\n do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));\n if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0);\n pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n done(1);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "bool bVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "Sym *pSVar5;" type_identifier (pointer_declarator "*pSVar5" * identifier) ;) (declaration "bfd_vma addr;" type_identifier identifier ;) (declaration "bfd_boolean bVar6;" type_identifier identifier ;) (declaration "Source_File *pSVar7;" type_identifier (pointer_declarator "*pSVar7" * identifier) ;) (declaration "char *pcVar8;" primitive_type (pointer_declarator "*pcVar8" * identifier) ;) (declaration "byte bVar9;" type_identifier identifier ;) (declaration "char *pcVar10;" primitive_type (pointer_declarator "*pcVar10" * identifier) ;) (declaration "int iVar11;" primitive_type identifier ;) (declaration "int iVar12;" primitive_type identifier ;) (declaration "byte bVar13;" type_identifier identifier ;) (declaration "uint uVar14;" type_identifier identifier ;) (declaration "int iVar15;" primitive_type identifier ;) (declaration "int *piVar16;" primitive_type (pointer_declarator "*piVar16" * identifier) ;) (declaration "int iVar17;" primitive_type identifier ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar18;" primitive_type identifier ;) (declaration "int *piVar19;" primitive_type (pointer_declarator "*piVar19" * identifier) ;) (declaration "Sym_Table *tab;" type_identifier (pointer_declarator "*tab" * identifier) ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "char *filename;" primitive_type (pointer_declarator "*filename" * identifier) ;) (declaration "char *func_name;" primitive_type (pointer_declarator "*func_name" * identifier) ;) (expression_statement "iVar15 = DAT_00018c70;" (assignment_expression "iVar15 = DAT_00018c70" identifier = identifier) ;) (expression_statement "iVar18 = DAT_00018c68 + 0x1877c;" (assignment_expression "iVar18 = DAT_00018c68 + 0x1877c" identifier = (binary_expression "DAT_00018c68 + 0x1877c" identifier + number_literal)) ;) (expression_statement "uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4);" (assignment_expression "uVar14 = *(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4)" identifier = (pointer_expression "*(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4)" * (cast_expression "(uint *)(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4)" ( (binary_expression "*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4) + 4" (pointer_expression "*(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4)" * (cast_expression "(int *)(**(int **)(iVar18 + DAT_00018c6c) + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(**(int **)(iVar18 + DAT_00018c6c) + 4)" ( (binary_expression "**(int **)(iVar18 + DAT_00018c6c) + 4" (pointer_expression "**(int **)(iVar18 + DAT_00018c6c)" * (pointer_expression "*(int **)(iVar18 + DAT_00018c6c)" * (cast_expression "(int **)(iVar18 + DAT_00018c6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c6c)" ( (binary_expression "iVar18 + DAT_00018c6c" identifier + identifier) ))))) + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (uVar14 < 2) {\n bVar2 = false;\n }\n else if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }" if (parenthesized_expression "(uVar14 < 2)" ( (binary_expression "uVar14 < 2" identifier < number_literal) )) (compound_statement "{\n bVar2 = false;\n }" { (expression_statement "bVar2 = false;" (assignment_expression "bVar2 = false" identifier = false) ;) }) (else_clause "else if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }" else (if_statement "if (uVar14 < 6) {\n bVar2 = true;\n }\n else {\n bVar2 = uVar14 == 10;\n }" if (parenthesized_expression "(uVar14 < 6)" ( (binary_expression "uVar14 < 6" identifier < number_literal) )) (compound_statement "{\n bVar2 = true;\n }" { (expression_statement "bVar2 = true;" (assignment_expression "bVar2 = true" identifier = true) ;) }) (else_clause "else {\n bVar2 = uVar14 == 10;\n }" else (compound_statement "{\n bVar2 = uVar14 == 10;\n }" { (expression_statement "bVar2 = uVar14 == 10;" (assignment_expression "bVar2 = uVar14 == 10" identifier = (binary_expression "uVar14 == 10" identifier == number_literal)) ;) }))))) (expression_statement "piVar19 = (int *)(DAT_00018c70 + 0x187bc);" (assignment_expression "piVar19 = (int *)(DAT_00018c70 + 0x187bc)" identifier = (cast_expression "(int *)(DAT_00018c70 + 0x187bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187bc)" ( (binary_expression "DAT_00018c70 + 0x187bc" identifier + number_literal) )))) ;) (expression_statement "iVar11 = *(int *)(DAT_00018c70 + 0x187c0);" (assignment_expression "iVar11 = *(int *)(DAT_00018c70 + 0x187c0)" identifier = (pointer_expression "*(int *)(DAT_00018c70 + 0x187c0)" * (cast_expression "(int *)(DAT_00018c70 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187c0)" ( (binary_expression "DAT_00018c70 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "tab = *(Sym_Table **)(iVar18 + DAT_00018c74);" (assignment_expression "tab = *(Sym_Table **)(iVar18 + DAT_00018c74)" identifier = (pointer_expression "*(Sym_Table **)(iVar18 + DAT_00018c74)" * (cast_expression "(Sym_Table **)(iVar18 + DAT_00018c74)" ( (type_descriptor "Sym_Table **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c74)" ( (binary_expression "iVar18 + DAT_00018c74" identifier + identifier) ))))) ;) (expression_statement "iVar17 = 0;" (assignment_expression "iVar17 = 0" identifier = number_literal) ;) (expression_statement "tab->len = 0;" (assignment_expression "tab->len = 0" (field_expression "tab->len" identifier -> field_identifier) = number_literal) ;) (if_statement "if (0 < iVar11) {\n iVar11 = 0;\n do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));\n if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }\n }" if (parenthesized_expression "(0 < iVar11)" ( (binary_expression "0 < iVar11" number_literal < identifier) )) (compound_statement "{\n iVar11 = 0;\n do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));\n if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }\n }" { (expression_statement "iVar11 = 0;" (assignment_expression "iVar11 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n } while (iVar11 < *(int *)(iVar15 + 0x187c0));" do (compound_statement "{\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));\n if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }\nLAB_00018808:\n iVar11 = iVar11 + 1;\n }" { (expression_statement "iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4));" (assignment_expression "iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4))" identifier = (call_expression "core_sym_class(*(asymbol **)(*piVar19 + iVar11 * 4))" identifier (argument_list "(*(asymbol **)(*piVar19 + iVar11 * 4))" ( (pointer_expression "*(asymbol **)(*piVar19 + iVar11 * 4)" * (cast_expression "(asymbol **)(*piVar19 + iVar11 * 4)" ( (type_descriptor "asymbol **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*piVar19 + iVar11 * 4)" ( (binary_expression "*piVar19 + iVar11 * 4" (pointer_expression "*piVar19" * identifier) + (binary_expression "iVar11 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar3 != 0) {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }" if (parenthesized_expression "(iVar3 != 0)" ( (binary_expression "iVar3 != 0" identifier != number_literal) )) (compound_statement "{\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }\n tab->len = tab->len + 1;\n }" { (expression_statement "uVar14 = **(uint **)(iVar18 + DAT_00018c78);" (assignment_expression "uVar14 = **(uint **)(iVar18 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar18 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar18 + DAT_00018c78)" * (cast_expression "(uint **)(iVar18 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c78)" ( (binary_expression "iVar18 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar14 == 0) {\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }" if (parenthesized_expression "(uVar14 == 0)" ( (binary_expression "uVar14 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }\n }" { (if_statement "if (iVar17 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }" if (parenthesized_expression "(iVar17 != 0)" ( (binary_expression "iVar17 != 0" identifier != number_literal) )) (compound_statement "{\nLAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;\n }" { (labeled_statement "LAB_000187ec:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;" statement_identifier : (if_statement "if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018808;" if (parenthesized_expression "((*(byte *)(iVar17 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar17 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar17 + 8) & 1)" ( (binary_expression "*(byte *)(iVar17 + 8) & 1" (pointer_expression "*(byte *)(iVar17 + 8)" * (cast_expression "(byte *)(iVar17 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar17 + 8)" ( (binary_expression "iVar17 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018808;" goto statement_identifier ;))) })) }) (else_clause "else {\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }" else (compound_statement "{\n pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);\n iVar3 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar17 = 0;\n }" { (expression_statement "pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4);" (assignment_expression "pcVar8 = *(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar19 + iVar11 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar19 + iVar11 * 4) + 4)" ( (binary_expression "*(int *)(*piVar19 + iVar11 * 4) + 4" (pointer_expression "*(int *)(*piVar19 + iVar11 * 4)" * (cast_expression "(int *)(*piVar19 + iVar11 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar19 + iVar11 * 4)" ( (binary_expression "*piVar19 + iVar11 * 4" (pointer_expression "*piVar19" * identifier) + (binary_expression "iVar11 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar3 = **(int **)(iVar18 + DAT_00018c7c);" (assignment_expression "iVar3 = **(int **)(iVar18 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar18 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar18 + DAT_00018c7c)" * (cast_expression "(int **)(iVar18 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c7c)" ( (binary_expression "iVar18 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar14)" ( (binary_expression "uVar20 < uVar14" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar4 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar14 >> 1;\n iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));\n iVar17 = iVar3 + uVar1 * 0xc;\n if (-1 < iVar4) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" { (expression_statement "uVar1 = uVar20 + uVar14 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar14 >> 1" identifier = (binary_expression "uVar20 + uVar14 >> 1" (binary_expression "uVar20 + uVar14" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc));" (assignment_expression "iVar4 = strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc))" identifier = (call_expression "strcmp(pcVar8,*(char **)(iVar3 + uVar1 * 0xc))" identifier (argument_list "(pcVar8,*(char **)(iVar3 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar3 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar3 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar3 + uVar1 * 0xc)" ( (binary_expression "iVar3 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar17 = iVar3 + uVar1 * 0xc;" (assignment_expression "iVar17 = iVar3 + uVar1 * 0xc" identifier = (binary_expression "iVar3 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar4) break;" if (parenthesized_expression "(-1 < iVar4)" ( (binary_expression "-1 < iVar4" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar14 = uVar1;" (assignment_expression "uVar14 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_000188b0;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_000188b0;" goto statement_identifier ;)) })) (if_statement "if (iVar4 == 0) goto LAB_000187ec;" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (goto_statement "goto LAB_000187ec;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_000188b0:\n iVar17 = 0;" statement_identifier : (expression_statement "iVar17 = 0;" (assignment_expression "iVar17 = 0" identifier = number_literal) ;)) }))) (expression_statement "tab->len = tab->len + 1;" (assignment_expression "tab->len = tab->len + 1" (field_expression "tab->len" identifier -> field_identifier) = (binary_expression "tab->len + 1" (field_expression "tab->len" identifier -> field_identifier) + number_literal)) ;) })) (labeled_statement "LAB_00018808:\n iVar11 = iVar11 + 1;" statement_identifier : (expression_statement "iVar11 = iVar11 + 1;" (assignment_expression "iVar11 = iVar11 + 1" identifier = (binary_expression "iVar11 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar11 < *(int *)(iVar15 + 0x187c0))" ( (binary_expression "iVar11 < *(int *)(iVar15 + 0x187c0)" identifier < (pointer_expression "*(int *)(iVar15 + 0x187c0)" * (cast_expression "(int *)(iVar15 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar15 + 0x187c0)" ( (binary_expression "iVar15 + 0x187c0" identifier + number_literal) ))))) )) ;) (if_statement "if (tab->len != 0) {\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }" if (parenthesized_expression "(tab->len != 0)" ( (binary_expression "tab->len != 0" (field_expression "tab->len" identifier -> field_identifier) != number_literal) )) (compound_statement "{\n pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);\n iVar15 = *(int *)(iVar15 + 0x187c0);\n tab->base = pSVar5;\n tab->limit = pSVar5;\n if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }\n tab->len = uVar14;\n symtab_finalize(tab);\n return;\n }" { (expression_statement "pSVar5 = (Sym *)xmalloc(tab->len * 0xd8);" (assignment_expression "pSVar5 = (Sym *)xmalloc(tab->len * 0xd8)" identifier = (cast_expression "(Sym *)xmalloc(tab->len * 0xd8)" ( (type_descriptor "Sym *" type_identifier (abstract_pointer_declarator "*" *)) ) (call_expression "xmalloc(tab->len * 0xd8)" identifier (argument_list "(tab->len * 0xd8)" ( (binary_expression "tab->len * 0xd8" (field_expression "tab->len" identifier -> field_identifier) * number_literal) ))))) ;) (expression_statement "iVar15 = *(int *)(iVar15 + 0x187c0);" (assignment_expression "iVar15 = *(int *)(iVar15 + 0x187c0)" identifier = (pointer_expression "*(int *)(iVar15 + 0x187c0)" * (cast_expression "(int *)(iVar15 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar15 + 0x187c0)" ( (binary_expression "iVar15 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "tab->base = pSVar5;" (assignment_expression "tab->base = pSVar5" (field_expression "tab->base" identifier -> field_identifier) = identifier) ;) (expression_statement "tab->limit = pSVar5;" (assignment_expression "tab->limit = pSVar5" (field_expression "tab->limit" identifier -> field_identifier) = identifier) ;) (if_statement "if (iVar15 < 1) {\n uVar14 = 0;\n }\n else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }" if (parenthesized_expression "(iVar15 < 1)" ( (binary_expression "iVar15 < 1" identifier < number_literal) )) (compound_statement "{\n uVar14 = 0;\n }" { (expression_statement "uVar14 = 0;" (assignment_expression "uVar14 = 0" identifier = number_literal) ;) }) (else_clause "else {\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }" else (compound_statement "{\n iVar15 = 0;\n piVar19 = (int *)(DAT_00018c80 + 0x18904);\n piVar16 = (int *)(DAT_00018c84 + 0x18910);\n pcVar8 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));\n uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;\n }" { (expression_statement "iVar15 = 0;" (assignment_expression "iVar15 = 0" identifier = number_literal) ;) (expression_statement "piVar19 = (int *)(DAT_00018c80 + 0x18904);" (assignment_expression "piVar19 = (int *)(DAT_00018c80 + 0x18904)" identifier = (cast_expression "(int *)(DAT_00018c80 + 0x18904)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c80 + 0x18904)" ( (binary_expression "DAT_00018c80 + 0x18904" identifier + number_literal) )))) ;) (expression_statement "piVar16 = (int *)(DAT_00018c84 + 0x18910);" (assignment_expression "piVar16 = (int *)(DAT_00018c84 + 0x18910)" identifier = (cast_expression "(int *)(DAT_00018c84 + 0x18910)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c84 + 0x18910)" ( (binary_expression "DAT_00018c84 + 0x18910" identifier + number_literal) )))) ;) (expression_statement "pcVar8 = (char *)(DAT_00018c88 + 0x1891c);" (assignment_expression "pcVar8 = (char *)(DAT_00018c88 + 0x1891c)" identifier = (cast_expression "(char *)(DAT_00018c88 + 0x1891c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c88 + 0x1891c)" ( (binary_expression "DAT_00018c88 + 0x1891c" identifier + number_literal) )))) ;) (do_statement "do {\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n } while (iVar15 < *(int *)(DAT_00018c98 + 0x18a3c));" do (compound_statement "{\n iVar11 = iVar15 * 4;\n iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));\n if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }\nLAB_00018a28:\n iVar15 = iVar15 + 1;\n }" { (expression_statement "iVar11 = iVar15 * 4;" (assignment_expression "iVar11 = iVar15 * 4" identifier = (binary_expression "iVar15 * 4" identifier * number_literal)) ;) (expression_statement "iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4));" (assignment_expression "iVar3 = core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4))" identifier = (call_expression "core_sym_class(*(asymbol **)(*piVar19 + iVar15 * 4))" identifier (argument_list "(*(asymbol **)(*piVar19 + iVar15 * 4))" ( (pointer_expression "*(asymbol **)(*piVar19 + iVar15 * 4)" * (cast_expression "(asymbol **)(*piVar19 + iVar15 * 4)" ( (type_descriptor "asymbol **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*piVar19 + iVar15 * 4)" ( (binary_expression "*piVar19 + iVar15 * 4" (pointer_expression "*piVar19" * identifier) + (binary_expression "iVar15 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar3 == 0) {\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }\n else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }" if (parenthesized_expression "(iVar3 == 0)" ( (binary_expression "iVar3 == 0" identifier == number_literal) )) (compound_statement "{\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }\n }" { (if_statement "if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }" if (parenthesized_expression "((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar18 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar18 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar18 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar18 + DAT_00018c94)" * (cast_expression "(uint **)(iVar18 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c94)" ( (binary_expression "iVar18 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n iVar11 = *(int *)(*piVar19 + iVar15 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));\n }" { (expression_statement "iVar11 = *(int *)(*piVar19 + iVar15 * 4);" (assignment_expression "iVar11 = *(int *)(*piVar19 + iVar15 * 4)" identifier = (pointer_expression "*(int *)(*piVar19 + iVar15 * 4)" * (cast_expression "(int *)(*piVar19 + iVar15 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar19 + iVar15 * 4)" ( (binary_expression "*piVar19 + iVar15 * 4" (pointer_expression "*piVar19" * identifier) + (binary_expression "iVar15 * 4" identifier * number_literal)) ))))) ;) (expression_statement "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4));" (call_expression "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4))" identifier (argument_list "((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar11 + 8),\n *(undefined4 *)(iVar11 + 4))" ( (cast_expression "(char *)(DAT_00018c9c + 0x18a94)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c9c + 0x18a94)" ( (binary_expression "DAT_00018c9c + 0x18a94" identifier + number_literal) ))) , (pointer_expression "*(undefined4 *)(iVar11 + 8)" * (cast_expression "(undefined4 *)(iVar11 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar11 + 8)" ( (binary_expression "iVar11 + 8" identifier + number_literal) )))) , (pointer_expression "*(undefined4 *)(iVar11 + 4)" * (cast_expression "(undefined4 *)(iVar11 + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar11 + 4)" ( (binary_expression "iVar11 + 4" identifier + number_literal) )))) ))) ;) })) }) (else_clause "else {\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }" else (compound_statement "{\n uVar14 = **(uint **)(iVar18 + DAT_00018c78);\n if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }\n bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);\n if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }\n if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }\n pSVar5 = tab->limit;\n bVar9 = pSVar5->field_0x14 & 0xfe;\n pSVar5->field_0x14 = bVar13 | bVar9 | 4;\n if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }\n if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }\n tab->limit = pSVar5 + 1;\n }" { (expression_statement "uVar14 = **(uint **)(iVar18 + DAT_00018c78);" (assignment_expression "uVar14 = **(uint **)(iVar18 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar18 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar18 + DAT_00018c78)" * (cast_expression "(uint **)(iVar18 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c78)" ( (binary_expression "iVar18 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar14 == 0) {\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }\n else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }" if (parenthesized_expression "(uVar14 == 0)" ( (binary_expression "uVar14 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar17 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);\n iVar4 = *(int *)(iVar12 + 0x10);\n addr = *(bfd_vma *)(iVar12 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pcVar10 = *(char **)(iVar17 + 4);\n pSVar5->field_0x14 = pSVar5->field_0x14 | 8;\n pSVar5->name = pcVar10;\n }" { (if_statement "if (iVar17 == 0) goto LAB_00018b1c;" if (parenthesized_expression "(iVar17 == 0)" ( (binary_expression "iVar17 == 0" identifier == number_literal) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) (labeled_statement "LAB_0001893c:\n if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;" statement_identifier : (if_statement "if ((*(byte *)(iVar17 + 8) & 1) == 0) goto LAB_00018a28;" if (parenthesized_expression "((*(byte *)(iVar17 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar17 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar17 + 8) & 1)" ( (binary_expression "*(byte *)(iVar17 + 8) & 1" (pointer_expression "*(byte *)(iVar17 + 8)" * (cast_expression "(byte *)(iVar17 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar17 + 8)" ( (binary_expression "iVar17 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018a28;" goto statement_identifier ;))) (expression_statement "sym_init(tab->limit);" (call_expression "sym_init(tab->limit)" identifier (argument_list "(tab->limit)" ( (field_expression "tab->limit" identifier -> field_identifier) ))) ;) (expression_statement "pSVar5 = tab->limit;" (assignment_expression "pSVar5 = tab->limit" identifier = (field_expression "tab->limit" identifier -> field_identifier)) ;) (expression_statement "iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11);" (assignment_expression "iVar12 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11)" * (cast_expression "(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar11)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c8c + 0x18960) + iVar11)" ( (binary_expression "*(int *)(DAT_00018c8c + 0x18960) + iVar11" (pointer_expression "*(int *)(DAT_00018c8c + 0x18960)" * (cast_expression "(int *)(DAT_00018c8c + 0x18960)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c8c + 0x18960)" ( (binary_expression "DAT_00018c8c + 0x18960" identifier + number_literal) )))) + identifier) ))))) ;) (expression_statement "iVar4 = *(int *)(iVar12 + 0x10);" (assignment_expression "iVar4 = *(int *)(iVar12 + 0x10)" identifier = (pointer_expression "*(int *)(iVar12 + 0x10)" * (cast_expression "(int *)(iVar12 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar12 + 0x10)" ( (binary_expression "iVar12 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "addr = *(bfd_vma *)(iVar12 + 8);" (assignment_expression "addr = *(bfd_vma *)(iVar12 + 8)" identifier = (pointer_expression "*(bfd_vma *)(iVar12 + 8)" * (cast_expression "(bfd_vma *)(iVar12 + 8)" ( (type_descriptor "bfd_vma *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar12 + 8)" ( (binary_expression "iVar12 + 8" identifier + number_literal) ))))) ;) (expression_statement "pSVar5->addr = addr;" (assignment_expression "pSVar5->addr = addr" (field_expression "pSVar5->addr" identifier -> field_identifier) = identifier) ;) (if_statement "if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }" if (parenthesized_expression "(iVar4 != 0)" ( (binary_expression "iVar4 != 0" identifier != number_literal) )) (compound_statement "{\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }" { (expression_statement "addr = addr + *(int *)(iVar4 + 0x1c);" (assignment_expression "addr = addr + *(int *)(iVar4 + 0x1c)" identifier = (binary_expression "addr + *(int *)(iVar4 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "pSVar5->addr = addr;" (assignment_expression "pSVar5->addr = addr" (field_expression "pSVar5->addr" identifier -> field_identifier) = identifier) ;) })) (expression_statement "pcVar10 = *(char **)(iVar17 + 4);" (assignment_expression "pcVar10 = *(char **)(iVar17 + 4)" identifier = (pointer_expression "*(char **)(iVar17 + 4)" * (cast_expression "(char **)(iVar17 + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + 4)" ( (binary_expression "iVar17 + 4" identifier + number_literal) ))))) ;) (expression_statement "pSVar5->field_0x14 = pSVar5->field_0x14 | 8;" (assignment_expression "pSVar5->field_0x14 = pSVar5->field_0x14 | 8" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) = (binary_expression "pSVar5->field_0x14 | 8" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) | number_literal)) ;) (expression_statement "pSVar5->name = pcVar10;" (assignment_expression "pSVar5->name = pcVar10" (field_expression "pSVar5->name" identifier -> field_identifier) = identifier) ;) }) (else_clause "else {\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }" else (compound_statement "{\n pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);\n iVar4 = **(int **)(iVar18 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n sym_init(tab->limit);\n pSVar5 = tab->limit;\n iVar17 = *(int *)(*piVar16 + iVar11);\n iVar4 = *(int *)(iVar17 + 0x10);\n addr = *(bfd_vma *)(iVar17 + 8);\n pSVar5->addr = addr;\n if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }\n pSVar5->name = *(char **)(iVar17 + 4);\n iVar17 = 0;\n pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;\n }" { (expression_statement "pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4);" (assignment_expression "pcVar10 = *(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar19 + iVar15 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar19 + iVar15 * 4) + 4)" ( (binary_expression "*(int *)(*piVar19 + iVar15 * 4) + 4" (pointer_expression "*(int *)(*piVar19 + iVar15 * 4)" * (cast_expression "(int *)(*piVar19 + iVar15 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar19 + iVar15 * 4)" ( (binary_expression "*piVar19 + iVar15 * 4" (pointer_expression "*piVar19" * identifier) + (binary_expression "iVar15 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar4 = **(int **)(iVar18 + DAT_00018c7c);" (assignment_expression "iVar4 = **(int **)(iVar18 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar18 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar18 + DAT_00018c7c)" * (cast_expression "(int **)(iVar18 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c7c)" ( (binary_expression "iVar18 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar14) {\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar14)" ( (binary_expression "uVar20 < uVar14" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar12 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar14 >> 1;\n iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));\n iVar17 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar12) break;\n uVar14 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" { (expression_statement "uVar1 = uVar20 + uVar14 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar14 >> 1" identifier = (binary_expression "uVar20 + uVar14 >> 1" (binary_expression "uVar20 + uVar14" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc));" (assignment_expression "iVar12 = strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc))" identifier = (call_expression "strcmp(pcVar10,*(char **)(iVar4 + uVar1 * 0xc))" identifier (argument_list "(pcVar10,*(char **)(iVar4 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar4 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar4 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + uVar1 * 0xc)" ( (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar17 = iVar4 + uVar1 * 0xc;" (assignment_expression "iVar17 = iVar4 + uVar1 * 0xc" identifier = (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar12) break;" if (parenthesized_expression "(-1 < iVar12)" ( (binary_expression "-1 < iVar12" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar14 = uVar1;" (assignment_expression "uVar14 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_00018b1c;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) })) (if_statement "if (iVar12 == 0) goto LAB_0001893c;" if (parenthesized_expression "(iVar12 == 0)" ( (binary_expression "iVar12 == 0" identifier == number_literal) )) (goto_statement "goto LAB_0001893c;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_00018b1c:\n sym_init(tab->limit);" statement_identifier : (expression_statement "sym_init(tab->limit);" (call_expression "sym_init(tab->limit)" identifier (argument_list "(tab->limit)" ( (field_expression "tab->limit" identifier -> field_identifier) ))) ;)) (expression_statement "pSVar5 = tab->limit;" (assignment_expression "pSVar5 = tab->limit" identifier = (field_expression "tab->limit" identifier -> field_identifier)) ;) (expression_statement "iVar17 = *(int *)(*piVar16 + iVar11);" (assignment_expression "iVar17 = *(int *)(*piVar16 + iVar11)" identifier = (pointer_expression "*(int *)(*piVar16 + iVar11)" * (cast_expression "(int *)(*piVar16 + iVar11)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar16 + iVar11)" ( (binary_expression "*piVar16 + iVar11" (pointer_expression "*piVar16" * identifier) + identifier) ))))) ;) (expression_statement "iVar4 = *(int *)(iVar17 + 0x10);" (assignment_expression "iVar4 = *(int *)(iVar17 + 0x10)" identifier = (pointer_expression "*(int *)(iVar17 + 0x10)" * (cast_expression "(int *)(iVar17 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar17 + 0x10)" ( (binary_expression "iVar17 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "addr = *(bfd_vma *)(iVar17 + 8);" (assignment_expression "addr = *(bfd_vma *)(iVar17 + 8)" identifier = (pointer_expression "*(bfd_vma *)(iVar17 + 8)" * (cast_expression "(bfd_vma *)(iVar17 + 8)" ( (type_descriptor "bfd_vma *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar17 + 8)" ( (binary_expression "iVar17 + 8" identifier + number_literal) ))))) ;) (expression_statement "pSVar5->addr = addr;" (assignment_expression "pSVar5->addr = addr" (field_expression "pSVar5->addr" identifier -> field_identifier) = identifier) ;) (if_statement "if (iVar4 != 0) {\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }" if (parenthesized_expression "(iVar4 != 0)" ( (binary_expression "iVar4 != 0" identifier != number_literal) )) (compound_statement "{\n addr = addr + *(int *)(iVar4 + 0x1c);\n pSVar5->addr = addr;\n }" { (expression_statement "addr = addr + *(int *)(iVar4 + 0x1c);" (assignment_expression "addr = addr + *(int *)(iVar4 + 0x1c)" identifier = (binary_expression "addr + *(int *)(iVar4 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "pSVar5->addr = addr;" (assignment_expression "pSVar5->addr = addr" (field_expression "pSVar5->addr" identifier -> field_identifier) = identifier) ;) })) (expression_statement "pSVar5->name = *(char **)(iVar17 + 4);" (assignment_expression "pSVar5->name = *(char **)(iVar17 + 4)" (field_expression "pSVar5->name" identifier -> field_identifier) = (pointer_expression "*(char **)(iVar17 + 4)" * (cast_expression "(char **)(iVar17 + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + 4)" ( (binary_expression "iVar17 + 4" identifier + number_literal) ))))) ;) (expression_statement "iVar17 = 0;" (assignment_expression "iVar17 = 0" identifier = number_literal) ;) (expression_statement "pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7;" (assignment_expression "pSVar5->field_0x14 = pSVar5->field_0x14 & 0xf7" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) = (binary_expression "pSVar5->field_0x14 & 0xf7" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) & number_literal)) ;) }))) (expression_statement "bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num);" (assignment_expression "bVar6 = get_src_info(addr,&filename,&func_name,&pSVar5->line_num)" identifier = (call_expression "get_src_info(addr,&filename,&func_name,&pSVar5->line_num)" identifier (argument_list "(addr,&filename,&func_name,&pSVar5->line_num)" ( identifier , (pointer_expression "&filename" & identifier) , (pointer_expression "&func_name" & identifier) , (pointer_expression "&pSVar5->line_num" & (field_expression "pSVar5->line_num" identifier -> field_identifier)) )))) ;) (if_statement "if (bVar6 != 0) {\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }" if (parenthesized_expression "(bVar6 != 0)" ( (binary_expression "bVar6 != 0" identifier != number_literal) )) (compound_statement "{\n pSVar5 = tab->limit;\n pSVar7 = source_file_lookup_path(filename);\n pSVar5->file = pSVar7;\n }" { (expression_statement "pSVar5 = tab->limit;" (assignment_expression "pSVar5 = tab->limit" identifier = (field_expression "tab->limit" identifier -> field_identifier)) ;) (expression_statement "pSVar7 = source_file_lookup_path(filename);" (assignment_expression "pSVar7 = source_file_lookup_path(filename)" identifier = (call_expression "source_file_lookup_path(filename)" identifier (argument_list "(filename)" ( identifier )))) ;) (expression_statement "pSVar5->file = pSVar7;" (assignment_expression "pSVar5->file = pSVar7" (field_expression "pSVar5->file" identifier -> field_identifier) = identifier) ;) })) (if_statement "if (bVar2) {\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }\n else {\n bVar13 = 1;\n }" if (parenthesized_expression "(bVar2)" ( identifier )) (compound_statement "{\n bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;\n }" { (expression_statement "bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1;" (assignment_expression "bVar13 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1" identifier = (binary_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3) & 1" (call_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3)" ( (binary_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)\n >> 3" (pointer_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)" * (cast_expression "(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc)" ( (binary_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11) + 0xc" (pointer_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11)" * (cast_expression "(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar11)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c90 + 0x189d0) + iVar11)" ( (binary_expression "*(int *)(DAT_00018c90 + 0x189d0) + iVar11" (pointer_expression "*(int *)(DAT_00018c90 + 0x189d0)" * (cast_expression "(int *)(DAT_00018c90 + 0x189d0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c90 + 0x189d0)" ( (binary_expression "DAT_00018c90 + 0x189d0" identifier + number_literal) )))) + identifier) )))) + number_literal) )))) >> number_literal) ))) & number_literal)) ;) }) (else_clause "else {\n bVar13 = 1;\n }" else (compound_statement "{\n bVar13 = 1;\n }" { (expression_statement "bVar13 = 1;" (assignment_expression "bVar13 = 1" identifier = number_literal) ;) }))) (expression_statement "pSVar5 = tab->limit;" (assignment_expression "pSVar5 = tab->limit" identifier = (field_expression "tab->limit" identifier -> field_identifier)) ;) (expression_statement "bVar9 = pSVar5->field_0x14 & 0xfe;" (assignment_expression "bVar9 = pSVar5->field_0x14 & 0xfe" identifier = (binary_expression "pSVar5->field_0x14 & 0xfe" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) & number_literal)) ;) (expression_statement "pSVar5->field_0x14 = bVar13 | bVar9 | 4;" (assignment_expression "pSVar5->field_0x14 = bVar13 | bVar9 | 4" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) = (binary_expression "bVar13 | bVar9 | 4" (binary_expression "bVar13 | bVar9" identifier | identifier) | number_literal)) ;) (if_statement "if (iVar3 == 0x74) {\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }" if (parenthesized_expression "(iVar3 == 0x74)" ( (binary_expression "iVar3 == 0x74" identifier == number_literal) )) (compound_statement "{\n pSVar5->field_0x14 = bVar13 | bVar9 | 6;\n }" { (expression_statement "pSVar5->field_0x14 = bVar13 | bVar9 | 6;" (assignment_expression "pSVar5->field_0x14 = bVar13 | bVar9 | 6" (field_expression "pSVar5->field_0x14" identifier -> field_identifier) = (binary_expression "bVar13 | bVar9 | 6" (binary_expression "bVar13 | bVar9" identifier | identifier) | number_literal)) ;) })) (if_statement "if ((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }" if (parenthesized_expression "((**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar18 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar18 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar18 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar18 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar18 + DAT_00018c94)" * (cast_expression "(uint **)(iVar18 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018c94)" ( (binary_expression "iVar18 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);\n pSVar5 = tab->limit;\n }" { (expression_statement "printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr);" (call_expression "printf(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr)" identifier (argument_list "(pcVar8,((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13,pSVar5->name,\n pSVar5->addr)" ( identifier , (binary_expression "((int)pSVar5 - (int)tab->base >> 3) * 0x684bda13" (parenthesized_expression "((int)pSVar5 - (int)tab->base >> 3)" ( (binary_expression "(int)pSVar5 - (int)tab->base >> 3" (binary_expression "(int)pSVar5 - (int)tab->base" (cast_expression "(int)pSVar5" ( (type_descriptor "int" primitive_type) ) identifier) - (cast_expression "(int)tab->base" ( (type_descriptor "int" primitive_type) ) (field_expression "tab->base" identifier -> field_identifier))) >> number_literal) )) * number_literal) , (field_expression "pSVar5->name" identifier -> field_identifier) , (field_expression "pSVar5->addr" identifier -> field_identifier) ))) ;) (expression_statement "pSVar5 = tab->limit;" (assignment_expression "pSVar5 = tab->limit" identifier = (field_expression "tab->limit" identifier -> field_identifier)) ;) })) (expression_statement "tab->limit = pSVar5 + 1;" (assignment_expression "tab->limit = pSVar5 + 1" (field_expression "tab->limit" identifier -> field_identifier) = (binary_expression "pSVar5 + 1" identifier + number_literal)) ;) }))) (labeled_statement "LAB_00018a28:\n iVar15 = iVar15 + 1;" statement_identifier : (expression_statement "iVar15 = iVar15 + 1;" (assignment_expression "iVar15 = iVar15 + 1" identifier = (binary_expression "iVar15 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar15 < *(int *)(DAT_00018c98 + 0x18a3c))" ( (binary_expression "iVar15 < *(int *)(DAT_00018c98 + 0x18a3c)" identifier < (pointer_expression "*(int *)(DAT_00018c98 + 0x18a3c)" * (cast_expression "(int *)(DAT_00018c98 + 0x18a3c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c98 + 0x18a3c)" ( (binary_expression "DAT_00018c98 + 0x18a3c" identifier + number_literal) ))))) )) ;) (expression_statement "uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;" (assignment_expression "uVar14 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13" identifier = (binary_expression "((int)tab->limit - (int)tab->base >> 3) * 0x684bda13" (parenthesized_expression "((int)tab->limit - (int)tab->base >> 3)" ( (binary_expression "(int)tab->limit - (int)tab->base >> 3" (binary_expression "(int)tab->limit - (int)tab->base" (cast_expression "(int)tab->limit" ( (type_descriptor "int" primitive_type) ) (field_expression "tab->limit" identifier -> field_identifier)) - (cast_expression "(int)tab->base" ( (type_descriptor "int" primitive_type) ) (field_expression "tab->base" identifier -> field_identifier))) >> number_literal) )) * number_literal)) ;) }))) (expression_statement "tab->len = uVar14;" (assignment_expression "tab->len = uVar14" (field_expression "tab->len" identifier -> field_identifier) = identifier) ;) (expression_statement "symtab_finalize(tab);" (call_expression "symtab_finalize(tab)" identifier (argument_list "(tab)" ( identifier ))) ;) (return_statement "return;" return ;) })) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar18 + DAT_00018ca0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar18 + DAT_00018ca0)" * (pointer_expression "*(undefined4 **)(iVar18 + DAT_00018ca0)" * (cast_expression "(undefined4 **)(iVar18 + DAT_00018ca0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018ca0)" ( (binary_expression "iVar18 + DAT_00018ca0" identifier + identifier) ))))))) ;) (expression_statement "pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);" (assignment_expression "pcVar8 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier = (cast_expression "(char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier (argument_list "(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (binary_expression "DAT_00018ca8 + 0x18c38" identifier + number_literal) , (binary_expression "DAT_00018ca4 + 0x18c34" identifier + number_literal) , number_literal ))))) ;) (expression_statement "fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac));" (call_expression "fprintf(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac))" identifier (argument_list "(__stream,pcVar8,**(undefined4 **)(iVar18 + DAT_00018cb0),\n **(undefined4 **)(iVar18 + DAT_00018cac))" ( identifier , identifier , (pointer_expression "**(undefined4 **)(iVar18 + DAT_00018cb0)" * (pointer_expression "*(undefined4 **)(iVar18 + DAT_00018cb0)" * (cast_expression "(undefined4 **)(iVar18 + DAT_00018cb0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018cb0)" ( (binary_expression "iVar18 + DAT_00018cb0" identifier + identifier) ))))) , (pointer_expression "**(undefined4 **)(iVar18 + DAT_00018cac)" * (pointer_expression "*(undefined4 **)(iVar18 + DAT_00018cac)" * (cast_expression "(undefined4 **)(iVar18 + DAT_00018cac)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar18 + DAT_00018cac)" ( (binary_expression "iVar18 + DAT_00018cac" identifier + identifier) ))))) ))) ;) comment (expression_statement "done(1);" (call_expression "done(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })))
|
(translation_unit "void FUN_00018768(void)\n\n{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}\n\n" (function_definition "void FUN_00018768(void)\n\n{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" primitive_type (function_declarator "FUN_00018768(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "byte bVar2;" type_identifier identifier ;) (declaration "bool bVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "undefined4 uVar6;" type_identifier identifier ;) (declaration "char *pcVar7;" primitive_type (pointer_declarator "*pcVar7" * identifier) ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "int iVar9;" primitive_type identifier ;) (declaration "undefined4 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "char *__s1;" primitive_type (pointer_declarator "*__s1" * identifier) ;) (declaration "byte bVar11;" type_identifier identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "int iVar13;" primitive_type identifier ;) (declaration "int *piVar14;" primitive_type (pointer_declarator "*piVar14" * identifier) ;) (declaration "int *piVar15;" primitive_type (pointer_declarator "*piVar15" * identifier) ;) (declaration "int iVar16;" primitive_type identifier ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar17;" primitive_type identifier ;) (declaration "int *piVar18;" primitive_type (pointer_declarator "*piVar18" * identifier) ;) (declaration "int *piVar19;" primitive_type (pointer_declarator "*piVar19" * identifier) ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "undefined4 local_30;" type_identifier identifier ;) (declaration "undefined1 auStack_2c [8];" type_identifier (array_declarator "auStack_2c [8]" identifier [ number_literal ]) ;) (expression_statement "iVar13 = DAT_00018c70;" (assignment_expression "iVar13 = DAT_00018c70" identifier = identifier) ;) (expression_statement "iVar17 = DAT_00018c68 + 0x1877c;" (assignment_expression "iVar17 = DAT_00018c68 + 0x1877c" identifier = (binary_expression "DAT_00018c68 + 0x1877c" identifier + number_literal)) ;) (expression_statement "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);" (assignment_expression "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" identifier = (pointer_expression "*(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" * (cast_expression "(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" ( (binary_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4" (pointer_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" * (cast_expression "(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(**(int **)(iVar17 + DAT_00018c6c) + 4)" ( (binary_expression "**(int **)(iVar17 + DAT_00018c6c) + 4" (pointer_expression "**(int **)(iVar17 + DAT_00018c6c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c6c)" * (cast_expression "(int **)(iVar17 + DAT_00018c6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c6c)" ( (binary_expression "iVar17 + DAT_00018c6c" identifier + identifier) ))))) + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" if (parenthesized_expression "(uVar12 < 2)" ( (binary_expression "uVar12 < 2" identifier < number_literal) )) (compound_statement "{\n bVar3 = false;\n }" { (expression_statement "bVar3 = false;" (assignment_expression "bVar3 = false" identifier = false) ;) }) (else_clause "else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" else (if_statement "if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" if (parenthesized_expression "(uVar12 < 6)" ( (binary_expression "uVar12 < 6" identifier < number_literal) )) (compound_statement "{\n bVar3 = true;\n }" { (expression_statement "bVar3 = true;" (assignment_expression "bVar3 = true" identifier = true) ;) }) (else_clause "else {\n bVar3 = uVar12 == 10;\n }" else (compound_statement "{\n bVar3 = uVar12 == 10;\n }" { (expression_statement "bVar3 = uVar12 == 10;" (assignment_expression "bVar3 = uVar12 == 10" identifier = (binary_expression "uVar12 == 10" identifier == number_literal)) ;) }))))) (expression_statement "piVar18 = (int *)(DAT_00018c70 + 0x187bc);" (assignment_expression "piVar18 = (int *)(DAT_00018c70 + 0x187bc)" identifier = (cast_expression "(int *)(DAT_00018c70 + 0x187bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187bc)" ( (binary_expression "DAT_00018c70 + 0x187bc" identifier + number_literal) )))) ;) (expression_statement "iVar9 = *(int *)(DAT_00018c70 + 0x187c0);" (assignment_expression "iVar9 = *(int *)(DAT_00018c70 + 0x187c0)" identifier = (pointer_expression "*(int *)(DAT_00018c70 + 0x187c0)" * (cast_expression "(int *)(DAT_00018c70 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c70 + 0x187c0)" ( (binary_expression "DAT_00018c70 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "piVar19 = *(int **)(iVar17 + DAT_00018c74);" (assignment_expression "piVar19 = *(int **)(iVar17 + DAT_00018c74)" identifier = (pointer_expression "*(int **)(iVar17 + DAT_00018c74)" * (cast_expression "(int **)(iVar17 + DAT_00018c74)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c74)" ( (binary_expression "iVar17 + DAT_00018c74" identifier + identifier) ))))) ;) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;) (expression_statement "*piVar19 = 0;" (assignment_expression "*piVar19 = 0" (pointer_expression "*piVar19" * identifier) = number_literal) ;) (if_statement "if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" if (parenthesized_expression "(0 < iVar9)" ( (binary_expression "0 < iVar9" number_literal < identifier) )) (compound_statement "{\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" { (expression_statement "iVar9 = 0;" (assignment_expression "iVar9 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));" do (compound_statement "{\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n }" { (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" identifier = (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" identifier (argument_list "(*(undefined4 *)(*piVar18 + iVar9 * 4))" ( (pointer_expression "*(undefined4 *)(*piVar18 + iVar9 * 4)" * (cast_expression "(undefined4 *)(*piVar18 + iVar9 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar9 * 4)" ( (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar9 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" if (parenthesized_expression "(iVar4 != 0)" ( (binary_expression "iVar4 != 0" identifier != number_literal) )) (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" { (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" * (cast_expression "(uint **)(iVar17 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c78)" ( (binary_expression "iVar17 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" if (parenthesized_expression "(uVar12 == 0)" ( (binary_expression "uVar12 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }" { (if_statement "if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" if (parenthesized_expression "(iVar16 != 0)" ( (binary_expression "iVar16 != 0" identifier != number_literal) )) (compound_statement "{\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" { (labeled_statement "LAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" statement_identifier : (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" if (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" ( (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" * (cast_expression "(byte *)(iVar16 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018808;" goto statement_identifier ;))) })) }) (else_clause "else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" else (compound_statement "{\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" { (expression_statement "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);" (assignment_expression "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar18 + iVar9 * 4) + 4)" ( (binary_expression "*(int *)(*piVar18 + iVar9 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar9 * 4)" * (cast_expression "(int *)(*piVar18 + iVar9 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar9 * 4)" ( (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar9 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar4 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar4 = **(int **)(iVar17 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" * (cast_expression "(int **)(iVar17 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c7c)" ( (binary_expression "iVar17 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar12)" ( (binary_expression "uVar20 < uVar12" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" { (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" identifier = (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));" (assignment_expression "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" identifier = (call_expression "strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" identifier (argument_list "(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar4 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar4 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + uVar1 * 0xc)" ( (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar16 = iVar4 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar4 + uVar1 * 0xc" identifier = (binary_expression "iVar4 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar5) break;" if (parenthesized_expression "(-1 < iVar5)" ( (binary_expression "-1 < iVar5" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_000188b0;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_000188b0;" goto statement_identifier ;)) })) (if_statement "if (iVar5 == 0) goto LAB_000187ec;" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (goto_statement "goto LAB_000187ec;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_000188b0:\n iVar16 = 0;" statement_identifier : (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;)) }))) (expression_statement "*piVar19 = *piVar19 + 1;" (assignment_expression "*piVar19 = *piVar19 + 1" (pointer_expression "*piVar19" * identifier) = (binary_expression "*piVar19 + 1" (pointer_expression "*piVar19" * identifier) + number_literal)) ;) })) (labeled_statement "LAB_00018808:\n iVar9 = iVar9 + 1;" statement_identifier : (expression_statement "iVar9 = iVar9 + 1;" (assignment_expression "iVar9 = iVar9 + 1" identifier = (binary_expression "iVar9 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar9 < *(int *)(iVar13 + 0x187c0))" ( (binary_expression "iVar9 < *(int *)(iVar13 + 0x187c0)" identifier < (pointer_expression "*(int *)(iVar13 + 0x187c0)" * (cast_expression "(int *)(iVar13 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar13 + 0x187c0)" ( (binary_expression "iVar13 + 0x187c0" identifier + number_literal) ))))) )) ;) (if_statement "if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" if (parenthesized_expression "(*piVar19 != 0)" ( (binary_expression "*piVar19 != 0" (pointer_expression "*piVar19" * identifier) != number_literal) )) (compound_statement "{\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" { (expression_statement "iVar9 = xmalloc(*piVar19 * 0xd8);" (assignment_expression "iVar9 = xmalloc(*piVar19 * 0xd8)" identifier = (call_expression "xmalloc(*piVar19 * 0xd8)" identifier (argument_list "(*piVar19 * 0xd8)" ( (binary_expression "*piVar19 * 0xd8" (pointer_expression "*piVar19" * identifier) * number_literal) )))) ;) (expression_statement "iVar13 = *(int *)(iVar13 + 0x187c0);" (assignment_expression "iVar13 = *(int *)(iVar13 + 0x187c0)" identifier = (pointer_expression "*(int *)(iVar13 + 0x187c0)" * (cast_expression "(int *)(iVar13 + 0x187c0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar13 + 0x187c0)" ( (binary_expression "iVar13 + 0x187c0" identifier + number_literal) ))))) ;) (expression_statement "piVar19[1] = iVar9;" (assignment_expression "piVar19[1] = iVar9" (subscript_expression "piVar19[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "piVar19[2] = iVar9;" (assignment_expression "piVar19[2] = iVar9" (subscript_expression "piVar19[2]" identifier [ number_literal ]) = identifier) ;) (if_statement "if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" if (parenthesized_expression "(iVar13 < 1)" ( (binary_expression "iVar13 < 1" identifier < number_literal) )) (compound_statement "{\n iVar13 = 0;\n }" { (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" identifier = number_literal) ;) }) (else_clause "else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" else (compound_statement "{\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" { (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" identifier = number_literal) ;) (expression_statement "piVar18 = (int *)(DAT_00018c80 + 0x18904);" (assignment_expression "piVar18 = (int *)(DAT_00018c80 + 0x18904)" identifier = (cast_expression "(int *)(DAT_00018c80 + 0x18904)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c80 + 0x18904)" ( (binary_expression "DAT_00018c80 + 0x18904" identifier + number_literal) )))) ;) (expression_statement "piVar14 = (int *)(DAT_00018c84 + 0x18910);" (assignment_expression "piVar14 = (int *)(DAT_00018c84 + 0x18910)" identifier = (cast_expression "(int *)(DAT_00018c84 + 0x18910)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c84 + 0x18910)" ( (binary_expression "DAT_00018c84 + 0x18910" identifier + number_literal) )))) ;) (expression_statement "pcVar7 = (char *)(DAT_00018c88 + 0x1891c);" (assignment_expression "pcVar7 = (char *)(DAT_00018c88 + 0x1891c)" identifier = (cast_expression "(char *)(DAT_00018c88 + 0x1891c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c88 + 0x1891c)" ( (binary_expression "DAT_00018c88 + 0x1891c" identifier + number_literal) )))) ;) (do_statement "do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));" do (compound_statement "{\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n }" { (expression_statement "iVar9 = iVar13 * 4;" (assignment_expression "iVar9 = iVar13 * 4" identifier = (binary_expression "iVar13 * 4" identifier * number_literal)) ;) (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" identifier = (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" identifier (argument_list "(*(undefined4 *)(*piVar18 + iVar13 * 4))" ( (pointer_expression "*(undefined4 *)(*piVar18 + iVar13 * 4)" * (cast_expression "(undefined4 *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) )))) )))) ;) (if_statement "if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (compound_statement "{\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }" { (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" if (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" * (cast_expression "(uint **)(iVar17 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c94)" ( (binary_expression "iVar17 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" { (expression_statement "iVar9 = *(int *)(*piVar18 + iVar13 * 4);" (assignment_expression "iVar9 = *(int *)(*piVar18 + iVar13 * 4)" identifier = (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" * (cast_expression "(int *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) ))))) ;) (expression_statement "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));" (call_expression "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" identifier (argument_list "((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" ( (cast_expression "(char *)(DAT_00018c9c + 0x18a94)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c9c + 0x18a94)" ( (binary_expression "DAT_00018c9c + 0x18a94" identifier + number_literal) ))) , (pointer_expression "*(undefined4 *)(iVar9 + 8)" * (cast_expression "(undefined4 *)(iVar9 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar9 + 8)" ( (binary_expression "iVar9 + 8" identifier + number_literal) )))) , (pointer_expression "*(undefined4 *)(iVar9 + 4)" * (cast_expression "(undefined4 *)(iVar9 + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar9 + 4)" ( (binary_expression "iVar9 + 4" identifier + number_literal) )))) ))) ;) })) }) (else_clause "else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" else (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" { (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" identifier = (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" * (cast_expression "(uint **)(iVar17 + DAT_00018c78)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c78)" ( (binary_expression "iVar17 + DAT_00018c78" identifier + identifier) )))))) ;) (if_statement "if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" if (parenthesized_expression "(uVar12 == 0)" ( (binary_expression "uVar12 == 0" identifier == number_literal) )) (compound_statement "{\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }" { (if_statement "if (iVar16 == 0) goto LAB_00018b1c;" if (parenthesized_expression "(iVar16 == 0)" ( (binary_expression "iVar16 == 0" identifier == number_literal) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) (labeled_statement "LAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" statement_identifier : (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" if (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" ( (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" ( (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" * (cast_expression "(byte *)(iVar16 + 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) )))) & number_literal) )) == number_literal) )) (goto_statement "goto LAB_00018a28;" goto statement_identifier ;))) (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" identifier (argument_list "(piVar19[2])" ( (subscript_expression "piVar19[2]" identifier [ number_literal ]) ))) ;) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" identifier = (cast_expression "(int *)piVar19[2]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);" (assignment_expression "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" * (cast_expression "(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" ( (binary_expression "*(int *)(DAT_00018c8c + 0x18960) + iVar9" (pointer_expression "*(int *)(DAT_00018c8c + 0x18960)" * (cast_expression "(int *)(DAT_00018c8c + 0x18960)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c8c + 0x18960)" ( (binary_expression "DAT_00018c8c + 0x18960" identifier + number_literal) )))) + identifier) ))))) ;) (expression_statement "iVar8 = *(int *)(iVar5 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar5 + 0x10)" identifier = (pointer_expression "*(int *)(iVar5 + 0x10)" * (cast_expression "(int *)(iVar5 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0x10)" ( (binary_expression "iVar5 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "iVar5 = *(int *)(iVar5 + 8);" (assignment_expression "iVar5 = *(int *)(iVar5 + 8)" identifier = (pointer_expression "*(int *)(iVar5 + 8)" * (cast_expression "(int *)(iVar5 + 8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 8)" ( (binary_expression "iVar5 + 8" identifier + number_literal) ))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" if (parenthesized_expression "(iVar8 != 0)" ( (binary_expression "iVar8 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" { (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" identifier = (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar8 + 0x1c)" * (cast_expression "(int *)(iVar8 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + 0x1c)" ( (binary_expression "iVar8 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) })) (expression_statement "iVar8 = *(int *)(iVar16 + 4);" (assignment_expression "iVar8 = *(int *)(iVar16 + 4)" identifier = (pointer_expression "*(int *)(iVar16 + 4)" * (cast_expression "(int *)(iVar16 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 4)" ( (binary_expression "iVar16 + 4" identifier + number_literal) ))))) ;) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) = (binary_expression "*(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) | number_literal)) ;) (expression_statement "piVar15[2] = iVar8;" (assignment_expression "piVar15[2] = iVar8" (subscript_expression "piVar15[2]" identifier [ number_literal ]) = identifier) ;) }) (else_clause "else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" else (compound_statement "{\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" { (expression_statement "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);" (assignment_expression "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" identifier = (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" * (cast_expression "(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(*piVar18 + iVar13 * 4) + 4)" ( (binary_expression "*(int *)(*piVar18 + iVar13 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" * (cast_expression "(int *)(*piVar18 + iVar13 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar18 + iVar13 * 4)" ( (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" * identifier) + (binary_expression "iVar13 * 4" identifier * number_literal)) )))) + number_literal) ))))) ;) (expression_statement "iVar5 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar5 = **(int **)(iVar17 + DAT_00018c7c)" identifier = (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" * (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" * (cast_expression "(int **)(iVar17 + DAT_00018c7c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c7c)" ( (binary_expression "iVar17 + DAT_00018c7c" identifier + identifier) )))))) ;) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" identifier = number_literal) ;) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" while (parenthesized_expression "(uVar20 < uVar12)" ( (binary_expression "uVar20 < uVar12" identifier < identifier) )) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" { (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" { (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" identifier = (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" identifier + identifier) >> number_literal)) ;) (expression_statement "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));" (assignment_expression "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" identifier = (call_expression "strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" identifier (argument_list "(__s1,*(char **)(iVar5 + uVar1 * 0xc))" ( identifier , (pointer_expression "*(char **)(iVar5 + uVar1 * 0xc)" * (cast_expression "(char **)(iVar5 + uVar1 * 0xc)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + uVar1 * 0xc)" ( (binary_expression "iVar5 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal)) )))) )))) ;) (expression_statement "iVar16 = iVar5 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar5 + uVar1 * 0xc" identifier = (binary_expression "iVar5 + uVar1 * 0xc" identifier + (binary_expression "uVar1 * 0xc" identifier * number_literal))) ;) (if_statement "if (-1 < iVar8) break;" if (parenthesized_expression "(-1 < iVar8)" ( (binary_expression "-1 < iVar8" number_literal < identifier) )) (break_statement "break;" break ;)) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" identifier = identifier) ;) (if_statement "if (uVar1 <= uVar20) goto LAB_00018b1c;" if (parenthesized_expression "(uVar1 <= uVar20)" ( (binary_expression "uVar1 <= uVar20" identifier <= identifier) )) (goto_statement "goto LAB_00018b1c;" goto statement_identifier ;)) })) (if_statement "if (iVar8 == 0) goto LAB_0001893c;" if (parenthesized_expression "(iVar8 == 0)" ( (binary_expression "iVar8 == 0" identifier == number_literal) )) (goto_statement "goto LAB_0001893c;" goto statement_identifier ;)) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" identifier = (binary_expression "uVar1 + 1" identifier + number_literal)) ;) })) (labeled_statement "LAB_00018b1c:\n FUN_0001c31c(piVar19[2]);" statement_identifier : (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" identifier (argument_list "(piVar19[2])" ( (subscript_expression "piVar19[2]" identifier [ number_literal ]) ))) ;)) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" identifier = (cast_expression "(int *)piVar19[2]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "iVar16 = *(int *)(*piVar14 + iVar9);" (assignment_expression "iVar16 = *(int *)(*piVar14 + iVar9)" identifier = (pointer_expression "*(int *)(*piVar14 + iVar9)" * (cast_expression "(int *)(*piVar14 + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar14 + iVar9)" ( (binary_expression "*piVar14 + iVar9" (pointer_expression "*piVar14" * identifier) + identifier) ))))) ;) (expression_statement "iVar8 = *(int *)(iVar16 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar16 + 0x10)" identifier = (pointer_expression "*(int *)(iVar16 + 0x10)" * (cast_expression "(int *)(iVar16 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 0x10)" ( (binary_expression "iVar16 + 0x10" identifier + number_literal) ))))) ;) (expression_statement "iVar5 = *(int *)(iVar16 + 8);" (assignment_expression "iVar5 = *(int *)(iVar16 + 8)" identifier = (pointer_expression "*(int *)(iVar16 + 8)" * (cast_expression "(int *)(iVar16 + 8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 8)" ( (binary_expression "iVar16 + 8" identifier + number_literal) ))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" if (parenthesized_expression "(iVar8 != 0)" ( (binary_expression "iVar8 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" { (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" identifier = (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" identifier + (pointer_expression "*(int *)(iVar8 + 0x1c)" * (cast_expression "(int *)(iVar8 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + 0x1c)" ( (binary_expression "iVar8 + 0x1c" identifier + number_literal) )))))) ;) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" * identifier) = identifier) ;) })) (expression_statement "piVar15[2] = *(int *)(iVar16 + 4);" (assignment_expression "piVar15[2] = *(int *)(iVar16 + 4)" (subscript_expression "piVar15[2]" identifier [ number_literal ]) = (pointer_expression "*(int *)(iVar16 + 4)" * (cast_expression "(int *)(iVar16 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar16 + 4)" ( (binary_expression "iVar16 + 4" identifier + number_literal) ))))) ;) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" identifier = number_literal) ;) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) = (binary_expression "*(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" * (cast_expression "(byte *)(piVar15 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar15 + 5)" ( (binary_expression "piVar15 + 5" identifier + number_literal) )))) & number_literal)) ;) }))) (expression_statement "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);" (assignment_expression "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" identifier = (call_expression "FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" identifier (argument_list "(iVar5,&local_30,auStack_2c,piVar15 + 4)" ( identifier , (pointer_expression "&local_30" & identifier) , identifier , (binary_expression "piVar15 + 4" identifier + number_literal) )))) ;) (if_statement "if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" if (parenthesized_expression "(iVar5 != 0)" ( (binary_expression "iVar5 != 0" identifier != number_literal) )) (compound_statement "{\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" { (expression_statement "iVar5 = piVar19[2];" (assignment_expression "iVar5 = piVar19[2]" identifier = (subscript_expression "piVar19[2]" identifier [ number_literal ])) ;) (expression_statement "uVar6 = FUN_0001bd50(local_30);" (assignment_expression "uVar6 = FUN_0001bd50(local_30)" identifier = (call_expression "FUN_0001bd50(local_30)" identifier (argument_list "(local_30)" ( identifier )))) ;) (expression_statement "*(undefined4 *)(iVar5 + 0xc) = uVar6;" (assignment_expression "*(undefined4 *)(iVar5 + 0xc) = uVar6" (pointer_expression "*(undefined4 *)(iVar5 + 0xc)" * (cast_expression "(undefined4 *)(iVar5 + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0xc)" ( (binary_expression "iVar5 + 0xc" identifier + number_literal) )))) = identifier) ;) })) (if_statement "if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }" if (parenthesized_expression "(bVar3)" ( identifier )) (compound_statement "{\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }" { (expression_statement "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;" (assignment_expression "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" identifier = (binary_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" (call_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" ( (binary_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3" (pointer_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" * (cast_expression "(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" ( (binary_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc" (pointer_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" * (cast_expression "(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" ( (binary_expression "*(int *)(DAT_00018c90 + 0x189d0) + iVar9" (pointer_expression "*(int *)(DAT_00018c90 + 0x189d0)" * (cast_expression "(int *)(DAT_00018c90 + 0x189d0)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c90 + 0x189d0)" ( (binary_expression "DAT_00018c90 + 0x189d0" identifier + number_literal) )))) + identifier) )))) + number_literal) )))) >> number_literal) ))) & number_literal)) ;) }) (else_clause "else {\n bVar11 = 1;\n }" else (compound_statement "{\n bVar11 = 1;\n }" { (expression_statement "bVar11 = 1;" (assignment_expression "bVar11 = 1" identifier = number_literal) ;) }))) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" identifier = (cast_expression "(undefined4 *)piVar19[2]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) (expression_statement "bVar2 = *(byte *)(puVar10 + 5);" (assignment_expression "bVar2 = *(byte *)(puVar10 + 5)" identifier = (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) ))))) ;) (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4" (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) )))) = (binary_expression "bVar11 | bVar2 & 0xfe | 4" (binary_expression "bVar11 | bVar2 & 0xfe" identifier | (binary_expression "bVar2 & 0xfe" identifier & number_literal)) | number_literal)) ;) (if_statement "if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" if (parenthesized_expression "(iVar4 == 0x74)" ( (binary_expression "iVar4 == 0x74" identifier == number_literal) )) (compound_statement "{\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" { (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6" (pointer_expression "*(byte *)(puVar10 + 5)" * (cast_expression "(byte *)(puVar10 + 5)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 5)" ( (binary_expression "puVar10 + 5" identifier + number_literal) )))) = (binary_expression "bVar11 | bVar2 & 0xfe | 6" (binary_expression "bVar11 | bVar2 & 0xfe" identifier | (binary_expression "bVar2 & 0xfe" identifier & number_literal)) | number_literal)) ;) })) (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" if (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" ( (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" ( (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" * (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" * (cast_expression "(uint **)(iVar17 + DAT_00018c94)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018c94)" ( (binary_expression "iVar17 + DAT_00018c94" identifier + identifier) ))))) & number_literal) )) != number_literal) )) (compound_statement "{\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" { (expression_statement "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);" (call_expression "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" identifier (argument_list "(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" ( identifier , (binary_expression "((int)puVar10 - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "((int)puVar10 - piVar19[1] >> 3)" ( (binary_expression "(int)puVar10 - piVar19[1] >> 3" (binary_expression "(int)puVar10 - piVar19[1]" (cast_expression "(int)puVar10" ( (type_descriptor "int" primitive_type) ) identifier) - (subscript_expression "piVar19[1]" identifier [ number_literal ])) >> number_literal) )) * number_literal) , (subscript_expression "puVar10[2]" identifier [ number_literal ]) , (pointer_expression "*puVar10" * identifier) ))) ;) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" identifier = (cast_expression "(undefined4 *)piVar19[2]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar19[2]" identifier [ number_literal ]))) ;) })) (expression_statement "piVar19[2] = (int)(puVar10 + 0x36);" (assignment_expression "piVar19[2] = (int)(puVar10 + 0x36)" (subscript_expression "piVar19[2]" identifier [ number_literal ]) = (cast_expression "(int)(puVar10 + 0x36)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(puVar10 + 0x36)" ( (binary_expression "puVar10 + 0x36" identifier + number_literal) )))) ;) }))) (labeled_statement "LAB_00018a28:\n iVar13 = iVar13 + 1;" statement_identifier : (expression_statement "iVar13 = iVar13 + 1;" (assignment_expression "iVar13 = iVar13 + 1" identifier = (binary_expression "iVar13 + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(iVar13 < *(int *)(DAT_00018c98 + 0x18a3c))" ( (binary_expression "iVar13 < *(int *)(DAT_00018c98 + 0x18a3c)" identifier < (pointer_expression "*(int *)(DAT_00018c98 + 0x18a3c)" * (cast_expression "(int *)(DAT_00018c98 + 0x18a3c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018c98 + 0x18a3c)" ( (binary_expression "DAT_00018c98 + 0x18a3c" identifier + number_literal) ))))) )) ;) (expression_statement "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;" (assignment_expression "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13" identifier = (binary_expression "(piVar19[2] - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "(piVar19[2] - piVar19[1] >> 3)" ( (binary_expression "piVar19[2] - piVar19[1] >> 3" (binary_expression "piVar19[2] - piVar19[1]" (subscript_expression "piVar19[2]" identifier [ number_literal ]) - (subscript_expression "piVar19[1]" identifier [ number_literal ])) >> number_literal) )) * number_literal)) ;) }))) (expression_statement "*piVar19 = iVar13;" (assignment_expression "*piVar19 = iVar13" (pointer_expression "*piVar19" * identifier) = identifier) ;) (expression_statement "FUN_0001c330(piVar19);" (call_expression "FUN_0001c330(piVar19)" identifier (argument_list "(piVar19)" ( identifier ))) ;) (return_statement "return;" return ;) })) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018ca0)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018ca0)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018ca0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018ca0)" ( (binary_expression "iVar17 + DAT_00018ca0" identifier + identifier) ))))))) ;) (expression_statement "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);" (assignment_expression "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier = (cast_expression "(char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" identifier (argument_list "(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" ( (binary_expression "DAT_00018ca8 + 0x18c38" identifier + number_literal) , (binary_expression "DAT_00018ca4 + 0x18c34" identifier + number_literal) , number_literal ))))) ;) (expression_statement "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));" (call_expression "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" identifier (argument_list "(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" ( identifier , identifier , (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cb0)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cb0)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018cb0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018cb0)" ( (binary_expression "iVar17 + DAT_00018cb0" identifier + identifier) ))))) , (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cac)" * (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cac)" * (cast_expression "(undefined4 **)(iVar17 + DAT_00018cac)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar17 + DAT_00018cac)" ( (binary_expression "iVar17 + DAT_00018cac" identifier + identifier) ))))) ))) ;) comment (expression_statement "FUN_0001a4ec(1);" (call_expression "FUN_0001a4ec(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) + LIT) )))) + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = BOOL) ;) }) (else_clause else (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = BOOL) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) }))))) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (labeled_statement statement_identifier : (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) == LIT) )) (goto_statement goto statement_identifier ;))) })) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (while_statement while (parenthesized_expression ( (binary_expression IDENT < IDENT) )) (compound_statement { (while_statement while (parenthesized_expression ( BOOL )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT + IDENT) >> LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) )))) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (binary_expression IDENT * LIT))) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT <= IDENT) )) (goto_statement goto statement_identifier ;)) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) })) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = LIT) ;)) }))) (expression_statement (assignment_expression (pointer_expression * IDENT) = (binary_expression (pointer_expression * IDENT) + LIT)) ;) })) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;)) }) while (parenthesized_expression ( (binary_expression IDENT < (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) )) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (binary_expression (pointer_expression * IDENT) * LIT) )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT * LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) & LIT) )) != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) ))))) ;) (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ))) ;) })) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (goto_statement goto statement_identifier ;)) (labeled_statement statement_identifier : (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) == LIT) )) (goto_statement goto statement_identifier ;))) (expression_statement (call_expression IDENT (argument_list ( (subscript_expression IDENT [ LIT ]) ))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) | LIT)) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (while_statement while (parenthesized_expression ( (binary_expression IDENT < IDENT) )) (compound_statement { (while_statement while (parenthesized_expression ( BOOL )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT + IDENT) >> LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) )))) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (binary_expression IDENT * LIT))) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT <= IDENT) )) (goto_statement goto statement_identifier ;)) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) })) (labeled_statement statement_identifier : (expression_statement (call_expression IDENT (argument_list ( (subscript_expression IDENT [ LIT ]) ))) ;)) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) })) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT)) ;) }))) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (pointer_expression & IDENT) , IDENT , (binary_expression IDENT + LIT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) })) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + IDENT) )))) + LIT) )))) >> LIT) ))) & LIT)) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (binary_expression IDENT | (binary_expression IDENT & LIT)) | LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (binary_expression IDENT | (binary_expression IDENT & LIT)) | LIT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) & LIT) )) != LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , (binary_expression (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) - (subscript_expression IDENT [ LIT ])) >> LIT) )) * LIT) , (subscript_expression IDENT [ LIT ]) , (pointer_expression * IDENT) ))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) })) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) }))) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;)) }) while (parenthesized_expression ( (binary_expression IDENT < (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) )) ;) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( (binary_expression (binary_expression (subscript_expression IDENT [ LIT ]) - (subscript_expression IDENT [ LIT ])) >> LIT) )) * LIT)) ;) }))) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (return_statement return ;) })) })) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , (binary_expression IDENT + LIT) , LIT ))))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) , (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) ))) ;) comment (expression_statement (call_expression IDENT (argument_list ( LIT ))) ;) })))
|
(function_definition "void FUN_00018768(void)\n\n{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" (primitive_type "void") (function_declarator "FUN_00018768(void)" (identifier "FUN_00018768") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n uint uVar1;\n byte bVar2;\n bool bVar3;\n int iVar4;\n int iVar5;\n undefined4 uVar6;\n char *pcVar7;\n int iVar8;\n int iVar9;\n undefined4 *puVar10;\n char *__s1;\n byte bVar11;\n uint uVar12;\n int iVar13;\n int *piVar14;\n int *piVar15;\n int iVar16;\n FILE *__stream;\n int iVar17;\n int *piVar18;\n int *piVar19;\n uint uVar20;\n undefined4 local_30;\n undefined1 auStack_2c [8];\n \n iVar13 = DAT_00018c70;\n iVar17 = DAT_00018c68 + 0x1877c;\n uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);\n if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }\n piVar18 = (int *)(DAT_00018c70 + 0x187bc);\n iVar9 = *(int *)(DAT_00018c70 + 0x187c0);\n piVar19 = *(int **)(iVar17 + DAT_00018c74);\n iVar16 = 0;\n *piVar19 = 0;\n if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }\n __stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);\n pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);\n fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));\n /* WARNING: Subroutine does not return */\n FUN_0001a4ec(1);\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (declaration "byte bVar2;" (type_identifier "byte") (identifier "bVar2") (; ";")) (declaration "bool bVar3;" (primitive_type "bool") (identifier "bVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "int iVar5;" (primitive_type "int") (identifier "iVar5") (; ";")) (declaration "undefined4 uVar6;" (type_identifier "undefined4") (identifier "uVar6") (; ";")) (declaration "char *pcVar7;" (primitive_type "char") (pointer_declarator "*pcVar7" (* "*") (identifier "pcVar7")) (; ";")) (declaration "int iVar8;" (primitive_type "int") (identifier "iVar8") (; ";")) (declaration "int iVar9;" (primitive_type "int") (identifier "iVar9") (; ";")) (declaration "undefined4 *puVar10;" (type_identifier "undefined4") (pointer_declarator "*puVar10" (* "*") (identifier "puVar10")) (; ";")) (declaration "char *__s1;" (primitive_type "char") (pointer_declarator "*__s1" (* "*") (identifier "__s1")) (; ";")) (declaration "byte bVar11;" (type_identifier "byte") (identifier "bVar11") (; ";")) (declaration "uint uVar12;" (type_identifier "uint") (identifier "uVar12") (; ";")) (declaration "int iVar13;" (primitive_type "int") (identifier "iVar13") (; ";")) (declaration "int *piVar14;" (primitive_type "int") (pointer_declarator "*piVar14" (* "*") (identifier "piVar14")) (; ";")) (declaration "int *piVar15;" (primitive_type "int") (pointer_declarator "*piVar15" (* "*") (identifier "piVar15")) (; ";")) (declaration "int iVar16;" (primitive_type "int") (identifier "iVar16") (; ";")) (declaration "FILE *__stream;" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream")) (; ";")) (declaration "int iVar17;" (primitive_type "int") (identifier "iVar17") (; ";")) (declaration "int *piVar18;" (primitive_type "int") (pointer_declarator "*piVar18" (* "*") (identifier "piVar18")) (; ";")) (declaration "int *piVar19;" (primitive_type "int") (pointer_declarator "*piVar19" (* "*") (identifier "piVar19")) (; ";")) (declaration "uint uVar20;" (type_identifier "uint") (identifier "uVar20") (; ";")) (declaration "undefined4 local_30;" (type_identifier "undefined4") (identifier "local_30") (; ";")) (declaration "undefined1 auStack_2c [8];" (type_identifier "undefined1") (array_declarator "auStack_2c [8]" (identifier "auStack_2c") ([ "[") (number_literal "8") (] "]")) (; ";")) (expression_statement "iVar13 = DAT_00018c70;" (assignment_expression "iVar13 = DAT_00018c70" (identifier "iVar13") (= "=") (identifier "DAT_00018c70")) (; ";")) (expression_statement "iVar17 = DAT_00018c68 + 0x1877c;" (assignment_expression "iVar17 = DAT_00018c68 + 0x1877c" (identifier "iVar17") (= "=") (binary_expression "DAT_00018c68 + 0x1877c" (identifier "DAT_00018c68") (+ "+") (number_literal "0x1877c"))) (; ";")) (expression_statement "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);" (assignment_expression "uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" (identifier "uVar12") (= "=") (pointer_expression "*(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" (* "*") (cast_expression "(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4)" (( "(") (binary_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4" (pointer_expression "*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" (* "*") (cast_expression "(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(**(int **)(iVar17 + DAT_00018c6c) + 4)" (( "(") (binary_expression "**(int **)(iVar17 + DAT_00018c6c) + 4" (pointer_expression "**(int **)(iVar17 + DAT_00018c6c)" (* "*") (pointer_expression "*(int **)(iVar17 + DAT_00018c6c)" (* "*") (cast_expression "(int **)(iVar17 + DAT_00018c6c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c6c)" (( "(") (binary_expression "iVar17 + DAT_00018c6c" (identifier "iVar17") (+ "+") (identifier "DAT_00018c6c")) () ")"))))) (+ "+") (number_literal "4")) () ")")))) (+ "+") (number_literal "4")) () ")"))))) (; ";")) (if_statement "if (uVar12 < 2) {\n bVar3 = false;\n }\n else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" (if "if") (parenthesized_expression "(uVar12 < 2)" (( "(") (binary_expression "uVar12 < 2" (identifier "uVar12") (< "<") (number_literal "2")) () ")")) (compound_statement "{\n bVar3 = false;\n }" ({ "{") (expression_statement "bVar3 = false;" (assignment_expression "bVar3 = false" (identifier "bVar3") (= "=") (false "false")) (; ";")) (} "}")) (else_clause "else if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" (else "else") (if_statement "if (uVar12 < 6) {\n bVar3 = true;\n }\n else {\n bVar3 = uVar12 == 10;\n }" (if "if") (parenthesized_expression "(uVar12 < 6)" (( "(") (binary_expression "uVar12 < 6" (identifier "uVar12") (< "<") (number_literal "6")) () ")")) (compound_statement "{\n bVar3 = true;\n }" ({ "{") (expression_statement "bVar3 = true;" (assignment_expression "bVar3 = true" (identifier "bVar3") (= "=") (true "true")) (; ";")) (} "}")) (else_clause "else {\n bVar3 = uVar12 == 10;\n }" (else "else") (compound_statement "{\n bVar3 = uVar12 == 10;\n }" ({ "{") (expression_statement "bVar3 = uVar12 == 10;" (assignment_expression "bVar3 = uVar12 == 10" (identifier "bVar3") (= "=") (binary_expression "uVar12 == 10" (identifier "uVar12") (== "==") (number_literal "10"))) (; ";")) (} "}")))))) (expression_statement "piVar18 = (int *)(DAT_00018c70 + 0x187bc);" (assignment_expression "piVar18 = (int *)(DAT_00018c70 + 0x187bc)" (identifier "piVar18") (= "=") (cast_expression "(int *)(DAT_00018c70 + 0x187bc)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c70 + 0x187bc)" (( "(") (binary_expression "DAT_00018c70 + 0x187bc" (identifier "DAT_00018c70") (+ "+") (number_literal "0x187bc")) () ")")))) (; ";")) (expression_statement "iVar9 = *(int *)(DAT_00018c70 + 0x187c0);" (assignment_expression "iVar9 = *(int *)(DAT_00018c70 + 0x187c0)" (identifier "iVar9") (= "=") (pointer_expression "*(int *)(DAT_00018c70 + 0x187c0)" (* "*") (cast_expression "(int *)(DAT_00018c70 + 0x187c0)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c70 + 0x187c0)" (( "(") (binary_expression "DAT_00018c70 + 0x187c0" (identifier "DAT_00018c70") (+ "+") (number_literal "0x187c0")) () ")"))))) (; ";")) (expression_statement "piVar19 = *(int **)(iVar17 + DAT_00018c74);" (assignment_expression "piVar19 = *(int **)(iVar17 + DAT_00018c74)" (identifier "piVar19") (= "=") (pointer_expression "*(int **)(iVar17 + DAT_00018c74)" (* "*") (cast_expression "(int **)(iVar17 + DAT_00018c74)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c74)" (( "(") (binary_expression "iVar17 + DAT_00018c74" (identifier "iVar17") (+ "+") (identifier "DAT_00018c74")) () ")"))))) (; ";")) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" (identifier "iVar16") (= "=") (number_literal "0")) (; ";")) (expression_statement "*piVar19 = 0;" (assignment_expression "*piVar19 = 0" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (= "=") (number_literal "0")) (; ";")) (if_statement "if (0 < iVar9) {\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" (if "if") (parenthesized_expression "(0 < iVar9)" (( "(") (binary_expression "0 < iVar9" (number_literal "0") (< "<") (identifier "iVar9")) () ")")) (compound_statement "{\n iVar9 = 0;\n do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));\n if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }\n }" ({ "{") (expression_statement "iVar9 = 0;" (assignment_expression "iVar9 = 0" (identifier "iVar9") (= "=") (number_literal "0")) (; ";")) (do_statement "do {\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n } while (iVar9 < *(int *)(iVar13 + 0x187c0));" (do "do") (compound_statement "{\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));\n if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }\nLAB_00018808:\n iVar9 = iVar9 + 1;\n }" ({ "{") (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" (identifier "iVar4") (= "=") (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4))" (identifier "FUN_00017bc8") (argument_list "(*(undefined4 *)(*piVar18 + iVar9 * 4))" (( "(") (pointer_expression "*(undefined4 *)(*piVar18 + iVar9 * 4)" (* "*") (cast_expression "(undefined4 *)(*piVar18 + iVar9 * 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar18 + iVar9 * 4)" (( "(") (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" (* "*") (identifier "piVar18")) (+ "+") (binary_expression "iVar9 * 4" (identifier "iVar9") (* "*") (number_literal "4"))) () ")")))) () ")")))) (; ";")) (if_statement "if (iVar4 != 0) {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" (if "if") (parenthesized_expression "(iVar4 != 0)" (( "(") (binary_expression "iVar4 != 0" (identifier "iVar4") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }\n *piVar19 = *piVar19 + 1;\n }" ({ "{") (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" (identifier "uVar12") (= "=") (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" (* "*") (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" (* "*") (cast_expression "(uint **)(iVar17 + DAT_00018c78)" (( "(") (type_descriptor "uint **" (type_identifier "uint") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c78)" (( "(") (binary_expression "iVar17 + DAT_00018c78" (identifier "iVar17") (+ "+") (identifier "DAT_00018c78")) () ")")))))) (; ";")) (if_statement "if (uVar12 == 0) {\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }\n else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" (if "if") (parenthesized_expression "(uVar12 == 0)" (( "(") (binary_expression "uVar12 == 0" (identifier "uVar12") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }\n }" ({ "{") (if_statement "if (iVar16 != 0) {\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" (if "if") (parenthesized_expression "(iVar16 != 0)" (( "(") (binary_expression "iVar16 != 0" (identifier "iVar16") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\nLAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;\n }" ({ "{") (labeled_statement "LAB_000187ec:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" (statement_identifier "LAB_000187ec") (: ":") (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;" (if "if") (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" (( "(") (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" (( "(") (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" (* "*") (cast_expression "(byte *)(iVar16 + 8)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 8)" (( "(") (binary_expression "iVar16 + 8" (identifier "iVar16") (+ "+") (number_literal "8")) () ")")))) (& "&") (number_literal "1")) () ")")) (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_00018808;" (goto "goto") (statement_identifier "LAB_00018808") (; ";")))) (} "}"))) (} "}")) (else_clause "else {\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" (else "else") (compound_statement "{\n pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);\n iVar4 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }\nLAB_000188b0:\n iVar16 = 0;\n }" ({ "{") (expression_statement "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);" (assignment_expression "pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" (identifier "pcVar7") (= "=") (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" (* "*") (cast_expression "(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4)" (( "(") (type_descriptor "char **" (primitive_type "char") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(*(int *)(*piVar18 + iVar9 * 4) + 4)" (( "(") (binary_expression "*(int *)(*piVar18 + iVar9 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar9 * 4)" (* "*") (cast_expression "(int *)(*piVar18 + iVar9 * 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar18 + iVar9 * 4)" (( "(") (binary_expression "*piVar18 + iVar9 * 4" (pointer_expression "*piVar18" (* "*") (identifier "piVar18")) (+ "+") (binary_expression "iVar9 * 4" (identifier "iVar9") (* "*") (number_literal "4"))) () ")")))) (+ "+") (number_literal "4")) () ")"))))) (; ";")) (expression_statement "iVar4 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar4 = **(int **)(iVar17 + DAT_00018c7c)" (identifier "iVar4") (= "=") (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" (* "*") (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" (* "*") (cast_expression "(int **)(iVar17 + DAT_00018c7c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c7c)" (( "(") (binary_expression "iVar17 + DAT_00018c7c" (identifier "iVar17") (+ "+") (identifier "DAT_00018c7c")) () ")")))))) (; ";")) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" (identifier "uVar20") (= "=") (number_literal "0")) (; ";")) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" (while "while") (parenthesized_expression "(uVar20 < uVar12)" (( "(") (binary_expression "uVar20 < uVar12" (identifier "uVar20") (< "<") (identifier "uVar12")) () ")")) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }\n if (iVar5 == 0) goto LAB_000187ec;\n uVar20 = uVar1 + 1;\n }" ({ "{") (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));\n iVar16 = iVar4 + uVar1 * 0xc;\n if (-1 < iVar5) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_000188b0;\n }" ({ "{") (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" (identifier "uVar1") (= "=") (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" (identifier "uVar20") (+ "+") (identifier "uVar12")) (>> ">>") (number_literal "1"))) (; ";")) (expression_statement "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));" (assignment_expression "iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" (identifier "iVar5") (= "=") (call_expression "strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" (identifier "strcmp") (argument_list "(pcVar7,*(char **)(iVar4 + uVar1 * 0xc))" (( "(") (identifier "pcVar7") (, ",") (pointer_expression "*(char **)(iVar4 + uVar1 * 0xc)" (* "*") (cast_expression "(char **)(iVar4 + uVar1 * 0xc)" (( "(") (type_descriptor "char **" (primitive_type "char") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + uVar1 * 0xc)" (( "(") (binary_expression "iVar4 + uVar1 * 0xc" (identifier "iVar4") (+ "+") (binary_expression "uVar1 * 0xc" (identifier "uVar1") (* "*") (number_literal "0xc"))) () ")")))) () ")")))) (; ";")) (expression_statement "iVar16 = iVar4 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar4 + uVar1 * 0xc" (identifier "iVar16") (= "=") (binary_expression "iVar4 + uVar1 * 0xc" (identifier "iVar4") (+ "+") (binary_expression "uVar1 * 0xc" (identifier "uVar1") (* "*") (number_literal "0xc")))) (; ";")) (if_statement "if (-1 < iVar5) break;" (if "if") (parenthesized_expression "(-1 < iVar5)" (( "(") (binary_expression "-1 < iVar5" (number_literal "-1") (< "<") (identifier "iVar5")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" (identifier "uVar12") (= "=") (identifier "uVar1")) (; ";")) (if_statement "if (uVar1 <= uVar20) goto LAB_000188b0;" (if "if") (parenthesized_expression "(uVar1 <= uVar20)" (( "(") (binary_expression "uVar1 <= uVar20" (identifier "uVar1") (<= "<=") (identifier "uVar20")) () ")")) (goto_statement "goto LAB_000188b0;" (goto "goto") (statement_identifier "LAB_000188b0") (; ";"))) (} "}"))) (if_statement "if (iVar5 == 0) goto LAB_000187ec;" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_000187ec;" (goto "goto") (statement_identifier "LAB_000187ec") (; ";"))) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" (identifier "uVar20") (= "=") (binary_expression "uVar1 + 1" (identifier "uVar1") (+ "+") (number_literal "1"))) (; ";")) (} "}"))) (labeled_statement "LAB_000188b0:\n iVar16 = 0;" (statement_identifier "LAB_000188b0") (: ":") (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" (identifier "iVar16") (= "=") (number_literal "0")) (; ";"))) (} "}")))) (expression_statement "*piVar19 = *piVar19 + 1;" (assignment_expression "*piVar19 = *piVar19 + 1" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (= "=") (binary_expression "*piVar19 + 1" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (+ "+") (number_literal "1"))) (; ";")) (} "}"))) (labeled_statement "LAB_00018808:\n iVar9 = iVar9 + 1;" (statement_identifier "LAB_00018808") (: ":") (expression_statement "iVar9 = iVar9 + 1;" (assignment_expression "iVar9 = iVar9 + 1" (identifier "iVar9") (= "=") (binary_expression "iVar9 + 1" (identifier "iVar9") (+ "+") (number_literal "1"))) (; ";"))) (} "}")) (while "while") (parenthesized_expression "(iVar9 < *(int *)(iVar13 + 0x187c0))" (( "(") (binary_expression "iVar9 < *(int *)(iVar13 + 0x187c0)" (identifier "iVar9") (< "<") (pointer_expression "*(int *)(iVar13 + 0x187c0)" (* "*") (cast_expression "(int *)(iVar13 + 0x187c0)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar13 + 0x187c0)" (( "(") (binary_expression "iVar13 + 0x187c0" (identifier "iVar13") (+ "+") (number_literal "0x187c0")) () ")"))))) () ")")) (; ";")) (if_statement "if (*piVar19 != 0) {\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" (if "if") (parenthesized_expression "(*piVar19 != 0)" (( "(") (binary_expression "*piVar19 != 0" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar9 = xmalloc(*piVar19 * 0xd8);\n iVar13 = *(int *)(iVar13 + 0x187c0);\n piVar19[1] = iVar9;\n piVar19[2] = iVar9;\n if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }\n *piVar19 = iVar13;\n FUN_0001c330(piVar19);\n return;\n }" ({ "{") (expression_statement "iVar9 = xmalloc(*piVar19 * 0xd8);" (assignment_expression "iVar9 = xmalloc(*piVar19 * 0xd8)" (identifier "iVar9") (= "=") (call_expression "xmalloc(*piVar19 * 0xd8)" (identifier "xmalloc") (argument_list "(*piVar19 * 0xd8)" (( "(") (binary_expression "*piVar19 * 0xd8" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (* "*") (number_literal "0xd8")) () ")")))) (; ";")) (expression_statement "iVar13 = *(int *)(iVar13 + 0x187c0);" (assignment_expression "iVar13 = *(int *)(iVar13 + 0x187c0)" (identifier "iVar13") (= "=") (pointer_expression "*(int *)(iVar13 + 0x187c0)" (* "*") (cast_expression "(int *)(iVar13 + 0x187c0)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar13 + 0x187c0)" (( "(") (binary_expression "iVar13 + 0x187c0" (identifier "iVar13") (+ "+") (number_literal "0x187c0")) () ")"))))) (; ";")) (expression_statement "piVar19[1] = iVar9;" (assignment_expression "piVar19[1] = iVar9" (subscript_expression "piVar19[1]" (identifier "piVar19") ([ "[") (number_literal "1") (] "]")) (= "=") (identifier "iVar9")) (; ";")) (expression_statement "piVar19[2] = iVar9;" (assignment_expression "piVar19[2] = iVar9" (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")) (= "=") (identifier "iVar9")) (; ";")) (if_statement "if (iVar13 < 1) {\n iVar13 = 0;\n }\n else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" (if "if") (parenthesized_expression "(iVar13 < 1)" (( "(") (binary_expression "iVar13 < 1" (identifier "iVar13") (< "<") (number_literal "1")) () ")")) (compound_statement "{\n iVar13 = 0;\n }" ({ "{") (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" (identifier "iVar13") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" (else "else") (compound_statement "{\n iVar13 = 0;\n piVar18 = (int *)(DAT_00018c80 + 0x18904);\n piVar14 = (int *)(DAT_00018c84 + 0x18910);\n pcVar7 = (char *)(DAT_00018c88 + 0x1891c);\n do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));\n iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;\n }" ({ "{") (expression_statement "iVar13 = 0;" (assignment_expression "iVar13 = 0" (identifier "iVar13") (= "=") (number_literal "0")) (; ";")) (expression_statement "piVar18 = (int *)(DAT_00018c80 + 0x18904);" (assignment_expression "piVar18 = (int *)(DAT_00018c80 + 0x18904)" (identifier "piVar18") (= "=") (cast_expression "(int *)(DAT_00018c80 + 0x18904)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c80 + 0x18904)" (( "(") (binary_expression "DAT_00018c80 + 0x18904" (identifier "DAT_00018c80") (+ "+") (number_literal "0x18904")) () ")")))) (; ";")) (expression_statement "piVar14 = (int *)(DAT_00018c84 + 0x18910);" (assignment_expression "piVar14 = (int *)(DAT_00018c84 + 0x18910)" (identifier "piVar14") (= "=") (cast_expression "(int *)(DAT_00018c84 + 0x18910)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c84 + 0x18910)" (( "(") (binary_expression "DAT_00018c84 + 0x18910" (identifier "DAT_00018c84") (+ "+") (number_literal "0x18910")) () ")")))) (; ";")) (expression_statement "pcVar7 = (char *)(DAT_00018c88 + 0x1891c);" (assignment_expression "pcVar7 = (char *)(DAT_00018c88 + 0x1891c)" (identifier "pcVar7") (= "=") (cast_expression "(char *)(DAT_00018c88 + 0x1891c)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c88 + 0x1891c)" (( "(") (binary_expression "DAT_00018c88 + 0x1891c" (identifier "DAT_00018c88") (+ "+") (number_literal "0x1891c")) () ")")))) (; ";")) (do_statement "do {\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n } while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));" (do "do") (compound_statement "{\n iVar9 = iVar13 * 4;\n iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));\n if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }\nLAB_00018a28:\n iVar13 = iVar13 + 1;\n }" ({ "{") (expression_statement "iVar9 = iVar13 * 4;" (assignment_expression "iVar9 = iVar13 * 4" (identifier "iVar9") (= "=") (binary_expression "iVar13 * 4" (identifier "iVar13") (* "*") (number_literal "4"))) (; ";")) (expression_statement "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));" (assignment_expression "iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" (identifier "iVar4") (= "=") (call_expression "FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4))" (identifier "FUN_00017bc8") (argument_list "(*(undefined4 *)(*piVar18 + iVar13 * 4))" (( "(") (pointer_expression "*(undefined4 *)(*piVar18 + iVar13 * 4)" (* "*") (cast_expression "(undefined4 *)(*piVar18 + iVar13 * 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar18 + iVar13 * 4)" (( "(") (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" (* "*") (identifier "piVar18")) (+ "+") (binary_expression "iVar13 * 4" (identifier "iVar13") (* "*") (number_literal "4"))) () ")")))) () ")")))) (; ";")) (if_statement "if (iVar4 == 0) {\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }\n else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" (if "if") (parenthesized_expression "(iVar4 == 0)" (( "(") (binary_expression "iVar4 == 0" (identifier "iVar4") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }\n }" ({ "{") (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" (if "if") (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" (( "(") (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" (( "(") (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" (* "*") (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" (* "*") (cast_expression "(uint **)(iVar17 + DAT_00018c94)" (( "(") (type_descriptor "uint **" (type_identifier "uint") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c94)" (( "(") (binary_expression "iVar17 + DAT_00018c94" (identifier "iVar17") (+ "+") (identifier "DAT_00018c94")) () ")"))))) (& "&") (number_literal "0x80")) () ")")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar9 = *(int *)(*piVar18 + iVar13 * 4);\n printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));\n }" ({ "{") (expression_statement "iVar9 = *(int *)(*piVar18 + iVar13 * 4);" (assignment_expression "iVar9 = *(int *)(*piVar18 + iVar13 * 4)" (identifier "iVar9") (= "=") (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" (* "*") (cast_expression "(int *)(*piVar18 + iVar13 * 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar18 + iVar13 * 4)" (( "(") (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" (* "*") (identifier "piVar18")) (+ "+") (binary_expression "iVar13 * 4" (identifier "iVar13") (* "*") (number_literal "4"))) () ")"))))) (; ";")) (expression_statement "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4));" (call_expression "printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" (identifier "printf") (argument_list "((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),\n *(undefined4 *)(iVar9 + 4))" (( "(") (cast_expression "(char *)(DAT_00018c9c + 0x18a94)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c9c + 0x18a94)" (( "(") (binary_expression "DAT_00018c9c + 0x18a94" (identifier "DAT_00018c9c") (+ "+") (number_literal "0x18a94")) () ")"))) (, ",") (pointer_expression "*(undefined4 *)(iVar9 + 8)" (* "*") (cast_expression "(undefined4 *)(iVar9 + 8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar9 + 8)" (( "(") (binary_expression "iVar9 + 8" (identifier "iVar9") (+ "+") (number_literal "8")) () ")")))) (, ",") (pointer_expression "*(undefined4 *)(iVar9 + 4)" (* "*") (cast_expression "(undefined4 *)(iVar9 + 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar9 + 4)" (( "(") (binary_expression "iVar9 + 4" (identifier "iVar9") (+ "+") (number_literal "4")) () ")")))) () ")"))) (; ";")) (} "}"))) (} "}")) (else_clause "else {\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" (else "else") (compound_statement "{\n uVar12 = **(uint **)(iVar17 + DAT_00018c78);\n if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }\n iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);\n if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }\n if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }\n puVar10 = (undefined4 *)piVar19[2];\n bVar2 = *(byte *)(puVar10 + 5);\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;\n if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }\n if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }\n piVar19[2] = (int)(puVar10 + 0x36);\n }" ({ "{") (expression_statement "uVar12 = **(uint **)(iVar17 + DAT_00018c78);" (assignment_expression "uVar12 = **(uint **)(iVar17 + DAT_00018c78)" (identifier "uVar12") (= "=") (pointer_expression "**(uint **)(iVar17 + DAT_00018c78)" (* "*") (pointer_expression "*(uint **)(iVar17 + DAT_00018c78)" (* "*") (cast_expression "(uint **)(iVar17 + DAT_00018c78)" (( "(") (type_descriptor "uint **" (type_identifier "uint") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c78)" (( "(") (binary_expression "iVar17 + DAT_00018c78" (identifier "iVar17") (+ "+") (identifier "DAT_00018c78")) () ")")))))) (; ";")) (if_statement "if (uVar12 == 0) {\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }\n else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" (if "if") (parenthesized_expression "(uVar12 == 0)" (( "(") (binary_expression "uVar12 == 0" (identifier "uVar12") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if (iVar16 == 0) goto LAB_00018b1c;\nLAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);\n iVar8 = *(int *)(iVar5 + 0x10);\n iVar5 = *(int *)(iVar5 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n iVar8 = *(int *)(iVar16 + 4);\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;\n piVar15[2] = iVar8;\n }" ({ "{") (if_statement "if (iVar16 == 0) goto LAB_00018b1c;" (if "if") (parenthesized_expression "(iVar16 == 0)" (( "(") (binary_expression "iVar16 == 0" (identifier "iVar16") (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_00018b1c;" (goto "goto") (statement_identifier "LAB_00018b1c") (; ";"))) (labeled_statement "LAB_0001893c:\n if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" (statement_identifier "LAB_0001893c") (: ":") (if_statement "if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;" (if "if") (parenthesized_expression "((*(byte *)(iVar16 + 8) & 1) == 0)" (( "(") (binary_expression "(*(byte *)(iVar16 + 8) & 1) == 0" (parenthesized_expression "(*(byte *)(iVar16 + 8) & 1)" (( "(") (binary_expression "*(byte *)(iVar16 + 8) & 1" (pointer_expression "*(byte *)(iVar16 + 8)" (* "*") (cast_expression "(byte *)(iVar16 + 8)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 8)" (( "(") (binary_expression "iVar16 + 8" (identifier "iVar16") (+ "+") (number_literal "8")) () ")")))) (& "&") (number_literal "1")) () ")")) (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_00018a28;" (goto "goto") (statement_identifier "LAB_00018a28") (; ";")))) (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" (identifier "FUN_0001c31c") (argument_list "(piVar19[2])" (( "(") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")) () ")"))) (; ";")) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" (identifier "piVar15") (= "=") (cast_expression "(int *)piVar19[2]" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")))) (; ";")) (expression_statement "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);" (assignment_expression "iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" (identifier "iVar5") (= "=") (pointer_expression "*(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" (* "*") (cast_expression "(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(DAT_00018c8c + 0x18960) + iVar9)" (( "(") (binary_expression "*(int *)(DAT_00018c8c + 0x18960) + iVar9" (pointer_expression "*(int *)(DAT_00018c8c + 0x18960)" (* "*") (cast_expression "(int *)(DAT_00018c8c + 0x18960)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c8c + 0x18960)" (( "(") (binary_expression "DAT_00018c8c + 0x18960" (identifier "DAT_00018c8c") (+ "+") (number_literal "0x18960")) () ")")))) (+ "+") (identifier "iVar9")) () ")"))))) (; ";")) (expression_statement "iVar8 = *(int *)(iVar5 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar5 + 0x10)" (identifier "iVar8") (= "=") (pointer_expression "*(int *)(iVar5 + 0x10)" (* "*") (cast_expression "(int *)(iVar5 + 0x10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar5 + 0x10)" (( "(") (binary_expression "iVar5 + 0x10" (identifier "iVar5") (+ "+") (number_literal "0x10")) () ")"))))) (; ";")) (expression_statement "iVar5 = *(int *)(iVar5 + 8);" (assignment_expression "iVar5 = *(int *)(iVar5 + 8)" (identifier "iVar5") (= "=") (pointer_expression "*(int *)(iVar5 + 8)" (* "*") (cast_expression "(int *)(iVar5 + 8)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar5 + 8)" (( "(") (binary_expression "iVar5 + 8" (identifier "iVar5") (+ "+") (number_literal "8")) () ")"))))) (; ";")) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (= "=") (identifier "iVar5")) (; ";")) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" (if "if") (parenthesized_expression "(iVar8 != 0)" (( "(") (binary_expression "iVar8 != 0" (identifier "iVar8") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" ({ "{") (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" (identifier "iVar5") (= "=") (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" (identifier "iVar5") (+ "+") (pointer_expression "*(int *)(iVar8 + 0x1c)" (* "*") (cast_expression "(int *)(iVar8 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar8 + 0x1c)" (( "(") (binary_expression "iVar8 + 0x1c" (identifier "iVar8") (+ "+") (number_literal "0x1c")) () ")")))))) (; ";")) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (= "=") (identifier "iVar5")) (; ";")) (} "}"))) (expression_statement "iVar8 = *(int *)(iVar16 + 4);" (assignment_expression "iVar8 = *(int *)(iVar16 + 4)" (identifier "iVar8") (= "=") (pointer_expression "*(int *)(iVar16 + 4)" (* "*") (cast_expression "(int *)(iVar16 + 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 4)" (( "(") (binary_expression "iVar16 + 4" (identifier "iVar16") (+ "+") (number_literal "4")) () ")"))))) (; ";")) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" (* "*") (cast_expression "(byte *)(piVar15 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar15 + 5)" (( "(") (binary_expression "piVar15 + 5" (identifier "piVar15") (+ "+") (number_literal "5")) () ")")))) (= "=") (binary_expression "*(byte *)(piVar15 + 5) | 8" (pointer_expression "*(byte *)(piVar15 + 5)" (* "*") (cast_expression "(byte *)(piVar15 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar15 + 5)" (( "(") (binary_expression "piVar15 + 5" (identifier "piVar15") (+ "+") (number_literal "5")) () ")")))) (| "|") (number_literal "8"))) (; ";")) (expression_statement "piVar15[2] = iVar8;" (assignment_expression "piVar15[2] = iVar8" (subscript_expression "piVar15[2]" (identifier "piVar15") ([ "[") (number_literal "2") (] "]")) (= "=") (identifier "iVar8")) (; ";")) (} "}")) (else_clause "else {\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" (else "else") (compound_statement "{\n __s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);\n iVar5 = **(int **)(iVar17 + DAT_00018c7c);\n uVar20 = 0;\n while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }\nLAB_00018b1c:\n FUN_0001c31c(piVar19[2]);\n piVar15 = (int *)piVar19[2];\n iVar16 = *(int *)(*piVar14 + iVar9);\n iVar8 = *(int *)(iVar16 + 0x10);\n iVar5 = *(int *)(iVar16 + 8);\n *piVar15 = iVar5;\n if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }\n piVar15[2] = *(int *)(iVar16 + 4);\n iVar16 = 0;\n *(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;\n }" ({ "{") (expression_statement "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);" (assignment_expression "__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" (identifier "__s1") (= "=") (pointer_expression "*(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" (* "*") (cast_expression "(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4)" (( "(") (type_descriptor "char **" (primitive_type "char") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(*(int *)(*piVar18 + iVar13 * 4) + 4)" (( "(") (binary_expression "*(int *)(*piVar18 + iVar13 * 4) + 4" (pointer_expression "*(int *)(*piVar18 + iVar13 * 4)" (* "*") (cast_expression "(int *)(*piVar18 + iVar13 * 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar18 + iVar13 * 4)" (( "(") (binary_expression "*piVar18 + iVar13 * 4" (pointer_expression "*piVar18" (* "*") (identifier "piVar18")) (+ "+") (binary_expression "iVar13 * 4" (identifier "iVar13") (* "*") (number_literal "4"))) () ")")))) (+ "+") (number_literal "4")) () ")"))))) (; ";")) (expression_statement "iVar5 = **(int **)(iVar17 + DAT_00018c7c);" (assignment_expression "iVar5 = **(int **)(iVar17 + DAT_00018c7c)" (identifier "iVar5") (= "=") (pointer_expression "**(int **)(iVar17 + DAT_00018c7c)" (* "*") (pointer_expression "*(int **)(iVar17 + DAT_00018c7c)" (* "*") (cast_expression "(int **)(iVar17 + DAT_00018c7c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c7c)" (( "(") (binary_expression "iVar17 + DAT_00018c7c" (identifier "iVar17") (+ "+") (identifier "DAT_00018c7c")) () ")")))))) (; ";")) (expression_statement "uVar20 = 0;" (assignment_expression "uVar20 = 0" (identifier "uVar20") (= "=") (number_literal "0")) (; ";")) (while_statement "while (uVar20 < uVar12) {\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" (while "while") (parenthesized_expression "(uVar20 < uVar12)" (( "(") (binary_expression "uVar20 < uVar12" (identifier "uVar20") (< "<") (identifier "uVar12")) () ")")) (compound_statement "{\n while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }\n if (iVar8 == 0) goto LAB_0001893c;\n uVar20 = uVar1 + 1;\n }" ({ "{") (while_statement "while( true ) {\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (compound_statement "{\n uVar1 = uVar20 + uVar12 >> 1;\n iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));\n iVar16 = iVar5 + uVar1 * 0xc;\n if (-1 < iVar8) break;\n uVar12 = uVar1;\n if (uVar1 <= uVar20) goto LAB_00018b1c;\n }" ({ "{") (expression_statement "uVar1 = uVar20 + uVar12 >> 1;" (assignment_expression "uVar1 = uVar20 + uVar12 >> 1" (identifier "uVar1") (= "=") (binary_expression "uVar20 + uVar12 >> 1" (binary_expression "uVar20 + uVar12" (identifier "uVar20") (+ "+") (identifier "uVar12")) (>> ">>") (number_literal "1"))) (; ";")) (expression_statement "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));" (assignment_expression "iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" (identifier "iVar8") (= "=") (call_expression "strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc))" (identifier "strcmp") (argument_list "(__s1,*(char **)(iVar5 + uVar1 * 0xc))" (( "(") (identifier "__s1") (, ",") (pointer_expression "*(char **)(iVar5 + uVar1 * 0xc)" (* "*") (cast_expression "(char **)(iVar5 + uVar1 * 0xc)" (( "(") (type_descriptor "char **" (primitive_type "char") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar5 + uVar1 * 0xc)" (( "(") (binary_expression "iVar5 + uVar1 * 0xc" (identifier "iVar5") (+ "+") (binary_expression "uVar1 * 0xc" (identifier "uVar1") (* "*") (number_literal "0xc"))) () ")")))) () ")")))) (; ";")) (expression_statement "iVar16 = iVar5 + uVar1 * 0xc;" (assignment_expression "iVar16 = iVar5 + uVar1 * 0xc" (identifier "iVar16") (= "=") (binary_expression "iVar5 + uVar1 * 0xc" (identifier "iVar5") (+ "+") (binary_expression "uVar1 * 0xc" (identifier "uVar1") (* "*") (number_literal "0xc")))) (; ";")) (if_statement "if (-1 < iVar8) break;" (if "if") (parenthesized_expression "(-1 < iVar8)" (( "(") (binary_expression "-1 < iVar8" (number_literal "-1") (< "<") (identifier "iVar8")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "uVar12 = uVar1;" (assignment_expression "uVar12 = uVar1" (identifier "uVar12") (= "=") (identifier "uVar1")) (; ";")) (if_statement "if (uVar1 <= uVar20) goto LAB_00018b1c;" (if "if") (parenthesized_expression "(uVar1 <= uVar20)" (( "(") (binary_expression "uVar1 <= uVar20" (identifier "uVar1") (<= "<=") (identifier "uVar20")) () ")")) (goto_statement "goto LAB_00018b1c;" (goto "goto") (statement_identifier "LAB_00018b1c") (; ";"))) (} "}"))) (if_statement "if (iVar8 == 0) goto LAB_0001893c;" (if "if") (parenthesized_expression "(iVar8 == 0)" (( "(") (binary_expression "iVar8 == 0" (identifier "iVar8") (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_0001893c;" (goto "goto") (statement_identifier "LAB_0001893c") (; ";"))) (expression_statement "uVar20 = uVar1 + 1;" (assignment_expression "uVar20 = uVar1 + 1" (identifier "uVar20") (= "=") (binary_expression "uVar1 + 1" (identifier "uVar1") (+ "+") (number_literal "1"))) (; ";")) (} "}"))) (labeled_statement "LAB_00018b1c:\n FUN_0001c31c(piVar19[2]);" (statement_identifier "LAB_00018b1c") (: ":") (expression_statement "FUN_0001c31c(piVar19[2]);" (call_expression "FUN_0001c31c(piVar19[2])" (identifier "FUN_0001c31c") (argument_list "(piVar19[2])" (( "(") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")) () ")"))) (; ";"))) (expression_statement "piVar15 = (int *)piVar19[2];" (assignment_expression "piVar15 = (int *)piVar19[2]" (identifier "piVar15") (= "=") (cast_expression "(int *)piVar19[2]" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")))) (; ";")) (expression_statement "iVar16 = *(int *)(*piVar14 + iVar9);" (assignment_expression "iVar16 = *(int *)(*piVar14 + iVar9)" (identifier "iVar16") (= "=") (pointer_expression "*(int *)(*piVar14 + iVar9)" (* "*") (cast_expression "(int *)(*piVar14 + iVar9)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar14 + iVar9)" (( "(") (binary_expression "*piVar14 + iVar9" (pointer_expression "*piVar14" (* "*") (identifier "piVar14")) (+ "+") (identifier "iVar9")) () ")"))))) (; ";")) (expression_statement "iVar8 = *(int *)(iVar16 + 0x10);" (assignment_expression "iVar8 = *(int *)(iVar16 + 0x10)" (identifier "iVar8") (= "=") (pointer_expression "*(int *)(iVar16 + 0x10)" (* "*") (cast_expression "(int *)(iVar16 + 0x10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 0x10)" (( "(") (binary_expression "iVar16 + 0x10" (identifier "iVar16") (+ "+") (number_literal "0x10")) () ")"))))) (; ";")) (expression_statement "iVar5 = *(int *)(iVar16 + 8);" (assignment_expression "iVar5 = *(int *)(iVar16 + 8)" (identifier "iVar5") (= "=") (pointer_expression "*(int *)(iVar16 + 8)" (* "*") (cast_expression "(int *)(iVar16 + 8)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 8)" (( "(") (binary_expression "iVar16 + 8" (identifier "iVar16") (+ "+") (number_literal "8")) () ")"))))) (; ";")) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (= "=") (identifier "iVar5")) (; ";")) (if_statement "if (iVar8 != 0) {\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" (if "if") (parenthesized_expression "(iVar8 != 0)" (( "(") (binary_expression "iVar8 != 0" (identifier "iVar8") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);\n *piVar15 = iVar5;\n }" ({ "{") (expression_statement "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);" (assignment_expression "iVar5 = iVar5 + *(int *)(iVar8 + 0x1c)" (identifier "iVar5") (= "=") (binary_expression "iVar5 + *(int *)(iVar8 + 0x1c)" (identifier "iVar5") (+ "+") (pointer_expression "*(int *)(iVar8 + 0x1c)" (* "*") (cast_expression "(int *)(iVar8 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar8 + 0x1c)" (( "(") (binary_expression "iVar8 + 0x1c" (identifier "iVar8") (+ "+") (number_literal "0x1c")) () ")")))))) (; ";")) (expression_statement "*piVar15 = iVar5;" (assignment_expression "*piVar15 = iVar5" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (= "=") (identifier "iVar5")) (; ";")) (} "}"))) (expression_statement "piVar15[2] = *(int *)(iVar16 + 4);" (assignment_expression "piVar15[2] = *(int *)(iVar16 + 4)" (subscript_expression "piVar15[2]" (identifier "piVar15") ([ "[") (number_literal "2") (] "]")) (= "=") (pointer_expression "*(int *)(iVar16 + 4)" (* "*") (cast_expression "(int *)(iVar16 + 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar16 + 4)" (( "(") (binary_expression "iVar16 + 4" (identifier "iVar16") (+ "+") (number_literal "4")) () ")"))))) (; ";")) (expression_statement "iVar16 = 0;" (assignment_expression "iVar16 = 0" (identifier "iVar16") (= "=") (number_literal "0")) (; ";")) (expression_statement "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;" (assignment_expression "*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" (* "*") (cast_expression "(byte *)(piVar15 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar15 + 5)" (( "(") (binary_expression "piVar15 + 5" (identifier "piVar15") (+ "+") (number_literal "5")) () ")")))) (= "=") (binary_expression "*(byte *)(piVar15 + 5) & 0xf7" (pointer_expression "*(byte *)(piVar15 + 5)" (* "*") (cast_expression "(byte *)(piVar15 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar15 + 5)" (( "(") (binary_expression "piVar15 + 5" (identifier "piVar15") (+ "+") (number_literal "5")) () ")")))) (& "&") (number_literal "0xf7"))) (; ";")) (} "}")))) (expression_statement "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);" (assignment_expression "iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" (identifier "iVar5") (= "=") (call_expression "FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4)" (identifier "FUN_000179f8") (argument_list "(iVar5,&local_30,auStack_2c,piVar15 + 4)" (( "(") (identifier "iVar5") (, ",") (pointer_expression "&local_30" (& "&") (identifier "local_30")) (, ",") (identifier "auStack_2c") (, ",") (binary_expression "piVar15 + 4" (identifier "piVar15") (+ "+") (number_literal "4")) () ")")))) (; ";")) (if_statement "if (iVar5 != 0) {\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" (if "if") (parenthesized_expression "(iVar5 != 0)" (( "(") (binary_expression "iVar5 != 0" (identifier "iVar5") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar5 = piVar19[2];\n uVar6 = FUN_0001bd50(local_30);\n *(undefined4 *)(iVar5 + 0xc) = uVar6;\n }" ({ "{") (expression_statement "iVar5 = piVar19[2];" (assignment_expression "iVar5 = piVar19[2]" (identifier "iVar5") (= "=") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]"))) (; ";")) (expression_statement "uVar6 = FUN_0001bd50(local_30);" (assignment_expression "uVar6 = FUN_0001bd50(local_30)" (identifier "uVar6") (= "=") (call_expression "FUN_0001bd50(local_30)" (identifier "FUN_0001bd50") (argument_list "(local_30)" (( "(") (identifier "local_30") () ")")))) (; ";")) (expression_statement "*(undefined4 *)(iVar5 + 0xc) = uVar6;" (assignment_expression "*(undefined4 *)(iVar5 + 0xc) = uVar6" (pointer_expression "*(undefined4 *)(iVar5 + 0xc)" (* "*") (cast_expression "(undefined4 *)(iVar5 + 0xc)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar5 + 0xc)" (( "(") (binary_expression "iVar5 + 0xc" (identifier "iVar5") (+ "+") (number_literal "0xc")) () ")")))) (= "=") (identifier "uVar6")) (; ";")) (} "}"))) (if_statement "if (bVar3) {\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }\n else {\n bVar11 = 1;\n }" (if "if") (parenthesized_expression "(bVar3)" (( "(") (identifier "bVar3") () ")")) (compound_statement "{\n bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;\n }" ({ "{") (expression_statement "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1;" (assignment_expression "bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" (identifier "bVar11") (= "=") (binary_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3) & 1" (call_expression "(byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3)" (( "(") (binary_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>\n 3" (pointer_expression "*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" (* "*") (cast_expression "(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc)" (( "(") (binary_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc" (pointer_expression "*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" (* "*") (cast_expression "(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(DAT_00018c90 + 0x189d0) + iVar9)" (( "(") (binary_expression "*(int *)(DAT_00018c90 + 0x189d0) + iVar9" (pointer_expression "*(int *)(DAT_00018c90 + 0x189d0)" (* "*") (cast_expression "(int *)(DAT_00018c90 + 0x189d0)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c90 + 0x189d0)" (( "(") (binary_expression "DAT_00018c90 + 0x189d0" (identifier "DAT_00018c90") (+ "+") (number_literal "0x189d0")) () ")")))) (+ "+") (identifier "iVar9")) () ")")))) (+ "+") (number_literal "0xc")) () ")")))) (>> ">>") (number_literal "3")) () ")"))) (& "&") (number_literal "1"))) (; ";")) (} "}")) (else_clause "else {\n bVar11 = 1;\n }" (else "else") (compound_statement "{\n bVar11 = 1;\n }" ({ "{") (expression_statement "bVar11 = 1;" (assignment_expression "bVar11 = 1" (identifier "bVar11") (= "=") (number_literal "1")) (; ";")) (} "}")))) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" (identifier "puVar10") (= "=") (cast_expression "(undefined4 *)piVar19[2]" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")))) (; ";")) (expression_statement "bVar2 = *(byte *)(puVar10 + 5);" (assignment_expression "bVar2 = *(byte *)(puVar10 + 5)" (identifier "bVar2") (= "=") (pointer_expression "*(byte *)(puVar10 + 5)" (* "*") (cast_expression "(byte *)(puVar10 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar10 + 5)" (( "(") (binary_expression "puVar10 + 5" (identifier "puVar10") (+ "+") (number_literal "5")) () ")"))))) (; ";")) (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4" (pointer_expression "*(byte *)(puVar10 + 5)" (* "*") (cast_expression "(byte *)(puVar10 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar10 + 5)" (( "(") (binary_expression "puVar10 + 5" (identifier "puVar10") (+ "+") (number_literal "5")) () ")")))) (= "=") (binary_expression "bVar11 | bVar2 & 0xfe | 4" (binary_expression "bVar11 | bVar2 & 0xfe" (identifier "bVar11") (| "|") (binary_expression "bVar2 & 0xfe" (identifier "bVar2") (& "&") (number_literal "0xfe"))) (| "|") (number_literal "4"))) (; ";")) (if_statement "if (iVar4 == 0x74) {\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" (if "if") (parenthesized_expression "(iVar4 == 0x74)" (( "(") (binary_expression "iVar4 == 0x74" (identifier "iVar4") (== "==") (number_literal "0x74")) () ")")) (compound_statement "{\n *(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;\n }" ({ "{") (expression_statement "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;" (assignment_expression "*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6" (pointer_expression "*(byte *)(puVar10 + 5)" (* "*") (cast_expression "(byte *)(puVar10 + 5)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar10 + 5)" (( "(") (binary_expression "puVar10 + 5" (identifier "puVar10") (+ "+") (number_literal "5")) () ")")))) (= "=") (binary_expression "bVar11 | bVar2 & 0xfe | 6" (binary_expression "bVar11 | bVar2 & 0xfe" (identifier "bVar11") (| "|") (binary_expression "bVar2 & 0xfe" (identifier "bVar2") (& "&") (number_literal "0xfe"))) (| "|") (number_literal "6"))) (; ";")) (} "}"))) (if_statement "if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" (if "if") (parenthesized_expression "((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0)" (( "(") (binary_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0" (parenthesized_expression "(**(uint **)(iVar17 + DAT_00018c94) & 0x80)" (( "(") (binary_expression "**(uint **)(iVar17 + DAT_00018c94) & 0x80" (pointer_expression "**(uint **)(iVar17 + DAT_00018c94)" (* "*") (pointer_expression "*(uint **)(iVar17 + DAT_00018c94)" (* "*") (cast_expression "(uint **)(iVar17 + DAT_00018c94)" (( "(") (type_descriptor "uint **" (type_identifier "uint") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018c94)" (( "(") (binary_expression "iVar17 + DAT_00018c94" (identifier "iVar17") (+ "+") (identifier "DAT_00018c94")) () ")"))))) (& "&") (number_literal "0x80")) () ")")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);\n puVar10 = (undefined4 *)piVar19[2];\n }" ({ "{") (expression_statement "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);" (call_expression "printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" (identifier "printf") (argument_list "(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10)" (( "(") (identifier "pcVar7") (, ",") (binary_expression "((int)puVar10 - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "((int)puVar10 - piVar19[1] >> 3)" (( "(") (binary_expression "(int)puVar10 - piVar19[1] >> 3" (binary_expression "(int)puVar10 - piVar19[1]" (cast_expression "(int)puVar10" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar10")) (- "-") (subscript_expression "piVar19[1]" (identifier "piVar19") ([ "[") (number_literal "1") (] "]"))) (>> ">>") (number_literal "3")) () ")")) (* "*") (number_literal "0x684bda13")) (, ",") (subscript_expression "puVar10[2]" (identifier "puVar10") ([ "[") (number_literal "2") (] "]")) (, ",") (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) () ")"))) (; ";")) (expression_statement "puVar10 = (undefined4 *)piVar19[2];" (assignment_expression "puVar10 = (undefined4 *)piVar19[2]" (identifier "puVar10") (= "=") (cast_expression "(undefined4 *)piVar19[2]" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")))) (; ";")) (} "}"))) (expression_statement "piVar19[2] = (int)(puVar10 + 0x36);" (assignment_expression "piVar19[2] = (int)(puVar10 + 0x36)" (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")) (= "=") (cast_expression "(int)(puVar10 + 0x36)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(puVar10 + 0x36)" (( "(") (binary_expression "puVar10 + 0x36" (identifier "puVar10") (+ "+") (number_literal "0x36")) () ")")))) (; ";")) (} "}")))) (labeled_statement "LAB_00018a28:\n iVar13 = iVar13 + 1;" (statement_identifier "LAB_00018a28") (: ":") (expression_statement "iVar13 = iVar13 + 1;" (assignment_expression "iVar13 = iVar13 + 1" (identifier "iVar13") (= "=") (binary_expression "iVar13 + 1" (identifier "iVar13") (+ "+") (number_literal "1"))) (; ";"))) (} "}")) (while "while") (parenthesized_expression "(iVar13 < *(int *)(DAT_00018c98 + 0x18a3c))" (( "(") (binary_expression "iVar13 < *(int *)(DAT_00018c98 + 0x18a3c)" (identifier "iVar13") (< "<") (pointer_expression "*(int *)(DAT_00018c98 + 0x18a3c)" (* "*") (cast_expression "(int *)(DAT_00018c98 + 0x18a3c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018c98 + 0x18a3c)" (( "(") (binary_expression "DAT_00018c98 + 0x18a3c" (identifier "DAT_00018c98") (+ "+") (number_literal "0x18a3c")) () ")"))))) () ")")) (; ";")) (expression_statement "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;" (assignment_expression "iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13" (identifier "iVar13") (= "=") (binary_expression "(piVar19[2] - piVar19[1] >> 3) * 0x684bda13" (parenthesized_expression "(piVar19[2] - piVar19[1] >> 3)" (( "(") (binary_expression "piVar19[2] - piVar19[1] >> 3" (binary_expression "piVar19[2] - piVar19[1]" (subscript_expression "piVar19[2]" (identifier "piVar19") ([ "[") (number_literal "2") (] "]")) (- "-") (subscript_expression "piVar19[1]" (identifier "piVar19") ([ "[") (number_literal "1") (] "]"))) (>> ">>") (number_literal "3")) () ")")) (* "*") (number_literal "0x684bda13"))) (; ";")) (} "}")))) (expression_statement "*piVar19 = iVar13;" (assignment_expression "*piVar19 = iVar13" (pointer_expression "*piVar19" (* "*") (identifier "piVar19")) (= "=") (identifier "iVar13")) (; ";")) (expression_statement "FUN_0001c330(piVar19);" (call_expression "FUN_0001c330(piVar19)" (identifier "FUN_0001c330") (argument_list "(piVar19)" (( "(") (identifier "piVar19") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}"))) (} "}"))) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" (identifier "__stream") (= "=") (cast_expression "(FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018ca0)" (* "*") (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018ca0)" (* "*") (cast_expression "(undefined4 **)(iVar17 + DAT_00018ca0)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018ca0)" (( "(") (binary_expression "iVar17 + DAT_00018ca0" (identifier "iVar17") (+ "+") (identifier "DAT_00018ca0")) () ")"))))))) (; ";")) (expression_statement "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);" (assignment_expression "pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" (identifier "pcVar7") (= "=") (cast_expression "(char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" (identifier "dcgettext") (argument_list "(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5)" (( "(") (binary_expression "DAT_00018ca8 + 0x18c38" (identifier "DAT_00018ca8") (+ "+") (number_literal "0x18c38")) (, ",") (binary_expression "DAT_00018ca4 + 0x18c34" (identifier "DAT_00018ca4") (+ "+") (number_literal "0x18c34")) (, ",") (number_literal "5") () ")"))))) (; ";")) (expression_statement "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac));" (call_expression "fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" (identifier "fprintf") (argument_list "(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),\n **(undefined4 **)(iVar17 + DAT_00018cac))" (( "(") (identifier "__stream") (, ",") (identifier "pcVar7") (, ",") (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cb0)" (* "*") (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cb0)" (* "*") (cast_expression "(undefined4 **)(iVar17 + DAT_00018cb0)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018cb0)" (( "(") (binary_expression "iVar17 + DAT_00018cb0" (identifier "iVar17") (+ "+") (identifier "DAT_00018cb0")) () ")"))))) (, ",") (pointer_expression "**(undefined4 **)(iVar17 + DAT_00018cac)" (* "*") (pointer_expression "*(undefined4 **)(iVar17 + DAT_00018cac)" (* "*") (cast_expression "(undefined4 **)(iVar17 + DAT_00018cac)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar17 + DAT_00018cac)" (( "(") (binary_expression "iVar17 + DAT_00018cac" (identifier "iVar17") (+ "+") (identifier "DAT_00018cac")) () ")"))))) () ")"))) (; ";")) (comment "/* WARNING: Subroutine does not return */") (expression_statement "FUN_0001a4ec(1);" (call_expression "FUN_0001a4ec(1)" (identifier "FUN_0001a4ec") (argument_list "(1)" (( "(") (number_literal "1") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(void)
{
type_1 var_15;
bool bVar2;
int var_9;
int var_16;
type_2 *var_35;
type_3 var_28;
type_4 var_30;
type_5 *pSVar7;
char *pcVar8;
type_6 var_34;
char *pcVar10;
int var_7;
int var_27;
type_6 var_33;
type_1 var_4;
int var_17;
int *piVar16;
int var_11;
type_7 *__stream;
int var_2;
int *piVar19;
type_8 *tab;
type_1 var_13;
char *filename;
char *func_name;
var_17 = var_5;
var_2 = var_1 + 0x1877c;
var_4 = *(type_1 *)(*(int *)(**(int **)(var_2 + var_3) + 4) + 4);
if (var_4 < 2) {
bVar2 = false;
}
else if (var_4 < 6) {
bVar2 = true;
}
else {
bVar2 = var_4 == 10;
}
piVar19 = (int *)(var_5 + 0x187bc);
var_7 = *(int *)(var_5 + 0x187c0);
tab = *(type_8 **)(var_2 + var_6);
var_11 = 0;
tab->len = 0;
if (0 < var_7) {
var_7 = 0;
do {
var_9 = var_8(*(type_9 **)(*piVar19 + var_7 * 4));
if (var_9 != 0) {
var_4 = **(type_1 **)(var_2 + var_10);
if (var_4 == 0) {
if (var_11 != 0) {
LAB_000187ec:
if ((*(type_6 *)(var_11 + 8) & 1) == 0) goto LAB_00018808;
}
}
else {
pcVar8 = *(char **)(*(int *)(*piVar19 + var_7 * 4) + 4);
var_9 = **(int **)(var_2 + var_12);
var_13 = 0;
while (var_13 < var_4) {
while( true ) {
var_15 = var_13 + var_4 >> 1;
var_16 = var_14(pcVar8,*(char **)(var_9 + var_15 * 0xc));
var_11 = var_9 + var_15 * 0xc;
if (-1 < var_16) break;
var_4 = var_15;
if (var_15 <= var_13) goto LAB_000188b0;
}
if (var_16 == 0) goto LAB_000187ec;
var_13 = var_15 + 1;
}
LAB_000188b0:
var_11 = 0;
}
tab->len = tab->len + 1;
}
LAB_00018808:
var_7 = var_7 + 1;
} while (var_7 < *(int *)(var_17 + 0x187c0));
if (tab->len != 0) {
var_35 = (type_2 *)var_18(tab->len * 0xd8);
var_17 = *(int *)(var_17 + 0x187c0);
tab->base = var_35;
tab->limit = var_35;
if (var_17 < 1) {
var_4 = 0;
}
else {
var_17 = 0;
piVar19 = (int *)(var_19 + 0x18904);
piVar16 = (int *)(var_20 + 0x18910);
pcVar8 = (char *)(var_21 + 0x1891c);
do {
var_7 = var_17 * 4;
var_9 = var_8(*(type_9 **)(*piVar19 + var_17 * 4));
if (var_9 == 0) {
if ((**(type_1 **)(var_2 + var_22) & 0x80) != 0) {
var_7 = *(int *)(*piVar19 + var_17 * 4);
var_23((char *)(var_24 + 0x18a94),*(type_10 *)(var_7 + 8),
*(type_10 *)(var_7 + 4));
}
}
else {
var_4 = **(type_1 **)(var_2 + var_10);
if (var_4 == 0) {
if (var_11 == 0) goto LAB_00018b1c;
LAB_0001893c:
if ((*(type_6 *)(var_11 + 8) & 1) == 0) goto LAB_00018a28;
var_25(tab->limit);
var_35 = tab->limit;
var_27 = *(int *)(*(int *)(var_26 + 0x18960) + var_7);
var_16 = *(int *)(var_27 + 0x10);
var_28 = *(type_3 *)(var_27 + 8);
var_35->var_28 = var_28;
if (var_16 != 0) {
var_28 = var_28 + *(int *)(var_16 + 0x1c);
var_35->var_28 = var_28;
}
pcVar10 = *(char **)(var_11 + 4);
var_35->field_0x14 = var_35->field_0x14 | 8;
var_35->name = pcVar10;
}
else {
pcVar10 = *(char **)(*(int *)(*piVar19 + var_17 * 4) + 4);
var_16 = **(int **)(var_2 + var_12);
var_13 = 0;
while (var_13 < var_4) {
while( true ) {
var_15 = var_13 + var_4 >> 1;
var_27 = var_14(pcVar10,*(char **)(var_16 + var_15 * 0xc));
var_11 = var_16 + var_15 * 0xc;
if (-1 < var_27) break;
var_4 = var_15;
if (var_15 <= var_13) goto LAB_00018b1c;
}
if (var_27 == 0) goto LAB_0001893c;
var_13 = var_15 + 1;
}
LAB_00018b1c:
var_25(tab->limit);
var_35 = tab->limit;
var_11 = *(int *)(*piVar16 + var_7);
var_16 = *(int *)(var_11 + 0x10);
var_28 = *(type_3 *)(var_11 + 8);
var_35->var_28 = var_28;
if (var_16 != 0) {
var_28 = var_28 + *(int *)(var_16 + 0x1c);
var_35->var_28 = var_28;
}
var_35->name = *(char **)(var_11 + 4);
var_11 = 0;
var_35->field_0x14 = var_35->field_0x14 & 0xf7;
}
var_30 = var_29(var_28,&filename,&func_name,&var_35->line_num);
if (var_30 != 0) {
var_35 = tab->limit;
pSVar7 = var_31(filename);
var_35->file = pSVar7;
}
if (bVar2) {
var_33 = (type_6)(*(type_1 *)(*(int *)(*(int *)(var_32 + 0x189d0) + var_7) + 0xc)
>> 3) & 1;
}
else {
var_33 = 1;
}
var_35 = tab->limit;
var_34 = var_35->field_0x14 & 0xfe;
var_35->field_0x14 = var_33 | var_34 | 4;
if (var_9 == 0x74) {
var_35->field_0x14 = var_33 | var_34 | 6;
}
if ((**(type_1 **)(var_2 + var_22) & 0x80) != 0) {
var_23(pcVar8,((int)var_35 - (int)tab->base >> 3) * 0x684bda13,var_35->name,
var_35->var_28);
var_35 = tab->limit;
}
tab->limit = var_35 + 1;
}
LAB_00018a28:
var_17 = var_17 + 1;
} while (var_17 < *(int *)(var_36 + 0x18a3c));
var_4 = ((int)tab->limit - (int)tab->base >> 3) * 0x684bda13;
}
tab->len = var_4;
var_37(tab);
return;
}
}
__stream = (type_7 *)**(type_10 **)(var_2 + var_38);
pcVar8 = (char *)var_39(var_40 + 0x18c38,var_41 + 0x18c34,5);
var_42(__stream,pcVar8,**(type_10 **)(var_2 + var_43),
**(type_10 **)(var_2 + var_44));
/* WARNING: Subroutine does not return */
var_45(1);
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (number_literal))))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (false)))) alternative: (else_clause (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (true)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (labeled_statement label: (statement_identifier) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) body: (compound_statement (while_statement condition: (parenthesized_expression (true)) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (goto_statement label: (statement_identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal)))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (number_literal))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (labeled_statement label: (statement_identifier) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))) consequence: (goto_statement label: (statement_identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (while_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) body: (compound_statement (while_statement condition: (parenthesized_expression (true)) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (goto_statement label: (statement_identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (labeled_statement label: (statement_identifier) (expression_statement (call_expression function: (identifier) arguments: (argument_list (subscript_expression argument: (identifier) index: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (pointer_expression argument: (identifier)) (identifier) (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))))) right: (number_literal))))) right: (number_literal)))) right: (number_literal))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (number_literal))) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (subscript_expression argument: (identifier) index: (number_literal))) right: (number_literal))) right: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal)) (pointer_expression argument: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (subscript_expression argument: (identifier) index: (number_literal))) right: (number_literal))) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (return_statement))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (binary_expression left: (identifier) right: (number_literal)) (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal)))))))
|
void MASKED(void)
{
uint uVar1;
byte bVar2;
bool bVar3;
int iVar4;
int iVar5;
undefined4 uVar6;
char *pcVar7;
int iVar8;
int iVar9;
undefined4 *puVar10;
char *__s1;
byte bVar11;
uint uVar12;
int iVar13;
int *piVar14;
int *piVar15;
int iVar16;
FILE *__stream;
int iVar17;
int *piVar18;
int *piVar19;
uint uVar20;
undefined4 local_30;
undefined1 auStack_2c [8];
iVar13 = DAT_00018c70;
iVar17 = DAT_00018c68 + 0x1877c;
uVar12 = *(uint *)(*(int *)(**(int **)(iVar17 + DAT_00018c6c) + 4) + 4);
if (uVar12 < 2) {
bVar3 = false;
}
else if (uVar12 < 6) {
bVar3 = true;
}
else {
bVar3 = uVar12 == 10;
}
piVar18 = (int *)(DAT_00018c70 + 0x187bc);
iVar9 = *(int *)(DAT_00018c70 + 0x187c0);
piVar19 = *(int **)(iVar17 + DAT_00018c74);
iVar16 = 0;
*piVar19 = 0;
if (0 < iVar9) {
iVar9 = 0;
do {
iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar9 * 4));
if (iVar4 != 0) {
uVar12 = **(uint **)(iVar17 + DAT_00018c78);
if (uVar12 == 0) {
if (iVar16 != 0) {
LAB_000187ec:
if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018808;
}
}
else {
pcVar7 = *(char **)(*(int *)(*piVar18 + iVar9 * 4) + 4);
iVar4 = **(int **)(iVar17 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar12) {
while( true ) {
uVar1 = uVar20 + uVar12 >> 1;
iVar5 = strcmp(pcVar7,*(char **)(iVar4 + uVar1 * 0xc));
iVar16 = iVar4 + uVar1 * 0xc;
if (-1 < iVar5) break;
uVar12 = uVar1;
if (uVar1 <= uVar20) goto LAB_000188b0;
}
if (iVar5 == 0) goto LAB_000187ec;
uVar20 = uVar1 + 1;
}
LAB_000188b0:
iVar16 = 0;
}
*piVar19 = *piVar19 + 1;
}
LAB_00018808:
iVar9 = iVar9 + 1;
} while (iVar9 < *(int *)(iVar13 + 0x187c0));
if (*piVar19 != 0) {
iVar9 = xmalloc(*piVar19 * 0xd8);
iVar13 = *(int *)(iVar13 + 0x187c0);
piVar19[1] = iVar9;
piVar19[2] = iVar9;
if (iVar13 < 1) {
iVar13 = 0;
}
else {
iVar13 = 0;
piVar18 = (int *)(DAT_00018c80 + 0x18904);
piVar14 = (int *)(DAT_00018c84 + 0x18910);
pcVar7 = (char *)(DAT_00018c88 + 0x1891c);
do {
iVar9 = iVar13 * 4;
iVar4 = FUN_00017bc8(*(undefined4 *)(*piVar18 + iVar13 * 4));
if (iVar4 == 0) {
if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {
iVar9 = *(int *)(*piVar18 + iVar13 * 4);
printf((char *)(DAT_00018c9c + 0x18a94),*(undefined4 *)(iVar9 + 8),
*(undefined4 *)(iVar9 + 4));
}
}
else {
uVar12 = **(uint **)(iVar17 + DAT_00018c78);
if (uVar12 == 0) {
if (iVar16 == 0) goto LAB_00018b1c;
LAB_0001893c:
if ((*(byte *)(iVar16 + 8) & 1) == 0) goto LAB_00018a28;
FUN_0001c31c(piVar19[2]);
piVar15 = (int *)piVar19[2];
iVar5 = *(int *)(*(int *)(DAT_00018c8c + 0x18960) + iVar9);
iVar8 = *(int *)(iVar5 + 0x10);
iVar5 = *(int *)(iVar5 + 8);
*piVar15 = iVar5;
if (iVar8 != 0) {
iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);
*piVar15 = iVar5;
}
iVar8 = *(int *)(iVar16 + 4);
*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) | 8;
piVar15[2] = iVar8;
}
else {
__s1 = *(char **)(*(int *)(*piVar18 + iVar13 * 4) + 4);
iVar5 = **(int **)(iVar17 + DAT_00018c7c);
uVar20 = 0;
while (uVar20 < uVar12) {
while( true ) {
uVar1 = uVar20 + uVar12 >> 1;
iVar8 = strcmp(__s1,*(char **)(iVar5 + uVar1 * 0xc));
iVar16 = iVar5 + uVar1 * 0xc;
if (-1 < iVar8) break;
uVar12 = uVar1;
if (uVar1 <= uVar20) goto LAB_00018b1c;
}
if (iVar8 == 0) goto LAB_0001893c;
uVar20 = uVar1 + 1;
}
LAB_00018b1c:
FUN_0001c31c(piVar19[2]);
piVar15 = (int *)piVar19[2];
iVar16 = *(int *)(*piVar14 + iVar9);
iVar8 = *(int *)(iVar16 + 0x10);
iVar5 = *(int *)(iVar16 + 8);
*piVar15 = iVar5;
if (iVar8 != 0) {
iVar5 = iVar5 + *(int *)(iVar8 + 0x1c);
*piVar15 = iVar5;
}
piVar15[2] = *(int *)(iVar16 + 4);
iVar16 = 0;
*(byte *)(piVar15 + 5) = *(byte *)(piVar15 + 5) & 0xf7;
}
iVar5 = FUN_000179f8(iVar5,&local_30,auStack_2c,piVar15 + 4);
if (iVar5 != 0) {
iVar5 = piVar19[2];
uVar6 = FUN_0001bd50(local_30);
*(undefined4 *)(iVar5 + 0xc) = uVar6;
}
if (bVar3) {
bVar11 = (byte)(*(uint *)(*(int *)(*(int *)(DAT_00018c90 + 0x189d0) + iVar9) + 0xc) >>
3) & 1;
}
else {
bVar11 = 1;
}
puVar10 = (undefined4 *)piVar19[2];
bVar2 = *(byte *)(puVar10 + 5);
*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 4;
if (iVar4 == 0x74) {
*(byte *)(puVar10 + 5) = bVar11 | bVar2 & 0xfe | 6;
}
if ((**(uint **)(iVar17 + DAT_00018c94) & 0x80) != 0) {
printf(pcVar7,((int)puVar10 - piVar19[1] >> 3) * 0x684bda13,puVar10[2],*puVar10);
puVar10 = (undefined4 *)piVar19[2];
}
piVar19[2] = (int)(puVar10 + 0x36);
}
LAB_00018a28:
iVar13 = iVar13 + 1;
} while (iVar13 < *(int *)(DAT_00018c98 + 0x18a3c));
iVar13 = (piVar19[2] - piVar19[1] >> 3) * 0x684bda13;
}
*piVar19 = iVar13;
FUN_0001c330(piVar19);
return;
}
}
__stream = (FILE *)**(undefined4 **)(iVar17 + DAT_00018ca0);
pcVar7 = (char *)dcgettext(DAT_00018ca8 + 0x18c38,DAT_00018ca4 + 0x18c34,5);
fprintf(__stream,pcVar7,**(undefined4 **)(iVar17 + DAT_00018cb0),
**(undefined4 **)(iVar17 + DAT_00018cac));
/* WARNING: Subroutine does not return */
FUN_0001a4ec(1);
}
| 38,044 |
||
41_cp_and_cp_strip.c
|
FUN_00012138
|
geteuid
|
void FUN_00012138(void)
{
/* WARNING: Could not recover jumptable at 0x00012140. Too many branches */
/* WARNING: Treating indirect jump as call */
(*(code *)PTR_geteuid_0003c0b4)();
return;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
__uid_t geteuid(void)
{
__uid_t _Var1;
_Var1 = (*(code *)PTR_geteuid_0003c0b4)();
return _Var1;
}
|
adr r12,0x12140
add r12,r12,#0x29000
ldr pc,[r12,#0xf74]!
| null | null | null | null |
[('tmp_113', u'CAST_-1205984859'), (u'CALLIND_-1205984933', u'INDIRECT_-1205984864'), (u'CAST_-1205984859', u'CALLIND_-1205984933'), ('const-1', u'RETURN_-1205984930'), (u'INDIRECT_-1205984864', u'COPY_-1205984923')]
|
[(u'CALLIND_-1205984933', u'RETURN_-1205984930'), (u'CALLIND_-1205984933', u'INDIRECT_-1205984863'), (u'CAST_-1205984858', u'CALLIND_-1205984933'), ('tmp_119', u'CAST_-1205984858'), (u'INDIRECT_-1205984863', u'COPY_-1205984922'), ('const-0', u'RETURN_-1205984930')]
| null | null |
00012138
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\n__uid_t geteuid(void)\n\n{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}\n\n" comment (function_definition "__uid_t geteuid(void)\n\n{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" type_identifier (function_declarator "geteuid(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" { (declaration "__uid_t _Var1;" type_identifier identifier ;) (expression_statement "_Var1 = (*(code *)PTR_geteuid_0003c0b4)();" (assignment_expression "_Var1 = (*(code *)PTR_geteuid_0003c0b4)()" identifier = (call_expression "(*(code *)PTR_geteuid_0003c0b4)()" (parenthesized_expression "(*(code *)PTR_geteuid_0003c0b4)" ( (pointer_expression "*(code *)PTR_geteuid_0003c0b4" * (cast_expression "(code *)PTR_geteuid_0003c0b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return _Var1;" return identifier ;) })))
|
(translation_unit "void FUN_00012138(void)\n\n{\n /* WARNING: Could not recover jumptable at 0x00012140. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*(code *)PTR_geteuid_0003c0b4)();\n return;\n}\n\n" (function_definition "void FUN_00012138(void)\n\n{\n /* WARNING: Could not recover jumptable at 0x00012140. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*(code *)PTR_geteuid_0003c0b4)();\n return;\n}" primitive_type (function_declarator "FUN_00012138(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Could not recover jumptable at 0x00012140. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*(code *)PTR_geteuid_0003c0b4)();\n return;\n}" { comment comment (expression_statement "(*(code *)PTR_geteuid_0003c0b4)();" (call_expression "(*(code *)PTR_geteuid_0003c0b4)()" (parenthesized_expression "(*(code *)PTR_geteuid_0003c0b4)" ( (pointer_expression "*(code *)PTR_geteuid_0003c0b4" * (cast_expression "(code *)PTR_geteuid_0003c0b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\n__uid_t geteuid(void)\n\n{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}\n\n" comment (function_definition "__uid_t geteuid(void)\n\n{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" type_identifier (function_declarator "geteuid(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" { (declaration "__uid_t _Var1;" type_identifier identifier ;) (expression_statement "_Var1 = (*(code *)PTR_geteuid_0003c0b4)();" (assignment_expression "_Var1 = (*(code *)PTR_geteuid_0003c0b4)()" identifier = (call_expression "(*(code *)PTR_geteuid_0003c0b4)()" (parenthesized_expression "(*(code *)PTR_geteuid_0003c0b4)" ( (pointer_expression "*(code *)PTR_geteuid_0003c0b4" * (cast_expression "(code *)PTR_geteuid_0003c0b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return _Var1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "__uid_t geteuid(void)\n\n{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" (type_identifier "__uid_t") (function_declarator "geteuid(void)" (identifier "geteuid") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n __uid_t _Var1;\n \n _Var1 = (*(code *)PTR_geteuid_0003c0b4)();\n return _Var1;\n}" ({ "{") (declaration "__uid_t _Var1;" (type_identifier "__uid_t") (identifier "_Var1") (; ";")) (expression_statement "_Var1 = (*(code *)PTR_geteuid_0003c0b4)();" (assignment_expression "_Var1 = (*(code *)PTR_geteuid_0003c0b4)()" (identifier "_Var1") (= "=") (call_expression "(*(code *)PTR_geteuid_0003c0b4)()" (parenthesized_expression "(*(code *)PTR_geteuid_0003c0b4)" (( "(") (pointer_expression "*(code *)PTR_geteuid_0003c0b4" (* "*") (cast_expression "(code *)PTR_geteuid_0003c0b4" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_geteuid_0003c0b4"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return _Var1;" (return "return") (identifier "_Var1") (; ";")) (} "}")))
|
void function_1(void)
{
/* WARNING: Could not recover jumptable at 0x00012140. Too many branches */
/* WARNING: Treating indirect jump as call */
(*(type_1 *)PTR_geteuid_0003c0b4)();
return;
}
|
(translation_unit (comment) (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
__uid_t MASKED(void)
{
__uid_t _Var1;
_Var1 = (*(code *)PTR_MASKED_0003c0b4)();
return _Var1;
}
| 8,571 |
||
397_puttygen_and_puttygen_strip.c
|
delpos234
|
FUN_0003a3b8
|
void * delpos234(tree234 *t,int index)
{
int iVar1;
void *pvVar2;
if (((-1 < index) && (t->root != (node234_conflict *)0x0)) &&
(iVar1 = countnode234(t->root), index < iVar1)) {
pvVar2 = delpos234_internal(t,index);
return pvVar2;
}
return (void *)0x0;
}
|
undefined4 FUN_0003a3b8(int *param_1,int param_2)
{
int iVar1;
undefined4 uVar2;
if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {
uVar2 = FUN_00039904(param_1,param_2);
return uVar2;
}
return 0;
}
|
stmdb sp!,{r4,r5,r6,lr}
subs r5,r1,#0x0
blt 0x0003a3f4
ldr r3,[r0,#0x0]
cmp r3,#0x0
beq 0x0003a3f4
cpy r4,r0
cpy r0,r3
bl 0x000391d4
cmp r5,r0
bge 0x0003a3f4
cpy r1,r5
cpy r0,r4
ldmia sp!,{r4,r5,r6,lr}
b 0x00039904
mov r0,#0x0
ldmia sp!,{r4,r5,r6,pc}
| null | null | null | null |
[(u'LOAD_-1206082589', u'INT_NOTEQUAL_-1206082563'), ('const-0', u'COPY_-1206082487'), ('tmp_283', u'INT_SLESS_-1206082518'), ('const-0', u'RETURN_-1206082455'), ('tmp_77', u'CBRANCH_-1206082592'), ('tmp_129', u'CBRANCH_-1206082561'), ('const-0', u'RETURN_-1206082490'), ('const-417', u'LOAD_-1206082589'), ('const-4294967295', u'INT_SLESS_-1206082595'), (u'INT_SLESS_-1206082595', u'CBRANCH_-1206082592'), ('tmp_167', u'CBRANCH_-1206082525'), ('const-0', u'PTRSUB_-1206082359'), ('tmp_282', u'CALL_-1206082494'), (u'INT_SLESS_-1206082518', u'CBRANCH_-1206082525'), (u'CALL_-1206082543', u'INT_SLESS_-1206082518'), (u'COPY_-1206082487', u'RETURN_-1206082455'), ('const-0', u'INT_NOTEQUAL_-1206082563'), (u'CALL_-1206082494', u'RETURN_-1206082490'), ('tmp_283', u'CALL_-1206082494'), ('tmp_283', u'INT_SLESS_-1206082595'), ('tmp_282', u'PTRSUB_-1206082359'), (u'LOAD_-1206082589', u'CALL_-1206082543'), (u'PTRSUB_-1206082359', u'LOAD_-1206082589'), (u'INT_NOTEQUAL_-1206082563', u'CBRANCH_-1206082561')]
|
[(u'LOAD_-1206082589', u'INT_NOTEQUAL_-1206082563'), (u'INT_SLESS_-1206082518', u'CBRANCH_-1206082525'), ('const-0', u'COPY_-1206082487'), (u'CALL_-1206082543', u'INT_SLESS_-1206082518'), ('tmp_530', u'INT_SLESS_-1206082595'), ('tmp_535', u'LOAD_-1206082589'), (u'COPY_-1206082487', u'RETURN_-1206082455'), ('const-0', u'INT_NOTEQUAL_-1206082563'), ('tmp_530', u'INT_SLESS_-1206082518'), ('const-0', u'RETURN_-1206082455'), (u'CALL_-1206082494', u'RETURN_-1206082490'), ('tmp_77', u'CBRANCH_-1206082592'), ('tmp_129', u'CBRANCH_-1206082561'), ('const-0', u'RETURN_-1206082490'), ('tmp_535', u'CALL_-1206082494'), (u'LOAD_-1206082589', u'CALL_-1206082543'), ('tmp_530', u'CALL_-1206082494'), ('const-4294967295', u'INT_SLESS_-1206082595'), ('const-417', u'LOAD_-1206082589'), (u'INT_SLESS_-1206082595', u'CBRANCH_-1206082592'), ('tmp_167', u'CBRANCH_-1206082525'), (u'INT_NOTEQUAL_-1206082563', u'CBRANCH_-1206082561')]
| null | null |
0003a3b8
|
arm
|
O2
|
(translation_unit "undefined4 FUN_0003a3b8(int *param_1,int param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}\n\n" (function_definition "undefined4 FUN_0003a3b8(int *param_1,int param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" type_identifier (function_declarator "FUN_0003a3b8(int *param_1,int param_2)" identifier (parameter_list "(int *param_1,int param_2)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (if_statement "if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" if (parenthesized_expression "(((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1))" ( (binary_expression "((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" (parenthesized_expression "((-1 < param_2) && (*param_1 != 0))" ( (binary_expression "(-1 < param_2) && (*param_1 != 0)" (parenthesized_expression "(-1 < param_2)" ( (binary_expression "-1 < param_2" number_literal < identifier) )) && (parenthesized_expression "(*param_1 != 0)" ( (binary_expression "*param_1 != 0" (pointer_expression "*param_1" * identifier) != number_literal) ))) )) && (parenthesized_expression "(iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" ( (comma_expression "iVar1 = FUN_000391d4(*param_1), param_2 < iVar1" (assignment_expression "iVar1 = FUN_000391d4(*param_1)" identifier = (call_expression "FUN_000391d4(*param_1)" identifier (argument_list "(*param_1)" ( (pointer_expression "*param_1" * identifier) )))) , (binary_expression "param_2 < iVar1" identifier < identifier)) ))) )) (compound_statement "{\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_00039904(param_1,param_2);" (assignment_expression "uVar2 = FUN_00039904(param_1,param_2)" identifier = (call_expression "FUN_00039904(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier )))) ;) (return_statement "return uVar2;" return identifier ;) })) (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit "void * delpos234(tree234 *t,int index)\n\n{\n int iVar1;\n void *pvVar2;\n \n if (((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1)) {\n pvVar2 = delpos234_internal(t,index);\n return pvVar2;\n }\n return (void *)0x0;\n}\n\n" (function_definition "void * delpos234(tree234 *t,int index)\n\n{\n int iVar1;\n void *pvVar2;\n \n if (((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1)) {\n pvVar2 = delpos234_internal(t,index);\n return pvVar2;\n }\n return (void *)0x0;\n}" primitive_type (pointer_declarator "* delpos234(tree234 *t,int index)" * (function_declarator "delpos234(tree234 *t,int index)" identifier (parameter_list "(tree234 *t,int index)" ( (parameter_declaration "tree234 *t" type_identifier (pointer_declarator "*t" * identifier)) , (parameter_declaration "int index" primitive_type identifier) )))) (compound_statement "{\n int iVar1;\n void *pvVar2;\n \n if (((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1)) {\n pvVar2 = delpos234_internal(t,index);\n return pvVar2;\n }\n return (void *)0x0;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "void *pvVar2;" primitive_type (pointer_declarator "*pvVar2" * identifier) ;) (if_statement "if (((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1)) {\n pvVar2 = delpos234_internal(t,index);\n return pvVar2;\n }" if (parenthesized_expression "(((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1))" ( (binary_expression "((-1 < index) && (t->root != (node234_conflict *)0x0)) &&\n (iVar1 = countnode234(t->root), index < iVar1)" (parenthesized_expression "((-1 < index) && (t->root != (node234_conflict *)0x0))" ( (binary_expression "(-1 < index) && (t->root != (node234_conflict *)0x0)" (parenthesized_expression "(-1 < index)" ( (binary_expression "-1 < index" number_literal < identifier) )) && (parenthesized_expression "(t->root != (node234_conflict *)0x0)" ( (binary_expression "t->root != (node234_conflict *)0x0" (field_expression "t->root" identifier -> field_identifier) != (cast_expression "(node234_conflict *)0x0" ( (type_descriptor "node234_conflict *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ))) )) && (parenthesized_expression "(iVar1 = countnode234(t->root), index < iVar1)" ( (comma_expression "iVar1 = countnode234(t->root), index < iVar1" (assignment_expression "iVar1 = countnode234(t->root)" identifier = (call_expression "countnode234(t->root)" identifier (argument_list "(t->root)" ( (field_expression "t->root" identifier -> field_identifier) )))) , (binary_expression "index < iVar1" identifier < identifier)) ))) )) (compound_statement "{\n pvVar2 = delpos234_internal(t,index);\n return pvVar2;\n }" { (expression_statement "pvVar2 = delpos234_internal(t,index);" (assignment_expression "pvVar2 = delpos234_internal(t,index)" identifier = (call_expression "delpos234_internal(t,index)" identifier (argument_list "(t,index)" ( identifier , identifier )))) ;) (return_statement "return pvVar2;" return identifier ;) })) (return_statement "return (void *)0x0;" return (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal) ;) })))
|
(translation_unit "undefined4 FUN_0003a3b8(int *param_1,int param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}\n\n" (function_definition "undefined4 FUN_0003a3b8(int *param_1,int param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" type_identifier (function_declarator "FUN_0003a3b8(int *param_1,int param_2)" identifier (parameter_list "(int *param_1,int param_2)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (if_statement "if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" if (parenthesized_expression "(((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1))" ( (binary_expression "((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" (parenthesized_expression "((-1 < param_2) && (*param_1 != 0))" ( (binary_expression "(-1 < param_2) && (*param_1 != 0)" (parenthesized_expression "(-1 < param_2)" ( (binary_expression "-1 < param_2" number_literal < identifier) )) && (parenthesized_expression "(*param_1 != 0)" ( (binary_expression "*param_1 != 0" (pointer_expression "*param_1" * identifier) != number_literal) ))) )) && (parenthesized_expression "(iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" ( (comma_expression "iVar1 = FUN_000391d4(*param_1), param_2 < iVar1" (assignment_expression "iVar1 = FUN_000391d4(*param_1)" identifier = (call_expression "FUN_000391d4(*param_1)" identifier (argument_list "(*param_1)" ( (pointer_expression "*param_1" * identifier) )))) , (binary_expression "param_2 < iVar1" identifier < identifier)) ))) )) (compound_statement "{\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_00039904(param_1,param_2);" (assignment_expression "uVar2 = FUN_00039904(param_1,param_2)" identifier = (call_expression "FUN_00039904(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier )))) ;) (return_statement "return uVar2;" return identifier ;) })) (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression LIT < IDENT) )) && (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) != LIT) ))) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * IDENT) )))) , (binary_expression IDENT < IDENT)) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (return_statement return IDENT ;) })) (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_0003a3b8(int *param_1,int param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" (type_identifier "undefined4") (function_declarator "FUN_0003a3b8(int *param_1,int param_2)" (identifier "FUN_0003a3b8") (parameter_list "(int *param_1,int param_2)" (( "(") (parameter_declaration "int *param_1" (primitive_type "int") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) () ")"))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }\n return 0;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (if_statement "if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" (if "if") (parenthesized_expression "(((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1))" (( "(") (binary_expression "((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" (parenthesized_expression "((-1 < param_2) && (*param_1 != 0))" (( "(") (binary_expression "(-1 < param_2) && (*param_1 != 0)" (parenthesized_expression "(-1 < param_2)" (( "(") (binary_expression "-1 < param_2" (number_literal "-1") (< "<") (identifier "param_2")) () ")")) (&& "&&") (parenthesized_expression "(*param_1 != 0)" (( "(") (binary_expression "*param_1 != 0" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (!= "!=") (number_literal "0")) () ")"))) () ")")) (&& "&&") (parenthesized_expression "(iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)" (( "(") (comma_expression "iVar1 = FUN_000391d4(*param_1), param_2 < iVar1" (assignment_expression "iVar1 = FUN_000391d4(*param_1)" (identifier "iVar1") (= "=") (call_expression "FUN_000391d4(*param_1)" (identifier "FUN_000391d4") (argument_list "(*param_1)" (( "(") (pointer_expression "*param_1" (* "*") (identifier "param_1")) () ")")))) (, ",") (binary_expression "param_2 < iVar1" (identifier "param_2") (< "<") (identifier "iVar1"))) () ")"))) () ")")) (compound_statement "{\n uVar2 = FUN_00039904(param_1,param_2);\n return uVar2;\n }" ({ "{") (expression_statement "uVar2 = FUN_00039904(param_1,param_2);" (assignment_expression "uVar2 = FUN_00039904(param_1,param_2)" (identifier "uVar2") (= "=") (call_expression "FUN_00039904(param_1,param_2)" (identifier "FUN_00039904") (argument_list "(param_1,param_2)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") () ")")))) (; ";")) (return_statement "return uVar2;" (return "return") (identifier "uVar2") (; ";")) (} "}"))) (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}")))
|
void * function_1(type_1 *t,int var_1)
{
int var_3;
void *pvVar2;
if (((-1 < var_1) && (t->root != (type_2 *)0x0)) &&
(var_3 = var_2(t->root), var_1 < var_3)) {
pvVar2 = var_4(t,var_1);
return pvVar2;
}
return (void *)0x0;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) right: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier))))) right: (binary_expression left: (identifier) right: (identifier)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) (return_statement (identifier)))) (return_statement (number_literal)))))
|
undefined4 MASKED(int *param_1,int param_2)
{
int iVar1;
undefined4 uVar2;
if (((-1 < param_2) && (*param_1 != 0)) && (iVar1 = FUN_000391d4(*param_1), param_2 < iVar1)) {
uVar2 = FUN_00039904(param_1,param_2);
return uVar2;
}
return 0;
}
| 39,099 |
||
1763_libcurl.so.4.5_and_libcurl.so.4.5_strip.c
|
psl_latest
|
psl_latest
|
/* WARNING: Control flow encountered bad instruction data */
void psl_latest(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void psl_latest(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206495506')]
|
[('const-1', u'RETURN_-1206495506')]
| null | null |
000956e4
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "psl_latest(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "psl_latest(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "psl_latest(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void psl_latest(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "psl_latest(void)" (identifier "psl_latest") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 63,704 |
||
184_chmod_and_chmod_strip.c
|
__divdf3
|
FUN_0001b074
|
ulonglong __divdf3(undefined4 param_1,uint param_2,uint param_3,uint param_4)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
int iVar7;
uint uVar8;
uint unaff_r5;
uint uVar9;
uint uVar10;
uint uVar11;
uint uVar12;
bool bVar13;
bool bVar14;
bool bVar15;
undefined8 uVar16;
uVar16 = CONCAT44(param_2,param_1);
uVar11 = 0x7ff;
uVar6 = param_2 >> 0x14 & 0x7ff;
bVar13 = uVar6 == 0;
if (!bVar13) {
unaff_r5 = param_4 >> 0x14 & 0x7ff;
bVar13 = unaff_r5 == 0;
}
if (!bVar13) {
bVar13 = uVar6 == 0x7ff;
}
if (!bVar13) {
bVar13 = unaff_r5 == 0x7ff;
}
if (bVar13) {
uVar16 = FUN_0001b208();
}
uVar8 = (uint)((ulonglong)uVar16 >> 0x20);
uVar2 = (uint)uVar16;
iVar7 = uVar6 - unaff_r5;
if (param_3 == 0 && (param_4 & 0xfffff) == 0) {
uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;
bVar14 = SCARRY4(iVar7,uVar11 >> 1);
uVar8 = iVar7 + (uVar11 >> 1);
bVar13 = (int)uVar8 < 0;
bVar15 = uVar8 == 0;
if (!bVar15 && bVar13 == bVar14) {
bVar14 = SBORROW4(uVar11,uVar8);
bVar13 = (int)(uVar11 - uVar8) < 0;
bVar15 = uVar11 == uVar8;
}
if (!bVar15 && bVar13 == bVar14) {
return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);
}
uVar6 = uVar6 | 0x100000;
uVar4 = 0;
bVar15 = SBORROW4(uVar8,1);
uVar8 = uVar8 - 1;
bVar13 = uVar8 == 0;
uVar11 = uVar8;
}
else {
uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;
uVar11 = param_3 << 8;
uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;
uVar2 = uVar2 * 0x100;
uVar6 = (uVar8 ^ param_4) & 0x80000000;
bVar13 = uVar4 <= uVar9;
if (uVar9 == uVar4) {
bVar13 = uVar11 <= uVar2;
}
iVar7 = iVar7 + (uint)bVar13;
uVar8 = iVar7 + 0x3fd;
if (!bVar13) {
uVar4 = uVar4 >> 1;
uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;
}
uVar10 = uVar2 - uVar11;
uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));
uVar5 = uVar4 >> 1;
uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;
uVar2 = 0x100000;
uVar11 = 0x80000;
while( true ) {
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar5 >> 1;
uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 1;
uVar9 = uVar9 - (uVar4 + !bVar13);
}
uVar12 = uVar5 >> 2;
uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar1 <= uVar10;
if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {
uVar10 = uVar10 - uVar1;
uVar2 = uVar2 | uVar11 >> 2;
uVar9 = uVar9 - (uVar12 + !bVar13);
}
uVar5 = uVar5 >> 3;
uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 3;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar9 | uVar10;
if (uVar4 == 0) break;
uVar9 = uVar9 << 4 | uVar10 >> 0x1c;
uVar10 = uVar10 << 4;
uVar5 = uVar5 << 3 | uVar3 >> 0x1d;
uVar3 = (uVar1 >> 1) << 3;
uVar11 = uVar11 >> 4;
if (uVar11 == 0) {
if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;
uVar6 = uVar6 | uVar2;
uVar2 = 0;
uVar11 = 0x80000000;
}
}
if ((uVar6 & 0x100000) == 0) {
uVar6 = uVar6 | uVar2;
uVar2 = 0;
}
LAB_0001b1b4:
bVar14 = 0xfc < uVar8;
bVar15 = SBORROW4(uVar8,0xfd);
uVar12 = iVar7 + 0x300;
bVar13 = uVar12 == 0;
uVar11 = uVar12;
if (bVar14 && !bVar13) {
bVar14 = 0x6ff < uVar12;
bVar15 = SBORROW4(uVar12,0x700);
uVar11 = iVar7 - 0x400;
bVar13 = uVar12 == 0x700;
}
if (!bVar14 || bVar13) {
bVar13 = uVar5 <= uVar9;
if (uVar9 == uVar5) {
bVar13 = uVar3 <= uVar10;
}
if (uVar9 == uVar5 && uVar10 == uVar3) {
bVar13 = (bool)((byte)uVar2 & 1);
}
return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);
}
}
if (!bVar13 && (int)uVar11 < 0 == bVar15) {
return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;
}
if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {
return (ulonglong)(uVar6 & 0x80000000) << 0x20;
}
uVar11 = -uVar8;
uVar9 = uVar11 - 0x20;
if (0x1f < (int)uVar11) {
uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);
uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -
((int)uVar8 >> 0x1f);
if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {
uVar11 = uVar11 & ~(uVar8 >> 0x1f);
}
return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;
}
iVar7 = uVar11 - 0x14;
if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {
uVar8 = 0xc - iVar7;
uVar11 = uVar2 << (uVar8 & 0xff);
uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);
uVar8 = uVar2 + -((int)uVar11 >> 0x1f);
if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar11 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);
}
uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);
uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);
uVar8 = uVar2 + -((int)uVar9 >> 0x1f);
if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar9 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +
(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);
}
|
ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
int iVar7;
uint uVar8;
uint unaff_r5;
uint uVar9;
uint uVar10;
uint uVar11;
uint uVar12;
bool bVar13;
bool bVar14;
bool bVar15;
undefined8 uVar16;
uVar16 = CONCAT44(param_2,param_1);
uVar11 = 0x7ff;
uVar6 = param_2 >> 0x14 & 0x7ff;
bVar13 = uVar6 == 0;
if (!bVar13) {
unaff_r5 = param_4 >> 0x14 & 0x7ff;
bVar13 = unaff_r5 == 0;
}
if (!bVar13) {
bVar13 = uVar6 == 0x7ff;
}
if (!bVar13) {
bVar13 = unaff_r5 == 0x7ff;
}
if (bVar13) {
uVar16 = FUN_0001b208();
}
uVar8 = (uint)((ulonglong)uVar16 >> 0x20);
uVar2 = (uint)uVar16;
iVar7 = uVar6 - unaff_r5;
if (param_3 == 0 && (param_4 & 0xfffff) == 0) {
uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;
bVar14 = SCARRY4(iVar7,uVar11 >> 1);
uVar8 = iVar7 + (uVar11 >> 1);
bVar13 = (int)uVar8 < 0;
bVar15 = uVar8 == 0;
if (!bVar15 && bVar13 == bVar14) {
bVar14 = SBORROW4(uVar11,uVar8);
bVar13 = (int)(uVar11 - uVar8) < 0;
bVar15 = uVar11 == uVar8;
}
if (!bVar15 && bVar13 == bVar14) {
return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);
}
uVar6 = uVar6 | 0x100000;
uVar4 = 0;
bVar15 = SBORROW4(uVar8,1);
uVar8 = uVar8 - 1;
bVar13 = uVar8 == 0;
uVar11 = uVar8;
}
else {
uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;
uVar11 = param_3 << 8;
uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;
uVar2 = uVar2 * 0x100;
uVar6 = (uVar8 ^ param_4) & 0x80000000;
bVar13 = uVar4 <= uVar9;
if (uVar9 == uVar4) {
bVar13 = uVar11 <= uVar2;
}
iVar7 = iVar7 + (uint)bVar13;
uVar8 = iVar7 + 0x3fd;
if (!bVar13) {
uVar4 = uVar4 >> 1;
uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;
}
uVar10 = uVar2 - uVar11;
uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));
uVar5 = uVar4 >> 1;
uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;
uVar2 = 0x100000;
uVar11 = 0x80000;
while( true ) {
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar5 >> 1;
uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 1;
uVar9 = uVar9 - (uVar4 + !bVar13);
}
uVar12 = uVar5 >> 2;
uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar1 <= uVar10;
if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {
uVar10 = uVar10 - uVar1;
uVar2 = uVar2 | uVar11 >> 2;
uVar9 = uVar9 - (uVar12 + !bVar13);
}
uVar5 = uVar5 >> 3;
uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 3;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar9 | uVar10;
if (uVar4 == 0) break;
uVar9 = uVar9 << 4 | uVar10 >> 0x1c;
uVar10 = uVar10 << 4;
uVar5 = uVar5 << 3 | uVar3 >> 0x1d;
uVar3 = (uVar1 >> 1) << 3;
uVar11 = uVar11 >> 4;
if (uVar11 == 0) {
if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;
uVar6 = uVar6 | uVar2;
uVar2 = 0;
uVar11 = 0x80000000;
}
}
if ((uVar6 & 0x100000) == 0) {
uVar6 = uVar6 | uVar2;
uVar2 = 0;
}
LAB_0001b1b4:
bVar14 = 0xfc < uVar8;
bVar15 = SBORROW4(uVar8,0xfd);
uVar12 = iVar7 + 0x300;
bVar13 = uVar12 == 0;
uVar11 = uVar12;
if (bVar14 && !bVar13) {
bVar14 = 0x6ff < uVar12;
bVar15 = SBORROW4(uVar12,0x700);
uVar11 = iVar7 - 0x400;
bVar13 = uVar12 == 0x700;
}
if (!bVar14 || bVar13) {
bVar13 = uVar5 <= uVar9;
if (uVar9 == uVar5) {
bVar13 = uVar3 <= uVar10;
}
if (uVar9 == uVar5 && uVar10 == uVar3) {
bVar13 = (bool)((byte)uVar2 & 1);
}
return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);
}
}
if (!bVar13 && (int)uVar11 < 0 == bVar15) {
return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;
}
if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {
return (ulonglong)(uVar6 & 0x80000000) << 0x20;
}
uVar11 = -uVar8;
uVar9 = uVar11 - 0x20;
if (0x1f < (int)uVar11) {
uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);
uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -
((int)uVar8 >> 0x1f);
if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {
uVar11 = uVar11 & ~(uVar8 >> 0x1f);
}
return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;
}
iVar7 = uVar11 - 0x14;
if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {
uVar8 = 0xc - iVar7;
uVar11 = uVar2 << (uVar8 & 0xff);
uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);
uVar8 = uVar2 + -((int)uVar11 >> 0x1f);
if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar11 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);
}
uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);
uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);
uVar8 = uVar2 + -((int)uVar9 >> 0x1f);
if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar9 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +
(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);
}
|
stmdb sp!,{r4,r5,r6,lr}
mov r12,#0xff
orr r12,r12,#0x700
ands r4,r12,r1, lsr #0x14
andnes r5,r12,r3, lsr #0x14
teqne r4,r12
teqne r5,r12
bleq 0x0001b208
sub r4,r4,r5
eor lr,r1,r3
orrs r5,r2,r3, lsl #0xc
mov r1,r1, lsl #0xc
beq 0x0001b1d8
mov r3,r3, lsl #0xc
mov r5,#0x10000000
orr r3,r5,r3, lsr #0x4
orr r3,r3,r2, lsr #0x18
mov r2,r2, lsl #0x8
orr r5,r5,r1, lsr #0x4
orr r5,r5,r0, lsr #0x18
mov r6,r0, lsl #0x8
and r1,lr,#0x80000000
cmp r5,r3
cmpeq r6,r2
adc r4,r4,#0xfd
add r4,r4,#0x300
bcs 0x0001b0e8
movs r3,r3, lsr #0x1
mov r2,r2, rrx
subs r6,r6,r2
sbc r5,r5,r3
movs r3,r3, lsr #0x1
mov r2,r2, rrx
mov r0,#0x100000
mov r12,#0x80000
subs lr,r6,r2
sbcs lr,r5,r3
subcs r6,r6,r2
cpycs r5,lr
orrcs r0,r0,r12
movs r3,r3, lsr #0x1
mov r2,r2, rrx
subs lr,r6,r2
sbcs lr,r5,r3
subcs r6,r6,r2
cpycs r5,lr
orrcs r0,r0,r12, lsr #0x1
movs r3,r3, lsr #0x1
mov r2,r2, rrx
subs lr,r6,r2
sbcs lr,r5,r3
subcs r6,r6,r2
cpycs r5,lr
orrcs r0,r0,r12, lsr #0x2
movs r3,r3, lsr #0x1
mov r2,r2, rrx
subs lr,r6,r2
sbcs lr,r5,r3
subcs r6,r6,r2
cpycs r5,lr
orrcs r0,r0,r12, lsr #0x3
orrs lr,r5,r6
beq 0x0001b1a8
mov r5,r5, lsl #0x4
orr r5,r5,r6, lsr #0x1c
mov r6,r6, lsl #0x4
mov r3,r3, lsl #0x3
orr r3,r3,r2, lsr #0x1d
mov r2,r2, lsl #0x3
movs r12,r12, lsr #0x4
bne 0x0001b100
tst r1,#0x100000
bne 0x0001b1b4
orr r1,r1,r0
mov r0,#0x0
mov r12,#0x80000000
b 0x0001b100
tst r1,#0x100000
orreq r1,r1,r0
moveq r0,#0x0
subs r12,r4,#0xfd
cmphi r12,#0x700
bhi 0x0001aeec
subs r12,r5,r3
subeqs r12,r6,r2
moveqs r12,r0, lsr #0x1
adcs r0,r0,#0x0
adc r1,r1,r4, lsl #0x14
ldmia sp!,{r4,r5,r6,pc}
and lr,lr,#0x80000000
orr r1,lr,r1, lsr #0xc
adds r4,r4,r12, lsr #0x1
rsbgts r5,r4,r12
orrgt r1,r1,r4, lsl #0x14
ldmiagt sp!,{r4,r5,r6,pc}
orr r1,r1,#0x100000
mov lr,#0x0
subs r4,r4,#0x1
b 0x0001aeec
| null | null | null | null |
[(u'INT_SUB_-1205946118', u'MULTIEQUAL_-1205946646'), ('tmp_746', u'CBRANCH_-1205947911'), (u'MULTIEQUAL_-1205945938', u'INT_EQUAL_-1205947108'), (u'INT_SUB_-1205947397', u'MULTIEQUAL_-1205945633'), (u'INT_RIGHT_-1205947367', u'INT_NEGATE_-1205947371'), (u'INT_RIGHT_-1205947460', u'INT_LEFT_-1205947293'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947474'), ('const-1', u'INT_AND_-1205947814'), (u'INT_LESSEQUAL_-1205947953', u'MULTIEQUAL_-1205946091'), (u'INT_SUB_-1205947322', u'INT_AND_-1205947288'), (u'INT_RIGHT_-1205947011', u'INT_NEGATE_-1205947015'), (u'INT_EQUAL_-1205946171', u'BOOL_AND_-1205946097'), (u'INT_SUB_-1205946118', u'COPY_-1205945468'), (u'INT_LEFT_-1205947793', u'INT_OR_-1205947792'), (u'MULTIEQUAL_-1205946544', u'PIECE_-1205946274'), ('const-0', u'INT_EQUAL_-1205946239'), (u'MULTIEQUAL_-1205946133', u'MULTIEQUAL_-1205945951'), (u'CAST_-1205946104', u'INT_SRIGHT_-1205946352'), ('const-0', u'RETURN_-1205947000'), (u'INT_AND_-1205947449', u'INT_RIGHT_-1205947409'), (u'MULTIEQUAL_-1205946199', u'INT_EQUAL_-1205946220'), (u'COPY_-1205945702', u'MULTIEQUAL_-1205945725'), ('const-1', u'INT_RIGHT_-1205946225'), (u'INT_OR_-1205947358', u'INT_EQUAL_-1205947371'), (u'MULTIEQUAL_-1205945695', u'INT_LESSEQUAL_-1205947551'), (u'MULTIEQUAL_-1205946174', u'MULTIEQUAL_-1205946171'), (u'INT_RIGHT_-1205947442', u'INT_OR_-1205947443'), (u'INT_OR_-1205947321', u'MULTIEQUAL_-1205946113'), (u'INT_RIGHT_-1205947567', u'INT_LESS_-1205947537'), (u'INT_LEFT_-1205947293', u'INT_OR_-1205947279'), (u'INT_XOR_-1205948136', u'INT_AND_-1205947968'), ('tmp_6221', u'INT_RIGHT_-1205948199'), (u'MULTIEQUAL_-1205946145', u'INT_OR_-1205947689'), (u'BOOL_NEGATE_-1205947613', u'INT_ZEXT_-1205947632'), (u'MULTIEQUAL_-1205946104', u'MULTIEQUAL_-1205945726'), (u'INT_EQUAL_-1205946362', u'BOOL_AND_-1205946192'), ('const-29', u'INT_RIGHT_-1205947278'), ('const-1', u'INT_RIGHT_-1205947791'), ('const-3', u'INT_RIGHT_-1205947460'), (u'COPY_-1205947786', u'MULTIEQUAL_-1205946094'), (u'INT_OR_-1205948053', u'INT_OR_-1205948039'), (u'COPY_-1205945681', u'MULTIEQUAL_-1205945694'), (u'INT_RIGHT_-1205947567', u'INT_ADD_-1205947522'), (u'INT_MULT_-1205947980', u'INT_SUB_-1205947855'), (u'INT_SUB_-1205947134', u'INT_AND_-1205947120'), (u'MULTIEQUAL_-1205946113', u'INT_LESS_-1205947747'), (u'INT_ADD_-1205947205', u'PIECE_-1205946274'), (u'SUBPIECE_-1205946232', u'INT_LEFT_-1205948102'), (u'INT_ADD_-1205946233', u'INT_EQUAL_-1205946239'), (u'INT_SRIGHT_-1205946352', u'INT_2COMP_-1205947439'), (u'INT_OR_-1205946711', u'INT_ZEXT_-1205946045'), (u'INT_MULT_-1205947980', u'INT_LESSEQUAL_-1205947953'), (u'MULTIEQUAL_-1205946646', u'INT_EQUAL_-1205947723'), (u'MULTIEQUAL_-1205945663', u'INT_SUB_-1205947413'), ('const-1048576', u'COPY_-1205947802'), ('const-0', u'INT_EQUAL_-1205947371'), (u'INT_RIGHT_-1205948010', u'INT_OR_-1205948011'), (u'INT_ADD_-1205947904', u'INT_MULT_-1205947010'), (u'INT_ADD_-1205947832', u'INT_SUB_-1205947830'), ('const-1048575', u'INT_AND_-1205946242'), ('const-1', u'INT_RIGHT_-1205947549'), (u'INT_ADD_-1205947920', u'INT_ADD_-1205947147'), (u'CAST_-1205945418', u'INT_SLESS_-1205946219'), ('const-0', u'RETURN_-1205947657'), (u'INT_SUB_-1205947122', u'MULTIEQUAL_-1205945563'), (u'INT_AND_-1205948222', u'INT_EQUAL_-1205948196'), ('const-255', u'INT_AND_-1205947422'), (u'INT_LESSEQUAL_-1205947658', u'INT_ZEXT_-1205947641'), ('tmp_4383', u'CBRANCH_-1205946349'), ('const-1', u'INT_RIGHT_-1205947674'), ('tmp_1481', u'CBRANCH_-1205947523'), (u'BOOL_OR_-1205945621', u'CBRANCH_-1205947416'), (u'INT_EQUAL_-1205948213', u'MULTIEQUAL_-1205946177'), ('const-0', u'INT_SLESS_-1205946238'), (u'INT_ADD_-1205947147', u'INT_SBORROW_-1205947120'), (u'INT_RIGHT_-1205947275', u'INT_OR_-1205947256'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947256'), (u'MULTIEQUAL_-1205945695', u'MULTIEQUAL_-1205945664'), (u'MULTIEQUAL_-1205946598', u'BOOL_NEGATE_-1205947716'), ('const-2047', u'INT_AND_-1205948222'), ('const-0', u'INT_EQUAL_-1205948234'), (u'MULTIEQUAL_-1205946113', u'INT_SUB_-1205947730'), (u'CAST_-1205945423', u'INT_SLESS_-1205946238'), (u'INT_RIGHT_-1205945803', u'SUBPIECE_-1205946232'), (u'INT_EQUAL_-1205947266', u'CBRANCH_-1205947260'), (u'INT_EQUAL_-1205947588', u'BOOL_AND_-1205946189'), ('const-2047', u'INT_AND_-1205948201'), (u'CAST_-1205945756', u'INT_RIGHT_-1205945803'), (u'INT_SUB_-1205947533', u'INT_LESS_-1205947535'), (u'MULTIEQUAL_-1205946125', u'INT_RIGHT_-1205947656'), (u'INT_OR_-1205947475', u'MULTIEQUAL_-1205946066'), (u'INT_EQUAL_-1205946314', u'BOOL_AND_-1205946145'), ('const-12', u'INT_SUB_-1205947338'), (u'INDIRECT_-1205946237', u'MULTIEQUAL_-1205946229'), (u'INT_ADD_-1205947038', u'PIECE_-1205945661'), (u'INT_SUB_-1205946213', u'CAST_-1205945418'), (u'INT_EQUAL_-1205946239', u'MULTIEQUAL_-1205945830'), (u'INT_OR_-1205947068', u'CAST_-1205946013'), (u'INT_ADD_-1205947147', u'COPY_-1205945538'), ('const-1', u'INT_RIGHT_-1205947581'), (u'INT_SUB_-1205947003', u'INT_AND_-1205946963'), (u'INT_RIGHT_-1205947250', u'INT_EQUAL_-1205947266'), ('const-4', u'INT_RIGHT_-1205947250'), ('const-24', u'INT_RIGHT_-1205947996'), (u'INT_RIGHT_-1205947320', u'INT_OR_-1205947321'), (u'INT_EQUAL_-1205946229', u'BOOL_AND_-1205945471'), (u'INT_OR_-1205947443', u'INT_RIGHT_-1205947278'), (u'INT_OR_-1205947860', u'MULTIEQUAL_-1205946146'), (u'INT_AND_-1205947513', u'INT_RIGHT_-1205947500'), ('const-0', u'COPY_-1205946333'), ('const-1048576', u'INT_MULT_-1205946181'), ('const-54', u'INT_ADD_-1205947717'), (u'INT_AND_-1205947814', u'INT_ZEXT_-1205947806'), ('const-0', u'RETURN_-1205946957'), (u'COPY_-1205945468', u'MULTIEQUAL_-1205946280'), ('const-1024', u'INT_SUB_-1205947122'), (u'CALL_-1205948171', u'MULTIEQUAL_-1205945774'), (u'MULTIEQUAL_-1205945851', u'MULTIEQUAL_-1205946570'), ('const-32', u'INT_SUB_-1205947134'), ('const-0', u'INT_NOTEQUAL_-1205947237'), (u'INT_ZEXT_-1205947874', u'INT_LEFT_-1205947861'), (u'CALL_-1205948171', u'INDIRECT_-1205946237'), (u'INT_RIGHT_-1205947460', u'INT_SUB_-1205947426'), (u'INT_OR_-1205947321', u'MULTIEQUAL_-1205945932'), (u'INT_ADD_-1205946233', u'INT_EQUAL_-1205946220'), (u'BOOL_NEGATE_-1205945850', u'CBRANCH_-1205948208'), ('const-2147483648', u'COPY_-1205947200'), (u'MULTIEQUAL_-1205946118', u'INT_OR_-1205947582'), (u'INT_OR_-1205946324', u'MULTIEQUAL_-1205945951'), (u'BOOL_NEGATE_-1205945762', u'CBRANCH_-1205947911'), (u'MULTIEQUAL_-1205946118', u'MULTIEQUAL_-1205946093'), (u'MULTIEQUAL_-1205945851', u'INT_ZEXT_-1205947050'), ('tmp_1280', u'CBRANCH_-1205947630'), (u'MULTIEQUAL_-1205946223', u'INT_AND_-1205945914'), (u'INT_OR_-1205947550', u'INT_SUB_-1205947504'), (u'MULTIEQUAL_-1205946646', u'INT_ADD_-1205947548'), (u'BOOL_AND_-1205945464', u'CBRANCH_-1205946213'), (u'INT_ADD_-1205947441', u'MULTIEQUAL_-1205946587'), (u'INT_NOTEQUAL_-1205947597', u'BOOL_AND_-1205946189'), ('const--9223372032559808513', u'INT_AND_-1205946264'), ('tmp_4547', u'CBRANCH_-1205946232'), (u'COPY_-1205947216', u'MULTIEQUAL_-1205946145'), (u'INT_AND_-1205946279', u'INT_EQUAL_-1205946362'), (u'INT_SRIGHT_-1205946251', u'INT_SUB_-1205947003'), (u'INT_ZEXT_-1205947744', u'INT_LESS_-1205947745'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947275'), (u'INT_SBORROW_-1205946116', u'MULTIEQUAL_-1205946570'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947674'), ('const-4', u'INT_RIGHT_-1205948052'), (u'INT_ADD_-1205947548', u'INT_AND_-1205947533'), (u'INT_MULT_-1205946181', u'INT_OR_-1205946184'), ('const-3', u'INT_LEFT_-1205947293'), (u'SUBPIECE_-1205946232', u'INT_AND_-1205946242'), (u'INT_OR_-1205947997', u'INT_EQUAL_-1205947970'), (u'INT_RIGHT_-1205947460', u'INT_ADD_-1205947415'), (u'INT_AND_-1205945914', u'INT_EQUAL_-1205945987'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947087'), (u'INT_AND_-1205947268', u'INT_LEFT_-1205947256'), (u'INT_AND_-1205947422', u'INT_RIGHT_-1205947409'), (u'MULTIEQUAL_-1205946119', u'INT_SUB_-1205947743'), (u'INT_NOTEQUAL_-1205947713', u'BOOL_OR_-1205946270'), (u'MULTIEQUAL_-1205946177', u'MULTIEQUAL_-1205946174'), (u'MULTIEQUAL_-1205946177', u'BOOL_NEGATE_-1205945850'), (u'MULTIEQUAL_-1205945932', u'INT_LESSEQUAL_-1205947107'), (u'INT_RIGHT_-1205947791', u'INT_OR_-1205947792'), (u'MULTIEQUAL_-1205946133', u'INT_OR_-1205947205'), (u'INT_AND_-1205947968', u'MULTIEQUAL_-1205946133'), (u'INT_ZEXT_-1205947418', u'INT_ADD_-1205947415'), ('const-28', u'INT_RIGHT_-1205947320'), (u'INT_ADD_-1205947441', u'INT_AND_-1205947368'), (u'INT_SUB_-1205947617', u'INT_SUB_-1205947134'), (u'INT_AND_-1205948201', u'MULTIEQUAL_-1205946225'), ('const-0', u'INT_EQUAL_-1205946125'), ('const-2047', u'INT_EQUAL_-1205948196'), (u'MULTIEQUAL_-1205946104', u'INT_SUB_-1205947714'), ('const-1048576', u'INT_AND_-1205947226'), (u'MULTIEQUAL_-1205945632', u'MULTIEQUAL_-1205945932'), (u'INT_SLESS_-1205946238', u'MULTIEQUAL_-1205945844'), ('tmp_2197', u'CBRANCH_-1205947124'), ('const-268435456', u'INT_OR_-1205948053'), ('const-0', u'INT_EQUAL_-1205946171'), (u'INT_2COMP_-1205947439', u'INT_ADD_-1205947441'), (u'INT_2COMP_-1205947439', u'INT_CARRY_-1205947441'), (u'MULTIEQUAL_-1205945726', u'INT_LESSEQUAL_-1205947658'), (u'INT_SBORROW_-1205946211', u'MULTIEQUAL_-1205945802'), (u'INT_NEGATE_-1205946966', u'INT_AND_-1205946963'), (u'INT_EQUAL_-1205945988', u'BOOL_AND_-1205948105'), ('const-1048576', u'INT_OR_-1205946144'), (u'MULTIEQUAL_-1205946229', u'INT_EQUAL_-1205945988'), (u'INT_LEFT_-1205947658', u'INT_OR_-1205947657'), ('const-0', u'INT_SLESS_-1205947152'), (u'INT_NEGATE_-1205947371', u'INT_AND_-1205947368'), (u'INT_EQUAL_-1205947371', u'CBRANCH_-1205947368'), (u'MULTIEQUAL_-1205945951', u'MULTIEQUAL_-1205946662'), (u'INT_RIGHT_-1205947500', u'INT_OR_-1205947481'), (u'INT_ZEXT_-1205947641', u'INT_LESS_-1205947642'), (u'INT_RIGHT_-1205947549', u'INT_OR_-1205947550'), (u'INT_AND_-1205946232', u'INT_EQUAL_-1205946313'), ('tmp_137', u'CBRANCH_-1205948229'), (u'INT_RIGHT_-1205947877', u'MULTIEQUAL_-1205946140'), (u'INT_SUB_-1205947830', u'MULTIEQUAL_-1205946113'), ('const-31', u'INT_SRIGHT_-1205946352'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946314'), ('const-1', u'INT_AND_-1205947063'), (u'INT_EQUAL_-1205947741', u'BOOL_AND_-1205947712'), (u'MULTIEQUAL_-1205945663', u'INT_LESS_-1205947430'), (u'INT_ADD_-1205947717', u'CAST_-1205946171'), (u'MULTIEQUAL_-1205945879', u'BOOL_OR_-1205945517'), ('const-0', u'SUBPIECE_-1205945733'), (u'MULTIEQUAL_-1205945694', u'INT_SUB_-1205947520'), (u'MULTIEQUAL_-1205945664', u'MULTIEQUAL_-1205945633'), (u'INT_AND_-1205947308', u'INT_LEFT_-1205947296'), (u'INT_ZEXT_-1205947806', u'INT_LEFT_-1205947793'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946172'), (u'BOOL_OR_-1205945517', u'CBRANCH_-1205947124'), (u'COPY_-1205945711', u'MULTIEQUAL_-1205945725'), (u'MULTIEQUAL_-1205945633', u'INT_LEFT_-1205947307'), (u'INT_RIGHT_-1205947409', u'INT_ADD_-1205947411'), (u'MULTIEQUAL_-1205946039', u'INT_OR_-1205947205'), (u'SUBPIECE_-1205945843', u'INT_AND_-1205947814'), (u'MULTIEQUAL_-1205945633', u'INT_RIGHT_-1205947320'), (u'COPY_-1205948262', u'MULTIEQUAL_-1205946199'), (u'INT_RIGHT_-1205947442', u'INT_LEFT_-1205947265'), (u'INT_MULT_-1205947010', u'INT_ADD_-1205947014'), (u'INT_OR_-1205947279', u'MULTIEQUAL_-1205945938'), (u'BOOL_NEGATE_-1205947506', u'INT_ZEXT_-1205947525'), (u'INT_ADD_-1205947147', u'INT_LESS_-1205947129'), (u'INT_ADD_-1205947147', u'INT_EQUAL_-1205947129'), (u'MULTIEQUAL_-1205945966', u'SUBPIECE_-1205945597'), (u'INT_OR_-1205947358', u'MULTIEQUAL_-1205946621'), (u'INT_LEFT_-1205948025', u'INT_LESSEQUAL_-1205947953'), (u'MULTIEQUAL_-1205946199', u'INT_SBORROW_-1205946211'), ('const-3', u'INT_RIGHT_-1205947367'), (u'MULTIEQUAL_-1205945938', u'INT_LESSEQUAL_-1205947107'), (u'INT_OR_-1205948011', u'INT_OR_-1205947997'), ('tmp_2778', u'CBRANCH_-1205947592'), ('const-20', u'INT_RIGHT_-1205948199'), (u'INT_CARRY_-1205947043', u'INT_ZEXT_-1205947015'), (u'MULTIEQUAL_-1205945966', u'INT_CARRY_-1205947043'), (u'MULTIEQUAL_-1205946570', u'INT_EQUAL_-1205947741'), ('const-255', u'INT_AND_-1205947308'), (u'INT_LEFT_-1205946057', u'RETURN_-1205946690'), (u'INT_SLESS_-1205947613', u'CBRANCH_-1205947620'), ('tmp_4777', u'BRANCH_-1205946123'), (u'INT_RIGHT_-1205947250', u'MULTIEQUAL_-1205946094'), (u'MULTIEQUAL_-1205946133', u'MULTIEQUAL_-1205946133'), (u'INT_SBORROW_-1205947144', u'MULTIEQUAL_-1205945851'), (u'MULTIEQUAL_-1205946113', u'INT_SUB_-1205947743'), ('tmp_2512', u'CBRANCH_-1205947717'), (u'INT_SRIGHT_-1205946303', u'INT_2COMP_-1205947231'), (u'MULTIEQUAL_-1205946091', u'INT_ZEXT_-1205947923'), (u'MULTIEQUAL_-1205946199', u'INT_SUB_-1205946213'), (u'MULTIEQUAL_-1205945663', u'COPY_-1205945621'), (u'INT_RIGHT_-1205947567', u'SUBPIECE_-1205945733'), (u'MULTIEQUAL_-1205945774', u'SUBPIECE_-1205946240'), (u'SUBPIECE_-1205945801', u'INT_AND_-1205947679'), (u'INT_RIGHT_-1205947474', u'INT_OR_-1205947475'), (u'INT_EQUAL_-1205946239', u'BOOL_NEGATE_-1205945472'), (u'INT_RIGHT_-1205948199', u'INT_AND_-1205948201'), (u'BOOL_NEGATE_-1205945845', u'CBRANCH_-1205948191'), (u'INT_2COMP_-1205947231', u'INT_CARRY_-1205947233'), (u'INT_2COMP_-1205947231', u'INT_ADD_-1205947233'), ('const-4', u'INT_RIGHT_-1205948010'), (u'INT_SUB_-1205947591', u'INT_SLESS_-1205947597'), (u'INT_SUB_-1205947591', u'INT_NOTEQUAL_-1205947597'), (u'MULTIEQUAL_-1205946171', u'CBRANCH_-1205948175'), ('const-32', u'INT_SUB_-1205947322'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947367'), (u'INT_2COMP_-1205946410', u'INT_AND_-1205947513'), ('tmp_2011', u'CBRANCH_-1205947234'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947521'), (u'COPY_-1205946155', u'MULTIEQUAL_-1205946621'), (u'INT_SUB_-1205947426', u'INT_LESS_-1205947428'), (u'INT_LESSEQUAL_-1205947444', u'INT_ZEXT_-1205947427'), ('const-31', u'INT_RIGHT_-1205947163'), (u'INT_LEFT_-1205947068', u'INT_OR_-1205947068'), (u'INT_OR_-1205947256', u'INT_ADD_-1205947233'), (u'INT_OR_-1205947256', u'INT_CARRY_-1205947233'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947567'), ('const-2147483648', u'INT_AND_-1205947033'), (u'INT_LEFT_-1205947444', u'INT_OR_-1205947443'), ('const-20', u'INT_SUB_-1205947591'), (u'SUBPIECE_-1205945864', u'INT_AND_-1205947882'), (u'SUBPIECE_-1205945767', u'INT_AND_-1205947572'), (u'SUBPIECE_-1205946240', u'INT_MULT_-1205947980'), (u'INT_OR_-1205947068', u'INT_AND_-1205946185'), (u'MULTIEQUAL_-1205945632', u'INT_OR_-1205947358'), (u'MULTIEQUAL_-1205945944', u'INT_EQUAL_-1205945609'), ('const-1', u'INT_RIGHT_-1205947656'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947481'), ('const-0', u'SUBPIECE_-1205945864'), (u'COPY_-1205945533', u'MULTIEQUAL_-1205946280'), (u'INT_ADD_-1205946233', u'INT_MULT_-1205946181'), (u'INT_RIGHT_-1205947367', u'INT_OR_-1205947368'), (u'INT_LESS_-1205947535', u'BOOL_OR_-1205945652'), (u'INT_AND_-1205947493', u'INT_LEFT_-1205947481'), (u'INT_OR_-1205947657', u'INT_SUB_-1205947611'), ('const-2', u'INT_RIGHT_-1205947567'), ('const-0', u'INT_EQUAL_-1205947153'), (u'INT_AND_-1205948201', u'INT_EQUAL_-1205948213'), (u'BOOL_AND_-1205946189', u'CBRANCH_-1205947592'), ('const-255', u'INT_AND_-1205947513'), (u'INT_LEFT_-1205947296', u'INT_RIGHT_-1205947163'), (u'MULTIEQUAL_-1205945830', u'BOOL_NEGATE_-1205945465'), (u'INT_LESSEQUAL_-1205947761', u'BOOL_NEGATE_-1205947716'), (u'INT_AND_-1205947060', u'INT_RIGHT_-1205947047'), (u'INT_OR_-1205948039', u'INT_EQUAL_-1205947970'), (u'MULTIEQUAL_-1205945633', u'MULTIEQUAL_-1205945923'), ('const-0', u'COPY_-1205946155'), (u'MULTIEQUAL_-1205945633', u'INT_OR_-1205947358'), (u'MULTIEQUAL_-1205945725', u'INT_SUB_-1205947640'), (u'INT_ZEXT_-1205947564', u'INT_LEFT_-1205947551'), (u'MULTIEQUAL_-1205945951', u'INT_ADD_-1205947014'), (u'MULTIEQUAL_-1205945694', u'INT_SUB_-1205947533'), (u'CAST_-1205946171', u'INT_SLESS_-1205947722'), ('const-0', u'SUBPIECE_-1205946240'), (u'INT_RIGHT_-1205948220', u'INT_AND_-1205948222'), ('const-0', u'INT_SLESS_-1205947597'), (u'INT_LEFT_-1205947256', u'INT_OR_-1205947256'), (u'MULTIEQUAL_-1205946146', u'INT_LESS_-1205947862'), (u'INT_LEFT_-1205947551', u'INT_OR_-1205947550'), ('const-1048575', u'INT_AND_-1205945914'), ('const-32', u'INT_LEFT_-1205946421'), (u'INT_LESSEQUAL_-1205947969', u'MULTIEQUAL_-1205946091'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947449'), (u'BOOL_NEGATE_-1205947716', u'BOOL_AND_-1205947712'), (u'COPY_-1205945612', u'MULTIEQUAL_-1205945632'), (u'INT_RIGHT_-1205947809', u'MULTIEQUAL_-1205946119'), (u'BOOL_AND_-1205946098', u'CBRANCH_-1205946992'), (u'INT_SLESS_-1205946219', u'MULTIEQUAL_-1205945844'), ('const-1', u'INT_SBORROW_-1205946116'), ('tmp_179', u'CBRANCH_-1205948208'), (u'CAST_-1205945464', u'INT_SLESS_-1205947152'), (u'INT_LESS_-1205947430', u'BOOL_OR_-1205945621'), (u'INT_SUB_-1205947627', u'COPY_-1205945672'), ('const-24', u'INT_RIGHT_-1205948038'), (u'INT_LEFT_-1205948083', u'INT_RIGHT_-1205948052'), (u'BOOL_OR_-1205945652', u'CBRANCH_-1205947523'), ('tmp_3652', u'CBRANCH_-1205947193'), (u'INT_SLESS_-1205946238', u'INT_EQUAL_-1205946229'), (u'INT_RIGHT_-1205947859', u'INT_OR_-1205947860'), (u'INT_ADD_-1205947904', u'MULTIEQUAL_-1205946646'), (u'INT_ADD_-1205946233', u'INT_SBORROW_-1205946116'), ('const-4', u'INT_LEFT_-1205947307'), (u'INT_AND_-1205946963', u'MULTIEQUAL_-1205946497'), (u'MULTIEQUAL_-1205945726', u'MULTIEQUAL_-1205945695'), (u'INT_EQUAL_-1205948196', u'MULTIEQUAL_-1205946174'), ('const-20', u'INT_RIGHT_-1205948220'), (u'INT_AND_-1205947465', u'INT_ZEXT_-1205947457'), (u'MULTIEQUAL_-1205945725', u'COPY_-1205945681'), (u'INT_SUB_-1205947617', u'INT_SCARRY_-1205947590'), (u'INT_LESS_-1205947129', u'MULTIEQUAL_-1205945865'), (u'MULTIEQUAL_-1205946093', u'MULTIEQUAL_-1205946066'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947024'), (u'MULTIEQUAL_-1205946646', u'INT_SCARRY_-1205947715'), (u'MULTIEQUAL_-1205946646', u'INT_ADD_-1205947717'), (u'INT_LEFT_-1205947265', u'MULTIEQUAL_-1205946125'), (u'INT_EQUAL_-1205946313', u'BOOL_AND_-1205946145'), (u'MULTIEQUAL_-1205946133', u'INT_AND_-1205946341'), ('const-2147483647', u'INT_AND_-1205946232'), (u'INT_LEFT_-1205947521', u'INT_RIGHT_-1205947367'), (u'INT_OR_-1205947368', u'MULTIEQUAL_-1205946039'), (u'INT_SUB_-1205947714', u'MULTIEQUAL_-1205945726'), (u'MULTIEQUAL_-1205945632', u'INT_LEFT_-1205947335'), ('const-0', u'RETURN_-1205946174'), ('const-0', u'INT_EQUAL_-1205946313'), (u'INT_LEFT_-1205948025', u'MULTIEQUAL_-1205946146'), (u'INT_EQUAL_-1205946265', u'BOOL_AND_-1205946098'), (u'INT_ADD_-1205946233', u'INT_SUB_-1205946213'), (u'INT_SUB_-1205947504', u'MULTIEQUAL_-1205945664'), (u'INT_AND_-1205947063', u'CAST_-1205945445'), (u'MULTIEQUAL_-1205946039', u'INT_OR_-1205946324'), (u'INT_RIGHT_-1205947163', u'INT_NEGATE_-1205947167'), ('tmp_1762', u'CBRANCH_-1205947368'), (u'INT_AND_-1205947100', u'INT_RIGHT_-1205947087'), (u'MULTIEQUAL_-1205946140', u'INT_ADD_-1205947832'), (u'MULTIEQUAL_-1205945725', u'INT_LESS_-1205947644'), (u'MULTIEQUAL_-1205946145', u'MULTIEQUAL_-1205946118'), (u'MULTIEQUAL_-1205946125', u'INT_LESSEQUAL_-1205947761'), ('const-1', u'INT_RIGHT_-1205947442'), (u'INT_EQUAL_-1205947153', u'MULTIEQUAL_-1205945879'), (u'INT_OR_-1205947279', u'MULTIEQUAL_-1205946119'), ('const-253', u'INT_SBORROW_-1205947144'), (u'INT_EQUAL_-1205947723', u'BOOL_OR_-1205946270'), ('tmp_336', u'CBRANCH_-1205948116'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947296'), (u'INT_SUB_-1205947338', u'INT_AND_-1205947268'), (u'INT_ADD_-1205947012', u'PIECE_-1205945661'), ('tmp_2094', u'BRANCH_-1205947188'), (u'INT_LEFT_-1205948102', u'INT_RIGHT_-1205948010'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947581'), ('const-0', u'SUBPIECE_-1205945597'), (u'SUBPIECE_-1205946240', u'PIECE_-1205945631'), ('const-31', u'INT_LEFT_-1205947444'), (u'INT_ADD_-1205946233', u'CAST_-1205945423'), (u'INT_SLESS_-1205947597', u'INT_EQUAL_-1205947588'), (u'INT_OR_-1205946240', u'INT_OR_-1205946144'), (u'INT_LEFT_-1205946421', u'RETURN_-1205947657'), (u'INT_RIGHT_-1205947278', u'INT_OR_-1205947279'), (u'MULTIEQUAL_-1205945932', u'INT_EQUAL_-1205947108'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947460'), (u'INT_SCARRY_-1205946231', u'MULTIEQUAL_-1205945802'), (u'MULTIEQUAL_-1205946646', u'INT_2COMP_-1205946410'), ('tmp_6220', u'INT_RIGHT_-1205948220'), (u'INT_LEFT_-1205947307', u'MULTIEQUAL_-1205946104'), (u'MULTIEQUAL_-1205946280', u'CAST_-1205945464'), (u'INT_SUB_-1205947743', u'INT_LESS_-1205947745'), (u'INT_AND_-1205947241', u'INT_ADD_-1205947205'), ('const-1', u'INT_SUB_-1205946118'), ('const-0', u'SUBPIECE_-1205945843'), ('const-1048576', u'INT_AND_-1205946341'), (u'INT_2COMP_-1205946410', u'INT_SUB_-1205947591'), (u'INT_EQUAL_-1205945987', u'BOOL_AND_-1205948105'), (u'INT_AND_-1205946341', u'INT_EQUAL_-1205946353'), (u'COPY_-1205945651', u'MULTIEQUAL_-1205945663'), (u'MULTIEQUAL_-1205946229', u'INT_RIGHT_-1205948038'), ('tmp_625', u'CBRANCH_-1205947966'), ('const-255', u'INT_AND_-1205947120'), (u'INT_RIGHT_-1205947674', u'INT_ADD_-1205947629'), (u'INT_ADD_-1205947629', u'INT_SUB_-1205947627'), (u'INT_AND_-1205946255', u'INT_OR_-1205946240'), (u'COPY_-1205945538', u'MULTIEQUAL_-1205945563'), (u'INT_AND_-1205947033', u'INT_RIGHT_-1205947011'), (u'INT_AND_-1205947368', u'MULTIEQUAL_-1205946587'), (u'INT_SUB_-1205947640', u'INT_LESS_-1205947642'), (u'INT_ADD_-1205946233', u'INT_SUB_-1205946118'), (u'INT_OR_-1205947550', u'INT_LESSEQUAL_-1205947551'), (u'COPY_-1205946333', u'MULTIEQUAL_-1205945966'), (u'INT_NEGATE_-1205947015', u'INT_AND_-1205947012'), (u'INT_ZEXT_-1205947525', u'INT_ADD_-1205947522'), (u'INT_ZEXT_-1205947015', u'INT_ADD_-1205947012'), ('const-255', u'INT_AND_-1205947493'), (u'MULTIEQUAL_-1205946146', u'INT_SUB_-1205947855'), ('const-1791', u'INT_LESS_-1205947129'), ('const-268435456', u'INT_OR_-1205948011'), ('const-12', u'INT_LEFT_-1205948102'), (u'INT_EQUAL_-1205946353', u'CBRANCH_-1205946349'), (u'INT_EQUAL_-1205946210', u'BOOL_AND_-1205945464'), ('const-255', u'INT_AND_-1205947533'), ('const-2', u'INT_RIGHT_-1205947474'), (u'MULTIEQUAL_-1205946119', u'SUBPIECE_-1205945801'), (u'INT_LEFT_-1205947521', u'CAST_-1205946104'), (u'INT_EQUAL_-1205946172', u'BOOL_AND_-1205946097'), (u'INT_MULT_-1205947980', u'INT_LESS_-1205947862'), (u'INT_EQUAL_-1205947108', u'CBRANCH_-1205947104'), ('const-0', u'RETURN_-1205947158'), ('const-1', u'INT_RIGHT_-1205947809'), ('const-768', u'INT_ADD_-1205947147'), (u'INT_EQUAL_-1205946363', u'BOOL_AND_-1205946192'), (u'BOOL_AND_-1205946097', u'BOOL_AND_-1205946098'), (u'BOOL_OR_-1205945714', u'CBRANCH_-1205947733'), ('tmp_2226', u'CBRANCH_-1205947104'), ('const-256', u'INT_MULT_-1205947980'), (u'MULTIEQUAL_-1205946133', u'INT_AND_-1205947226'), (u'MULTIEQUAL_-1205946119', u'INT_LESS_-1205947747'), (u'COPY_-1205945642', u'MULTIEQUAL_-1205945663'), (u'INT_RIGHT_-1205948052', u'INT_OR_-1205948053'), ('const-31', u'INT_SLESS_-1205947613'), (u'INT_LEFT_-1205947335', u'INT_OR_-1205947321'), ('tmp_6216', u'MULTIEQUAL_-1205946225'), (u'PIECE_-1205945661', u'RETURN_-1205947000'), ('const-4', u'INT_LEFT_-1205947335'), (u'MULTIEQUAL_-1205946199', u'INT_RIGHT_-1205946225'), ('const-255', u'INT_AND_-1205947060'), ('const-32', u'INT_RIGHT_-1205945803'), ('tmp_235', u'CBRANCH_-1205948175'), (u'MULTIEQUAL_-1205946091', u'BOOL_NEGATE_-1205945762'), (u'INT_AND_-1205947024', u'INT_RIGHT_-1205947011'), (u'MULTIEQUAL_-1205945563', u'COPY_-1205945533'), ('const-0', u'INT_EQUAL_-1205945987'), (u'INT_LESS_-1205947745', u'BOOL_OR_-1205945714'), ('const-3', u'INT_LEFT_-1205947265'), (u'INT_ADD_-1205947548', u'INT_AND_-1205947493'), (u'INT_AND_-1205947667', u'INT_ZEXT_-1205946282'), (u'PIECE_-1205946274', u'RETURN_-1205947158'), (u'INT_RIGHT_-1205948038', u'INT_OR_-1205948039'), ('const-2047', u'COPY_-1205948262'), (u'INT_OR_-1205946240', u'INT_OR_-1205946184'), (u'SUBPIECE_-1205946240', u'INT_RIGHT_-1205947996'), ('const-12', u'INT_SCARRY_-1205947590'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947060'), ('const-31', u'INT_SRIGHT_-1205946303'), ('tmp_4092', u'CBRANCH_-1205946992'), ('const-2147483647', u'INT_AND_-1205947449'), (u'INT_ADD_-1205946233', u'INT_SBORROW_-1205946211'), (u'INT_SLESS_-1205947152', u'INT_EQUAL_-1205947741'), (u'CAST_-1205946146', u'INT_SLESS_-1205947613'), ('const-1048576', u'INT_MULT_-1205947010'), (u'INT_EQUAL_-1205946220', u'MULTIEQUAL_-1205945830'), (u'MULTIEQUAL_-1205945879', u'MULTIEQUAL_-1205946598'), (u'INT_ADD_-1205947732', u'INT_SUB_-1205947730'), (u'INT_SUB_-1205947134', u'INT_AND_-1205947080'), (u'INT_RIGHT_-1205947656', u'INT_OR_-1205947657'), ('const-0', u'INT_EQUAL_-1205947266'), (u'INT_ADD_-1205947522', u'INT_SUB_-1205947520'), (u'INT_ADD_-1205947920', u'INT_ADD_-1205947904'), ('const-2147483648', u'INT_AND_-1205946744'), (u'INT_RIGHT_-1205947047', u'INT_AND_-1205947012'), (u'INT_EQUAL_-1205948234', u'MULTIEQUAL_-1205946177'), (u'INT_2COMP_-1205946410', u'CAST_-1205946146'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947108'), (u'INT_AND_-1205948222', u'INT_SUB_-1205948150'), ('const-2146435072', u'INT_OR_-1205946711'), (u'MULTIEQUAL_-1205945694', u'COPY_-1205945651'), (u'INT_SCARRY_-1205947590', u'INT_EQUAL_-1205947588'), ('const-1', u'INT_AND_-1205947465'), (u'INT_OR_-1205947443', u'INT_SUB_-1205947397'), (u'INT_SUB_-1205948150', u'INT_ADD_-1205946233'), (u'PIECE_-1205946319', u'RETURN_-1205947362'), (u'INT_SUB_-1205947730', u'COPY_-1205945702'), (u'INT_RIGHT_-1205947674', u'INT_LESS_-1205947644'), (u'CAST_-1205946059', u'INT_SRIGHT_-1205946303'), (u'INT_AND_-1205947466', u'INT_ADD_-1205947411'), ('const-1', u'INT_AND_-1205947882'), (u'MULTIEQUAL_-1205946113', u'COPY_-1205945711'), (u'INT_OR_-1205947689', u'MULTIEQUAL_-1205946118'), (u'BOOL_AND_-1205946192', u'CBRANCH_-1205947397'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947241'), ('const-252', u'INT_LESS_-1205947153'), (u'INT_SUB_-1205947855', u'MULTIEQUAL_-1205946104'), (u'INT_ZEXT_-1205947208', u'INT_ADD_-1205947205'), (u'INT_SUB_-1205948150', u'INT_SCARRY_-1205946231'), ('const-2147483648', u'INT_AND_-1205946255'), (u'INT_SUB_-1205947338', u'INT_SUB_-1205947322'), ('const-524288', u'COPY_-1205947786'), ('const-0', u'SUBPIECE_-1205945801'), (u'INT_SUB_-1205947338', u'INT_AND_-1205947308'), (u'INT_ADD_-1205947411', u'INT_ADD_-1205947409'), (u'INT_OR_-1205948039', u'INT_LESSEQUAL_-1205947969'), (u'INT_OR_-1205947068', u'INT_RIGHT_-1205946962'), (u'BOOL_AND_-1205945502', u'CBRANCH_-1205947088'), (u'INT_LEFT_-1205947296', u'INT_AND_-1205946232'), (u'INT_RIGHT_-1205947460', u'MULTIEQUAL_-1205945938'), (u'INT_SUB_-1205947591', u'INT_SUB_-1205947338'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947068'), (u'MULTIEQUAL_-1205946125', u'INT_SUB_-1205947714'), (u'INT_ZEXT_-1205947050', u'INT_CARRY_-1205947043'), (u'MULTIEQUAL_-1205945663', u'INT_SUB_-1205947426'), ('const-32', u'INT_LEFT_-1205946057'), (u'INT_OR_-1205947582', u'MULTIEQUAL_-1205946093'), (u'INT_RIGHT_-1205946225', u'INT_ADD_-1205946233'), ('const-31', u'INT_SRIGHT_-1205946251'), (u'INT_AND_-1205947533', u'INT_LEFT_-1205947521'), (u'INT_OR_-1205947550', u'INT_RIGHT_-1205947442'), ('const-0', u'RETURN_-1205947362'), (u'INT_LESS_-1205947747', u'BOOL_OR_-1205945714'), ('const-255', u'INT_AND_-1205947268'), (u'INT_LESS_-1205947428', u'BOOL_OR_-1205945621'), (u'INT_AND_-1205946744', u'INT_OR_-1205946711'), (u'PIECE_-1205946205', u'INT_AND_-1205946264'), (u'INT_LESSEQUAL_-1205947761', u'INT_ZEXT_-1205947744'), (u'MULTIEQUAL_-1205945966', u'MULTIEQUAL_-1205946676'), ('const-4294967242', u'INT_EQUAL_-1205947723'), ('const-0', u'INT_SLESS_-1205946219'), (u'MULTIEQUAL_-1205945923', u'INT_LESSEQUAL_-1205947091'), (u'CAST_-1205945445', u'MULTIEQUAL_-1205945851'), (u'INT_OR_-1205947657', u'INT_LESSEQUAL_-1205947658'), (u'INT_ADD_-1205947409', u'PIECE_-1205946319'), (u'MULTIEQUAL_-1205945865', u'BOOL_NEGATE_-1205945519'), ('tmp_6221', u'MULTIEQUAL_-1205946223'), ('const-255', u'INT_AND_-1205947100'), (u'INT_LEFT_-1205947307', u'MULTIEQUAL_-1205945923'), (u'INT_EQUAL_-1205947108', u'BOOL_AND_-1205945502'), ('const-1', u'INT_RIGHT_-1205947877'), (u'BOOL_OR_-1205946270', u'CBRANCH_-1205947717'), ('tmp_1682', u'CBRANCH_-1205947416'), ('const-255', u'INT_AND_-1205947024'), (u'CALL_-1205948171', u'INDIRECT_-1205946231'), (u'MULTIEQUAL_-1205946066', u'MULTIEQUAL_-1205946039'), ('const-0', u'SUBPIECE_-1205945767'), (u'INT_AND_-1205946185', u'INT_EQUAL_-1205946265'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946363'), (u'MULTIEQUAL_-1205946225', u'INT_EQUAL_-1205948179'), (u'INT_ZEXT_-1205947835', u'INT_ADD_-1205947832'), (u'BOOL_AND_-1205945525', u'CBRANCH_-1205947147'), (u'SUBPIECE_-1205945597', u'INT_AND_-1205947063'), (u'INT_LESS_-1205947153', u'BOOL_AND_-1205945525'), (u'INT_EQUAL_-1205947153', u'BOOL_NEGATE_-1205945525'), (u'INT_OR_-1205946144', u'MULTIEQUAL_-1205946662'), ('tmp_2146', u'CBRANCH_-1205947147'), ('const-2147483648', u'INT_AND_-1205947241'), (u'INT_ZEXT_-1205947632', u'INT_ADD_-1205947629'), ('const-1', u'INT_AND_-1205947572'), (u'INT_EQUAL_-1205948234', u'BOOL_NEGATE_-1205945855'), (u'INT_ADD_-1205947415', u'INT_SUB_-1205947413'), (u'INT_LESSEQUAL_-1205947551', u'BOOL_NEGATE_-1205947506'), (u'MULTIEQUAL_-1205946497', u'PIECE_-1205946205'), (u'BOOL_NEGATE_-1205947399', u'INT_ZEXT_-1205947418'), (u'INT_LESSEQUAL_-1205947444', u'BOOL_NEGATE_-1205947399'), (u'INT_RIGHT_-1205946962', u'INT_NEGATE_-1205946966'), (u'INT_2COMP_-1205946410', u'INT_AND_-1205947422'), ('const-31', u'INT_LEFT_-1205947793'), ('tmp_208', u'CBRANCH_-1205948191'), (u'MULTIEQUAL_-1205946140', u'INT_RIGHT_-1205947809'), (u'INT_CARRY_-1205947233', u'INT_ZEXT_-1205947208'), ('const-31', u'INT_LEFT_-1205947551'), ('tmp_2255', u'CBRANCH_-1205947088'), ('const-1', u'INT_AND_-1205947679'), ('const-0', u'INT_EQUAL_-1205946353'), (u'INT_ZEXT_-1205947427', u'INT_LESS_-1205947428'), (u'INT_AND_-1205946264', u'RETURN_-1205946957'), (u'INT_SUB_-1205947611', u'MULTIEQUAL_-1205945695'), (u'BOOL_NEGATE_-1205945525', u'BOOL_AND_-1205945525'), ('const-32', u'INT_ADD_-1205947548'), (u'MULTIEQUAL_-1205945694', u'INT_LESS_-1205947537'), (u'INT_EQUAL_-1205946125', u'MULTIEQUAL_-1205946598'), (u'MULTIEQUAL_-1205945664', u'INT_LESSEQUAL_-1205947444'), (u'INT_NEGATE_-1205947167', u'INT_AND_-1205947164'), ('const-31', u'INT_RIGHT_-1205947367'), (u'INT_ADD_-1205947904', u'INT_SBORROW_-1205947144'), (u'MULTIEQUAL_-1205945726', u'INT_SUB_-1205947611'), (u'INT_RIGHT_-1205947581', u'INT_OR_-1205947582'), (u'INT_SBORROW_-1205947120', u'MULTIEQUAL_-1205945851'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947500'), (u'MULTIEQUAL_-1205945774', u'CAST_-1205945756'), (u'MULTIEQUAL_-1205946039', u'MULTIEQUAL_-1205946145'), (u'INT_RIGHT_-1205947567', u'INT_SUB_-1205947533'), (u'INT_ADD_-1205947233', u'INT_AND_-1205947164'), (u'INT_LEFT_-1205947296', u'CAST_-1205946059'), (u'MULTIEQUAL_-1205945802', u'INT_EQUAL_-1205946210'), (u'INT_CARRY_-1205947441', u'INT_ZEXT_-1205947412'), ('const-2147483647', u'INT_AND_-1205946279'), (u'INT_SCARRY_-1205947715', u'INT_NOTEQUAL_-1205947713'), ('const-32', u'INT_SUB_-1205947617'), (u'INT_OR_-1205946184', u'PIECE_-1205945631'), (u'MULTIEQUAL_-1205946039', u'MULTIEQUAL_-1205945966'), ('const-12', u'INT_LEFT_-1205948083'), (u'INT_SUB_-1205947003', u'MULTIEQUAL_-1205946497'), (u'INDIRECT_-1205946208', u'MULTIEQUAL_-1205946199'), ('const-0', u'INT_EQUAL_-1205948213'), (u'MULTIEQUAL_-1205946133', u'INT_OR_-1205946324'), ('const-31', u'INT_RIGHT_-1205946962'), (u'MULTIEQUAL_-1205946587', u'PIECE_-1205946319'), (u'INT_ZEXT_-1205946045', u'INT_LEFT_-1205946057'), (u'INT_2COMP_-1205946410', u'INT_SUB_-1205947617'), (u'BOOL_AND_-1205948105', u'CBRANCH_-1205948116'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947466'), (u'INT_LEFT_-1205947481', u'INT_OR_-1205947481'), (u'MULTIEQUAL_-1205945854', u'MULTIEQUAL_-1205945851'), ('tmp_6227', u'PIECE_-1205945805'), (u'INT_AND_-1205946242', u'INT_OR_-1205946240'), (u'BOOL_NEGATE_-1205945472', u'BOOL_AND_-1205945471'), ('const-0', u'INT_EQUAL_-1205946363'), (u'MULTIEQUAL_-1205946223', u'INT_LEFT_-1205948083'), (u'SUBPIECE_-1205946240', u'MULTIEQUAL_-1205946676'), (u'MULTIEQUAL_-1205946093', u'INT_OR_-1205947475'), (u'INT_LEFT_-1205947521', u'INT_AND_-1205946279'), ('tmp_1965', u'CBRANCH_-1205947260'), (u'MULTIEQUAL_-1205945695', u'INT_SUB_-1205947504'), (u'MULTIEQUAL_-1205946119', u'INT_ADD_-1205947732'), ('const-0', u'INT_EQUAL_-1205945988'), ('const-2147483648', u'INT_AND_-1205947466'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947667'), (u'INT_ZEXT_-1205947412', u'INT_ADD_-1205947409'), (u'MULTIEQUAL_-1205946662', u'INT_RIGHT_-1205947047'), ('tmp_6226', u'MULTIEQUAL_-1205946229'), (u'INT_LESSEQUAL_-1205947091', u'MULTIEQUAL_-1205945854'), (u'INT_LESS_-1205947537', u'BOOL_OR_-1205945652'), (u'INT_RIGHT_-1205947674', u'SUBPIECE_-1205945767'), (u'INT_ADD_-1205947147', u'INT_EQUAL_-1205947153'), (u'MULTIEQUAL_-1205946662', u'PIECE_-1205946205'), (u'INT_ZEXT_-1205947041', u'INT_ADD_-1205947038'), (u'PIECE_-1205945631', u'RETURN_-1205946174'), (u'INT_AND_-1205947080', u'INT_LEFT_-1205947068'), ('const-2147483648', u'INT_AND_-1205947968'), (u'INT_EQUAL_-1205948179', u'MULTIEQUAL_-1205946171'), (u'INT_LESS_-1205947642', u'BOOL_OR_-1205945683'), (u'INT_AND_-1205947164', u'MULTIEQUAL_-1205946544'), (u'INT_ZEXT_-1205946282', u'INT_LEFT_-1205946421'), (u'SUBPIECE_-1205946232', u'INT_XOR_-1205948136'), (u'INT_LEFT_-1205947265', u'MULTIEQUAL_-1205945944'), (u'MULTIEQUAL_-1205946223', u'INT_XOR_-1205948136'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205946744'), (u'BOOL_NEGATE_-1205945465', u'BOOL_AND_-1205945464'), (u'INT_LESS_-1205947153', u'MULTIEQUAL_-1205945865'), (u'INT_SUB_-1205946118', u'INT_EQUAL_-1205946125'), (u'INT_SLESS_-1205947722', u'INT_NOTEQUAL_-1205947713'), (u'INT_OR_-1205947997', u'INT_SUB_-1205947830'), ('const-255', u'INT_AND_-1205947080'), (u'INT_AND_-1205948222', u'INT_EQUAL_-1205948234'), ('const-0', u'INT_EQUAL_-1205946362'), (u'PIECE_-1205945805', u'MULTIEQUAL_-1205945774'), (u'MULTIEQUAL_-1205946229', u'INT_RIGHT_-1205945726'), (u'INT_NOTEQUAL_-1205947237', u'CBRANCH_-1205947234'), ('const-0', u'INT_EQUAL_-1205946172'), (u'INT_EQUAL_-1205945609', u'BOOL_AND_-1205945502'), ('tmp_3204', u'CBRANCH_-1205947397'), ('const-255', u'INT_AND_-1205947288'), (u'INT_AND_-1205947572', u'INT_ZEXT_-1205947564'), (u'INDIRECT_-1205946231', u'MULTIEQUAL_-1205946223'), (u'BOOL_AND_-1205945471', u'CBRANCH_-1205946232'), (u'BOOL_AND_-1205946145', u'CBRANCH_-1205947193'), (u'INT_SUB_-1205948150', u'INT_ADD_-1205947920'), ('const-2047', u'INT_EQUAL_-1205948179'), (u'INT_LESSEQUAL_-1205947658', u'BOOL_NEGATE_-1205947613'), (u'INT_ZEXT_-1205947923', u'INT_ADD_-1205947920'), (u'INT_ADD_-1205947014', u'INT_ADD_-1205947012'), (u'MULTIEQUAL_-1205946066', u'INT_OR_-1205947368'), (u'INT_OR_-1205947205', u'MULTIEQUAL_-1205946133'), ('tmp_2458', u'CBRANCH_-1205947745'), (u'MULTIEQUAL_-1205946225', u'INT_SUB_-1205948150'), ('const-2147483647', u'INT_AND_-1205946185'), (u'BOOL_OR_-1205945683', u'CBRANCH_-1205947630'), (u'INT_LESSEQUAL_-1205947551', u'INT_ZEXT_-1205947534'), (u'MULTIEQUAL_-1205946229', u'INT_LEFT_-1205948025'), (u'INT_SUB_-1205947520', u'COPY_-1205945642'), (u'INT_ZEXT_-1205947671', u'INT_LEFT_-1205947658'), (u'INT_EQUAL_-1205947129', u'MULTIEQUAL_-1205945879'), (u'INT_ZEXT_-1205947534', u'INT_LESS_-1205947535'), ('const-2147483648', u'INT_AND_-1205947667'), (u'INT_XOR_-1205948136', u'INT_AND_-1205946255'), (u'MULTIEQUAL_-1205945944', u'INT_LESSEQUAL_-1205947091'), (u'INT_LESS_-1205947644', u'BOOL_OR_-1205945683'), ('const-0', u'SUBPIECE_-1205946232'), ('const-54', u'INT_SCARRY_-1205947715'), (u'MULTIEQUAL_-1205945725', u'INT_SUB_-1205947627'), (u'INT_EQUAL_-1205947970', u'CBRANCH_-1205947966'), ('tmp_2724', u'CBRANCH_-1205947620'), (u'INT_LESSEQUAL_-1205947107', u'MULTIEQUAL_-1205945854'), (u'INT_AND_-1205947288', u'INT_RIGHT_-1205947275'), (u'CALL_-1205948171', u'INDIRECT_-1205946208'), (u'BOOL_AND_-1205947712', u'CBRANCH_-1205947745'), (u'INT_RIGHT_-1205945726', u'SUBPIECE_-1205945864'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947100'), (u'BOOL_NEGATE_-1205945855', u'CBRANCH_-1205948229'), (u'COPY_-1205945621', u'MULTIEQUAL_-1205945632'), (u'CAST_-1205946013', u'INT_SRIGHT_-1205946251'), ('const-24', u'INT_RIGHT_-1205945726'), (u'MULTIEQUAL_-1205945966', u'INT_ADD_-1205947038'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947033'), ('const-0', u'INT_EQUAL_-1205946265'), ('const-1792', u'INT_EQUAL_-1205947129'), (u'INT_OR_-1205948039', u'MULTIEQUAL_-1205946140'), (u'MULTIEQUAL_-1205945851', u'INT_ZEXT_-1205947041'), ('const-1792', u'INT_SBORROW_-1205947120'), (u'INT_OR_-1205947481', u'INT_CARRY_-1205947441'), (u'INT_OR_-1205947481', u'INT_ADD_-1205947441'), ('tmp_4584', u'CBRANCH_-1205946213'), (u'INT_ADD_-1205947920', u'INT_SUB_-1205947122'), (u'MULTIEQUAL_-1205946174', u'BOOL_NEGATE_-1205945845'), (u'INT_OR_-1205947443', u'INT_LESSEQUAL_-1205947444'), ('const-0', u'INT_EQUAL_-1205946314'), (u'INT_RIGHT_-1205947087', u'INT_OR_-1205947068'), (u'INT_OR_-1205947443', u'MULTIEQUAL_-1205945944'), ('const-1021', u'INT_ADD_-1205947904'), (u'COPY_-1205945672', u'MULTIEQUAL_-1205945694'), (u'INT_OR_-1205947792', u'MULTIEQUAL_-1205946125'), ('const-31', u'INT_LEFT_-1205947861'), ('const-1', u'INT_RIGHT_-1205947859'), ('const-0', u'COPY_-1205947216'), (u'BOOL_NEGATE_-1205945519', u'BOOL_OR_-1205945517'), (u'INT_OR_-1205947997', u'INT_LESSEQUAL_-1205947969'), (u'INT_LEFT_-1205948025', u'INT_RIGHT_-1205947859'), (u'INT_AND_-1205947120', u'INT_LEFT_-1205947108'), (u'INT_RIGHT_-1205947996', u'INT_OR_-1205947997'), (u'INT_ADD_-1205947233', u'MULTIEQUAL_-1205946544'), ('const-0', u'INT_SLESS_-1205947722'), (u'INT_AND_-1205947226', u'INT_NOTEQUAL_-1205947237'), (u'MULTIEQUAL_-1205946094', u'INT_OR_-1205947689'), (u'INT_ZEXT_-1205947457', u'INT_LEFT_-1205947444'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947250'), (u'INT_LEFT_-1205947108', u'INT_EQUAL_-1205946171'), (u'MULTIEQUAL_-1205945664', u'INT_SUB_-1205947397'), ('const-8', u'INT_LEFT_-1205948025'), (u'COPY_-1205947200', u'MULTIEQUAL_-1205946094'), (u'INT_RIGHT_-1205946225', u'INT_SCARRY_-1205946231'), (u'INT_SCARRY_-1205946231', u'INT_EQUAL_-1205946229'), (u'SUBPIECE_-1205945733', u'INT_AND_-1205947465'), (u'MULTIEQUAL_-1205946140', u'SUBPIECE_-1205945843'), ('const-0', u'INT_NOTEQUAL_-1205947597'), (u'MULTIEQUAL_-1205946146', u'INT_RIGHT_-1205947791'), (u'INT_ZEXT_-1205947735', u'INT_ADD_-1205947732'), ('tmp_6220', u'PIECE_-1205945805'), (u'INT_ADD_-1205947904', u'INT_LESS_-1205947153'), (u'MULTIEQUAL_-1205945844', u'INT_EQUAL_-1205946210'), (u'INT_LEFT_-1205947861', u'INT_OR_-1205947860'), (u'BOOL_NEGATE_-1205947716', u'INT_ZEXT_-1205947735'), (u'INT_AND_-1205947679', u'INT_ZEXT_-1205947671'), (u'INT_SUB_-1205947413', u'COPY_-1205945612'), ('const-0', u'RETURN_-1205946690'), (u'INT_OR_-1205948039', u'INT_RIGHT_-1205947877'), (u'INT_RIGHT_-1205947460', u'INT_LESS_-1205947430'), (u'INT_LESS_-1205947862', u'INT_ZEXT_-1205947835'), (u'COPY_-1205947802', u'MULTIEQUAL_-1205946145'), (u'INT_OR_-1205947657', u'INT_RIGHT_-1205947549'), (u'INT_AND_-1205947882', u'INT_ZEXT_-1205947874'), ('tmp_1092', u'CBRANCH_-1205947733'), (u'MULTIEQUAL_-1205946104', u'INT_LESSEQUAL_-1205947761'), (u'MULTIEQUAL_-1205945923', u'INT_EQUAL_-1205945609'), (u'INT_AND_-1205947012', u'INT_SUB_-1205947003'), ('const-31', u'INT_LEFT_-1205947658'), (u'INT_RIGHT_-1205947674', u'INT_SUB_-1205947640')]
|
[(u'INT_SUB_-1205946118', u'MULTIEQUAL_-1205946646'), ('tmp_746', u'CBRANCH_-1205947911'), (u'MULTIEQUAL_-1205945938', u'INT_EQUAL_-1205947108'), (u'INT_SUB_-1205947397', u'MULTIEQUAL_-1205945633'), (u'INT_RIGHT_-1205947367', u'INT_NEGATE_-1205947371'), (u'INT_RIGHT_-1205947460', u'INT_LEFT_-1205947293'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947474'), ('const-1', u'INT_AND_-1205947814'), (u'INT_LESSEQUAL_-1205947953', u'MULTIEQUAL_-1205946091'), (u'INT_SUB_-1205947322', u'INT_AND_-1205947288'), (u'INT_RIGHT_-1205947011', u'INT_NEGATE_-1205947015'), (u'INT_EQUAL_-1205946171', u'BOOL_AND_-1205946097'), (u'INT_SUB_-1205946118', u'COPY_-1205945468'), (u'INT_LEFT_-1205947793', u'INT_OR_-1205947792'), (u'MULTIEQUAL_-1205946544', u'PIECE_-1205946274'), ('const-0', u'INT_EQUAL_-1205946239'), (u'MULTIEQUAL_-1205946133', u'MULTIEQUAL_-1205945951'), (u'CAST_-1205946104', u'INT_SRIGHT_-1205946352'), ('const-0', u'RETURN_-1205947000'), (u'INT_AND_-1205947449', u'INT_RIGHT_-1205947409'), (u'MULTIEQUAL_-1205946199', u'INT_EQUAL_-1205946220'), (u'COPY_-1205945702', u'MULTIEQUAL_-1205945725'), ('const-1', u'INT_RIGHT_-1205946225'), (u'INT_OR_-1205947358', u'INT_EQUAL_-1205947371'), (u'MULTIEQUAL_-1205945695', u'INT_LESSEQUAL_-1205947551'), (u'MULTIEQUAL_-1205946174', u'MULTIEQUAL_-1205946171'), (u'INT_RIGHT_-1205947442', u'INT_OR_-1205947443'), (u'INT_OR_-1205947321', u'MULTIEQUAL_-1205946113'), (u'INT_RIGHT_-1205947567', u'INT_LESS_-1205947537'), (u'INT_LEFT_-1205947293', u'INT_OR_-1205947279'), (u'INT_XOR_-1205948136', u'INT_AND_-1205947968'), ('tmp_6221', u'INT_RIGHT_-1205948199'), (u'MULTIEQUAL_-1205946145', u'INT_OR_-1205947689'), (u'BOOL_NEGATE_-1205947613', u'INT_ZEXT_-1205947632'), (u'MULTIEQUAL_-1205946104', u'MULTIEQUAL_-1205945726'), (u'INT_EQUAL_-1205946362', u'BOOL_AND_-1205946192'), ('const-29', u'INT_RIGHT_-1205947278'), ('const-1', u'INT_RIGHT_-1205947791'), ('const-3', u'INT_RIGHT_-1205947460'), (u'COPY_-1205947786', u'MULTIEQUAL_-1205946094'), (u'INT_OR_-1205948053', u'INT_OR_-1205948039'), (u'COPY_-1205945681', u'MULTIEQUAL_-1205945694'), (u'INT_RIGHT_-1205947567', u'INT_ADD_-1205947522'), (u'INT_MULT_-1205947980', u'INT_SUB_-1205947855'), (u'INT_SUB_-1205947134', u'INT_AND_-1205947120'), (u'MULTIEQUAL_-1205946113', u'INT_LESS_-1205947747'), (u'INT_ADD_-1205947205', u'PIECE_-1205946274'), (u'SUBPIECE_-1205946232', u'INT_LEFT_-1205948102'), (u'INT_ADD_-1205946233', u'INT_EQUAL_-1205946239'), (u'INT_SRIGHT_-1205946352', u'INT_2COMP_-1205947439'), (u'INT_OR_-1205946711', u'INT_ZEXT_-1205946045'), (u'INT_MULT_-1205947980', u'INT_LESSEQUAL_-1205947953'), (u'MULTIEQUAL_-1205946646', u'INT_EQUAL_-1205947723'), (u'MULTIEQUAL_-1205945663', u'INT_SUB_-1205947413'), ('const-1048576', u'COPY_-1205947802'), ('const-0', u'INT_EQUAL_-1205947371'), (u'INT_RIGHT_-1205948010', u'INT_OR_-1205948011'), (u'INT_ADD_-1205947904', u'INT_MULT_-1205947010'), (u'INT_ADD_-1205947832', u'INT_SUB_-1205947830'), ('const-1048575', u'INT_AND_-1205946242'), ('const-1', u'INT_RIGHT_-1205947549'), (u'INT_ADD_-1205947920', u'INT_ADD_-1205947147'), (u'CAST_-1205945418', u'INT_SLESS_-1205946219'), ('const-0', u'RETURN_-1205947657'), (u'INT_SUB_-1205947122', u'MULTIEQUAL_-1205945563'), (u'INT_AND_-1205948222', u'INT_EQUAL_-1205948196'), ('const-255', u'INT_AND_-1205947422'), (u'INT_LESSEQUAL_-1205947658', u'INT_ZEXT_-1205947641'), ('tmp_4383', u'CBRANCH_-1205946349'), ('const-1', u'INT_RIGHT_-1205947674'), ('tmp_1481', u'CBRANCH_-1205947523'), (u'BOOL_OR_-1205945621', u'CBRANCH_-1205947416'), (u'INT_EQUAL_-1205948213', u'MULTIEQUAL_-1205946177'), ('const-0', u'INT_SLESS_-1205946238'), (u'INT_ADD_-1205947147', u'INT_SBORROW_-1205947120'), (u'INT_RIGHT_-1205947275', u'INT_OR_-1205947256'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947256'), (u'MULTIEQUAL_-1205945695', u'MULTIEQUAL_-1205945664'), (u'MULTIEQUAL_-1205946598', u'BOOL_NEGATE_-1205947716'), ('const-2047', u'INT_AND_-1205948222'), ('const-0', u'INT_EQUAL_-1205948234'), (u'MULTIEQUAL_-1205946113', u'INT_SUB_-1205947730'), (u'CAST_-1205945423', u'INT_SLESS_-1205946238'), (u'INT_RIGHT_-1205945803', u'SUBPIECE_-1205946232'), (u'INT_EQUAL_-1205947266', u'CBRANCH_-1205947260'), (u'INT_EQUAL_-1205947588', u'BOOL_AND_-1205946189'), ('const-2047', u'INT_AND_-1205948201'), (u'CAST_-1205945756', u'INT_RIGHT_-1205945803'), (u'INT_SUB_-1205947533', u'INT_LESS_-1205947535'), (u'MULTIEQUAL_-1205946125', u'INT_RIGHT_-1205947656'), (u'INT_OR_-1205947475', u'MULTIEQUAL_-1205946066'), (u'INT_EQUAL_-1205946314', u'BOOL_AND_-1205946145'), ('const-12', u'INT_SUB_-1205947338'), (u'INDIRECT_-1205946237', u'MULTIEQUAL_-1205946229'), (u'INT_ADD_-1205947038', u'PIECE_-1205945661'), (u'INT_SUB_-1205946213', u'CAST_-1205945418'), (u'INT_EQUAL_-1205946239', u'MULTIEQUAL_-1205945830'), (u'INT_OR_-1205947068', u'CAST_-1205946013'), (u'INT_ADD_-1205947147', u'COPY_-1205945538'), ('const-1', u'INT_RIGHT_-1205947581'), (u'INT_SUB_-1205947003', u'INT_AND_-1205946963'), (u'INT_RIGHT_-1205947250', u'INT_EQUAL_-1205947266'), ('const-4', u'INT_RIGHT_-1205947250'), ('const-24', u'INT_RIGHT_-1205947996'), (u'INT_RIGHT_-1205947320', u'INT_OR_-1205947321'), (u'INT_EQUAL_-1205946229', u'BOOL_AND_-1205945471'), (u'INT_OR_-1205947443', u'INT_RIGHT_-1205947278'), (u'INT_OR_-1205947860', u'MULTIEQUAL_-1205946146'), (u'INT_AND_-1205947513', u'INT_RIGHT_-1205947500'), ('const-0', u'COPY_-1205946333'), ('const-1048576', u'INT_MULT_-1205946181'), ('const-54', u'INT_ADD_-1205947717'), (u'INT_AND_-1205947814', u'INT_ZEXT_-1205947806'), ('const-0', u'RETURN_-1205946957'), (u'COPY_-1205945468', u'MULTIEQUAL_-1205946280'), ('const-1024', u'INT_SUB_-1205947122'), (u'CALL_-1205948171', u'MULTIEQUAL_-1205945774'), (u'MULTIEQUAL_-1205945851', u'MULTIEQUAL_-1205946570'), ('const-32', u'INT_SUB_-1205947134'), ('const-0', u'INT_NOTEQUAL_-1205947237'), (u'INT_ZEXT_-1205947874', u'INT_LEFT_-1205947861'), (u'CALL_-1205948171', u'INDIRECT_-1205946237'), (u'INT_RIGHT_-1205947460', u'INT_SUB_-1205947426'), (u'INT_OR_-1205947321', u'MULTIEQUAL_-1205945932'), (u'INT_ADD_-1205946233', u'INT_EQUAL_-1205946220'), (u'BOOL_NEGATE_-1205945850', u'CBRANCH_-1205948208'), ('const-2147483648', u'COPY_-1205947200'), (u'MULTIEQUAL_-1205946118', u'INT_OR_-1205947582'), (u'INT_OR_-1205946324', u'MULTIEQUAL_-1205945951'), (u'BOOL_NEGATE_-1205945762', u'CBRANCH_-1205947911'), (u'MULTIEQUAL_-1205946118', u'MULTIEQUAL_-1205946093'), (u'MULTIEQUAL_-1205945851', u'INT_ZEXT_-1205947050'), ('tmp_1280', u'CBRANCH_-1205947630'), (u'MULTIEQUAL_-1205946223', u'INT_AND_-1205945914'), (u'INT_OR_-1205947550', u'INT_SUB_-1205947504'), (u'MULTIEQUAL_-1205946646', u'INT_ADD_-1205947548'), (u'BOOL_AND_-1205945464', u'CBRANCH_-1205946213'), (u'INT_ADD_-1205947441', u'MULTIEQUAL_-1205946587'), (u'INT_NOTEQUAL_-1205947597', u'BOOL_AND_-1205946189'), ('const--9223372032559808513', u'INT_AND_-1205946264'), ('tmp_4547', u'CBRANCH_-1205946232'), (u'COPY_-1205947216', u'MULTIEQUAL_-1205946145'), (u'INT_AND_-1205946279', u'INT_EQUAL_-1205946362'), (u'INT_SRIGHT_-1205946251', u'INT_SUB_-1205947003'), (u'INT_ZEXT_-1205947744', u'INT_LESS_-1205947745'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947275'), (u'INT_SBORROW_-1205946116', u'MULTIEQUAL_-1205946570'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947674'), ('const-4', u'INT_RIGHT_-1205948052'), (u'INT_ADD_-1205947548', u'INT_AND_-1205947533'), (u'INT_MULT_-1205946181', u'INT_OR_-1205946184'), ('const-3', u'INT_LEFT_-1205947293'), (u'SUBPIECE_-1205946232', u'INT_AND_-1205946242'), (u'INT_OR_-1205947997', u'INT_EQUAL_-1205947970'), (u'INT_RIGHT_-1205947460', u'INT_ADD_-1205947415'), (u'INT_AND_-1205945914', u'INT_EQUAL_-1205945987'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947087'), (u'INT_AND_-1205947268', u'INT_LEFT_-1205947256'), (u'INT_AND_-1205947422', u'INT_RIGHT_-1205947409'), (u'MULTIEQUAL_-1205946119', u'INT_SUB_-1205947743'), (u'INT_NOTEQUAL_-1205947713', u'BOOL_OR_-1205946270'), (u'MULTIEQUAL_-1205946177', u'MULTIEQUAL_-1205946174'), (u'MULTIEQUAL_-1205946177', u'BOOL_NEGATE_-1205945850'), (u'MULTIEQUAL_-1205945932', u'INT_LESSEQUAL_-1205947107'), (u'INT_RIGHT_-1205947791', u'INT_OR_-1205947792'), (u'MULTIEQUAL_-1205946133', u'INT_OR_-1205947205'), (u'INT_AND_-1205947968', u'MULTIEQUAL_-1205946133'), (u'INT_ZEXT_-1205947418', u'INT_ADD_-1205947415'), ('const-28', u'INT_RIGHT_-1205947320'), (u'INT_ADD_-1205947441', u'INT_AND_-1205947368'), (u'INT_SUB_-1205947617', u'INT_SUB_-1205947134'), (u'INT_AND_-1205948201', u'MULTIEQUAL_-1205946225'), ('const-0', u'INT_EQUAL_-1205946125'), ('const-2047', u'INT_EQUAL_-1205948196'), (u'MULTIEQUAL_-1205946104', u'INT_SUB_-1205947714'), ('const-1048576', u'INT_AND_-1205947226'), (u'MULTIEQUAL_-1205945632', u'MULTIEQUAL_-1205945932'), (u'INT_SLESS_-1205946238', u'MULTIEQUAL_-1205945844'), ('tmp_2197', u'CBRANCH_-1205947124'), ('const-268435456', u'INT_OR_-1205948053'), ('const-0', u'INT_EQUAL_-1205946171'), (u'INT_2COMP_-1205947439', u'INT_ADD_-1205947441'), (u'INT_2COMP_-1205947439', u'INT_CARRY_-1205947441'), (u'MULTIEQUAL_-1205945726', u'INT_LESSEQUAL_-1205947658'), (u'INT_SBORROW_-1205946211', u'MULTIEQUAL_-1205945802'), (u'INT_NEGATE_-1205946966', u'INT_AND_-1205946963'), (u'INT_EQUAL_-1205945988', u'BOOL_AND_-1205948105'), ('const-1048576', u'INT_OR_-1205946144'), (u'MULTIEQUAL_-1205946229', u'INT_EQUAL_-1205945988'), (u'INT_LEFT_-1205947658', u'INT_OR_-1205947657'), ('const-0', u'INT_SLESS_-1205947152'), (u'INT_NEGATE_-1205947371', u'INT_AND_-1205947368'), (u'INT_EQUAL_-1205947371', u'CBRANCH_-1205947368'), (u'MULTIEQUAL_-1205945951', u'MULTIEQUAL_-1205946662'), (u'INT_RIGHT_-1205947500', u'INT_OR_-1205947481'), (u'INT_ZEXT_-1205947641', u'INT_LESS_-1205947642'), (u'INT_RIGHT_-1205947549', u'INT_OR_-1205947550'), (u'INT_AND_-1205946232', u'INT_EQUAL_-1205946313'), ('tmp_137', u'CBRANCH_-1205948229'), (u'INT_RIGHT_-1205947877', u'MULTIEQUAL_-1205946140'), (u'INT_SUB_-1205947830', u'MULTIEQUAL_-1205946113'), ('const-31', u'INT_SRIGHT_-1205946352'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946314'), ('const-1', u'INT_AND_-1205947063'), (u'INT_EQUAL_-1205947741', u'BOOL_AND_-1205947712'), (u'MULTIEQUAL_-1205945663', u'INT_LESS_-1205947430'), (u'INT_ADD_-1205947717', u'CAST_-1205946171'), (u'MULTIEQUAL_-1205945879', u'BOOL_OR_-1205945517'), ('const-0', u'SUBPIECE_-1205945733'), (u'MULTIEQUAL_-1205945694', u'INT_SUB_-1205947520'), (u'MULTIEQUAL_-1205945664', u'MULTIEQUAL_-1205945633'), (u'INT_AND_-1205947308', u'INT_LEFT_-1205947296'), (u'INT_ZEXT_-1205947806', u'INT_LEFT_-1205947793'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946172'), (u'BOOL_OR_-1205945517', u'CBRANCH_-1205947124'), (u'COPY_-1205945711', u'MULTIEQUAL_-1205945725'), (u'MULTIEQUAL_-1205945633', u'INT_LEFT_-1205947307'), (u'INT_RIGHT_-1205947409', u'INT_ADD_-1205947411'), (u'MULTIEQUAL_-1205946039', u'INT_OR_-1205947205'), (u'SUBPIECE_-1205945843', u'INT_AND_-1205947814'), (u'MULTIEQUAL_-1205945633', u'INT_RIGHT_-1205947320'), (u'COPY_-1205948262', u'MULTIEQUAL_-1205946199'), (u'INT_RIGHT_-1205947442', u'INT_LEFT_-1205947265'), (u'INT_MULT_-1205947010', u'INT_ADD_-1205947014'), (u'INT_OR_-1205947279', u'MULTIEQUAL_-1205945938'), (u'BOOL_NEGATE_-1205947506', u'INT_ZEXT_-1205947525'), (u'INT_ADD_-1205947147', u'INT_LESS_-1205947129'), (u'INT_ADD_-1205947147', u'INT_EQUAL_-1205947129'), (u'MULTIEQUAL_-1205945966', u'SUBPIECE_-1205945597'), (u'INT_OR_-1205947358', u'MULTIEQUAL_-1205946621'), (u'INT_LEFT_-1205948025', u'INT_LESSEQUAL_-1205947953'), (u'MULTIEQUAL_-1205946199', u'INT_SBORROW_-1205946211'), ('const-3', u'INT_RIGHT_-1205947367'), (u'MULTIEQUAL_-1205945938', u'INT_LESSEQUAL_-1205947107'), (u'INT_OR_-1205948011', u'INT_OR_-1205947997'), ('tmp_2778', u'CBRANCH_-1205947592'), ('const-20', u'INT_RIGHT_-1205948199'), (u'INT_CARRY_-1205947043', u'INT_ZEXT_-1205947015'), (u'MULTIEQUAL_-1205945966', u'INT_CARRY_-1205947043'), (u'MULTIEQUAL_-1205946570', u'INT_EQUAL_-1205947741'), ('const-255', u'INT_AND_-1205947308'), (u'INT_LEFT_-1205946057', u'RETURN_-1205946690'), (u'INT_SLESS_-1205947613', u'CBRANCH_-1205947620'), ('tmp_4777', u'BRANCH_-1205946123'), (u'INT_RIGHT_-1205947250', u'MULTIEQUAL_-1205946094'), (u'MULTIEQUAL_-1205946133', u'MULTIEQUAL_-1205946133'), (u'INT_SBORROW_-1205947144', u'MULTIEQUAL_-1205945851'), (u'MULTIEQUAL_-1205946113', u'INT_SUB_-1205947743'), ('tmp_2512', u'CBRANCH_-1205947717'), (u'INT_SRIGHT_-1205946303', u'INT_2COMP_-1205947231'), (u'MULTIEQUAL_-1205946091', u'INT_ZEXT_-1205947923'), (u'MULTIEQUAL_-1205946199', u'INT_SUB_-1205946213'), (u'MULTIEQUAL_-1205945663', u'COPY_-1205945621'), (u'INT_RIGHT_-1205947567', u'SUBPIECE_-1205945733'), (u'MULTIEQUAL_-1205945774', u'SUBPIECE_-1205946240'), (u'SUBPIECE_-1205945801', u'INT_AND_-1205947679'), (u'INT_RIGHT_-1205947474', u'INT_OR_-1205947475'), (u'INT_EQUAL_-1205946239', u'BOOL_NEGATE_-1205945472'), (u'INT_RIGHT_-1205948199', u'INT_AND_-1205948201'), (u'BOOL_NEGATE_-1205945845', u'CBRANCH_-1205948191'), (u'INT_2COMP_-1205947231', u'INT_CARRY_-1205947233'), (u'INT_2COMP_-1205947231', u'INT_ADD_-1205947233'), ('const-4', u'INT_RIGHT_-1205948010'), (u'INT_SUB_-1205947591', u'INT_SLESS_-1205947597'), (u'INT_SUB_-1205947591', u'INT_NOTEQUAL_-1205947597'), (u'MULTIEQUAL_-1205946171', u'CBRANCH_-1205948175'), ('const-32', u'INT_SUB_-1205947322'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947367'), (u'INT_2COMP_-1205946410', u'INT_AND_-1205947513'), ('tmp_2011', u'CBRANCH_-1205947234'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947521'), (u'COPY_-1205946155', u'MULTIEQUAL_-1205946621'), (u'INT_SUB_-1205947426', u'INT_LESS_-1205947428'), (u'INT_LESSEQUAL_-1205947444', u'INT_ZEXT_-1205947427'), ('const-31', u'INT_RIGHT_-1205947163'), (u'INT_LEFT_-1205947068', u'INT_OR_-1205947068'), (u'INT_OR_-1205947256', u'INT_ADD_-1205947233'), (u'INT_OR_-1205947256', u'INT_CARRY_-1205947233'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947567'), ('const-2147483648', u'INT_AND_-1205947033'), (u'INT_LEFT_-1205947444', u'INT_OR_-1205947443'), ('const-20', u'INT_SUB_-1205947591'), (u'SUBPIECE_-1205945864', u'INT_AND_-1205947882'), (u'SUBPIECE_-1205945767', u'INT_AND_-1205947572'), (u'SUBPIECE_-1205946240', u'INT_MULT_-1205947980'), (u'INT_OR_-1205947068', u'INT_AND_-1205946185'), (u'MULTIEQUAL_-1205945632', u'INT_OR_-1205947358'), (u'MULTIEQUAL_-1205945944', u'INT_EQUAL_-1205945609'), ('const-1', u'INT_RIGHT_-1205947656'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947481'), ('const-0', u'SUBPIECE_-1205945864'), (u'COPY_-1205945533', u'MULTIEQUAL_-1205946280'), (u'INT_ADD_-1205946233', u'INT_MULT_-1205946181'), (u'INT_RIGHT_-1205947367', u'INT_OR_-1205947368'), (u'INT_LESS_-1205947535', u'BOOL_OR_-1205945652'), (u'INT_AND_-1205947493', u'INT_LEFT_-1205947481'), (u'INT_OR_-1205947657', u'INT_SUB_-1205947611'), ('const-2', u'INT_RIGHT_-1205947567'), ('const-0', u'INT_EQUAL_-1205947153'), (u'INT_AND_-1205948201', u'INT_EQUAL_-1205948213'), (u'BOOL_AND_-1205946189', u'CBRANCH_-1205947592'), ('const-255', u'INT_AND_-1205947513'), (u'INT_LEFT_-1205947296', u'INT_RIGHT_-1205947163'), (u'MULTIEQUAL_-1205945830', u'BOOL_NEGATE_-1205945465'), (u'INT_LESSEQUAL_-1205947761', u'BOOL_NEGATE_-1205947716'), (u'INT_AND_-1205947060', u'INT_RIGHT_-1205947047'), (u'INT_OR_-1205948039', u'INT_EQUAL_-1205947970'), (u'MULTIEQUAL_-1205945633', u'MULTIEQUAL_-1205945923'), ('const-0', u'COPY_-1205946155'), (u'MULTIEQUAL_-1205945633', u'INT_OR_-1205947358'), (u'MULTIEQUAL_-1205945725', u'INT_SUB_-1205947640'), (u'INT_ZEXT_-1205947564', u'INT_LEFT_-1205947551'), (u'MULTIEQUAL_-1205945951', u'INT_ADD_-1205947014'), (u'MULTIEQUAL_-1205945694', u'INT_SUB_-1205947533'), (u'CAST_-1205946171', u'INT_SLESS_-1205947722'), ('const-0', u'SUBPIECE_-1205946240'), (u'INT_RIGHT_-1205948220', u'INT_AND_-1205948222'), ('const-0', u'INT_SLESS_-1205947597'), (u'INT_LEFT_-1205947256', u'INT_OR_-1205947256'), (u'MULTIEQUAL_-1205946146', u'INT_LESS_-1205947862'), (u'INT_LEFT_-1205947551', u'INT_OR_-1205947550'), ('const-1048575', u'INT_AND_-1205945914'), ('const-32', u'INT_LEFT_-1205946421'), (u'INT_LESSEQUAL_-1205947969', u'MULTIEQUAL_-1205946091'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947449'), (u'BOOL_NEGATE_-1205947716', u'BOOL_AND_-1205947712'), (u'COPY_-1205945612', u'MULTIEQUAL_-1205945632'), (u'INT_RIGHT_-1205947809', u'MULTIEQUAL_-1205946119'), (u'BOOL_AND_-1205946098', u'CBRANCH_-1205946992'), (u'INT_SLESS_-1205946219', u'MULTIEQUAL_-1205945844'), ('const-1', u'INT_SBORROW_-1205946116'), ('tmp_179', u'CBRANCH_-1205948208'), (u'CAST_-1205945464', u'INT_SLESS_-1205947152'), (u'INT_LESS_-1205947430', u'BOOL_OR_-1205945621'), (u'INT_SUB_-1205947627', u'COPY_-1205945672'), ('const-24', u'INT_RIGHT_-1205948038'), (u'INT_LEFT_-1205948083', u'INT_RIGHT_-1205948052'), (u'BOOL_OR_-1205945652', u'CBRANCH_-1205947523'), ('tmp_3652', u'CBRANCH_-1205947193'), (u'INT_SLESS_-1205946238', u'INT_EQUAL_-1205946229'), (u'INT_RIGHT_-1205947859', u'INT_OR_-1205947860'), (u'INT_ADD_-1205947904', u'MULTIEQUAL_-1205946646'), (u'INT_ADD_-1205946233', u'INT_SBORROW_-1205946116'), ('const-4', u'INT_LEFT_-1205947307'), (u'INT_AND_-1205946963', u'MULTIEQUAL_-1205946497'), (u'MULTIEQUAL_-1205945726', u'MULTIEQUAL_-1205945695'), (u'INT_EQUAL_-1205948196', u'MULTIEQUAL_-1205946174'), ('const-20', u'INT_RIGHT_-1205948220'), (u'INT_AND_-1205947465', u'INT_ZEXT_-1205947457'), (u'MULTIEQUAL_-1205945725', u'COPY_-1205945681'), (u'INT_SUB_-1205947617', u'INT_SCARRY_-1205947590'), (u'INT_LESS_-1205947129', u'MULTIEQUAL_-1205945865'), (u'MULTIEQUAL_-1205946093', u'MULTIEQUAL_-1205946066'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947024'), (u'MULTIEQUAL_-1205946646', u'INT_SCARRY_-1205947715'), (u'MULTIEQUAL_-1205946646', u'INT_ADD_-1205947717'), (u'INT_LEFT_-1205947265', u'MULTIEQUAL_-1205946125'), (u'INT_EQUAL_-1205946313', u'BOOL_AND_-1205946145'), (u'MULTIEQUAL_-1205946133', u'INT_AND_-1205946341'), ('const-2147483647', u'INT_AND_-1205946232'), (u'INT_LEFT_-1205947521', u'INT_RIGHT_-1205947367'), (u'INT_OR_-1205947368', u'MULTIEQUAL_-1205946039'), (u'INT_SUB_-1205947714', u'MULTIEQUAL_-1205945726'), (u'MULTIEQUAL_-1205945632', u'INT_LEFT_-1205947335'), ('const-0', u'RETURN_-1205946174'), ('const-0', u'INT_EQUAL_-1205946313'), (u'INT_LEFT_-1205948025', u'MULTIEQUAL_-1205946146'), (u'INT_EQUAL_-1205946265', u'BOOL_AND_-1205946098'), (u'INT_ADD_-1205946233', u'INT_SUB_-1205946213'), (u'INT_SUB_-1205947504', u'MULTIEQUAL_-1205945664'), (u'INT_AND_-1205947063', u'CAST_-1205945445'), (u'MULTIEQUAL_-1205946039', u'INT_OR_-1205946324'), (u'INT_RIGHT_-1205947163', u'INT_NEGATE_-1205947167'), ('tmp_1762', u'CBRANCH_-1205947368'), (u'INT_AND_-1205947100', u'INT_RIGHT_-1205947087'), (u'MULTIEQUAL_-1205946140', u'INT_ADD_-1205947832'), (u'MULTIEQUAL_-1205945725', u'INT_LESS_-1205947644'), (u'MULTIEQUAL_-1205946145', u'MULTIEQUAL_-1205946118'), (u'MULTIEQUAL_-1205946125', u'INT_LESSEQUAL_-1205947761'), ('const-1', u'INT_RIGHT_-1205947442'), (u'INT_EQUAL_-1205947153', u'MULTIEQUAL_-1205945879'), (u'INT_OR_-1205947279', u'MULTIEQUAL_-1205946119'), ('const-253', u'INT_SBORROW_-1205947144'), (u'INT_EQUAL_-1205947723', u'BOOL_OR_-1205946270'), ('tmp_336', u'CBRANCH_-1205948116'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947296'), (u'INT_SUB_-1205947338', u'INT_AND_-1205947268'), (u'INT_ADD_-1205947012', u'PIECE_-1205945661'), ('tmp_2094', u'BRANCH_-1205947188'), (u'INT_LEFT_-1205948102', u'INT_RIGHT_-1205948010'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947581'), ('const-0', u'SUBPIECE_-1205945597'), (u'SUBPIECE_-1205946240', u'PIECE_-1205945631'), ('const-31', u'INT_LEFT_-1205947444'), (u'INT_ADD_-1205946233', u'CAST_-1205945423'), (u'INT_SLESS_-1205947597', u'INT_EQUAL_-1205947588'), (u'INT_OR_-1205946240', u'INT_OR_-1205946144'), (u'INT_LEFT_-1205946421', u'RETURN_-1205947657'), (u'INT_RIGHT_-1205947278', u'INT_OR_-1205947279'), (u'MULTIEQUAL_-1205945932', u'INT_EQUAL_-1205947108'), (u'MULTIEQUAL_-1205946119', u'INT_RIGHT_-1205947460'), (u'INT_SCARRY_-1205946231', u'MULTIEQUAL_-1205945802'), (u'MULTIEQUAL_-1205946646', u'INT_2COMP_-1205946410'), ('tmp_6220', u'INT_RIGHT_-1205948220'), (u'INT_LEFT_-1205947307', u'MULTIEQUAL_-1205946104'), (u'MULTIEQUAL_-1205946280', u'CAST_-1205945464'), (u'INT_SUB_-1205947743', u'INT_LESS_-1205947745'), (u'INT_AND_-1205947241', u'INT_ADD_-1205947205'), ('const-1', u'INT_SUB_-1205946118'), ('const-0', u'SUBPIECE_-1205945843'), ('const-1048576', u'INT_AND_-1205946341'), (u'INT_2COMP_-1205946410', u'INT_SUB_-1205947591'), (u'INT_EQUAL_-1205945987', u'BOOL_AND_-1205948105'), (u'INT_AND_-1205946341', u'INT_EQUAL_-1205946353'), (u'COPY_-1205945651', u'MULTIEQUAL_-1205945663'), (u'MULTIEQUAL_-1205946229', u'INT_RIGHT_-1205948038'), ('tmp_625', u'CBRANCH_-1205947966'), ('const-255', u'INT_AND_-1205947120'), (u'INT_RIGHT_-1205947674', u'INT_ADD_-1205947629'), (u'INT_ADD_-1205947629', u'INT_SUB_-1205947627'), (u'INT_AND_-1205946255', u'INT_OR_-1205946240'), (u'COPY_-1205945538', u'MULTIEQUAL_-1205945563'), (u'INT_AND_-1205947033', u'INT_RIGHT_-1205947011'), (u'INT_AND_-1205947368', u'MULTIEQUAL_-1205946587'), (u'INT_SUB_-1205947640', u'INT_LESS_-1205947642'), (u'INT_ADD_-1205946233', u'INT_SUB_-1205946118'), (u'INT_OR_-1205947550', u'INT_LESSEQUAL_-1205947551'), (u'COPY_-1205946333', u'MULTIEQUAL_-1205945966'), (u'INT_NEGATE_-1205947015', u'INT_AND_-1205947012'), (u'INT_ZEXT_-1205947525', u'INT_ADD_-1205947522'), (u'INT_ZEXT_-1205947015', u'INT_ADD_-1205947012'), ('const-255', u'INT_AND_-1205947493'), (u'MULTIEQUAL_-1205946146', u'INT_SUB_-1205947855'), ('const-1791', u'INT_LESS_-1205947129'), ('const-268435456', u'INT_OR_-1205948011'), ('const-12', u'INT_LEFT_-1205948102'), (u'INT_EQUAL_-1205946353', u'CBRANCH_-1205946349'), (u'INT_EQUAL_-1205946210', u'BOOL_AND_-1205945464'), ('const-255', u'INT_AND_-1205947533'), ('const-2', u'INT_RIGHT_-1205947474'), (u'MULTIEQUAL_-1205946119', u'SUBPIECE_-1205945801'), (u'INT_LEFT_-1205947521', u'CAST_-1205946104'), (u'INT_EQUAL_-1205946172', u'BOOL_AND_-1205946097'), (u'INT_MULT_-1205947980', u'INT_LESS_-1205947862'), (u'INT_EQUAL_-1205947108', u'CBRANCH_-1205947104'), ('const-0', u'RETURN_-1205947158'), ('const-1', u'INT_RIGHT_-1205947809'), ('const-768', u'INT_ADD_-1205947147'), (u'INT_EQUAL_-1205946363', u'BOOL_AND_-1205946192'), (u'BOOL_AND_-1205946097', u'BOOL_AND_-1205946098'), (u'BOOL_OR_-1205945714', u'CBRANCH_-1205947733'), ('tmp_2226', u'CBRANCH_-1205947104'), ('const-256', u'INT_MULT_-1205947980'), (u'MULTIEQUAL_-1205946133', u'INT_AND_-1205947226'), (u'MULTIEQUAL_-1205946119', u'INT_LESS_-1205947747'), (u'COPY_-1205945642', u'MULTIEQUAL_-1205945663'), (u'INT_RIGHT_-1205948052', u'INT_OR_-1205948053'), ('const-31', u'INT_SLESS_-1205947613'), (u'INT_LEFT_-1205947335', u'INT_OR_-1205947321'), ('tmp_6216', u'MULTIEQUAL_-1205946225'), (u'PIECE_-1205945661', u'RETURN_-1205947000'), ('const-4', u'INT_LEFT_-1205947335'), (u'MULTIEQUAL_-1205946199', u'INT_RIGHT_-1205946225'), ('const-255', u'INT_AND_-1205947060'), ('const-32', u'INT_RIGHT_-1205945803'), ('tmp_235', u'CBRANCH_-1205948175'), (u'MULTIEQUAL_-1205946091', u'BOOL_NEGATE_-1205945762'), (u'INT_AND_-1205947024', u'INT_RIGHT_-1205947011'), (u'MULTIEQUAL_-1205945563', u'COPY_-1205945533'), ('const-0', u'INT_EQUAL_-1205945987'), (u'INT_LESS_-1205947745', u'BOOL_OR_-1205945714'), ('const-3', u'INT_LEFT_-1205947265'), (u'INT_ADD_-1205947548', u'INT_AND_-1205947493'), (u'INT_AND_-1205947667', u'INT_ZEXT_-1205946282'), (u'PIECE_-1205946274', u'RETURN_-1205947158'), (u'INT_RIGHT_-1205948038', u'INT_OR_-1205948039'), ('const-2047', u'COPY_-1205948262'), (u'INT_OR_-1205946240', u'INT_OR_-1205946184'), (u'SUBPIECE_-1205946240', u'INT_RIGHT_-1205947996'), ('const-12', u'INT_SCARRY_-1205947590'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947060'), ('const-31', u'INT_SRIGHT_-1205946303'), ('tmp_4092', u'CBRANCH_-1205946992'), ('const-2147483647', u'INT_AND_-1205947449'), (u'INT_ADD_-1205946233', u'INT_SBORROW_-1205946211'), (u'INT_SLESS_-1205947152', u'INT_EQUAL_-1205947741'), (u'CAST_-1205946146', u'INT_SLESS_-1205947613'), ('const-1048576', u'INT_MULT_-1205947010'), (u'INT_EQUAL_-1205946220', u'MULTIEQUAL_-1205945830'), (u'MULTIEQUAL_-1205945879', u'MULTIEQUAL_-1205946598'), (u'INT_ADD_-1205947732', u'INT_SUB_-1205947730'), (u'INT_SUB_-1205947134', u'INT_AND_-1205947080'), (u'INT_RIGHT_-1205947656', u'INT_OR_-1205947657'), ('const-0', u'INT_EQUAL_-1205947266'), (u'INT_ADD_-1205947522', u'INT_SUB_-1205947520'), (u'INT_ADD_-1205947920', u'INT_ADD_-1205947904'), ('const-2147483648', u'INT_AND_-1205946744'), (u'INT_RIGHT_-1205947047', u'INT_AND_-1205947012'), (u'INT_EQUAL_-1205948234', u'MULTIEQUAL_-1205946177'), (u'INT_2COMP_-1205946410', u'CAST_-1205946146'), (u'MULTIEQUAL_-1205946676', u'INT_LEFT_-1205947108'), (u'INT_AND_-1205948222', u'INT_SUB_-1205948150'), ('const-2146435072', u'INT_OR_-1205946711'), (u'MULTIEQUAL_-1205945694', u'COPY_-1205945651'), (u'INT_SCARRY_-1205947590', u'INT_EQUAL_-1205947588'), ('const-1', u'INT_AND_-1205947465'), (u'INT_OR_-1205947443', u'INT_SUB_-1205947397'), (u'INT_SUB_-1205948150', u'INT_ADD_-1205946233'), (u'PIECE_-1205946319', u'RETURN_-1205947362'), (u'INT_SUB_-1205947730', u'COPY_-1205945702'), (u'INT_RIGHT_-1205947674', u'INT_LESS_-1205947644'), (u'CAST_-1205946059', u'INT_SRIGHT_-1205946303'), (u'INT_AND_-1205947466', u'INT_ADD_-1205947411'), ('const-1', u'INT_AND_-1205947882'), (u'MULTIEQUAL_-1205946113', u'COPY_-1205945711'), (u'INT_OR_-1205947689', u'MULTIEQUAL_-1205946118'), (u'BOOL_AND_-1205946192', u'CBRANCH_-1205947397'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947241'), ('const-252', u'INT_LESS_-1205947153'), (u'INT_SUB_-1205947855', u'MULTIEQUAL_-1205946104'), (u'INT_ZEXT_-1205947208', u'INT_ADD_-1205947205'), (u'INT_SUB_-1205948150', u'INT_SCARRY_-1205946231'), ('const-2147483648', u'INT_AND_-1205946255'), (u'INT_SUB_-1205947338', u'INT_SUB_-1205947322'), ('const-524288', u'COPY_-1205947786'), ('const-0', u'SUBPIECE_-1205945801'), (u'INT_SUB_-1205947338', u'INT_AND_-1205947308'), (u'INT_ADD_-1205947411', u'INT_ADD_-1205947409'), (u'INT_OR_-1205948039', u'INT_LESSEQUAL_-1205947969'), (u'INT_OR_-1205947068', u'INT_RIGHT_-1205946962'), (u'BOOL_AND_-1205945502', u'CBRANCH_-1205947088'), (u'INT_LEFT_-1205947296', u'INT_AND_-1205946232'), (u'INT_RIGHT_-1205947460', u'MULTIEQUAL_-1205945938'), (u'INT_SUB_-1205947591', u'INT_SUB_-1205947338'), (u'MULTIEQUAL_-1205946662', u'INT_LEFT_-1205947068'), (u'MULTIEQUAL_-1205946125', u'INT_SUB_-1205947714'), (u'INT_ZEXT_-1205947050', u'INT_CARRY_-1205947043'), (u'MULTIEQUAL_-1205945663', u'INT_SUB_-1205947426'), ('const-32', u'INT_LEFT_-1205946057'), (u'INT_OR_-1205947582', u'MULTIEQUAL_-1205946093'), (u'INT_RIGHT_-1205946225', u'INT_ADD_-1205946233'), ('const-31', u'INT_SRIGHT_-1205946251'), (u'INT_AND_-1205947533', u'INT_LEFT_-1205947521'), (u'INT_OR_-1205947550', u'INT_RIGHT_-1205947442'), ('const-0', u'RETURN_-1205947362'), (u'INT_LESS_-1205947747', u'BOOL_OR_-1205945714'), ('const-255', u'INT_AND_-1205947268'), (u'INT_LESS_-1205947428', u'BOOL_OR_-1205945621'), (u'INT_AND_-1205946744', u'INT_OR_-1205946711'), (u'PIECE_-1205946205', u'INT_AND_-1205946264'), (u'INT_LESSEQUAL_-1205947761', u'INT_ZEXT_-1205947744'), (u'MULTIEQUAL_-1205945966', u'MULTIEQUAL_-1205946676'), ('const-4294967242', u'INT_EQUAL_-1205947723'), ('const-0', u'INT_SLESS_-1205946219'), (u'MULTIEQUAL_-1205945923', u'INT_LESSEQUAL_-1205947091'), (u'CAST_-1205945445', u'MULTIEQUAL_-1205945851'), (u'INT_OR_-1205947657', u'INT_LESSEQUAL_-1205947658'), (u'INT_ADD_-1205947409', u'PIECE_-1205946319'), (u'MULTIEQUAL_-1205945865', u'BOOL_NEGATE_-1205945519'), ('tmp_6221', u'MULTIEQUAL_-1205946223'), ('const-255', u'INT_AND_-1205947100'), (u'INT_LEFT_-1205947307', u'MULTIEQUAL_-1205945923'), (u'INT_EQUAL_-1205947108', u'BOOL_AND_-1205945502'), ('const-1', u'INT_RIGHT_-1205947877'), (u'BOOL_OR_-1205946270', u'CBRANCH_-1205947717'), ('tmp_1682', u'CBRANCH_-1205947416'), ('const-255', u'INT_AND_-1205947024'), (u'CALL_-1205948171', u'INDIRECT_-1205946231'), (u'MULTIEQUAL_-1205946066', u'MULTIEQUAL_-1205946039'), ('const-0', u'SUBPIECE_-1205945767'), (u'INT_AND_-1205946185', u'INT_EQUAL_-1205946265'), (u'MULTIEQUAL_-1205946621', u'INT_EQUAL_-1205946363'), (u'MULTIEQUAL_-1205946225', u'INT_EQUAL_-1205948179'), (u'INT_ZEXT_-1205947835', u'INT_ADD_-1205947832'), (u'BOOL_AND_-1205945525', u'CBRANCH_-1205947147'), (u'SUBPIECE_-1205945597', u'INT_AND_-1205947063'), (u'INT_LESS_-1205947153', u'BOOL_AND_-1205945525'), (u'INT_EQUAL_-1205947153', u'BOOL_NEGATE_-1205945525'), (u'INT_OR_-1205946144', u'MULTIEQUAL_-1205946662'), ('tmp_2146', u'CBRANCH_-1205947147'), ('const-2147483648', u'INT_AND_-1205947241'), (u'INT_ZEXT_-1205947632', u'INT_ADD_-1205947629'), ('const-1', u'INT_AND_-1205947572'), (u'INT_EQUAL_-1205948234', u'BOOL_NEGATE_-1205945855'), (u'INT_ADD_-1205947415', u'INT_SUB_-1205947413'), (u'INT_LESSEQUAL_-1205947551', u'BOOL_NEGATE_-1205947506'), (u'MULTIEQUAL_-1205946497', u'PIECE_-1205946205'), (u'BOOL_NEGATE_-1205947399', u'INT_ZEXT_-1205947418'), (u'INT_LESSEQUAL_-1205947444', u'BOOL_NEGATE_-1205947399'), (u'INT_RIGHT_-1205946962', u'INT_NEGATE_-1205946966'), (u'INT_2COMP_-1205946410', u'INT_AND_-1205947422'), ('const-31', u'INT_LEFT_-1205947793'), ('tmp_208', u'CBRANCH_-1205948191'), (u'MULTIEQUAL_-1205946140', u'INT_RIGHT_-1205947809'), (u'INT_CARRY_-1205947233', u'INT_ZEXT_-1205947208'), ('const-31', u'INT_LEFT_-1205947551'), ('tmp_2255', u'CBRANCH_-1205947088'), ('const-1', u'INT_AND_-1205947679'), ('const-0', u'INT_EQUAL_-1205946353'), (u'INT_ZEXT_-1205947427', u'INT_LESS_-1205947428'), (u'INT_AND_-1205946264', u'RETURN_-1205946957'), (u'INT_SUB_-1205947611', u'MULTIEQUAL_-1205945695'), (u'BOOL_NEGATE_-1205945525', u'BOOL_AND_-1205945525'), ('const-32', u'INT_ADD_-1205947548'), (u'MULTIEQUAL_-1205945694', u'INT_LESS_-1205947537'), (u'INT_EQUAL_-1205946125', u'MULTIEQUAL_-1205946598'), (u'MULTIEQUAL_-1205945664', u'INT_LESSEQUAL_-1205947444'), (u'INT_NEGATE_-1205947167', u'INT_AND_-1205947164'), ('const-31', u'INT_RIGHT_-1205947367'), (u'INT_ADD_-1205947904', u'INT_SBORROW_-1205947144'), (u'MULTIEQUAL_-1205945726', u'INT_SUB_-1205947611'), (u'INT_RIGHT_-1205947581', u'INT_OR_-1205947582'), (u'INT_SBORROW_-1205947120', u'MULTIEQUAL_-1205945851'), (u'MULTIEQUAL_-1205946676', u'INT_RIGHT_-1205947500'), (u'MULTIEQUAL_-1205945774', u'CAST_-1205945756'), (u'MULTIEQUAL_-1205946039', u'MULTIEQUAL_-1205946145'), (u'INT_RIGHT_-1205947567', u'INT_SUB_-1205947533'), (u'INT_ADD_-1205947233', u'INT_AND_-1205947164'), (u'INT_LEFT_-1205947296', u'CAST_-1205946059'), (u'MULTIEQUAL_-1205945802', u'INT_EQUAL_-1205946210'), (u'INT_CARRY_-1205947441', u'INT_ZEXT_-1205947412'), ('const-2147483647', u'INT_AND_-1205946279'), (u'INT_SCARRY_-1205947715', u'INT_NOTEQUAL_-1205947713'), ('const-32', u'INT_SUB_-1205947617'), (u'INT_OR_-1205946184', u'PIECE_-1205945631'), (u'MULTIEQUAL_-1205946039', u'MULTIEQUAL_-1205945966'), ('const-12', u'INT_LEFT_-1205948083'), (u'INT_SUB_-1205947003', u'MULTIEQUAL_-1205946497'), (u'INDIRECT_-1205946208', u'MULTIEQUAL_-1205946199'), ('const-0', u'INT_EQUAL_-1205948213'), (u'MULTIEQUAL_-1205946133', u'INT_OR_-1205946324'), ('const-31', u'INT_RIGHT_-1205946962'), (u'MULTIEQUAL_-1205946587', u'PIECE_-1205946319'), (u'INT_ZEXT_-1205946045', u'INT_LEFT_-1205946057'), (u'INT_2COMP_-1205946410', u'INT_SUB_-1205947617'), (u'BOOL_AND_-1205948105', u'CBRANCH_-1205948116'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947466'), (u'INT_LEFT_-1205947481', u'INT_OR_-1205947481'), (u'MULTIEQUAL_-1205945854', u'MULTIEQUAL_-1205945851'), ('tmp_6227', u'PIECE_-1205945805'), (u'INT_AND_-1205946242', u'INT_OR_-1205946240'), (u'BOOL_NEGATE_-1205945472', u'BOOL_AND_-1205945471'), ('const-0', u'INT_EQUAL_-1205946363'), (u'MULTIEQUAL_-1205946223', u'INT_LEFT_-1205948083'), (u'SUBPIECE_-1205946240', u'MULTIEQUAL_-1205946676'), (u'MULTIEQUAL_-1205946093', u'INT_OR_-1205947475'), (u'INT_LEFT_-1205947521', u'INT_AND_-1205946279'), ('tmp_1965', u'CBRANCH_-1205947260'), (u'MULTIEQUAL_-1205945695', u'INT_SUB_-1205947504'), (u'MULTIEQUAL_-1205946119', u'INT_ADD_-1205947732'), ('const-0', u'INT_EQUAL_-1205945988'), ('const-2147483648', u'INT_AND_-1205947466'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947667'), (u'INT_ZEXT_-1205947412', u'INT_ADD_-1205947409'), (u'MULTIEQUAL_-1205946662', u'INT_RIGHT_-1205947047'), ('tmp_6226', u'MULTIEQUAL_-1205946229'), (u'INT_LESSEQUAL_-1205947091', u'MULTIEQUAL_-1205945854'), (u'INT_LESS_-1205947537', u'BOOL_OR_-1205945652'), (u'INT_RIGHT_-1205947674', u'SUBPIECE_-1205945767'), (u'INT_ADD_-1205947147', u'INT_EQUAL_-1205947153'), (u'MULTIEQUAL_-1205946662', u'PIECE_-1205946205'), (u'INT_ZEXT_-1205947041', u'INT_ADD_-1205947038'), (u'PIECE_-1205945631', u'RETURN_-1205946174'), (u'INT_AND_-1205947080', u'INT_LEFT_-1205947068'), ('const-2147483648', u'INT_AND_-1205947968'), (u'INT_EQUAL_-1205948179', u'MULTIEQUAL_-1205946171'), (u'INT_LESS_-1205947642', u'BOOL_OR_-1205945683'), (u'INT_AND_-1205947164', u'MULTIEQUAL_-1205946544'), (u'INT_ZEXT_-1205946282', u'INT_LEFT_-1205946421'), (u'SUBPIECE_-1205946232', u'INT_XOR_-1205948136'), (u'INT_LEFT_-1205947265', u'MULTIEQUAL_-1205945944'), (u'MULTIEQUAL_-1205946223', u'INT_XOR_-1205948136'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205946744'), (u'BOOL_NEGATE_-1205945465', u'BOOL_AND_-1205945464'), (u'INT_LESS_-1205947153', u'MULTIEQUAL_-1205945865'), (u'INT_SUB_-1205946118', u'INT_EQUAL_-1205946125'), (u'INT_SLESS_-1205947722', u'INT_NOTEQUAL_-1205947713'), (u'INT_OR_-1205947997', u'INT_SUB_-1205947830'), ('const-255', u'INT_AND_-1205947080'), (u'INT_AND_-1205948222', u'INT_EQUAL_-1205948234'), ('const-0', u'INT_EQUAL_-1205946362'), (u'PIECE_-1205945805', u'MULTIEQUAL_-1205945774'), (u'MULTIEQUAL_-1205946229', u'INT_RIGHT_-1205945726'), (u'INT_NOTEQUAL_-1205947237', u'CBRANCH_-1205947234'), ('const-0', u'INT_EQUAL_-1205946172'), (u'INT_EQUAL_-1205945609', u'BOOL_AND_-1205945502'), ('tmp_3204', u'CBRANCH_-1205947397'), ('const-255', u'INT_AND_-1205947288'), (u'INT_AND_-1205947572', u'INT_ZEXT_-1205947564'), (u'INDIRECT_-1205946231', u'MULTIEQUAL_-1205946223'), (u'BOOL_AND_-1205945471', u'CBRANCH_-1205946232'), (u'BOOL_AND_-1205946145', u'CBRANCH_-1205947193'), (u'INT_SUB_-1205948150', u'INT_ADD_-1205947920'), ('const-2047', u'INT_EQUAL_-1205948179'), (u'INT_LESSEQUAL_-1205947658', u'BOOL_NEGATE_-1205947613'), (u'INT_ZEXT_-1205947923', u'INT_ADD_-1205947920'), (u'INT_ADD_-1205947014', u'INT_ADD_-1205947012'), (u'MULTIEQUAL_-1205946066', u'INT_OR_-1205947368'), (u'INT_OR_-1205947205', u'MULTIEQUAL_-1205946133'), ('tmp_2458', u'CBRANCH_-1205947745'), (u'MULTIEQUAL_-1205946225', u'INT_SUB_-1205948150'), ('const-2147483647', u'INT_AND_-1205946185'), (u'BOOL_OR_-1205945683', u'CBRANCH_-1205947630'), (u'INT_LESSEQUAL_-1205947551', u'INT_ZEXT_-1205947534'), (u'MULTIEQUAL_-1205946229', u'INT_LEFT_-1205948025'), (u'INT_SUB_-1205947520', u'COPY_-1205945642'), (u'INT_ZEXT_-1205947671', u'INT_LEFT_-1205947658'), (u'INT_EQUAL_-1205947129', u'MULTIEQUAL_-1205945879'), (u'INT_ZEXT_-1205947534', u'INT_LESS_-1205947535'), ('const-2147483648', u'INT_AND_-1205947667'), (u'INT_XOR_-1205948136', u'INT_AND_-1205946255'), (u'MULTIEQUAL_-1205945944', u'INT_LESSEQUAL_-1205947091'), (u'INT_LESS_-1205947644', u'BOOL_OR_-1205945683'), ('const-0', u'SUBPIECE_-1205946232'), ('const-54', u'INT_SCARRY_-1205947715'), (u'MULTIEQUAL_-1205945725', u'INT_SUB_-1205947627'), (u'INT_EQUAL_-1205947970', u'CBRANCH_-1205947966'), ('tmp_2724', u'CBRANCH_-1205947620'), (u'INT_LESSEQUAL_-1205947107', u'MULTIEQUAL_-1205945854'), (u'INT_AND_-1205947288', u'INT_RIGHT_-1205947275'), (u'CALL_-1205948171', u'INDIRECT_-1205946208'), (u'BOOL_AND_-1205947712', u'CBRANCH_-1205947745'), (u'INT_RIGHT_-1205945726', u'SUBPIECE_-1205945864'), (u'INT_SUB_-1205947617', u'INT_AND_-1205947100'), (u'BOOL_NEGATE_-1205945855', u'CBRANCH_-1205948229'), (u'COPY_-1205945621', u'MULTIEQUAL_-1205945632'), (u'CAST_-1205946013', u'INT_SRIGHT_-1205946251'), ('const-24', u'INT_RIGHT_-1205945726'), (u'MULTIEQUAL_-1205945966', u'INT_ADD_-1205947038'), (u'MULTIEQUAL_-1205946662', u'INT_AND_-1205947033'), ('const-0', u'INT_EQUAL_-1205946265'), ('const-1792', u'INT_EQUAL_-1205947129'), (u'INT_OR_-1205948039', u'MULTIEQUAL_-1205946140'), (u'MULTIEQUAL_-1205945851', u'INT_ZEXT_-1205947041'), ('const-1792', u'INT_SBORROW_-1205947120'), (u'INT_OR_-1205947481', u'INT_CARRY_-1205947441'), (u'INT_OR_-1205947481', u'INT_ADD_-1205947441'), ('tmp_4584', u'CBRANCH_-1205946213'), (u'INT_ADD_-1205947920', u'INT_SUB_-1205947122'), (u'MULTIEQUAL_-1205946174', u'BOOL_NEGATE_-1205945845'), (u'INT_OR_-1205947443', u'INT_LESSEQUAL_-1205947444'), ('const-0', u'INT_EQUAL_-1205946314'), (u'INT_RIGHT_-1205947087', u'INT_OR_-1205947068'), (u'INT_OR_-1205947443', u'MULTIEQUAL_-1205945944'), ('const-1021', u'INT_ADD_-1205947904'), (u'COPY_-1205945672', u'MULTIEQUAL_-1205945694'), (u'INT_OR_-1205947792', u'MULTIEQUAL_-1205946125'), ('const-31', u'INT_LEFT_-1205947861'), ('const-1', u'INT_RIGHT_-1205947859'), ('const-0', u'COPY_-1205947216'), (u'BOOL_NEGATE_-1205945519', u'BOOL_OR_-1205945517'), (u'INT_OR_-1205947997', u'INT_LESSEQUAL_-1205947969'), (u'INT_LEFT_-1205948025', u'INT_RIGHT_-1205947859'), (u'INT_AND_-1205947120', u'INT_LEFT_-1205947108'), (u'INT_RIGHT_-1205947996', u'INT_OR_-1205947997'), (u'INT_ADD_-1205947233', u'MULTIEQUAL_-1205946544'), ('const-0', u'INT_SLESS_-1205947722'), (u'INT_AND_-1205947226', u'INT_NOTEQUAL_-1205947237'), (u'MULTIEQUAL_-1205946094', u'INT_OR_-1205947689'), (u'INT_ZEXT_-1205947457', u'INT_LEFT_-1205947444'), (u'MULTIEQUAL_-1205946094', u'INT_RIGHT_-1205947250'), (u'INT_LEFT_-1205947108', u'INT_EQUAL_-1205946171'), (u'MULTIEQUAL_-1205945664', u'INT_SUB_-1205947397'), ('const-8', u'INT_LEFT_-1205948025'), (u'COPY_-1205947200', u'MULTIEQUAL_-1205946094'), (u'INT_RIGHT_-1205946225', u'INT_SCARRY_-1205946231'), (u'INT_SCARRY_-1205946231', u'INT_EQUAL_-1205946229'), (u'SUBPIECE_-1205945733', u'INT_AND_-1205947465'), (u'MULTIEQUAL_-1205946140', u'SUBPIECE_-1205945843'), ('const-0', u'INT_NOTEQUAL_-1205947597'), (u'MULTIEQUAL_-1205946146', u'INT_RIGHT_-1205947791'), (u'INT_ZEXT_-1205947735', u'INT_ADD_-1205947732'), ('tmp_6220', u'PIECE_-1205945805'), (u'INT_ADD_-1205947904', u'INT_LESS_-1205947153'), (u'MULTIEQUAL_-1205945844', u'INT_EQUAL_-1205946210'), (u'INT_LEFT_-1205947861', u'INT_OR_-1205947860'), (u'BOOL_NEGATE_-1205947716', u'INT_ZEXT_-1205947735'), (u'INT_AND_-1205947679', u'INT_ZEXT_-1205947671'), (u'INT_SUB_-1205947413', u'COPY_-1205945612'), ('const-0', u'RETURN_-1205946690'), (u'INT_OR_-1205948039', u'INT_RIGHT_-1205947877'), (u'INT_RIGHT_-1205947460', u'INT_LESS_-1205947430'), (u'INT_LESS_-1205947862', u'INT_ZEXT_-1205947835'), (u'COPY_-1205947802', u'MULTIEQUAL_-1205946145'), (u'INT_OR_-1205947657', u'INT_RIGHT_-1205947549'), (u'INT_AND_-1205947882', u'INT_ZEXT_-1205947874'), ('tmp_1092', u'CBRANCH_-1205947733'), (u'MULTIEQUAL_-1205946104', u'INT_LESSEQUAL_-1205947761'), (u'MULTIEQUAL_-1205945923', u'INT_EQUAL_-1205945609'), (u'INT_AND_-1205947012', u'INT_SUB_-1205947003'), ('const-31', u'INT_LEFT_-1205947658'), (u'INT_RIGHT_-1205947674', u'INT_SUB_-1205947640')]
| null | null |
0001b074
|
arm
|
O2
|
(translation_unit "ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}\n\n" (function_definition "ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" type_identifier (function_declarator "FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)" identifier (parameter_list "(undefined4 param_1,uint param_2,uint param_3,uint param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "uint param_2" type_identifier identifier) , (parameter_declaration "uint param_3" type_identifier identifier) , (parameter_declaration "uint param_4" type_identifier identifier) ))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (declaration "uint uVar11;" type_identifier identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "bool bVar13;" primitive_type identifier ;) (declaration "bool bVar14;" primitive_type identifier ;) (declaration "bool bVar15;" primitive_type identifier ;) (declaration "undefined8 uVar16;" type_identifier identifier ;) (expression_statement "uVar16 = CONCAT44(param_2,param_1);" (assignment_expression "uVar16 = CONCAT44(param_2,param_1)" identifier = (call_expression "CONCAT44(param_2,param_1)" identifier (argument_list "(param_2,param_1)" ( identifier , identifier )))) ;) (expression_statement "uVar11 = 0x7ff;" (assignment_expression "uVar11 = 0x7ff" identifier = number_literal) ;) (expression_statement "uVar6 = param_2 >> 0x14 & 0x7ff;" (assignment_expression "uVar6 = param_2 >> 0x14 & 0x7ff" identifier = (binary_expression "param_2 >> 0x14 & 0x7ff" (binary_expression "param_2 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = uVar6 == 0;" (assignment_expression "bVar13 = uVar6 == 0" identifier = (binary_expression "uVar6 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" { (expression_statement "unaff_r5 = param_4 >> 0x14 & 0x7ff;" (assignment_expression "unaff_r5 = param_4 >> 0x14 & 0x7ff" identifier = (binary_expression "param_4 >> 0x14 & 0x7ff" (binary_expression "param_4 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = unaff_r5 == 0;" (assignment_expression "bVar13 = unaff_r5 == 0" identifier = (binary_expression "unaff_r5 == 0" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = uVar6 == 0x7ff;\n }" { (expression_statement "bVar13 = uVar6 == 0x7ff;" (assignment_expression "bVar13 = uVar6 == 0x7ff" identifier = (binary_expression "uVar6 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = unaff_r5 == 0x7ff;\n }" { (expression_statement "bVar13 = unaff_r5 == 0x7ff;" (assignment_expression "bVar13 = unaff_r5 == 0x7ff" identifier = (binary_expression "unaff_r5 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (bVar13) {\n uVar16 = FUN_0001b208();\n }" if (parenthesized_expression "(bVar13)" ( identifier )) (compound_statement "{\n uVar16 = FUN_0001b208();\n }" { (expression_statement "uVar16 = FUN_0001b208();" (assignment_expression "uVar16 = FUN_0001b208()" identifier = (call_expression "FUN_0001b208()" identifier (argument_list "()" ( )))) ;) })) (expression_statement "uVar8 = (uint)((ulonglong)uVar16 >> 0x20);" (assignment_expression "uVar8 = (uint)((ulonglong)uVar16 >> 0x20)" identifier = (call_expression "(uint)((ulonglong)uVar16 >> 0x20)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((ulonglong)uVar16 >> 0x20)" ( (binary_expression "(ulonglong)uVar16 >> 0x20" (cast_expression "(ulonglong)uVar16" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "uVar2 = (uint)uVar16;" (assignment_expression "uVar2 = (uint)uVar16" identifier = (cast_expression "(uint)uVar16" ( (type_descriptor "uint" type_identifier) ) identifier)) ;) (expression_statement "iVar7 = uVar6 - unaff_r5;" (assignment_expression "iVar7 = uVar6 - unaff_r5" identifier = (binary_expression "uVar6 - unaff_r5" identifier - identifier)) ;) (if_statement "if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" if (parenthesized_expression "(param_3 == 0 && (param_4 & 0xfffff) == 0)" ( (binary_expression "param_3 == 0 && (param_4 & 0xfffff) == 0" (binary_expression "param_3 == 0" identifier == number_literal) && (binary_expression "(param_4 & 0xfffff) == 0" (parenthesized_expression "(param_4 & 0xfffff)" ( (binary_expression "param_4 & 0xfffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }" { (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal) | (binary_expression "uVar8 & 0xfffff" identifier & number_literal))) ;) (expression_statement "bVar14 = SCARRY4(iVar7,uVar11 >> 1);" (assignment_expression "bVar14 = SCARRY4(iVar7,uVar11 >> 1)" identifier = (call_expression "SCARRY4(iVar7,uVar11 >> 1)" identifier (argument_list "(iVar7,uVar11 >> 1)" ( identifier , (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "uVar8 = iVar7 + (uVar11 >> 1);" (assignment_expression "uVar8 = iVar7 + (uVar11 >> 1)" identifier = (binary_expression "iVar7 + (uVar11 >> 1)" identifier + (parenthesized_expression "(uVar11 >> 1)" ( (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "bVar13 = (int)uVar8 < 0;" (assignment_expression "bVar13 = (int)uVar8 < 0" identifier = (binary_expression "(int)uVar8 < 0" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal)) ;) (expression_statement "bVar15 = uVar8 == 0;" (assignment_expression "bVar15 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" { (expression_statement "bVar14 = SBORROW4(uVar11,uVar8);" (assignment_expression "bVar14 = SBORROW4(uVar11,uVar8)" identifier = (call_expression "SBORROW4(uVar11,uVar8)" identifier (argument_list "(uVar11,uVar8)" ( identifier , identifier )))) ;) (expression_statement "bVar13 = (int)(uVar11 - uVar8) < 0;" (assignment_expression "bVar13 = (int)(uVar11 - uVar8) < 0" identifier = (binary_expression "(int)(uVar11 - uVar8) < 0" (cast_expression "(int)(uVar11 - uVar8)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar11 - uVar8)" ( (binary_expression "uVar11 - uVar8" identifier - identifier) ))) < number_literal)) ;) (expression_statement "bVar15 = uVar11 == uVar8;" (assignment_expression "bVar15 = uVar11 == uVar8" identifier = (binary_expression "uVar11 == uVar8" identifier == identifier)) ;) })) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" { (return_statement "return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);" return (call_expression "CONCAT44(uVar6 | uVar8 * 0x100000,uVar2)" identifier (argument_list "(uVar6 | uVar8 * 0x100000,uVar2)" ( (binary_expression "uVar6 | uVar8 * 0x100000" identifier | (binary_expression "uVar8 * 0x100000" identifier * number_literal)) , identifier ))) ;) })) (expression_statement "uVar6 = uVar6 | 0x100000;" (assignment_expression "uVar6 = uVar6 | 0x100000" identifier = (binary_expression "uVar6 | 0x100000" identifier | number_literal)) ;) (expression_statement "uVar4 = 0;" (assignment_expression "uVar4 = 0" identifier = number_literal) ;) (expression_statement "bVar15 = SBORROW4(uVar8,1);" (assignment_expression "bVar15 = SBORROW4(uVar8,1)" identifier = (call_expression "SBORROW4(uVar8,1)" identifier (argument_list "(uVar8,1)" ( identifier , number_literal )))) ;) (expression_statement "uVar8 = uVar8 - 1;" (assignment_expression "uVar8 = uVar8 - 1" identifier = (binary_expression "uVar8 - 1" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar8 == 0;" (assignment_expression "bVar13 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar8;" (assignment_expression "uVar11 = uVar8" identifier = identifier) ;) }) (else_clause "else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" else (compound_statement "{\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" { (expression_statement "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;" (assignment_expression "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" identifier = (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000" (binary_expression "(param_4 << 0xc) >> 4" (parenthesized_expression "(param_4 << 0xc)" ( (binary_expression "param_4 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "param_3 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar11 = param_3 << 8;" (assignment_expression "uVar11 = param_3 << 8" identifier = (binary_expression "param_3 << 8" identifier << number_literal)) ;) (expression_statement "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;" (assignment_expression "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" identifier = (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000" (binary_expression "(uVar8 << 0xc) >> 4" (parenthesized_expression "(uVar8 << 0xc)" ( (binary_expression "uVar8 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "uVar2 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar2 = uVar2 * 0x100;" (assignment_expression "uVar2 = uVar2 * 0x100" identifier = (binary_expression "uVar2 * 0x100" identifier * number_literal)) ;) (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal)) ;) (expression_statement "bVar13 = uVar4 <= uVar9;" (assignment_expression "bVar13 = uVar4 <= uVar9" identifier = (binary_expression "uVar4 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }" if (parenthesized_expression "(uVar9 == uVar4)" ( (binary_expression "uVar9 == uVar4" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar11 <= uVar2;\n }" { (expression_statement "bVar13 = uVar11 <= uVar2;" (assignment_expression "bVar13 = uVar11 <= uVar2" identifier = (binary_expression "uVar11 <= uVar2" identifier <= identifier)) ;) })) (expression_statement "iVar7 = iVar7 + (uint)bVar13;" (assignment_expression "iVar7 = iVar7 + (uint)bVar13" identifier = (binary_expression "iVar7 + (uint)bVar13" identifier + (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) ;) (expression_statement "uVar8 = iVar7 + 0x3fd;" (assignment_expression "uVar8 = iVar7 + 0x3fd" identifier = (binary_expression "iVar7 + 0x3fd" identifier + number_literal)) ;) (if_statement "if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" { (expression_statement "uVar4 = uVar4 >> 1;" (assignment_expression "uVar4 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f" (call_expression "(uint)((byte)(param_3 >> 0x18) & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)(param_3 >> 0x18) & 1)" ( (binary_expression "(byte)(param_3 >> 0x18) & 1" (call_expression "(byte)(param_3 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(param_3 >> 0x18)" ( (binary_expression "param_3 >> 0x18" identifier >> number_literal) ))) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) })) (expression_statement "uVar10 = uVar2 - uVar11;" (assignment_expression "uVar10 = uVar2 - uVar11" identifier = (binary_expression "uVar2 - uVar11" identifier - identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));" (assignment_expression "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11))" identifier = (binary_expression "uVar9 - (uVar4 + (uVar2 < uVar11))" identifier - (parenthesized_expression "(uVar4 + (uVar2 < uVar11))" ( (binary_expression "uVar4 + (uVar2 < uVar11)" identifier + (parenthesized_expression "(uVar2 < uVar11)" ( (binary_expression "uVar2 < uVar11" identifier < identifier) ))) )))) ;) (expression_statement "uVar5 = uVar4 >> 1;" (assignment_expression "uVar5 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar2 = 0x100000;" (assignment_expression "uVar2 = 0x100000" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000;" (assignment_expression "uVar11 = 0x80000" identifier = number_literal) ;) (while_statement "while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11;" (assignment_expression "uVar2 = uVar2 | uVar11" identifier = (binary_expression "uVar2 | uVar11" identifier | identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar5 >> 1;" (assignment_expression "uVar4 = uVar5 >> 1" identifier = (binary_expression "uVar5 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f" (call_expression "(uint)((byte)uVar5 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar5 & 1)" ( (binary_expression "(byte)uVar5 & 1" (cast_expression "(byte)uVar5" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" if (parenthesized_expression "(uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13)" ( (binary_expression "uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar4 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar9 - uVar4" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 1;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 1" identifier = (binary_expression "uVar2 | uVar11 >> 1" identifier | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar4 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar4 + !bVar13)" identifier - (parenthesized_expression "(uVar4 + !bVar13)" ( (binary_expression "uVar4 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar12 = uVar5 >> 2;" (assignment_expression "uVar12 = uVar5 >> 2" identifier = (binary_expression "uVar5 >> 2" identifier >> number_literal)) ;) (expression_statement "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar1 <= uVar10;" (assignment_expression "bVar13 = uVar1 <= uVar10" identifier = (binary_expression "uVar1 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" if (parenthesized_expression "(uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13)" ( (binary_expression "uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar12 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar9 - uVar12" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar1;" (assignment_expression "uVar10 = uVar10 - uVar1" identifier = (binary_expression "uVar10 - uVar1" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 2;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 2" identifier = (binary_expression "uVar2 | uVar11 >> 2" identifier | (binary_expression "uVar11 >> 2" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar12 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar12 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar12 + !bVar13)" identifier - (parenthesized_expression "(uVar12 + !bVar13)" ( (binary_expression "uVar12 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar5 = uVar5 >> 3;" (assignment_expression "uVar5 = uVar5 >> 3" identifier = (binary_expression "uVar5 >> 3" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" identifier = (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f" (call_expression "(uint)((byte)uVar12 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar12 & 1)" ( (binary_expression "(byte)uVar12 & 1" (cast_expression "(byte)uVar12" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar1 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 3;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 3" identifier = (binary_expression "uVar2 | uVar11 >> 3" identifier | (binary_expression "uVar11 >> 3" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar9 | uVar10;" (assignment_expression "uVar4 = uVar9 | uVar10" identifier = (binary_expression "uVar9 | uVar10" identifier | identifier)) ;) (if_statement "if (uVar4 == 0) break;" if (parenthesized_expression "(uVar4 == 0)" ( (binary_expression "uVar4 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "uVar9 = uVar9 << 4 | uVar10 >> 0x1c;" (assignment_expression "uVar9 = uVar9 << 4 | uVar10 >> 0x1c" identifier = (binary_expression "uVar9 << 4 | uVar10 >> 0x1c" (binary_expression "uVar9 << 4" identifier << number_literal) | (binary_expression "uVar10 >> 0x1c" identifier >> number_literal))) ;) (expression_statement "uVar10 = uVar10 << 4;" (assignment_expression "uVar10 = uVar10 << 4" identifier = (binary_expression "uVar10 << 4" identifier << number_literal)) ;) (expression_statement "uVar5 = uVar5 << 3 | uVar3 >> 0x1d;" (assignment_expression "uVar5 = uVar5 << 3 | uVar3 >> 0x1d" identifier = (binary_expression "uVar5 << 3 | uVar3 >> 0x1d" (binary_expression "uVar5 << 3" identifier << number_literal) | (binary_expression "uVar3 >> 0x1d" identifier >> number_literal))) ;) (expression_statement "uVar3 = (uVar1 >> 1) << 3;" (assignment_expression "uVar3 = (uVar1 >> 1) << 3" identifier = (binary_expression "(uVar1 >> 1) << 3" (parenthesized_expression "(uVar1 >> 1)" ( (binary_expression "uVar1 >> 1" identifier >> number_literal) )) << number_literal)) ;) (expression_statement "uVar11 = uVar11 >> 4;" (assignment_expression "uVar11 = uVar11 >> 4" identifier = (binary_expression "uVar11 >> 4" identifier >> number_literal)) ;) (if_statement "if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" if (parenthesized_expression "(uVar11 == 0)" ( (binary_expression "uVar11 == 0" identifier == number_literal) )) (compound_statement "{\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" { (if_statement "if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;" if (parenthesized_expression "((uVar6 & 0x100000) != 0)" ( (binary_expression "(uVar6 & 0x100000) != 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) != number_literal) )) (goto_statement "goto LAB_0001b1b4;" goto statement_identifier ;)) (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000000;" (assignment_expression "uVar11 = 0x80000000" identifier = number_literal) ;) })) })) (if_statement "if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" if (parenthesized_expression "((uVar6 & 0x100000) == 0)" ( (binary_expression "(uVar6 & 0x100000) == 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" { (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) })) (labeled_statement "LAB_0001b1b4:\n bVar14 = 0xfc < uVar8;" statement_identifier : (expression_statement "bVar14 = 0xfc < uVar8;" (assignment_expression "bVar14 = 0xfc < uVar8" identifier = (binary_expression "0xfc < uVar8" number_literal < identifier)) ;)) (expression_statement "bVar15 = SBORROW4(uVar8,0xfd);" (assignment_expression "bVar15 = SBORROW4(uVar8,0xfd)" identifier = (call_expression "SBORROW4(uVar8,0xfd)" identifier (argument_list "(uVar8,0xfd)" ( identifier , number_literal )))) ;) (expression_statement "uVar12 = iVar7 + 0x300;" (assignment_expression "uVar12 = iVar7 + 0x300" identifier = (binary_expression "iVar7 + 0x300" identifier + number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0;" (assignment_expression "bVar13 = uVar12 == 0" identifier = (binary_expression "uVar12 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar12;" (assignment_expression "uVar11 = uVar12" identifier = identifier) ;) (if_statement "if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" if (parenthesized_expression "(bVar14 && !bVar13)" ( (binary_expression "bVar14 && !bVar13" identifier && (unary_expression "!bVar13" ! identifier)) )) (compound_statement "{\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" { (expression_statement "bVar14 = 0x6ff < uVar12;" (assignment_expression "bVar14 = 0x6ff < uVar12" identifier = (binary_expression "0x6ff < uVar12" number_literal < identifier)) ;) (expression_statement "bVar15 = SBORROW4(uVar12,0x700);" (assignment_expression "bVar15 = SBORROW4(uVar12,0x700)" identifier = (call_expression "SBORROW4(uVar12,0x700)" identifier (argument_list "(uVar12,0x700)" ( identifier , number_literal )))) ;) (expression_statement "uVar11 = iVar7 - 0x400;" (assignment_expression "uVar11 = iVar7 - 0x400" identifier = (binary_expression "iVar7 - 0x400" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0x700;" (assignment_expression "bVar13 = uVar12 == 0x700" identifier = (binary_expression "uVar12 == 0x700" identifier == number_literal)) ;) })) (if_statement "if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" if (parenthesized_expression "(!bVar14 || bVar13)" ( (binary_expression "!bVar14 || bVar13" (unary_expression "!bVar14" ! identifier) || identifier) )) (compound_statement "{\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" { (expression_statement "bVar13 = uVar5 <= uVar9;" (assignment_expression "bVar13 = uVar5 <= uVar9" identifier = (binary_expression "uVar5 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }" if (parenthesized_expression "(uVar9 == uVar5)" ( (binary_expression "uVar9 == uVar5" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) })) (if_statement "if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }" if (parenthesized_expression "(uVar9 == uVar5 && uVar10 == uVar3)" ( (binary_expression "uVar9 == uVar5 && uVar10 == uVar3" (binary_expression "uVar9 == uVar5" identifier == identifier) && (binary_expression "uVar10 == uVar3" identifier == identifier)) )) (compound_statement "{\n bVar13 = (bool)((byte)uVar2 & 1);\n }" { (expression_statement "bVar13 = (bool)((byte)uVar2 & 1);" (assignment_expression "bVar13 = (bool)((byte)uVar2 & 1)" identifier = (cast_expression "(bool)((byte)uVar2 & 1)" ( (type_descriptor "bool" primitive_type) ) (parenthesized_expression "((byte)uVar2 & 1)" ( (binary_expression "(byte)uVar2 & 1" (cast_expression "(byte)uVar2" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) )))) ;) })) (return_statement "return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);" return (call_expression "CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" identifier (argument_list "(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" ( (binary_expression "uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13)" (binary_expression "uVar6 + uVar8 * 0x100000" identifier + (binary_expression "uVar8 * 0x100000" identifier * number_literal)) + (cast_expression "(uint)CARRY4(uVar2,(uint)bVar13)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,(uint)bVar13)" identifier (argument_list "(uVar2,(uint)bVar13)" ( identifier , (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier) ))))) , (binary_expression "uVar2 + bVar13" identifier + identifier) ))) ;) })) }))) (if_statement "if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" if (parenthesized_expression "(!bVar13 && (int)uVar11 < 0 == bVar15)" ( (binary_expression "!bVar13 && (int)uVar11 < 0 == bVar15" (unary_expression "!bVar13" ! identifier) && (binary_expression "(int)uVar11 < 0 == bVar15" (binary_expression "(int)uVar11 < 0" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal) == identifier)) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000 | 0x7ff00000)" ( (binary_expression "uVar6 & 0x80000000 | 0x7ff00000" (binary_expression "uVar6 & 0x80000000" identifier & number_literal) | number_literal) ))) << number_literal) ;) })) (if_statement "if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" if (parenthesized_expression "(uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36))" ( (binary_expression "uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "uVar8 == 0xffffffca" identifier == number_literal) || (binary_expression "(int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "(int)(uVar8 + 0x36) < 0" (cast_expression "(int)(uVar8 + 0x36)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar8 + 0x36)" ( (binary_expression "uVar8 + 0x36" identifier + number_literal) ))) < number_literal) != (call_expression "SCARRY4(uVar8,0x36)" identifier (argument_list "(uVar8,0x36)" ( identifier , number_literal ))))) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) ))) << number_literal) ;) })) (expression_statement "uVar11 = -uVar8;" (assignment_expression "uVar11 = -uVar8" identifier = (unary_expression "-uVar8" - identifier)) ;) (expression_statement "uVar9 = uVar11 - 0x20;" (assignment_expression "uVar9 = uVar11 - 0x20" identifier = (binary_expression "uVar11 - 0x20" identifier - number_literal)) ;) (if_statement "if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" if (parenthesized_expression "(0x1f < (int)uVar11)" ( (binary_expression "0x1f < (int)uVar11" number_literal < (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier)) )) (compound_statement "{\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" { (expression_statement "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);" (assignment_expression "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" (binary_expression "uVar2 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))))) ;) (expression_statement "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);" (assignment_expression "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" identifier = (binary_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" (parenthesized_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff)))" ( (binary_expression "uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (binary_expression "uVar6 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) & (unary_expression "~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ~ (parenthesized_expression "((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ( (binary_expression "(uVar6 & 0x80000000) >> (uVar9 & 0xff)" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) )))) )) - (parenthesized_expression "((int)uVar8 >> 0x1f)" ( (binary_expression "(int)uVar8 >> 0x1f" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) )))) ;) (if_statement "if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" if (parenthesized_expression "((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0)" ( (binary_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0)" ( (binary_expression "uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar2 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))) == number_literal)) )) && (binary_expression "(uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar8 & 0x7fffffff)" ( (binary_expression "uVar8 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" { (expression_statement "uVar11 = uVar11 & ~(uVar8 >> 0x1f);" (assignment_expression "uVar11 = uVar11 & ~(uVar8 >> 0x1f)" identifier = (binary_expression "uVar11 & ~(uVar8 >> 0x1f)" identifier & (unary_expression "~(uVar8 >> 0x1f)" ~ (parenthesized_expression "(uVar8 >> 0x1f)" ( (binary_expression "uVar8 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;" return (binary_expression "CONCAT44(uVar6,uVar11) & 0x80000000ffffffff" (call_expression "CONCAT44(uVar6,uVar11)" identifier (argument_list "(uVar6,uVar11)" ( identifier , identifier ))) & number_literal) ;) })) (expression_statement "iVar7 = uVar11 - 0x14;" (assignment_expression "iVar7 = uVar11 - 0x14" identifier = (binary_expression "uVar11 - 0x14" identifier - number_literal)) ;) (if_statement "if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" if (parenthesized_expression "(iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc))" ( (binary_expression "iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 != 0" identifier != number_literal) && (binary_expression "iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 < 0" identifier < number_literal) == (call_expression "SCARRY4(uVar9,0xc)" identifier (argument_list "(uVar9,0xc)" ( identifier , number_literal ))))) )) (compound_statement "{\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" { (expression_statement "uVar8 = 0xc - iVar7;" (assignment_expression "uVar8 = 0xc - iVar7" identifier = (binary_expression "0xc - iVar7" number_literal - identifier)) ;) (expression_statement "uVar11 = uVar2 << (uVar8 & 0xff);" (assignment_expression "uVar11 = uVar2 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff)" identifier >> (parenthesized_expression "(0x20 - uVar8 & 0xff)" ( (binary_expression "0x20 - uVar8 & 0xff" (binary_expression "0x20 - uVar8" number_literal - identifier) & number_literal) ))) | (binary_expression "uVar6 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar11 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar11 >> 0x1f)" identifier + (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar11 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar11 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar11 & 0x7fffffff) == 0" (parenthesized_expression "(uVar11 & 0x7fffffff)" ( (binary_expression "uVar11 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar11 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar11 >> 0x1f)" identifier & (unary_expression "~(uVar11 >> 0x1f)" ~ (parenthesized_expression "(uVar11 >> 0x1f)" ( (binary_expression "uVar11 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar11 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar11 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })) (expression_statement "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" (binary_expression "uVar2 >> (uVar11 & 0xff)" identifier >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar9 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar9 >> 0x1f)" identifier + (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar9 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar9 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar9 & 0x7fffffff) == 0" (parenthesized_expression "(uVar9 & 0x7fffffff)" ( (binary_expression "uVar9 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar9 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar9 >> 0x1f)" identifier & (unary_expression "~(uVar9 >> 0x1f)" ~ (parenthesized_expression "(uVar9 >> 0x1f)" ( (binary_expression "uVar9 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (parenthesized_expression "((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" ( (binary_expression "(uVar6 & 0x7fffffff) >> (uVar11 & 0xff)" (parenthesized_expression "(uVar6 & 0x7fffffff)" ( (binary_expression "uVar6 & 0x7fffffff" identifier & number_literal) )) >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) ))) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar9 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar9 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })))
|
(translation_unit "ulonglong __divdf3(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}\n\n" (function_definition "ulonglong __divdf3(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" type_identifier (function_declarator "__divdf3(undefined4 param_1,uint param_2,uint param_3,uint param_4)" identifier (parameter_list "(undefined4 param_1,uint param_2,uint param_3,uint param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "uint param_2" type_identifier identifier) , (parameter_declaration "uint param_3" type_identifier identifier) , (parameter_declaration "uint param_4" type_identifier identifier) ))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (declaration "uint uVar11;" type_identifier identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "bool bVar13;" primitive_type identifier ;) (declaration "bool bVar14;" primitive_type identifier ;) (declaration "bool bVar15;" primitive_type identifier ;) (declaration "undefined8 uVar16;" type_identifier identifier ;) (expression_statement "uVar16 = CONCAT44(param_2,param_1);" (assignment_expression "uVar16 = CONCAT44(param_2,param_1)" identifier = (call_expression "CONCAT44(param_2,param_1)" identifier (argument_list "(param_2,param_1)" ( identifier , identifier )))) ;) (expression_statement "uVar11 = 0x7ff;" (assignment_expression "uVar11 = 0x7ff" identifier = number_literal) ;) (expression_statement "uVar6 = param_2 >> 0x14 & 0x7ff;" (assignment_expression "uVar6 = param_2 >> 0x14 & 0x7ff" identifier = (binary_expression "param_2 >> 0x14 & 0x7ff" (binary_expression "param_2 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = uVar6 == 0;" (assignment_expression "bVar13 = uVar6 == 0" identifier = (binary_expression "uVar6 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" { (expression_statement "unaff_r5 = param_4 >> 0x14 & 0x7ff;" (assignment_expression "unaff_r5 = param_4 >> 0x14 & 0x7ff" identifier = (binary_expression "param_4 >> 0x14 & 0x7ff" (binary_expression "param_4 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = unaff_r5 == 0;" (assignment_expression "bVar13 = unaff_r5 == 0" identifier = (binary_expression "unaff_r5 == 0" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = uVar6 == 0x7ff;\n }" { (expression_statement "bVar13 = uVar6 == 0x7ff;" (assignment_expression "bVar13 = uVar6 == 0x7ff" identifier = (binary_expression "uVar6 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = unaff_r5 == 0x7ff;\n }" { (expression_statement "bVar13 = unaff_r5 == 0x7ff;" (assignment_expression "bVar13 = unaff_r5 == 0x7ff" identifier = (binary_expression "unaff_r5 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (bVar13) {\n uVar16 = FUN_0001b208();\n }" if (parenthesized_expression "(bVar13)" ( identifier )) (compound_statement "{\n uVar16 = FUN_0001b208();\n }" { (expression_statement "uVar16 = FUN_0001b208();" (assignment_expression "uVar16 = FUN_0001b208()" identifier = (call_expression "FUN_0001b208()" identifier (argument_list "()" ( )))) ;) })) (expression_statement "uVar8 = (uint)((ulonglong)uVar16 >> 0x20);" (assignment_expression "uVar8 = (uint)((ulonglong)uVar16 >> 0x20)" identifier = (call_expression "(uint)((ulonglong)uVar16 >> 0x20)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((ulonglong)uVar16 >> 0x20)" ( (binary_expression "(ulonglong)uVar16 >> 0x20" (cast_expression "(ulonglong)uVar16" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "uVar2 = (uint)uVar16;" (assignment_expression "uVar2 = (uint)uVar16" identifier = (cast_expression "(uint)uVar16" ( (type_descriptor "uint" type_identifier) ) identifier)) ;) (expression_statement "iVar7 = uVar6 - unaff_r5;" (assignment_expression "iVar7 = uVar6 - unaff_r5" identifier = (binary_expression "uVar6 - unaff_r5" identifier - identifier)) ;) (if_statement "if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" if (parenthesized_expression "(param_3 == 0 && (param_4 & 0xfffff) == 0)" ( (binary_expression "param_3 == 0 && (param_4 & 0xfffff) == 0" (binary_expression "param_3 == 0" identifier == number_literal) && (binary_expression "(param_4 & 0xfffff) == 0" (parenthesized_expression "(param_4 & 0xfffff)" ( (binary_expression "param_4 & 0xfffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }" { (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal) | (binary_expression "uVar8 & 0xfffff" identifier & number_literal))) ;) (expression_statement "bVar14 = SCARRY4(iVar7,uVar11 >> 1);" (assignment_expression "bVar14 = SCARRY4(iVar7,uVar11 >> 1)" identifier = (call_expression "SCARRY4(iVar7,uVar11 >> 1)" identifier (argument_list "(iVar7,uVar11 >> 1)" ( identifier , (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "uVar8 = iVar7 + (uVar11 >> 1);" (assignment_expression "uVar8 = iVar7 + (uVar11 >> 1)" identifier = (binary_expression "iVar7 + (uVar11 >> 1)" identifier + (parenthesized_expression "(uVar11 >> 1)" ( (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "bVar13 = (int)uVar8 < 0;" (assignment_expression "bVar13 = (int)uVar8 < 0" identifier = (binary_expression "(int)uVar8 < 0" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal)) ;) (expression_statement "bVar15 = uVar8 == 0;" (assignment_expression "bVar15 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" { (expression_statement "bVar14 = SBORROW4(uVar11,uVar8);" (assignment_expression "bVar14 = SBORROW4(uVar11,uVar8)" identifier = (call_expression "SBORROW4(uVar11,uVar8)" identifier (argument_list "(uVar11,uVar8)" ( identifier , identifier )))) ;) (expression_statement "bVar13 = (int)(uVar11 - uVar8) < 0;" (assignment_expression "bVar13 = (int)(uVar11 - uVar8) < 0" identifier = (binary_expression "(int)(uVar11 - uVar8) < 0" (cast_expression "(int)(uVar11 - uVar8)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar11 - uVar8)" ( (binary_expression "uVar11 - uVar8" identifier - identifier) ))) < number_literal)) ;) (expression_statement "bVar15 = uVar11 == uVar8;" (assignment_expression "bVar15 = uVar11 == uVar8" identifier = (binary_expression "uVar11 == uVar8" identifier == identifier)) ;) })) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" { (return_statement "return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);" return (call_expression "CONCAT44(uVar6 | uVar8 * 0x100000,uVar2)" identifier (argument_list "(uVar6 | uVar8 * 0x100000,uVar2)" ( (binary_expression "uVar6 | uVar8 * 0x100000" identifier | (binary_expression "uVar8 * 0x100000" identifier * number_literal)) , identifier ))) ;) })) (expression_statement "uVar6 = uVar6 | 0x100000;" (assignment_expression "uVar6 = uVar6 | 0x100000" identifier = (binary_expression "uVar6 | 0x100000" identifier | number_literal)) ;) (expression_statement "uVar4 = 0;" (assignment_expression "uVar4 = 0" identifier = number_literal) ;) (expression_statement "bVar15 = SBORROW4(uVar8,1);" (assignment_expression "bVar15 = SBORROW4(uVar8,1)" identifier = (call_expression "SBORROW4(uVar8,1)" identifier (argument_list "(uVar8,1)" ( identifier , number_literal )))) ;) (expression_statement "uVar8 = uVar8 - 1;" (assignment_expression "uVar8 = uVar8 - 1" identifier = (binary_expression "uVar8 - 1" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar8 == 0;" (assignment_expression "bVar13 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar8;" (assignment_expression "uVar11 = uVar8" identifier = identifier) ;) }) (else_clause "else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" else (compound_statement "{\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" { (expression_statement "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;" (assignment_expression "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" identifier = (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000" (binary_expression "(param_4 << 0xc) >> 4" (parenthesized_expression "(param_4 << 0xc)" ( (binary_expression "param_4 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "param_3 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar11 = param_3 << 8;" (assignment_expression "uVar11 = param_3 << 8" identifier = (binary_expression "param_3 << 8" identifier << number_literal)) ;) (expression_statement "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;" (assignment_expression "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" identifier = (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000" (binary_expression "(uVar8 << 0xc) >> 4" (parenthesized_expression "(uVar8 << 0xc)" ( (binary_expression "uVar8 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "uVar2 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar2 = uVar2 * 0x100;" (assignment_expression "uVar2 = uVar2 * 0x100" identifier = (binary_expression "uVar2 * 0x100" identifier * number_literal)) ;) (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal)) ;) (expression_statement "bVar13 = uVar4 <= uVar9;" (assignment_expression "bVar13 = uVar4 <= uVar9" identifier = (binary_expression "uVar4 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }" if (parenthesized_expression "(uVar9 == uVar4)" ( (binary_expression "uVar9 == uVar4" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar11 <= uVar2;\n }" { (expression_statement "bVar13 = uVar11 <= uVar2;" (assignment_expression "bVar13 = uVar11 <= uVar2" identifier = (binary_expression "uVar11 <= uVar2" identifier <= identifier)) ;) })) (expression_statement "iVar7 = iVar7 + (uint)bVar13;" (assignment_expression "iVar7 = iVar7 + (uint)bVar13" identifier = (binary_expression "iVar7 + (uint)bVar13" identifier + (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) ;) (expression_statement "uVar8 = iVar7 + 0x3fd;" (assignment_expression "uVar8 = iVar7 + 0x3fd" identifier = (binary_expression "iVar7 + 0x3fd" identifier + number_literal)) ;) (if_statement "if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" { (expression_statement "uVar4 = uVar4 >> 1;" (assignment_expression "uVar4 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f" (call_expression "(uint)((byte)(param_3 >> 0x18) & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)(param_3 >> 0x18) & 1)" ( (binary_expression "(byte)(param_3 >> 0x18) & 1" (call_expression "(byte)(param_3 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(param_3 >> 0x18)" ( (binary_expression "param_3 >> 0x18" identifier >> number_literal) ))) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) })) (expression_statement "uVar10 = uVar2 - uVar11;" (assignment_expression "uVar10 = uVar2 - uVar11" identifier = (binary_expression "uVar2 - uVar11" identifier - identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));" (assignment_expression "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11))" identifier = (binary_expression "uVar9 - (uVar4 + (uVar2 < uVar11))" identifier - (parenthesized_expression "(uVar4 + (uVar2 < uVar11))" ( (binary_expression "uVar4 + (uVar2 < uVar11)" identifier + (parenthesized_expression "(uVar2 < uVar11)" ( (binary_expression "uVar2 < uVar11" identifier < identifier) ))) )))) ;) (expression_statement "uVar5 = uVar4 >> 1;" (assignment_expression "uVar5 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar2 = 0x100000;" (assignment_expression "uVar2 = 0x100000" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000;" (assignment_expression "uVar11 = 0x80000" identifier = number_literal) ;) (while_statement "while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11;" (assignment_expression "uVar2 = uVar2 | uVar11" identifier = (binary_expression "uVar2 | uVar11" identifier | identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar5 >> 1;" (assignment_expression "uVar4 = uVar5 >> 1" identifier = (binary_expression "uVar5 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f" (call_expression "(uint)((byte)uVar5 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar5 & 1)" ( (binary_expression "(byte)uVar5 & 1" (cast_expression "(byte)uVar5" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" if (parenthesized_expression "(uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13)" ( (binary_expression "uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar4 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar9 - uVar4" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 1;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 1" identifier = (binary_expression "uVar2 | uVar11 >> 1" identifier | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar4 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar4 + !bVar13)" identifier - (parenthesized_expression "(uVar4 + !bVar13)" ( (binary_expression "uVar4 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar12 = uVar5 >> 2;" (assignment_expression "uVar12 = uVar5 >> 2" identifier = (binary_expression "uVar5 >> 2" identifier >> number_literal)) ;) (expression_statement "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar1 <= uVar10;" (assignment_expression "bVar13 = uVar1 <= uVar10" identifier = (binary_expression "uVar1 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" if (parenthesized_expression "(uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13)" ( (binary_expression "uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar12 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar9 - uVar12" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar1;" (assignment_expression "uVar10 = uVar10 - uVar1" identifier = (binary_expression "uVar10 - uVar1" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 2;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 2" identifier = (binary_expression "uVar2 | uVar11 >> 2" identifier | (binary_expression "uVar11 >> 2" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar12 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar12 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar12 + !bVar13)" identifier - (parenthesized_expression "(uVar12 + !bVar13)" ( (binary_expression "uVar12 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar5 = uVar5 >> 3;" (assignment_expression "uVar5 = uVar5 >> 3" identifier = (binary_expression "uVar5 >> 3" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" identifier = (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f" (call_expression "(uint)((byte)uVar12 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar12 & 1)" ( (binary_expression "(byte)uVar12 & 1" (cast_expression "(byte)uVar12" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar1 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 3;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 3" identifier = (binary_expression "uVar2 | uVar11 >> 3" identifier | (binary_expression "uVar11 >> 3" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar9 | uVar10;" (assignment_expression "uVar4 = uVar9 | uVar10" identifier = (binary_expression "uVar9 | uVar10" identifier | identifier)) ;) (if_statement "if (uVar4 == 0) break;" if (parenthesized_expression "(uVar4 == 0)" ( (binary_expression "uVar4 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "uVar9 = uVar9 << 4 | uVar10 >> 0x1c;" (assignment_expression "uVar9 = uVar9 << 4 | uVar10 >> 0x1c" identifier = (binary_expression "uVar9 << 4 | uVar10 >> 0x1c" (binary_expression "uVar9 << 4" identifier << number_literal) | (binary_expression "uVar10 >> 0x1c" identifier >> number_literal))) ;) (expression_statement "uVar10 = uVar10 << 4;" (assignment_expression "uVar10 = uVar10 << 4" identifier = (binary_expression "uVar10 << 4" identifier << number_literal)) ;) (expression_statement "uVar5 = uVar5 << 3 | uVar3 >> 0x1d;" (assignment_expression "uVar5 = uVar5 << 3 | uVar3 >> 0x1d" identifier = (binary_expression "uVar5 << 3 | uVar3 >> 0x1d" (binary_expression "uVar5 << 3" identifier << number_literal) | (binary_expression "uVar3 >> 0x1d" identifier >> number_literal))) ;) (expression_statement "uVar3 = (uVar1 >> 1) << 3;" (assignment_expression "uVar3 = (uVar1 >> 1) << 3" identifier = (binary_expression "(uVar1 >> 1) << 3" (parenthesized_expression "(uVar1 >> 1)" ( (binary_expression "uVar1 >> 1" identifier >> number_literal) )) << number_literal)) ;) (expression_statement "uVar11 = uVar11 >> 4;" (assignment_expression "uVar11 = uVar11 >> 4" identifier = (binary_expression "uVar11 >> 4" identifier >> number_literal)) ;) (if_statement "if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" if (parenthesized_expression "(uVar11 == 0)" ( (binary_expression "uVar11 == 0" identifier == number_literal) )) (compound_statement "{\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" { (if_statement "if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;" if (parenthesized_expression "((uVar6 & 0x100000) != 0)" ( (binary_expression "(uVar6 & 0x100000) != 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) != number_literal) )) (goto_statement "goto LAB_0001b1b4;" goto statement_identifier ;)) (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000000;" (assignment_expression "uVar11 = 0x80000000" identifier = number_literal) ;) })) })) (if_statement "if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" if (parenthesized_expression "((uVar6 & 0x100000) == 0)" ( (binary_expression "(uVar6 & 0x100000) == 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" { (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) })) (labeled_statement "LAB_0001b1b4:\n bVar14 = 0xfc < uVar8;" statement_identifier : (expression_statement "bVar14 = 0xfc < uVar8;" (assignment_expression "bVar14 = 0xfc < uVar8" identifier = (binary_expression "0xfc < uVar8" number_literal < identifier)) ;)) (expression_statement "bVar15 = SBORROW4(uVar8,0xfd);" (assignment_expression "bVar15 = SBORROW4(uVar8,0xfd)" identifier = (call_expression "SBORROW4(uVar8,0xfd)" identifier (argument_list "(uVar8,0xfd)" ( identifier , number_literal )))) ;) (expression_statement "uVar12 = iVar7 + 0x300;" (assignment_expression "uVar12 = iVar7 + 0x300" identifier = (binary_expression "iVar7 + 0x300" identifier + number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0;" (assignment_expression "bVar13 = uVar12 == 0" identifier = (binary_expression "uVar12 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar12;" (assignment_expression "uVar11 = uVar12" identifier = identifier) ;) (if_statement "if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" if (parenthesized_expression "(bVar14 && !bVar13)" ( (binary_expression "bVar14 && !bVar13" identifier && (unary_expression "!bVar13" ! identifier)) )) (compound_statement "{\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" { (expression_statement "bVar14 = 0x6ff < uVar12;" (assignment_expression "bVar14 = 0x6ff < uVar12" identifier = (binary_expression "0x6ff < uVar12" number_literal < identifier)) ;) (expression_statement "bVar15 = SBORROW4(uVar12,0x700);" (assignment_expression "bVar15 = SBORROW4(uVar12,0x700)" identifier = (call_expression "SBORROW4(uVar12,0x700)" identifier (argument_list "(uVar12,0x700)" ( identifier , number_literal )))) ;) (expression_statement "uVar11 = iVar7 - 0x400;" (assignment_expression "uVar11 = iVar7 - 0x400" identifier = (binary_expression "iVar7 - 0x400" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0x700;" (assignment_expression "bVar13 = uVar12 == 0x700" identifier = (binary_expression "uVar12 == 0x700" identifier == number_literal)) ;) })) (if_statement "if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" if (parenthesized_expression "(!bVar14 || bVar13)" ( (binary_expression "!bVar14 || bVar13" (unary_expression "!bVar14" ! identifier) || identifier) )) (compound_statement "{\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" { (expression_statement "bVar13 = uVar5 <= uVar9;" (assignment_expression "bVar13 = uVar5 <= uVar9" identifier = (binary_expression "uVar5 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }" if (parenthesized_expression "(uVar9 == uVar5)" ( (binary_expression "uVar9 == uVar5" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) })) (if_statement "if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }" if (parenthesized_expression "(uVar9 == uVar5 && uVar10 == uVar3)" ( (binary_expression "uVar9 == uVar5 && uVar10 == uVar3" (binary_expression "uVar9 == uVar5" identifier == identifier) && (binary_expression "uVar10 == uVar3" identifier == identifier)) )) (compound_statement "{\n bVar13 = (bool)((byte)uVar2 & 1);\n }" { (expression_statement "bVar13 = (bool)((byte)uVar2 & 1);" (assignment_expression "bVar13 = (bool)((byte)uVar2 & 1)" identifier = (cast_expression "(bool)((byte)uVar2 & 1)" ( (type_descriptor "bool" primitive_type) ) (parenthesized_expression "((byte)uVar2 & 1)" ( (binary_expression "(byte)uVar2 & 1" (cast_expression "(byte)uVar2" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) )))) ;) })) (return_statement "return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);" return (call_expression "CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" identifier (argument_list "(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" ( (binary_expression "uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13)" (binary_expression "uVar6 + uVar8 * 0x100000" identifier + (binary_expression "uVar8 * 0x100000" identifier * number_literal)) + (cast_expression "(uint)CARRY4(uVar2,(uint)bVar13)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,(uint)bVar13)" identifier (argument_list "(uVar2,(uint)bVar13)" ( identifier , (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier) ))))) , (binary_expression "uVar2 + bVar13" identifier + identifier) ))) ;) })) }))) (if_statement "if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" if (parenthesized_expression "(!bVar13 && (int)uVar11 < 0 == bVar15)" ( (binary_expression "!bVar13 && (int)uVar11 < 0 == bVar15" (unary_expression "!bVar13" ! identifier) && (binary_expression "(int)uVar11 < 0 == bVar15" (binary_expression "(int)uVar11 < 0" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal) == identifier)) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000 | 0x7ff00000)" ( (binary_expression "uVar6 & 0x80000000 | 0x7ff00000" (binary_expression "uVar6 & 0x80000000" identifier & number_literal) | number_literal) ))) << number_literal) ;) })) (if_statement "if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" if (parenthesized_expression "(uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36))" ( (binary_expression "uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "uVar8 == 0xffffffca" identifier == number_literal) || (binary_expression "(int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "(int)(uVar8 + 0x36) < 0" (cast_expression "(int)(uVar8 + 0x36)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar8 + 0x36)" ( (binary_expression "uVar8 + 0x36" identifier + number_literal) ))) < number_literal) != (call_expression "SCARRY4(uVar8,0x36)" identifier (argument_list "(uVar8,0x36)" ( identifier , number_literal ))))) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) ))) << number_literal) ;) })) (expression_statement "uVar11 = -uVar8;" (assignment_expression "uVar11 = -uVar8" identifier = (unary_expression "-uVar8" - identifier)) ;) (expression_statement "uVar9 = uVar11 - 0x20;" (assignment_expression "uVar9 = uVar11 - 0x20" identifier = (binary_expression "uVar11 - 0x20" identifier - number_literal)) ;) (if_statement "if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" if (parenthesized_expression "(0x1f < (int)uVar11)" ( (binary_expression "0x1f < (int)uVar11" number_literal < (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier)) )) (compound_statement "{\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" { (expression_statement "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);" (assignment_expression "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" (binary_expression "uVar2 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))))) ;) (expression_statement "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);" (assignment_expression "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" identifier = (binary_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" (parenthesized_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff)))" ( (binary_expression "uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (binary_expression "uVar6 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) & (unary_expression "~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ~ (parenthesized_expression "((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ( (binary_expression "(uVar6 & 0x80000000) >> (uVar9 & 0xff)" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) )))) )) - (parenthesized_expression "((int)uVar8 >> 0x1f)" ( (binary_expression "(int)uVar8 >> 0x1f" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) )))) ;) (if_statement "if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" if (parenthesized_expression "((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0)" ( (binary_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0)" ( (binary_expression "uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar2 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))) == number_literal)) )) && (binary_expression "(uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar8 & 0x7fffffff)" ( (binary_expression "uVar8 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" { (expression_statement "uVar11 = uVar11 & ~(uVar8 >> 0x1f);" (assignment_expression "uVar11 = uVar11 & ~(uVar8 >> 0x1f)" identifier = (binary_expression "uVar11 & ~(uVar8 >> 0x1f)" identifier & (unary_expression "~(uVar8 >> 0x1f)" ~ (parenthesized_expression "(uVar8 >> 0x1f)" ( (binary_expression "uVar8 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;" return (binary_expression "CONCAT44(uVar6,uVar11) & 0x80000000ffffffff" (call_expression "CONCAT44(uVar6,uVar11)" identifier (argument_list "(uVar6,uVar11)" ( identifier , identifier ))) & number_literal) ;) })) (expression_statement "iVar7 = uVar11 - 0x14;" (assignment_expression "iVar7 = uVar11 - 0x14" identifier = (binary_expression "uVar11 - 0x14" identifier - number_literal)) ;) (if_statement "if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" if (parenthesized_expression "(iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc))" ( (binary_expression "iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 != 0" identifier != number_literal) && (binary_expression "iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 < 0" identifier < number_literal) == (call_expression "SCARRY4(uVar9,0xc)" identifier (argument_list "(uVar9,0xc)" ( identifier , number_literal ))))) )) (compound_statement "{\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" { (expression_statement "uVar8 = 0xc - iVar7;" (assignment_expression "uVar8 = 0xc - iVar7" identifier = (binary_expression "0xc - iVar7" number_literal - identifier)) ;) (expression_statement "uVar11 = uVar2 << (uVar8 & 0xff);" (assignment_expression "uVar11 = uVar2 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff)" identifier >> (parenthesized_expression "(0x20 - uVar8 & 0xff)" ( (binary_expression "0x20 - uVar8 & 0xff" (binary_expression "0x20 - uVar8" number_literal - identifier) & number_literal) ))) | (binary_expression "uVar6 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar11 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar11 >> 0x1f)" identifier + (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar11 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar11 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar11 & 0x7fffffff) == 0" (parenthesized_expression "(uVar11 & 0x7fffffff)" ( (binary_expression "uVar11 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar11 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar11 >> 0x1f)" identifier & (unary_expression "~(uVar11 >> 0x1f)" ~ (parenthesized_expression "(uVar11 >> 0x1f)" ( (binary_expression "uVar11 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar11 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar11 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })) (expression_statement "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" (binary_expression "uVar2 >> (uVar11 & 0xff)" identifier >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar9 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar9 >> 0x1f)" identifier + (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar9 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar9 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar9 & 0x7fffffff) == 0" (parenthesized_expression "(uVar9 & 0x7fffffff)" ( (binary_expression "uVar9 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar9 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar9 >> 0x1f)" identifier & (unary_expression "~(uVar9 >> 0x1f)" ~ (parenthesized_expression "(uVar9 >> 0x1f)" ( (binary_expression "uVar9 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (parenthesized_expression "((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" ( (binary_expression "(uVar6 & 0x7fffffff) >> (uVar11 & 0xff)" (parenthesized_expression "(uVar6 & 0x7fffffff)" ( (binary_expression "uVar6 & 0x7fffffff" identifier & number_literal) )) >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) ))) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar9 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar9 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })))
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(translation_unit "ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}\n\n" (function_definition "ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" type_identifier (function_declarator "FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)" identifier (parameter_list "(undefined4 param_1,uint param_2,uint param_3,uint param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "uint param_2" type_identifier identifier) , (parameter_declaration "uint param_3" type_identifier identifier) , (parameter_declaration "uint param_4" type_identifier identifier) ))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (declaration "uint uVar11;" type_identifier identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "bool bVar13;" primitive_type identifier ;) (declaration "bool bVar14;" primitive_type identifier ;) (declaration "bool bVar15;" primitive_type identifier ;) (declaration "undefined8 uVar16;" type_identifier identifier ;) (expression_statement "uVar16 = CONCAT44(param_2,param_1);" (assignment_expression "uVar16 = CONCAT44(param_2,param_1)" identifier = (call_expression "CONCAT44(param_2,param_1)" identifier (argument_list "(param_2,param_1)" ( identifier , identifier )))) ;) (expression_statement "uVar11 = 0x7ff;" (assignment_expression "uVar11 = 0x7ff" identifier = number_literal) ;) (expression_statement "uVar6 = param_2 >> 0x14 & 0x7ff;" (assignment_expression "uVar6 = param_2 >> 0x14 & 0x7ff" identifier = (binary_expression "param_2 >> 0x14 & 0x7ff" (binary_expression "param_2 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = uVar6 == 0;" (assignment_expression "bVar13 = uVar6 == 0" identifier = (binary_expression "uVar6 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" { (expression_statement "unaff_r5 = param_4 >> 0x14 & 0x7ff;" (assignment_expression "unaff_r5 = param_4 >> 0x14 & 0x7ff" identifier = (binary_expression "param_4 >> 0x14 & 0x7ff" (binary_expression "param_4 >> 0x14" identifier >> number_literal) & number_literal)) ;) (expression_statement "bVar13 = unaff_r5 == 0;" (assignment_expression "bVar13 = unaff_r5 == 0" identifier = (binary_expression "unaff_r5 == 0" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = uVar6 == 0x7ff;\n }" { (expression_statement "bVar13 = uVar6 == 0x7ff;" (assignment_expression "bVar13 = uVar6 == 0x7ff" identifier = (binary_expression "uVar6 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n bVar13 = unaff_r5 == 0x7ff;\n }" { (expression_statement "bVar13 = unaff_r5 == 0x7ff;" (assignment_expression "bVar13 = unaff_r5 == 0x7ff" identifier = (binary_expression "unaff_r5 == 0x7ff" identifier == number_literal)) ;) })) (if_statement "if (bVar13) {\n uVar16 = FUN_0001b208();\n }" if (parenthesized_expression "(bVar13)" ( identifier )) (compound_statement "{\n uVar16 = FUN_0001b208();\n }" { (expression_statement "uVar16 = FUN_0001b208();" (assignment_expression "uVar16 = FUN_0001b208()" identifier = (call_expression "FUN_0001b208()" identifier (argument_list "()" ( )))) ;) })) (expression_statement "uVar8 = (uint)((ulonglong)uVar16 >> 0x20);" (assignment_expression "uVar8 = (uint)((ulonglong)uVar16 >> 0x20)" identifier = (call_expression "(uint)((ulonglong)uVar16 >> 0x20)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((ulonglong)uVar16 >> 0x20)" ( (binary_expression "(ulonglong)uVar16 >> 0x20" (cast_expression "(ulonglong)uVar16" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "uVar2 = (uint)uVar16;" (assignment_expression "uVar2 = (uint)uVar16" identifier = (cast_expression "(uint)uVar16" ( (type_descriptor "uint" type_identifier) ) identifier)) ;) (expression_statement "iVar7 = uVar6 - unaff_r5;" (assignment_expression "iVar7 = uVar6 - unaff_r5" identifier = (binary_expression "uVar6 - unaff_r5" identifier - identifier)) ;) (if_statement "if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" if (parenthesized_expression "(param_3 == 0 && (param_4 & 0xfffff) == 0)" ( (binary_expression "param_3 == 0 && (param_4 & 0xfffff) == 0" (binary_expression "param_3 == 0" identifier == number_literal) && (binary_expression "(param_4 & 0xfffff) == 0" (parenthesized_expression "(param_4 & 0xfffff)" ( (binary_expression "param_4 & 0xfffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }" { (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal) | (binary_expression "uVar8 & 0xfffff" identifier & number_literal))) ;) (expression_statement "bVar14 = SCARRY4(iVar7,uVar11 >> 1);" (assignment_expression "bVar14 = SCARRY4(iVar7,uVar11 >> 1)" identifier = (call_expression "SCARRY4(iVar7,uVar11 >> 1)" identifier (argument_list "(iVar7,uVar11 >> 1)" ( identifier , (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "uVar8 = iVar7 + (uVar11 >> 1);" (assignment_expression "uVar8 = iVar7 + (uVar11 >> 1)" identifier = (binary_expression "iVar7 + (uVar11 >> 1)" identifier + (parenthesized_expression "(uVar11 >> 1)" ( (binary_expression "uVar11 >> 1" identifier >> number_literal) )))) ;) (expression_statement "bVar13 = (int)uVar8 < 0;" (assignment_expression "bVar13 = (int)uVar8 < 0" identifier = (binary_expression "(int)uVar8 < 0" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal)) ;) (expression_statement "bVar15 = uVar8 == 0;" (assignment_expression "bVar15 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" { (expression_statement "bVar14 = SBORROW4(uVar11,uVar8);" (assignment_expression "bVar14 = SBORROW4(uVar11,uVar8)" identifier = (call_expression "SBORROW4(uVar11,uVar8)" identifier (argument_list "(uVar11,uVar8)" ( identifier , identifier )))) ;) (expression_statement "bVar13 = (int)(uVar11 - uVar8) < 0;" (assignment_expression "bVar13 = (int)(uVar11 - uVar8) < 0" identifier = (binary_expression "(int)(uVar11 - uVar8) < 0" (cast_expression "(int)(uVar11 - uVar8)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar11 - uVar8)" ( (binary_expression "uVar11 - uVar8" identifier - identifier) ))) < number_literal)) ;) (expression_statement "bVar15 = uVar11 == uVar8;" (assignment_expression "bVar15 = uVar11 == uVar8" identifier = (binary_expression "uVar11 == uVar8" identifier == identifier)) ;) })) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" if (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" ( (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" ! identifier) && (binary_expression "bVar13 == bVar14" identifier == identifier)) )) (compound_statement "{\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" { (return_statement "return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);" return (call_expression "CONCAT44(uVar6 | uVar8 * 0x100000,uVar2)" identifier (argument_list "(uVar6 | uVar8 * 0x100000,uVar2)" ( (binary_expression "uVar6 | uVar8 * 0x100000" identifier | (binary_expression "uVar8 * 0x100000" identifier * number_literal)) , identifier ))) ;) })) (expression_statement "uVar6 = uVar6 | 0x100000;" (assignment_expression "uVar6 = uVar6 | 0x100000" identifier = (binary_expression "uVar6 | 0x100000" identifier | number_literal)) ;) (expression_statement "uVar4 = 0;" (assignment_expression "uVar4 = 0" identifier = number_literal) ;) (expression_statement "bVar15 = SBORROW4(uVar8,1);" (assignment_expression "bVar15 = SBORROW4(uVar8,1)" identifier = (call_expression "SBORROW4(uVar8,1)" identifier (argument_list "(uVar8,1)" ( identifier , number_literal )))) ;) (expression_statement "uVar8 = uVar8 - 1;" (assignment_expression "uVar8 = uVar8 - 1" identifier = (binary_expression "uVar8 - 1" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar8 == 0;" (assignment_expression "bVar13 = uVar8 == 0" identifier = (binary_expression "uVar8 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar8;" (assignment_expression "uVar11 = uVar8" identifier = identifier) ;) }) (else_clause "else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" else (compound_statement "{\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" { (expression_statement "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;" (assignment_expression "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" identifier = (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000" (binary_expression "(param_4 << 0xc) >> 4" (parenthesized_expression "(param_4 << 0xc)" ( (binary_expression "param_4 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "param_3 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar11 = param_3 << 8;" (assignment_expression "uVar11 = param_3 << 8" identifier = (binary_expression "param_3 << 8" identifier << number_literal)) ;) (expression_statement "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;" (assignment_expression "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" identifier = (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000" (binary_expression "(uVar8 << 0xc) >> 4" (parenthesized_expression "(uVar8 << 0xc)" ( (binary_expression "uVar8 << 0xc" identifier << number_literal) )) >> number_literal) | number_literal) | (binary_expression "uVar2 >> 0x18" identifier >> number_literal))) ;) (expression_statement "uVar2 = uVar2 * 0x100;" (assignment_expression "uVar2 = uVar2 * 0x100" identifier = (binary_expression "uVar2 * 0x100" identifier * number_literal)) ;) (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000" identifier = (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" ( (binary_expression "uVar8 ^ param_4" identifier ^ identifier) )) & number_literal)) ;) (expression_statement "bVar13 = uVar4 <= uVar9;" (assignment_expression "bVar13 = uVar4 <= uVar9" identifier = (binary_expression "uVar4 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }" if (parenthesized_expression "(uVar9 == uVar4)" ( (binary_expression "uVar9 == uVar4" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar11 <= uVar2;\n }" { (expression_statement "bVar13 = uVar11 <= uVar2;" (assignment_expression "bVar13 = uVar11 <= uVar2" identifier = (binary_expression "uVar11 <= uVar2" identifier <= identifier)) ;) })) (expression_statement "iVar7 = iVar7 + (uint)bVar13;" (assignment_expression "iVar7 = iVar7 + (uint)bVar13" identifier = (binary_expression "iVar7 + (uint)bVar13" identifier + (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) ;) (expression_statement "uVar8 = iVar7 + 0x3fd;" (assignment_expression "uVar8 = iVar7 + 0x3fd" identifier = (binary_expression "iVar7 + 0x3fd" identifier + number_literal)) ;) (if_statement "if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" if (parenthesized_expression "(!bVar13)" ( (unary_expression "!bVar13" ! identifier) )) (compound_statement "{\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" { (expression_statement "uVar4 = uVar4 >> 1;" (assignment_expression "uVar4 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f" (call_expression "(uint)((byte)(param_3 >> 0x18) & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)(param_3 >> 0x18) & 1)" ( (binary_expression "(byte)(param_3 >> 0x18) & 1" (call_expression "(byte)(param_3 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(param_3 >> 0x18)" ( (binary_expression "param_3 >> 0x18" identifier >> number_literal) ))) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) })) (expression_statement "uVar10 = uVar2 - uVar11;" (assignment_expression "uVar10 = uVar2 - uVar11" identifier = (binary_expression "uVar2 - uVar11" identifier - identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));" (assignment_expression "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11))" identifier = (binary_expression "uVar9 - (uVar4 + (uVar2 < uVar11))" identifier - (parenthesized_expression "(uVar4 + (uVar2 < uVar11))" ( (binary_expression "uVar4 + (uVar2 < uVar11)" identifier + (parenthesized_expression "(uVar2 < uVar11)" ( (binary_expression "uVar2 < uVar11" identifier < identifier) ))) )))) ;) (expression_statement "uVar5 = uVar4 >> 1;" (assignment_expression "uVar5 = uVar4 >> 1" identifier = (binary_expression "uVar4 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar2 = 0x100000;" (assignment_expression "uVar2 = 0x100000" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000;" (assignment_expression "uVar11 = 0x80000" identifier = number_literal) ;) (while_statement "while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11;" (assignment_expression "uVar2 = uVar2 | uVar11" identifier = (binary_expression "uVar2 | uVar11" identifier | identifier)) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar5 >> 1;" (assignment_expression "uVar4 = uVar5 >> 1" identifier = (binary_expression "uVar5 >> 1" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f" (call_expression "(uint)((byte)uVar5 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar5 & 1)" ( (binary_expression "(byte)uVar5 & 1" (cast_expression "(byte)uVar5" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" if (parenthesized_expression "(uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13)" ( (binary_expression "uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar4 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar9 - uVar4" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 1;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 1" identifier = (binary_expression "uVar2 | uVar11 >> 1" identifier | (binary_expression "uVar11 >> 1" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar4 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar4 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar4 + !bVar13)" identifier - (parenthesized_expression "(uVar4 + !bVar13)" ( (binary_expression "uVar4 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar12 = uVar5 >> 2;" (assignment_expression "uVar12 = uVar5 >> 2" identifier = (binary_expression "uVar5 >> 2" identifier >> number_literal)) ;) (expression_statement "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" identifier = (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar4 & 1)" ( (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar3 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar1 <= uVar10;" (assignment_expression "bVar13 = uVar1 <= uVar10" identifier = (binary_expression "uVar1 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" if (parenthesized_expression "(uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13)" ( (binary_expression "uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar12 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar9 - uVar12" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar1;" (assignment_expression "uVar10 = uVar10 - uVar1" identifier = (binary_expression "uVar10 - uVar1" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 2;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 2" identifier = (binary_expression "uVar2 | uVar11 >> 2" identifier | (binary_expression "uVar11 >> 2" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar12 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar12 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar12 + !bVar13)" identifier - (parenthesized_expression "(uVar12 + !bVar13)" ( (binary_expression "uVar12 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar5 = uVar5 >> 3;" (assignment_expression "uVar5 = uVar5 >> 3" identifier = (binary_expression "uVar5 >> 3" identifier >> number_literal)) ;) (expression_statement "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" identifier = (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f" (call_expression "(uint)((byte)uVar12 & 1)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "((byte)uVar12 & 1)" ( (binary_expression "(byte)uVar12 & 1" (cast_expression "(byte)uVar12" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) ))) << number_literal) | (binary_expression "uVar1 >> 1" identifier >> number_literal))) ;) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" if (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" ( (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" identifier < identifier) || (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" identifier - identifier) < (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier))) )) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" { (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" identifier = (binary_expression "uVar10 - uVar3" identifier - identifier)) ;) (expression_statement "uVar2 = uVar2 | uVar11 >> 3;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 3" identifier = (binary_expression "uVar2 | uVar11 >> 3" identifier | (binary_expression "uVar11 >> 3" identifier >> number_literal))) ;) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" identifier = (binary_expression "uVar9 - (uVar5 + !bVar13)" identifier - (parenthesized_expression "(uVar5 + !bVar13)" ( (binary_expression "uVar5 + !bVar13" identifier + (unary_expression "!bVar13" ! identifier)) )))) ;) })) (expression_statement "uVar4 = uVar9 | uVar10;" (assignment_expression "uVar4 = uVar9 | uVar10" identifier = (binary_expression "uVar9 | uVar10" identifier | identifier)) ;) (if_statement "if (uVar4 == 0) break;" if (parenthesized_expression "(uVar4 == 0)" ( (binary_expression "uVar4 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "uVar9 = uVar9 << 4 | uVar10 >> 0x1c;" (assignment_expression "uVar9 = uVar9 << 4 | uVar10 >> 0x1c" identifier = (binary_expression "uVar9 << 4 | uVar10 >> 0x1c" (binary_expression "uVar9 << 4" identifier << number_literal) | (binary_expression "uVar10 >> 0x1c" identifier >> number_literal))) ;) (expression_statement "uVar10 = uVar10 << 4;" (assignment_expression "uVar10 = uVar10 << 4" identifier = (binary_expression "uVar10 << 4" identifier << number_literal)) ;) (expression_statement "uVar5 = uVar5 << 3 | uVar3 >> 0x1d;" (assignment_expression "uVar5 = uVar5 << 3 | uVar3 >> 0x1d" identifier = (binary_expression "uVar5 << 3 | uVar3 >> 0x1d" (binary_expression "uVar5 << 3" identifier << number_literal) | (binary_expression "uVar3 >> 0x1d" identifier >> number_literal))) ;) (expression_statement "uVar3 = (uVar1 >> 1) << 3;" (assignment_expression "uVar3 = (uVar1 >> 1) << 3" identifier = (binary_expression "(uVar1 >> 1) << 3" (parenthesized_expression "(uVar1 >> 1)" ( (binary_expression "uVar1 >> 1" identifier >> number_literal) )) << number_literal)) ;) (expression_statement "uVar11 = uVar11 >> 4;" (assignment_expression "uVar11 = uVar11 >> 4" identifier = (binary_expression "uVar11 >> 4" identifier >> number_literal)) ;) (if_statement "if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" if (parenthesized_expression "(uVar11 == 0)" ( (binary_expression "uVar11 == 0" identifier == number_literal) )) (compound_statement "{\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" { (if_statement "if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;" if (parenthesized_expression "((uVar6 & 0x100000) != 0)" ( (binary_expression "(uVar6 & 0x100000) != 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) != number_literal) )) (goto_statement "goto LAB_0001b1b4;" goto statement_identifier ;)) (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) (expression_statement "uVar11 = 0x80000000;" (assignment_expression "uVar11 = 0x80000000" identifier = number_literal) ;) })) })) (if_statement "if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" if (parenthesized_expression "((uVar6 & 0x100000) == 0)" ( (binary_expression "(uVar6 & 0x100000) == 0" (parenthesized_expression "(uVar6 & 0x100000)" ( (binary_expression "uVar6 & 0x100000" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" { (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" identifier = (binary_expression "uVar6 | uVar2" identifier | identifier)) ;) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) })) (labeled_statement "LAB_0001b1b4:\n bVar14 = 0xfc < uVar8;" statement_identifier : (expression_statement "bVar14 = 0xfc < uVar8;" (assignment_expression "bVar14 = 0xfc < uVar8" identifier = (binary_expression "0xfc < uVar8" number_literal < identifier)) ;)) (expression_statement "bVar15 = SBORROW4(uVar8,0xfd);" (assignment_expression "bVar15 = SBORROW4(uVar8,0xfd)" identifier = (call_expression "SBORROW4(uVar8,0xfd)" identifier (argument_list "(uVar8,0xfd)" ( identifier , number_literal )))) ;) (expression_statement "uVar12 = iVar7 + 0x300;" (assignment_expression "uVar12 = iVar7 + 0x300" identifier = (binary_expression "iVar7 + 0x300" identifier + number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0;" (assignment_expression "bVar13 = uVar12 == 0" identifier = (binary_expression "uVar12 == 0" identifier == number_literal)) ;) (expression_statement "uVar11 = uVar12;" (assignment_expression "uVar11 = uVar12" identifier = identifier) ;) (if_statement "if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" if (parenthesized_expression "(bVar14 && !bVar13)" ( (binary_expression "bVar14 && !bVar13" identifier && (unary_expression "!bVar13" ! identifier)) )) (compound_statement "{\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" { (expression_statement "bVar14 = 0x6ff < uVar12;" (assignment_expression "bVar14 = 0x6ff < uVar12" identifier = (binary_expression "0x6ff < uVar12" number_literal < identifier)) ;) (expression_statement "bVar15 = SBORROW4(uVar12,0x700);" (assignment_expression "bVar15 = SBORROW4(uVar12,0x700)" identifier = (call_expression "SBORROW4(uVar12,0x700)" identifier (argument_list "(uVar12,0x700)" ( identifier , number_literal )))) ;) (expression_statement "uVar11 = iVar7 - 0x400;" (assignment_expression "uVar11 = iVar7 - 0x400" identifier = (binary_expression "iVar7 - 0x400" identifier - number_literal)) ;) (expression_statement "bVar13 = uVar12 == 0x700;" (assignment_expression "bVar13 = uVar12 == 0x700" identifier = (binary_expression "uVar12 == 0x700" identifier == number_literal)) ;) })) (if_statement "if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" if (parenthesized_expression "(!bVar14 || bVar13)" ( (binary_expression "!bVar14 || bVar13" (unary_expression "!bVar14" ! identifier) || identifier) )) (compound_statement "{\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" { (expression_statement "bVar13 = uVar5 <= uVar9;" (assignment_expression "bVar13 = uVar5 <= uVar9" identifier = (binary_expression "uVar5 <= uVar9" identifier <= identifier)) ;) (if_statement "if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }" if (parenthesized_expression "(uVar9 == uVar5)" ( (binary_expression "uVar9 == uVar5" identifier == identifier) )) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n }" { (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" identifier = (binary_expression "uVar3 <= uVar10" identifier <= identifier)) ;) })) (if_statement "if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }" if (parenthesized_expression "(uVar9 == uVar5 && uVar10 == uVar3)" ( (binary_expression "uVar9 == uVar5 && uVar10 == uVar3" (binary_expression "uVar9 == uVar5" identifier == identifier) && (binary_expression "uVar10 == uVar3" identifier == identifier)) )) (compound_statement "{\n bVar13 = (bool)((byte)uVar2 & 1);\n }" { (expression_statement "bVar13 = (bool)((byte)uVar2 & 1);" (assignment_expression "bVar13 = (bool)((byte)uVar2 & 1)" identifier = (cast_expression "(bool)((byte)uVar2 & 1)" ( (type_descriptor "bool" primitive_type) ) (parenthesized_expression "((byte)uVar2 & 1)" ( (binary_expression "(byte)uVar2 & 1" (cast_expression "(byte)uVar2" ( (type_descriptor "byte" type_identifier) ) identifier) & number_literal) )))) ;) })) (return_statement "return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);" return (call_expression "CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" identifier (argument_list "(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" ( (binary_expression "uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13)" (binary_expression "uVar6 + uVar8 * 0x100000" identifier + (binary_expression "uVar8 * 0x100000" identifier * number_literal)) + (cast_expression "(uint)CARRY4(uVar2,(uint)bVar13)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,(uint)bVar13)" identifier (argument_list "(uVar2,(uint)bVar13)" ( identifier , (cast_expression "(uint)bVar13" ( (type_descriptor "uint" type_identifier) ) identifier) ))))) , (binary_expression "uVar2 + bVar13" identifier + identifier) ))) ;) })) }))) (if_statement "if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" if (parenthesized_expression "(!bVar13 && (int)uVar11 < 0 == bVar15)" ( (binary_expression "!bVar13 && (int)uVar11 < 0 == bVar15" (unary_expression "!bVar13" ! identifier) && (binary_expression "(int)uVar11 < 0 == bVar15" (binary_expression "(int)uVar11 < 0" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) < number_literal) == identifier)) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000 | 0x7ff00000)" ( (binary_expression "uVar6 & 0x80000000 | 0x7ff00000" (binary_expression "uVar6 & 0x80000000" identifier & number_literal) | number_literal) ))) << number_literal) ;) })) (if_statement "if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" if (parenthesized_expression "(uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36))" ( (binary_expression "uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "uVar8 == 0xffffffca" identifier == number_literal) || (binary_expression "(int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "(int)(uVar8 + 0x36) < 0" (cast_expression "(int)(uVar8 + 0x36)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(uVar8 + 0x36)" ( (binary_expression "uVar8 + 0x36" identifier + number_literal) ))) < number_literal) != (call_expression "SCARRY4(uVar8,0x36)" identifier (argument_list "(uVar8,0x36)" ( identifier , number_literal ))))) )) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" { (return_statement "return (ulonglong)(uVar6 & 0x80000000) << 0x20;" return (binary_expression "(ulonglong)(uVar6 & 0x80000000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000)" (parenthesized_expression "(ulonglong)" ( identifier )) (argument_list "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) ))) << number_literal) ;) })) (expression_statement "uVar11 = -uVar8;" (assignment_expression "uVar11 = -uVar8" identifier = (unary_expression "-uVar8" - identifier)) ;) (expression_statement "uVar9 = uVar11 - 0x20;" (assignment_expression "uVar9 = uVar11 - 0x20" identifier = (binary_expression "uVar11 - 0x20" identifier - number_literal)) ;) (if_statement "if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" if (parenthesized_expression "(0x1f < (int)uVar11)" ( (binary_expression "0x1f < (int)uVar11" number_literal < (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier)) )) (compound_statement "{\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" { (expression_statement "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);" (assignment_expression "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" (binary_expression "uVar2 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))))) ;) (expression_statement "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);" (assignment_expression "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" identifier = (binary_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" (parenthesized_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff)))" ( (binary_expression "uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (binary_expression "uVar6 >> (uVar9 & 0xff)" identifier >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) & (unary_expression "~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ~ (parenthesized_expression "((uVar6 & 0x80000000) >> (uVar9 & 0xff))" ( (binary_expression "(uVar6 & 0x80000000) >> (uVar9 & 0xff)" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) >> (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) ))) )))) )) - (parenthesized_expression "((int)uVar8 >> 0x1f)" ( (binary_expression "(int)uVar8 >> 0x1f" (cast_expression "(int)uVar8" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) )))) ;) (if_statement "if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" if (parenthesized_expression "((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0)" ( (binary_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0)" ( (binary_expression "uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar2 << (0x20 - uVar9 & 0xff)" identifier << (parenthesized_expression "(0x20 - uVar9 & 0xff)" ( (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" number_literal - identifier) & number_literal) ))) == number_literal)) )) && (binary_expression "(uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar8 & 0x7fffffff)" ( (binary_expression "uVar8 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" { (expression_statement "uVar11 = uVar11 & ~(uVar8 >> 0x1f);" (assignment_expression "uVar11 = uVar11 & ~(uVar8 >> 0x1f)" identifier = (binary_expression "uVar11 & ~(uVar8 >> 0x1f)" identifier & (unary_expression "~(uVar8 >> 0x1f)" ~ (parenthesized_expression "(uVar8 >> 0x1f)" ( (binary_expression "uVar8 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;" return (binary_expression "CONCAT44(uVar6,uVar11) & 0x80000000ffffffff" (call_expression "CONCAT44(uVar6,uVar11)" identifier (argument_list "(uVar6,uVar11)" ( identifier , identifier ))) & number_literal) ;) })) (expression_statement "iVar7 = uVar11 - 0x14;" (assignment_expression "iVar7 = uVar11 - 0x14" identifier = (binary_expression "uVar11 - 0x14" identifier - number_literal)) ;) (if_statement "if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" if (parenthesized_expression "(iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc))" ( (binary_expression "iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 != 0" identifier != number_literal) && (binary_expression "iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 < 0" identifier < number_literal) == (call_expression "SCARRY4(uVar9,0xc)" identifier (argument_list "(uVar9,0xc)" ( identifier , number_literal ))))) )) (compound_statement "{\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" { (expression_statement "uVar8 = 0xc - iVar7;" (assignment_expression "uVar8 = 0xc - iVar7" identifier = (binary_expression "0xc - iVar7" number_literal - identifier)) ;) (expression_statement "uVar11 = uVar2 << (uVar8 & 0xff);" (assignment_expression "uVar11 = uVar2 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" identifier = (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff)" identifier >> (parenthesized_expression "(0x20 - uVar8 & 0xff)" ( (binary_expression "0x20 - uVar8 & 0xff" (binary_expression "0x20 - uVar8" number_literal - identifier) & number_literal) ))) | (binary_expression "uVar6 << (uVar8 & 0xff)" identifier << (parenthesized_expression "(uVar8 & 0xff)" ( (binary_expression "uVar8 & 0xff" identifier & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar11 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar11 >> 0x1f)" identifier + (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar11 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar11 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar11 & 0x7fffffff) == 0" (parenthesized_expression "(uVar11 & 0x7fffffff)" ( (binary_expression "uVar11 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar11 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar11 >> 0x1f)" identifier & (unary_expression "~(uVar11 >> 0x1f)" ~ (parenthesized_expression "(uVar11 >> 0x1f)" ( (binary_expression "uVar11 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar11 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar11 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar11 >> 0x1f)" - (parenthesized_expression "((int)uVar11 >> 0x1f)" ( (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })) (expression_statement "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) )))) ;) (expression_statement "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" identifier = (binary_expression "uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" (binary_expression "uVar2 >> (uVar11 & 0xff)" identifier >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) | (binary_expression "uVar6 << (uVar8 + 0x20 & 0xff)" identifier << (parenthesized_expression "(uVar8 + 0x20 & 0xff)" ( (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" identifier + number_literal) & number_literal) ))))) ;) (expression_statement "uVar8 = uVar2 + -((int)uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar9 >> 0x1f)" identifier = (binary_expression "uVar2 + -((int)uVar9 >> 0x1f)" identifier + (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (if_statement "if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" if (parenthesized_expression "(uVar4 == 0 && (uVar9 & 0x7fffffff) == 0)" ( (binary_expression "uVar4 == 0 && (uVar9 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" identifier == number_literal) && (binary_expression "(uVar9 & 0x7fffffff) == 0" (parenthesized_expression "(uVar9 & 0x7fffffff)" ( (binary_expression "uVar9 & 0x7fffffff" identifier & number_literal) )) == number_literal)) )) (compound_statement "{\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" { (expression_statement "uVar8 = uVar8 & ~(uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar9 >> 0x1f)" identifier = (binary_expression "uVar8 & ~(uVar9 >> 0x1f)" identifier & (unary_expression "~(uVar9 >> 0x1f)" ~ (parenthesized_expression "(uVar9 >> 0x1f)" ( (binary_expression "uVar9 >> 0x1f" identifier >> number_literal) ))))) ;) })) (return_statement "return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);" return (call_expression "CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" identifier (argument_list "((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" ( (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" (parenthesized_expression "(uVar6 & 0x80000000)" ( (binary_expression "uVar6 & 0x80000000" identifier & number_literal) )) + (parenthesized_expression "((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" ( (binary_expression "(uVar6 & 0x7fffffff) >> (uVar11 & 0xff)" (parenthesized_expression "(uVar6 & 0x7fffffff)" ( (binary_expression "uVar6 & 0x7fffffff" identifier & number_literal) )) >> (parenthesized_expression "(uVar11 & 0xff)" ( (binary_expression "uVar11 & 0xff" identifier & number_literal) ))) ))) + (cast_expression "(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar2,-((int)uVar9 >> 0x1f))" identifier (argument_list "(uVar2,-((int)uVar9 >> 0x1f))" ( identifier , (unary_expression "-((int)uVar9 >> 0x1f)" - (parenthesized_expression "((int)uVar9 >> 0x1f)" ( (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) ))))) , identifier ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> LIT) & LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) (if_statement if (parenthesized_expression ( (unary_expression ! IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> LIT) & LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) })) (if_statement if (parenthesized_expression ( (unary_expression ! IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) })) (if_statement if (parenthesized_expression ( (unary_expression ! IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) })) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) })) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) && (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (parenthesized_expression ( (binary_expression IDENT ^ IDENT) )) & LIT) | (binary_expression IDENT & LIT))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) < LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (unary_expression ! IDENT) && (binary_expression IDENT == IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT - IDENT) ))) < LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == IDENT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (unary_expression ! IDENT) && (binary_expression IDENT == IDENT)) )) (compound_statement { (return_statement return (call_expression IDENT (argument_list ( (binary_expression IDENT | (binary_expression IDENT * LIT)) , IDENT ))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | LIT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (binary_expression (parenthesized_expression ( (binary_expression IDENT << LIT) )) >> LIT) | LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT << LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (binary_expression (parenthesized_expression ( (binary_expression IDENT << LIT) )) >> LIT) | LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT * LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( (binary_expression IDENT ^ IDENT) )) & LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (cast_expression ( (type_descriptor TYPE) ) IDENT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (unary_expression ! IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression IDENT >> LIT) ))) & LIT) ))) << LIT) | (binary_expression IDENT >> LIT))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (parenthesized_expression ( (binary_expression IDENT < IDENT) ))) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) & LIT) ))) << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (while_statement while (parenthesized_expression ( BOOL )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT < IDENT) || (binary_expression (binary_expression IDENT - IDENT) < (cast_expression ( (type_descriptor TYPE) ) IDENT))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (unary_expression ! IDENT)) )))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) & LIT) ))) << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT < IDENT) || (binary_expression (binary_expression IDENT - IDENT) < (cast_expression ( (type_descriptor TYPE) ) IDENT))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (unary_expression ! IDENT)) )))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) & LIT) ))) << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT < IDENT) || (binary_expression (binary_expression IDENT - IDENT) < (cast_expression ( (type_descriptor TYPE) ) IDENT))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (unary_expression ! IDENT)) )))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) & LIT) ))) << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT < IDENT) || (binary_expression (binary_expression IDENT - IDENT) < (cast_expression ( (type_descriptor TYPE) ) IDENT))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (unary_expression ! IDENT)) )))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT << LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT << LIT) | (binary_expression IDENT >> LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( (binary_expression IDENT >> LIT) )) << LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) != LIT) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression IDENT = (binary_expression IDENT | IDENT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = LIT) ;) })) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT | IDENT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) })) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (binary_expression LIT < IDENT)) ;)) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT && (unary_expression ! IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression LIT < IDENT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (unary_expression ! IDENT) || IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT <= IDENT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == IDENT) && (binary_expression IDENT == IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) & LIT) )))) ;) })) (return_statement return (call_expression IDENT (argument_list ( (binary_expression (binary_expression IDENT + (binary_expression IDENT * LIT)) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , (cast_expression ( (type_descriptor TYPE) ) IDENT) ))))) , (binary_expression IDENT + IDENT) ))) ;) })) }))) (if_statement if (parenthesized_expression ( (binary_expression (unary_expression ! IDENT) && (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) < LIT) == IDENT)) )) (compound_statement { (return_statement return (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (binary_expression IDENT & LIT) | LIT) ))) << LIT) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) || (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) < LIT) != (call_expression IDENT (argument_list ( IDENT , LIT ))))) )) (compound_statement { (return_statement return (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression IDENT & LIT) ))) << LIT) ;) })) (expression_statement (assignment_expression IDENT = (unary_expression - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < (cast_expression ( (type_descriptor TYPE) ) IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> (parenthesized_expression ( (binary_expression IDENT & LIT) ))) | (binary_expression IDENT << (parenthesized_expression ( (binary_expression (binary_expression LIT - IDENT) & LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( (binary_expression (binary_expression IDENT >> (parenthesized_expression ( (binary_expression IDENT & LIT) ))) & (unary_expression ~ (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) >> (parenthesized_expression ( (binary_expression IDENT & LIT) ))) )))) )) - (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) && (binary_expression (binary_expression IDENT << (parenthesized_expression ( (binary_expression (binary_expression LIT - IDENT) & LIT) ))) == LIT)) )) && (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT & (unary_expression ~ (parenthesized_expression ( (binary_expression IDENT >> LIT) ))))) ;) })) (return_statement return (binary_expression (call_expression IDENT (argument_list ( IDENT , IDENT ))) & LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT - LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT != LIT) && (binary_expression (binary_expression IDENT < LIT) == (call_expression IDENT (argument_list ( IDENT , LIT ))))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression LIT - IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT << (parenthesized_expression ( (binary_expression IDENT & LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> (parenthesized_expression ( (binary_expression (binary_expression LIT - IDENT) & LIT) ))) | (binary_expression IDENT << (parenthesized_expression ( (binary_expression IDENT & LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (unary_expression - (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) && (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT & (unary_expression ~ (parenthesized_expression ( (binary_expression IDENT >> LIT) ))))) ;) })) (return_statement return (call_expression IDENT (argument_list ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , (unary_expression - (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))) ))))) , IDENT ))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT << (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) & LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> (parenthesized_expression ( (binary_expression IDENT & LIT) ))) | (binary_expression IDENT << (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) & LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (unary_expression - (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) && (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT & (unary_expression ~ (parenthesized_expression ( (binary_expression IDENT >> LIT) ))))) ;) })) (return_statement return (call_expression IDENT (argument_list ( (binary_expression (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) + (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) >> (parenthesized_expression ( (binary_expression IDENT & LIT) ))) ))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , (unary_expression - (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))) ))))) , IDENT ))) ;) })))
|
(function_definition "ulonglong FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)\n\n{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" (type_identifier "ulonglong") (function_declarator "FUN_0001b074(undefined4 param_1,uint param_2,uint param_3,uint param_4)" (identifier "FUN_0001b074") (parameter_list "(undefined4 param_1,uint param_2,uint param_3,uint param_4)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "uint param_2" (type_identifier "uint") (identifier "param_2")) (, ",") (parameter_declaration "uint param_3" (type_identifier "uint") (identifier "param_3")) (, ",") (parameter_declaration "uint param_4" (type_identifier "uint") (identifier "param_4")) () ")"))) (compound_statement "{\n uint uVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n int iVar7;\n uint uVar8;\n uint unaff_r5;\n uint uVar9;\n uint uVar10;\n uint uVar11;\n uint uVar12;\n bool bVar13;\n bool bVar14;\n bool bVar15;\n undefined8 uVar16;\n \n uVar16 = CONCAT44(param_2,param_1);\n uVar11 = 0x7ff;\n uVar6 = param_2 >> 0x14 & 0x7ff;\n bVar13 = uVar6 == 0;\n if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }\n if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }\n if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }\n if (bVar13) {\n uVar16 = FUN_0001b208();\n }\n uVar8 = (uint)((ulonglong)uVar16 >> 0x20);\n uVar2 = (uint)uVar16;\n iVar7 = uVar6 - unaff_r5;\n if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }\n if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }\n if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }\n uVar11 = -uVar8;\n uVar9 = uVar11 - 0x20;\n if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }\n iVar7 = uVar11 - 0x14;\n if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }\n uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);\n uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);\n uVar8 = uVar2 + -((int)uVar9 >> 0x1f);\n if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (declaration "uint uVar2;" (type_identifier "uint") (identifier "uVar2") (; ";")) (declaration "uint uVar3;" (type_identifier "uint") (identifier "uVar3") (; ";")) (declaration "uint uVar4;" (type_identifier "uint") (identifier "uVar4") (; ";")) (declaration "uint uVar5;" (type_identifier "uint") (identifier "uVar5") (; ";")) (declaration "uint uVar6;" (type_identifier "uint") (identifier "uVar6") (; ";")) (declaration "int iVar7;" (primitive_type "int") (identifier "iVar7") (; ";")) (declaration "uint uVar8;" (type_identifier "uint") (identifier "uVar8") (; ";")) (declaration "uint unaff_r5;" (type_identifier "uint") (identifier "unaff_r5") (; ";")) (declaration "uint uVar9;" (type_identifier "uint") (identifier "uVar9") (; ";")) (declaration "uint uVar10;" (type_identifier "uint") (identifier "uVar10") (; ";")) (declaration "uint uVar11;" (type_identifier "uint") (identifier "uVar11") (; ";")) (declaration "uint uVar12;" (type_identifier "uint") (identifier "uVar12") (; ";")) (declaration "bool bVar13;" (primitive_type "bool") (identifier "bVar13") (; ";")) (declaration "bool bVar14;" (primitive_type "bool") (identifier "bVar14") (; ";")) (declaration "bool bVar15;" (primitive_type "bool") (identifier "bVar15") (; ";")) (declaration "undefined8 uVar16;" (type_identifier "undefined8") (identifier "uVar16") (; ";")) (expression_statement "uVar16 = CONCAT44(param_2,param_1);" (assignment_expression "uVar16 = CONCAT44(param_2,param_1)" (identifier "uVar16") (= "=") (call_expression "CONCAT44(param_2,param_1)" (identifier "CONCAT44") (argument_list "(param_2,param_1)" (( "(") (identifier "param_2") (, ",") (identifier "param_1") () ")")))) (; ";")) (expression_statement "uVar11 = 0x7ff;" (assignment_expression "uVar11 = 0x7ff" (identifier "uVar11") (= "=") (number_literal "0x7ff")) (; ";")) (expression_statement "uVar6 = param_2 >> 0x14 & 0x7ff;" (assignment_expression "uVar6 = param_2 >> 0x14 & 0x7ff" (identifier "uVar6") (= "=") (binary_expression "param_2 >> 0x14 & 0x7ff" (binary_expression "param_2 >> 0x14" (identifier "param_2") (>> ">>") (number_literal "0x14")) (& "&") (number_literal "0x7ff"))) (; ";")) (expression_statement "bVar13 = uVar6 == 0;" (assignment_expression "bVar13 = uVar6 == 0" (identifier "bVar13") (= "=") (binary_expression "uVar6 == 0" (identifier "uVar6") (== "==") (number_literal "0"))) (; ";")) (if_statement "if (!bVar13) {\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" (if "if") (parenthesized_expression "(!bVar13)" (( "(") (unary_expression "!bVar13" (! "!") (identifier "bVar13")) () ")")) (compound_statement "{\n unaff_r5 = param_4 >> 0x14 & 0x7ff;\n bVar13 = unaff_r5 == 0;\n }" ({ "{") (expression_statement "unaff_r5 = param_4 >> 0x14 & 0x7ff;" (assignment_expression "unaff_r5 = param_4 >> 0x14 & 0x7ff" (identifier "unaff_r5") (= "=") (binary_expression "param_4 >> 0x14 & 0x7ff" (binary_expression "param_4 >> 0x14" (identifier "param_4") (>> ">>") (number_literal "0x14")) (& "&") (number_literal "0x7ff"))) (; ";")) (expression_statement "bVar13 = unaff_r5 == 0;" (assignment_expression "bVar13 = unaff_r5 == 0" (identifier "bVar13") (= "=") (binary_expression "unaff_r5 == 0" (identifier "unaff_r5") (== "==") (number_literal "0"))) (; ";")) (} "}"))) (if_statement "if (!bVar13) {\n bVar13 = uVar6 == 0x7ff;\n }" (if "if") (parenthesized_expression "(!bVar13)" (( "(") (unary_expression "!bVar13" (! "!") (identifier "bVar13")) () ")")) (compound_statement "{\n bVar13 = uVar6 == 0x7ff;\n }" ({ "{") (expression_statement "bVar13 = uVar6 == 0x7ff;" (assignment_expression "bVar13 = uVar6 == 0x7ff" (identifier "bVar13") (= "=") (binary_expression "uVar6 == 0x7ff" (identifier "uVar6") (== "==") (number_literal "0x7ff"))) (; ";")) (} "}"))) (if_statement "if (!bVar13) {\n bVar13 = unaff_r5 == 0x7ff;\n }" (if "if") (parenthesized_expression "(!bVar13)" (( "(") (unary_expression "!bVar13" (! "!") (identifier "bVar13")) () ")")) (compound_statement "{\n bVar13 = unaff_r5 == 0x7ff;\n }" ({ "{") (expression_statement "bVar13 = unaff_r5 == 0x7ff;" (assignment_expression "bVar13 = unaff_r5 == 0x7ff" (identifier "bVar13") (= "=") (binary_expression "unaff_r5 == 0x7ff" (identifier "unaff_r5") (== "==") (number_literal "0x7ff"))) (; ";")) (} "}"))) (if_statement "if (bVar13) {\n uVar16 = FUN_0001b208();\n }" (if "if") (parenthesized_expression "(bVar13)" (( "(") (identifier "bVar13") () ")")) (compound_statement "{\n uVar16 = FUN_0001b208();\n }" ({ "{") (expression_statement "uVar16 = FUN_0001b208();" (assignment_expression "uVar16 = FUN_0001b208()" (identifier "uVar16") (= "=") (call_expression "FUN_0001b208()" (identifier "FUN_0001b208") (argument_list "()" (( "(") () ")")))) (; ";")) (} "}"))) (expression_statement "uVar8 = (uint)((ulonglong)uVar16 >> 0x20);" (assignment_expression "uVar8 = (uint)((ulonglong)uVar16 >> 0x20)" (identifier "uVar8") (= "=") (call_expression "(uint)((ulonglong)uVar16 >> 0x20)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((ulonglong)uVar16 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar16 >> 0x20" (cast_expression "(ulonglong)uVar16" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar16")) (>> ">>") (number_literal "0x20")) () ")")))) (; ";")) (expression_statement "uVar2 = (uint)uVar16;" (assignment_expression "uVar2 = (uint)uVar16" (identifier "uVar2") (= "=") (cast_expression "(uint)uVar16" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "uVar16"))) (; ";")) (expression_statement "iVar7 = uVar6 - unaff_r5;" (assignment_expression "iVar7 = uVar6 - unaff_r5" (identifier "iVar7") (= "=") (binary_expression "uVar6 - unaff_r5" (identifier "uVar6") (- "-") (identifier "unaff_r5"))) (; ";")) (if_statement "if (param_3 == 0 && (param_4 & 0xfffff) == 0) {\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }\n else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" (if "if") (parenthesized_expression "(param_3 == 0 && (param_4 & 0xfffff) == 0)" (( "(") (binary_expression "param_3 == 0 && (param_4 & 0xfffff) == 0" (binary_expression "param_3 == 0" (identifier "param_3") (== "==") (number_literal "0")) (&& "&&") (binary_expression "(param_4 & 0xfffff) == 0" (parenthesized_expression "(param_4 & 0xfffff)" (( "(") (binary_expression "param_4 & 0xfffff" (identifier "param_4") (& "&") (number_literal "0xfffff")) () ")")) (== "==") (number_literal "0"))) () ")")) (compound_statement "{\n uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;\n bVar14 = SCARRY4(iVar7,uVar11 >> 1);\n uVar8 = iVar7 + (uVar11 >> 1);\n bVar13 = (int)uVar8 < 0;\n bVar15 = uVar8 == 0;\n if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }\n if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }\n uVar6 = uVar6 | 0x100000;\n uVar4 = 0;\n bVar15 = SBORROW4(uVar8,1);\n uVar8 = uVar8 - 1;\n bVar13 = uVar8 == 0;\n uVar11 = uVar8;\n }" ({ "{") (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" (identifier "uVar6") (= "=") (binary_expression "(uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff" (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" (( "(") (binary_expression "uVar8 ^ param_4" (identifier "uVar8") (^ "^") (identifier "param_4")) () ")")) (& "&") (number_literal "0x80000000")) (| "|") (binary_expression "uVar8 & 0xfffff" (identifier "uVar8") (& "&") (number_literal "0xfffff")))) (; ";")) (expression_statement "bVar14 = SCARRY4(iVar7,uVar11 >> 1);" (assignment_expression "bVar14 = SCARRY4(iVar7,uVar11 >> 1)" (identifier "bVar14") (= "=") (call_expression "SCARRY4(iVar7,uVar11 >> 1)" (identifier "SCARRY4") (argument_list "(iVar7,uVar11 >> 1)" (( "(") (identifier "iVar7") (, ",") (binary_expression "uVar11 >> 1" (identifier "uVar11") (>> ">>") (number_literal "1")) () ")")))) (; ";")) (expression_statement "uVar8 = iVar7 + (uVar11 >> 1);" (assignment_expression "uVar8 = iVar7 + (uVar11 >> 1)" (identifier "uVar8") (= "=") (binary_expression "iVar7 + (uVar11 >> 1)" (identifier "iVar7") (+ "+") (parenthesized_expression "(uVar11 >> 1)" (( "(") (binary_expression "uVar11 >> 1" (identifier "uVar11") (>> ">>") (number_literal "1")) () ")")))) (; ";")) (expression_statement "bVar13 = (int)uVar8 < 0;" (assignment_expression "bVar13 = (int)uVar8 < 0" (identifier "bVar13") (= "=") (binary_expression "(int)uVar8 < 0" (cast_expression "(int)uVar8" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar8")) (< "<") (number_literal "0"))) (; ";")) (expression_statement "bVar15 = uVar8 == 0;" (assignment_expression "bVar15 = uVar8 == 0" (identifier "bVar15") (= "=") (binary_expression "uVar8 == 0" (identifier "uVar8") (== "==") (number_literal "0"))) (; ";")) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" (if "if") (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" (( "(") (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" (! "!") (identifier "bVar15")) (&& "&&") (binary_expression "bVar13 == bVar14" (identifier "bVar13") (== "==") (identifier "bVar14"))) () ")")) (compound_statement "{\n bVar14 = SBORROW4(uVar11,uVar8);\n bVar13 = (int)(uVar11 - uVar8) < 0;\n bVar15 = uVar11 == uVar8;\n }" ({ "{") (expression_statement "bVar14 = SBORROW4(uVar11,uVar8);" (assignment_expression "bVar14 = SBORROW4(uVar11,uVar8)" (identifier "bVar14") (= "=") (call_expression "SBORROW4(uVar11,uVar8)" (identifier "SBORROW4") (argument_list "(uVar11,uVar8)" (( "(") (identifier "uVar11") (, ",") (identifier "uVar8") () ")")))) (; ";")) (expression_statement "bVar13 = (int)(uVar11 - uVar8) < 0;" (assignment_expression "bVar13 = (int)(uVar11 - uVar8) < 0" (identifier "bVar13") (= "=") (binary_expression "(int)(uVar11 - uVar8) < 0" (cast_expression "(int)(uVar11 - uVar8)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(uVar11 - uVar8)" (( "(") (binary_expression "uVar11 - uVar8" (identifier "uVar11") (- "-") (identifier "uVar8")) () ")"))) (< "<") (number_literal "0"))) (; ";")) (expression_statement "bVar15 = uVar11 == uVar8;" (assignment_expression "bVar15 = uVar11 == uVar8" (identifier "bVar15") (= "=") (binary_expression "uVar11 == uVar8" (identifier "uVar11") (== "==") (identifier "uVar8"))) (; ";")) (} "}"))) (if_statement "if (!bVar15 && bVar13 == bVar14) {\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" (if "if") (parenthesized_expression "(!bVar15 && bVar13 == bVar14)" (( "(") (binary_expression "!bVar15 && bVar13 == bVar14" (unary_expression "!bVar15" (! "!") (identifier "bVar15")) (&& "&&") (binary_expression "bVar13 == bVar14" (identifier "bVar13") (== "==") (identifier "bVar14"))) () ")")) (compound_statement "{\n return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);\n }" ({ "{") (return_statement "return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);" (return "return") (call_expression "CONCAT44(uVar6 | uVar8 * 0x100000,uVar2)" (identifier "CONCAT44") (argument_list "(uVar6 | uVar8 * 0x100000,uVar2)" (( "(") (binary_expression "uVar6 | uVar8 * 0x100000" (identifier "uVar6") (| "|") (binary_expression "uVar8 * 0x100000" (identifier "uVar8") (* "*") (number_literal "0x100000"))) (, ",") (identifier "uVar2") () ")"))) (; ";")) (} "}"))) (expression_statement "uVar6 = uVar6 | 0x100000;" (assignment_expression "uVar6 = uVar6 | 0x100000" (identifier "uVar6") (= "=") (binary_expression "uVar6 | 0x100000" (identifier "uVar6") (| "|") (number_literal "0x100000"))) (; ";")) (expression_statement "uVar4 = 0;" (assignment_expression "uVar4 = 0" (identifier "uVar4") (= "=") (number_literal "0")) (; ";")) (expression_statement "bVar15 = SBORROW4(uVar8,1);" (assignment_expression "bVar15 = SBORROW4(uVar8,1)" (identifier "bVar15") (= "=") (call_expression "SBORROW4(uVar8,1)" (identifier "SBORROW4") (argument_list "(uVar8,1)" (( "(") (identifier "uVar8") (, ",") (number_literal "1") () ")")))) (; ";")) (expression_statement "uVar8 = uVar8 - 1;" (assignment_expression "uVar8 = uVar8 - 1" (identifier "uVar8") (= "=") (binary_expression "uVar8 - 1" (identifier "uVar8") (- "-") (number_literal "1"))) (; ";")) (expression_statement "bVar13 = uVar8 == 0;" (assignment_expression "bVar13 = uVar8 == 0" (identifier "bVar13") (= "=") (binary_expression "uVar8 == 0" (identifier "uVar8") (== "==") (number_literal "0"))) (; ";")) (expression_statement "uVar11 = uVar8;" (assignment_expression "uVar11 = uVar8" (identifier "uVar11") (= "=") (identifier "uVar8")) (; ";")) (} "}")) (else_clause "else {\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" (else "else") (compound_statement "{\n uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;\n uVar11 = param_3 << 8;\n uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;\n uVar2 = uVar2 * 0x100;\n uVar6 = (uVar8 ^ param_4) & 0x80000000;\n bVar13 = uVar4 <= uVar9;\n if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }\n iVar7 = iVar7 + (uint)bVar13;\n uVar8 = iVar7 + 0x3fd;\n if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }\n uVar10 = uVar2 - uVar11;\n uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));\n uVar5 = uVar4 >> 1;\n uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;\n uVar2 = 0x100000;\n uVar11 = 0x80000;\n while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }\n if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }\nLAB_0001b1b4:\n bVar14 = 0xfc < uVar8;\n bVar15 = SBORROW4(uVar8,0xfd);\n uVar12 = iVar7 + 0x300;\n bVar13 = uVar12 == 0;\n uVar11 = uVar12;\n if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }\n if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }\n }" ({ "{") (expression_statement "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;" (assignment_expression "uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" (identifier "uVar4") (= "=") (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18" (binary_expression "(param_4 << 0xc) >> 4 | 0x10000000" (binary_expression "(param_4 << 0xc) >> 4" (parenthesized_expression "(param_4 << 0xc)" (( "(") (binary_expression "param_4 << 0xc" (identifier "param_4") (<< "<<") (number_literal "0xc")) () ")")) (>> ">>") (number_literal "4")) (| "|") (number_literal "0x10000000")) (| "|") (binary_expression "param_3 >> 0x18" (identifier "param_3") (>> ">>") (number_literal "0x18")))) (; ";")) (expression_statement "uVar11 = param_3 << 8;" (assignment_expression "uVar11 = param_3 << 8" (identifier "uVar11") (= "=") (binary_expression "param_3 << 8" (identifier "param_3") (<< "<<") (number_literal "8"))) (; ";")) (expression_statement "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;" (assignment_expression "uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" (identifier "uVar9") (= "=") (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18" (binary_expression "(uVar8 << 0xc) >> 4 | 0x10000000" (binary_expression "(uVar8 << 0xc) >> 4" (parenthesized_expression "(uVar8 << 0xc)" (( "(") (binary_expression "uVar8 << 0xc" (identifier "uVar8") (<< "<<") (number_literal "0xc")) () ")")) (>> ">>") (number_literal "4")) (| "|") (number_literal "0x10000000")) (| "|") (binary_expression "uVar2 >> 0x18" (identifier "uVar2") (>> ">>") (number_literal "0x18")))) (; ";")) (expression_statement "uVar2 = uVar2 * 0x100;" (assignment_expression "uVar2 = uVar2 * 0x100" (identifier "uVar2") (= "=") (binary_expression "uVar2 * 0x100" (identifier "uVar2") (* "*") (number_literal "0x100"))) (; ";")) (expression_statement "uVar6 = (uVar8 ^ param_4) & 0x80000000;" (assignment_expression "uVar6 = (uVar8 ^ param_4) & 0x80000000" (identifier "uVar6") (= "=") (binary_expression "(uVar8 ^ param_4) & 0x80000000" (parenthesized_expression "(uVar8 ^ param_4)" (( "(") (binary_expression "uVar8 ^ param_4" (identifier "uVar8") (^ "^") (identifier "param_4")) () ")")) (& "&") (number_literal "0x80000000"))) (; ";")) (expression_statement "bVar13 = uVar4 <= uVar9;" (assignment_expression "bVar13 = uVar4 <= uVar9" (identifier "bVar13") (= "=") (binary_expression "uVar4 <= uVar9" (identifier "uVar4") (<= "<=") (identifier "uVar9"))) (; ";")) (if_statement "if (uVar9 == uVar4) {\n bVar13 = uVar11 <= uVar2;\n }" (if "if") (parenthesized_expression "(uVar9 == uVar4)" (( "(") (binary_expression "uVar9 == uVar4" (identifier "uVar9") (== "==") (identifier "uVar4")) () ")")) (compound_statement "{\n bVar13 = uVar11 <= uVar2;\n }" ({ "{") (expression_statement "bVar13 = uVar11 <= uVar2;" (assignment_expression "bVar13 = uVar11 <= uVar2" (identifier "bVar13") (= "=") (binary_expression "uVar11 <= uVar2" (identifier "uVar11") (<= "<=") (identifier "uVar2"))) (; ";")) (} "}"))) (expression_statement "iVar7 = iVar7 + (uint)bVar13;" (assignment_expression "iVar7 = iVar7 + (uint)bVar13" (identifier "iVar7") (= "=") (binary_expression "iVar7 + (uint)bVar13" (identifier "iVar7") (+ "+") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")))) (; ";")) (expression_statement "uVar8 = iVar7 + 0x3fd;" (assignment_expression "uVar8 = iVar7 + 0x3fd" (identifier "uVar8") (= "=") (binary_expression "iVar7 + 0x3fd" (identifier "iVar7") (+ "+") (number_literal "0x3fd"))) (; ";")) (if_statement "if (!bVar13) {\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" (if "if") (parenthesized_expression "(!bVar13)" (( "(") (unary_expression "!bVar13" (! "!") (identifier "bVar13")) () ")")) (compound_statement "{\n uVar4 = uVar4 >> 1;\n uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;\n }" ({ "{") (expression_statement "uVar4 = uVar4 >> 1;" (assignment_expression "uVar4 = uVar4 >> 1" (identifier "uVar4") (= "=") (binary_expression "uVar4 >> 1" (identifier "uVar4") (>> ">>") (number_literal "1"))) (; ";")) (expression_statement "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" (identifier "uVar11") (= "=") (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)(param_3 >> 0x18) & 1) << 0x1f" (call_expression "(uint)((byte)(param_3 >> 0x18) & 1)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((byte)(param_3 >> 0x18) & 1)" (( "(") (binary_expression "(byte)(param_3 >> 0x18) & 1" (call_expression "(byte)(param_3 >> 0x18)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "(param_3 >> 0x18)" (( "(") (binary_expression "param_3 >> 0x18" (identifier "param_3") (>> ">>") (number_literal "0x18")) () ")"))) (& "&") (number_literal "1")) () ")"))) (<< "<<") (number_literal "0x1f")) (| "|") (binary_expression "uVar11 >> 1" (identifier "uVar11") (>> ">>") (number_literal "1")))) (; ";")) (} "}"))) (expression_statement "uVar10 = uVar2 - uVar11;" (assignment_expression "uVar10 = uVar2 - uVar11" (identifier "uVar10") (= "=") (binary_expression "uVar2 - uVar11" (identifier "uVar2") (- "-") (identifier "uVar11"))) (; ";")) (expression_statement "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));" (assignment_expression "uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11))" (identifier "uVar9") (= "=") (binary_expression "uVar9 - (uVar4 + (uVar2 < uVar11))" (identifier "uVar9") (- "-") (parenthesized_expression "(uVar4 + (uVar2 < uVar11))" (( "(") (binary_expression "uVar4 + (uVar2 < uVar11)" (identifier "uVar4") (+ "+") (parenthesized_expression "(uVar2 < uVar11)" (( "(") (binary_expression "uVar2 < uVar11" (identifier "uVar2") (< "<") (identifier "uVar11")) () ")"))) () ")")))) (; ";")) (expression_statement "uVar5 = uVar4 >> 1;" (assignment_expression "uVar5 = uVar4 >> 1" (identifier "uVar5") (= "=") (binary_expression "uVar4 >> 1" (identifier "uVar4") (>> ">>") (number_literal "1"))) (; ";")) (expression_statement "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" (identifier "uVar3") (= "=") (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((byte)uVar4 & 1)" (( "(") (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" (( "(") (type_descriptor "byte" (type_identifier "byte")) () ")") (identifier "uVar4")) (& "&") (number_literal "1")) () ")"))) (<< "<<") (number_literal "0x1f")) (| "|") (binary_expression "uVar11 >> 1" (identifier "uVar11") (>> ">>") (number_literal "1")))) (; ";")) (expression_statement "uVar2 = 0x100000;" (assignment_expression "uVar2 = 0x100000" (identifier "uVar2") (= "=") (number_literal "0x100000")) (; ";")) (expression_statement "uVar11 = 0x80000;" (assignment_expression "uVar11 = 0x80000" (identifier "uVar11") (= "=") (number_literal "0x80000")) (; ";")) (while_statement "while( true ) {\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar5 >> 1;\n uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }\n uVar12 = uVar5 >> 2;\n uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;\n bVar13 = uVar1 <= uVar10;\n if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }\n uVar5 = uVar5 >> 3;\n uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;\n bVar13 = uVar3 <= uVar10;\n if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }\n uVar4 = uVar9 | uVar10;\n if (uVar4 == 0) break;\n uVar9 = uVar9 << 4 | uVar10 >> 0x1c;\n uVar10 = uVar10 << 4;\n uVar5 = uVar5 << 3 | uVar3 >> 0x1d;\n uVar3 = (uVar1 >> 1) << 3;\n uVar11 = uVar11 >> 4;\n if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }\n }" ({ "{") (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" (identifier "bVar13") (= "=") (binary_expression "uVar3 <= uVar10" (identifier "uVar3") (<= "<=") (identifier "uVar10"))) (; ";")) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" (if "if") (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" (( "(") (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" (identifier "uVar5") (< "<") (identifier "uVar9")) (|| "||") (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" (identifier "uVar9") (- "-") (identifier "uVar5")) (< "<") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")))) () ")")) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" ({ "{") (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" (identifier "uVar10") (= "=") (binary_expression "uVar10 - uVar3" (identifier "uVar10") (- "-") (identifier "uVar3"))) (; ";")) (expression_statement "uVar2 = uVar2 | uVar11;" (assignment_expression "uVar2 = uVar2 | uVar11" (identifier "uVar2") (= "=") (binary_expression "uVar2 | uVar11" (identifier "uVar2") (| "|") (identifier "uVar11"))) (; ";")) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" (identifier "uVar9") (= "=") (binary_expression "uVar9 - (uVar5 + !bVar13)" (identifier "uVar9") (- "-") (parenthesized_expression "(uVar5 + !bVar13)" (( "(") (binary_expression "uVar5 + !bVar13" (identifier "uVar5") (+ "+") (unary_expression "!bVar13" (! "!") (identifier "bVar13"))) () ")")))) (; ";")) (} "}"))) (expression_statement "uVar4 = uVar5 >> 1;" (assignment_expression "uVar4 = uVar5 >> 1" (identifier "uVar4") (= "=") (binary_expression "uVar5 >> 1" (identifier "uVar5") (>> ">>") (number_literal "1"))) (; ";")) (expression_statement "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" (identifier "uVar3") (= "=") (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar5 & 1) << 0x1f" (call_expression "(uint)((byte)uVar5 & 1)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((byte)uVar5 & 1)" (( "(") (binary_expression "(byte)uVar5 & 1" (cast_expression "(byte)uVar5" (( "(") (type_descriptor "byte" (type_identifier "byte")) () ")") (identifier "uVar5")) (& "&") (number_literal "1")) () ")"))) (<< "<<") (number_literal "0x1f")) (| "|") (binary_expression "uVar3 >> 1" (identifier "uVar3") (>> ">>") (number_literal "1")))) (; ";")) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" (identifier "bVar13") (= "=") (binary_expression "uVar3 <= uVar10" (identifier "uVar3") (<= "<=") (identifier "uVar10"))) (; ";")) (if_statement "if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" (if "if") (parenthesized_expression "(uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13)" (( "(") (binary_expression "uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar4 < uVar9" (identifier "uVar4") (< "<") (identifier "uVar9")) (|| "||") (binary_expression "uVar9 - uVar4 < (uint)bVar13" (binary_expression "uVar9 - uVar4" (identifier "uVar9") (- "-") (identifier "uVar4")) (< "<") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")))) () ")")) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 1;\n uVar9 = uVar9 - (uVar4 + !bVar13);\n }" ({ "{") (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" (identifier "uVar10") (= "=") (binary_expression "uVar10 - uVar3" (identifier "uVar10") (- "-") (identifier "uVar3"))) (; ";")) (expression_statement "uVar2 = uVar2 | uVar11 >> 1;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 1" (identifier "uVar2") (= "=") (binary_expression "uVar2 | uVar11 >> 1" (identifier "uVar2") (| "|") (binary_expression "uVar11 >> 1" (identifier "uVar11") (>> ">>") (number_literal "1")))) (; ";")) (expression_statement "uVar9 = uVar9 - (uVar4 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar4 + !bVar13)" (identifier "uVar9") (= "=") (binary_expression "uVar9 - (uVar4 + !bVar13)" (identifier "uVar9") (- "-") (parenthesized_expression "(uVar4 + !bVar13)" (( "(") (binary_expression "uVar4 + !bVar13" (identifier "uVar4") (+ "+") (unary_expression "!bVar13" (! "!") (identifier "bVar13"))) () ")")))) (; ";")) (} "}"))) (expression_statement "uVar12 = uVar5 >> 2;" (assignment_expression "uVar12 = uVar5 >> 2" (identifier "uVar12") (= "=") (binary_expression "uVar5 >> 2" (identifier "uVar5") (>> ">>") (number_literal "2"))) (; ";")) (expression_statement "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;" (assignment_expression "uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" (identifier "uVar1") (= "=") (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1" (binary_expression "(uint)((byte)uVar4 & 1) << 0x1f" (call_expression "(uint)((byte)uVar4 & 1)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((byte)uVar4 & 1)" (( "(") (binary_expression "(byte)uVar4 & 1" (cast_expression "(byte)uVar4" (( "(") (type_descriptor "byte" (type_identifier "byte")) () ")") (identifier "uVar4")) (& "&") (number_literal "1")) () ")"))) (<< "<<") (number_literal "0x1f")) (| "|") (binary_expression "uVar3 >> 1" (identifier "uVar3") (>> ">>") (number_literal "1")))) (; ";")) (expression_statement "bVar13 = uVar1 <= uVar10;" (assignment_expression "bVar13 = uVar1 <= uVar10" (identifier "bVar13") (= "=") (binary_expression "uVar1 <= uVar10" (identifier "uVar1") (<= "<=") (identifier "uVar10"))) (; ";")) (if_statement "if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" (if "if") (parenthesized_expression "(uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13)" (( "(") (binary_expression "uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar12 < uVar9" (identifier "uVar12") (< "<") (identifier "uVar9")) (|| "||") (binary_expression "uVar9 - uVar12 < (uint)bVar13" (binary_expression "uVar9 - uVar12" (identifier "uVar9") (- "-") (identifier "uVar12")) (< "<") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")))) () ")")) (compound_statement "{\n uVar10 = uVar10 - uVar1;\n uVar2 = uVar2 | uVar11 >> 2;\n uVar9 = uVar9 - (uVar12 + !bVar13);\n }" ({ "{") (expression_statement "uVar10 = uVar10 - uVar1;" (assignment_expression "uVar10 = uVar10 - uVar1" (identifier "uVar10") (= "=") (binary_expression "uVar10 - uVar1" (identifier "uVar10") (- "-") (identifier "uVar1"))) (; ";")) (expression_statement "uVar2 = uVar2 | uVar11 >> 2;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 2" (identifier "uVar2") (= "=") (binary_expression "uVar2 | uVar11 >> 2" (identifier "uVar2") (| "|") (binary_expression "uVar11 >> 2" (identifier "uVar11") (>> ">>") (number_literal "2")))) (; ";")) (expression_statement "uVar9 = uVar9 - (uVar12 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar12 + !bVar13)" (identifier "uVar9") (= "=") (binary_expression "uVar9 - (uVar12 + !bVar13)" (identifier "uVar9") (- "-") (parenthesized_expression "(uVar12 + !bVar13)" (( "(") (binary_expression "uVar12 + !bVar13" (identifier "uVar12") (+ "+") (unary_expression "!bVar13" (! "!") (identifier "bVar13"))) () ")")))) (; ";")) (} "}"))) (expression_statement "uVar5 = uVar5 >> 3;" (assignment_expression "uVar5 = uVar5 >> 3" (identifier "uVar5") (= "=") (binary_expression "uVar5 >> 3" (identifier "uVar5") (>> ">>") (number_literal "3"))) (; ";")) (expression_statement "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;" (assignment_expression "uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" (identifier "uVar3") (= "=") (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1" (binary_expression "(uint)((byte)uVar12 & 1) << 0x1f" (call_expression "(uint)((byte)uVar12 & 1)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "((byte)uVar12 & 1)" (( "(") (binary_expression "(byte)uVar12 & 1" (cast_expression "(byte)uVar12" (( "(") (type_descriptor "byte" (type_identifier "byte")) () ")") (identifier "uVar12")) (& "&") (number_literal "1")) () ")"))) (<< "<<") (number_literal "0x1f")) (| "|") (binary_expression "uVar1 >> 1" (identifier "uVar1") (>> ">>") (number_literal "1")))) (; ";")) (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" (identifier "bVar13") (= "=") (binary_expression "uVar3 <= uVar10" (identifier "uVar3") (<= "<=") (identifier "uVar10"))) (; ";")) (if_statement "if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" (if "if") (parenthesized_expression "(uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13)" (( "(") (binary_expression "uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar5 < uVar9" (identifier "uVar5") (< "<") (identifier "uVar9")) (|| "||") (binary_expression "uVar9 - uVar5 < (uint)bVar13" (binary_expression "uVar9 - uVar5" (identifier "uVar9") (- "-") (identifier "uVar5")) (< "<") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")))) () ")")) (compound_statement "{\n uVar10 = uVar10 - uVar3;\n uVar2 = uVar2 | uVar11 >> 3;\n uVar9 = uVar9 - (uVar5 + !bVar13);\n }" ({ "{") (expression_statement "uVar10 = uVar10 - uVar3;" (assignment_expression "uVar10 = uVar10 - uVar3" (identifier "uVar10") (= "=") (binary_expression "uVar10 - uVar3" (identifier "uVar10") (- "-") (identifier "uVar3"))) (; ";")) (expression_statement "uVar2 = uVar2 | uVar11 >> 3;" (assignment_expression "uVar2 = uVar2 | uVar11 >> 3" (identifier "uVar2") (= "=") (binary_expression "uVar2 | uVar11 >> 3" (identifier "uVar2") (| "|") (binary_expression "uVar11 >> 3" (identifier "uVar11") (>> ">>") (number_literal "3")))) (; ";")) (expression_statement "uVar9 = uVar9 - (uVar5 + !bVar13);" (assignment_expression "uVar9 = uVar9 - (uVar5 + !bVar13)" (identifier "uVar9") (= "=") (binary_expression "uVar9 - (uVar5 + !bVar13)" (identifier "uVar9") (- "-") (parenthesized_expression "(uVar5 + !bVar13)" (( "(") (binary_expression "uVar5 + !bVar13" (identifier "uVar5") (+ "+") (unary_expression "!bVar13" (! "!") (identifier "bVar13"))) () ")")))) (; ";")) (} "}"))) (expression_statement "uVar4 = uVar9 | uVar10;" (assignment_expression "uVar4 = uVar9 | uVar10" (identifier "uVar4") (= "=") (binary_expression "uVar9 | uVar10" (identifier "uVar9") (| "|") (identifier "uVar10"))) (; ";")) (if_statement "if (uVar4 == 0) break;" (if "if") (parenthesized_expression "(uVar4 == 0)" (( "(") (binary_expression "uVar4 == 0" (identifier "uVar4") (== "==") (number_literal "0")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "uVar9 = uVar9 << 4 | uVar10 >> 0x1c;" (assignment_expression "uVar9 = uVar9 << 4 | uVar10 >> 0x1c" (identifier "uVar9") (= "=") (binary_expression "uVar9 << 4 | uVar10 >> 0x1c" (binary_expression "uVar9 << 4" (identifier "uVar9") (<< "<<") (number_literal "4")) (| "|") (binary_expression "uVar10 >> 0x1c" (identifier "uVar10") (>> ">>") (number_literal "0x1c")))) (; ";")) (expression_statement "uVar10 = uVar10 << 4;" (assignment_expression "uVar10 = uVar10 << 4" (identifier "uVar10") (= "=") (binary_expression "uVar10 << 4" (identifier "uVar10") (<< "<<") (number_literal "4"))) (; ";")) (expression_statement "uVar5 = uVar5 << 3 | uVar3 >> 0x1d;" (assignment_expression "uVar5 = uVar5 << 3 | uVar3 >> 0x1d" (identifier "uVar5") (= "=") (binary_expression "uVar5 << 3 | uVar3 >> 0x1d" (binary_expression "uVar5 << 3" (identifier "uVar5") (<< "<<") (number_literal "3")) (| "|") (binary_expression "uVar3 >> 0x1d" (identifier "uVar3") (>> ">>") (number_literal "0x1d")))) (; ";")) (expression_statement "uVar3 = (uVar1 >> 1) << 3;" (assignment_expression "uVar3 = (uVar1 >> 1) << 3" (identifier "uVar3") (= "=") (binary_expression "(uVar1 >> 1) << 3" (parenthesized_expression "(uVar1 >> 1)" (( "(") (binary_expression "uVar1 >> 1" (identifier "uVar1") (>> ">>") (number_literal "1")) () ")")) (<< "<<") (number_literal "3"))) (; ";")) (expression_statement "uVar11 = uVar11 >> 4;" (assignment_expression "uVar11 = uVar11 >> 4" (identifier "uVar11") (= "=") (binary_expression "uVar11 >> 4" (identifier "uVar11") (>> ">>") (number_literal "4"))) (; ";")) (if_statement "if (uVar11 == 0) {\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" (if "if") (parenthesized_expression "(uVar11 == 0)" (( "(") (binary_expression "uVar11 == 0" (identifier "uVar11") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n uVar11 = 0x80000000;\n }" ({ "{") (if_statement "if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;" (if "if") (parenthesized_expression "((uVar6 & 0x100000) != 0)" (( "(") (binary_expression "(uVar6 & 0x100000) != 0" (parenthesized_expression "(uVar6 & 0x100000)" (( "(") (binary_expression "uVar6 & 0x100000" (identifier "uVar6") (& "&") (number_literal "0x100000")) () ")")) (!= "!=") (number_literal "0")) () ")")) (goto_statement "goto LAB_0001b1b4;" (goto "goto") (statement_identifier "LAB_0001b1b4") (; ";"))) (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" (identifier "uVar6") (= "=") (binary_expression "uVar6 | uVar2" (identifier "uVar6") (| "|") (identifier "uVar2"))) (; ";")) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" (identifier "uVar2") (= "=") (number_literal "0")) (; ";")) (expression_statement "uVar11 = 0x80000000;" (assignment_expression "uVar11 = 0x80000000" (identifier "uVar11") (= "=") (number_literal "0x80000000")) (; ";")) (} "}"))) (} "}"))) (if_statement "if ((uVar6 & 0x100000) == 0) {\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" (if "if") (parenthesized_expression "((uVar6 & 0x100000) == 0)" (( "(") (binary_expression "(uVar6 & 0x100000) == 0" (parenthesized_expression "(uVar6 & 0x100000)" (( "(") (binary_expression "uVar6 & 0x100000" (identifier "uVar6") (& "&") (number_literal "0x100000")) () ")")) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n uVar6 = uVar6 | uVar2;\n uVar2 = 0;\n }" ({ "{") (expression_statement "uVar6 = uVar6 | uVar2;" (assignment_expression "uVar6 = uVar6 | uVar2" (identifier "uVar6") (= "=") (binary_expression "uVar6 | uVar2" (identifier "uVar6") (| "|") (identifier "uVar2"))) (; ";")) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" (identifier "uVar2") (= "=") (number_literal "0")) (; ";")) (} "}"))) (labeled_statement "LAB_0001b1b4:\n bVar14 = 0xfc < uVar8;" (statement_identifier "LAB_0001b1b4") (: ":") (expression_statement "bVar14 = 0xfc < uVar8;" (assignment_expression "bVar14 = 0xfc < uVar8" (identifier "bVar14") (= "=") (binary_expression "0xfc < uVar8" (number_literal "0xfc") (< "<") (identifier "uVar8"))) (; ";"))) (expression_statement "bVar15 = SBORROW4(uVar8,0xfd);" (assignment_expression "bVar15 = SBORROW4(uVar8,0xfd)" (identifier "bVar15") (= "=") (call_expression "SBORROW4(uVar8,0xfd)" (identifier "SBORROW4") (argument_list "(uVar8,0xfd)" (( "(") (identifier "uVar8") (, ",") (number_literal "0xfd") () ")")))) (; ";")) (expression_statement "uVar12 = iVar7 + 0x300;" (assignment_expression "uVar12 = iVar7 + 0x300" (identifier "uVar12") (= "=") (binary_expression "iVar7 + 0x300" (identifier "iVar7") (+ "+") (number_literal "0x300"))) (; ";")) (expression_statement "bVar13 = uVar12 == 0;" (assignment_expression "bVar13 = uVar12 == 0" (identifier "bVar13") (= "=") (binary_expression "uVar12 == 0" (identifier "uVar12") (== "==") (number_literal "0"))) (; ";")) (expression_statement "uVar11 = uVar12;" (assignment_expression "uVar11 = uVar12" (identifier "uVar11") (= "=") (identifier "uVar12")) (; ";")) (if_statement "if (bVar14 && !bVar13) {\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" (if "if") (parenthesized_expression "(bVar14 && !bVar13)" (( "(") (binary_expression "bVar14 && !bVar13" (identifier "bVar14") (&& "&&") (unary_expression "!bVar13" (! "!") (identifier "bVar13"))) () ")")) (compound_statement "{\n bVar14 = 0x6ff < uVar12;\n bVar15 = SBORROW4(uVar12,0x700);\n uVar11 = iVar7 - 0x400;\n bVar13 = uVar12 == 0x700;\n }" ({ "{") (expression_statement "bVar14 = 0x6ff < uVar12;" (assignment_expression "bVar14 = 0x6ff < uVar12" (identifier "bVar14") (= "=") (binary_expression "0x6ff < uVar12" (number_literal "0x6ff") (< "<") (identifier "uVar12"))) (; ";")) (expression_statement "bVar15 = SBORROW4(uVar12,0x700);" (assignment_expression "bVar15 = SBORROW4(uVar12,0x700)" (identifier "bVar15") (= "=") (call_expression "SBORROW4(uVar12,0x700)" (identifier "SBORROW4") (argument_list "(uVar12,0x700)" (( "(") (identifier "uVar12") (, ",") (number_literal "0x700") () ")")))) (; ";")) (expression_statement "uVar11 = iVar7 - 0x400;" (assignment_expression "uVar11 = iVar7 - 0x400" (identifier "uVar11") (= "=") (binary_expression "iVar7 - 0x400" (identifier "iVar7") (- "-") (number_literal "0x400"))) (; ";")) (expression_statement "bVar13 = uVar12 == 0x700;" (assignment_expression "bVar13 = uVar12 == 0x700" (identifier "bVar13") (= "=") (binary_expression "uVar12 == 0x700" (identifier "uVar12") (== "==") (number_literal "0x700"))) (; ";")) (} "}"))) (if_statement "if (!bVar14 || bVar13) {\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" (if "if") (parenthesized_expression "(!bVar14 || bVar13)" (( "(") (binary_expression "!bVar14 || bVar13" (unary_expression "!bVar14" (! "!") (identifier "bVar14")) (|| "||") (identifier "bVar13")) () ")")) (compound_statement "{\n bVar13 = uVar5 <= uVar9;\n if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }\n if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }\n return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);\n }" ({ "{") (expression_statement "bVar13 = uVar5 <= uVar9;" (assignment_expression "bVar13 = uVar5 <= uVar9" (identifier "bVar13") (= "=") (binary_expression "uVar5 <= uVar9" (identifier "uVar5") (<= "<=") (identifier "uVar9"))) (; ";")) (if_statement "if (uVar9 == uVar5) {\n bVar13 = uVar3 <= uVar10;\n }" (if "if") (parenthesized_expression "(uVar9 == uVar5)" (( "(") (binary_expression "uVar9 == uVar5" (identifier "uVar9") (== "==") (identifier "uVar5")) () ")")) (compound_statement "{\n bVar13 = uVar3 <= uVar10;\n }" ({ "{") (expression_statement "bVar13 = uVar3 <= uVar10;" (assignment_expression "bVar13 = uVar3 <= uVar10" (identifier "bVar13") (= "=") (binary_expression "uVar3 <= uVar10" (identifier "uVar3") (<= "<=") (identifier "uVar10"))) (; ";")) (} "}"))) (if_statement "if (uVar9 == uVar5 && uVar10 == uVar3) {\n bVar13 = (bool)((byte)uVar2 & 1);\n }" (if "if") (parenthesized_expression "(uVar9 == uVar5 && uVar10 == uVar3)" (( "(") (binary_expression "uVar9 == uVar5 && uVar10 == uVar3" (binary_expression "uVar9 == uVar5" (identifier "uVar9") (== "==") (identifier "uVar5")) (&& "&&") (binary_expression "uVar10 == uVar3" (identifier "uVar10") (== "==") (identifier "uVar3"))) () ")")) (compound_statement "{\n bVar13 = (bool)((byte)uVar2 & 1);\n }" ({ "{") (expression_statement "bVar13 = (bool)((byte)uVar2 & 1);" (assignment_expression "bVar13 = (bool)((byte)uVar2 & 1)" (identifier "bVar13") (= "=") (cast_expression "(bool)((byte)uVar2 & 1)" (( "(") (type_descriptor "bool" (primitive_type "bool")) () ")") (parenthesized_expression "((byte)uVar2 & 1)" (( "(") (binary_expression "(byte)uVar2 & 1" (cast_expression "(byte)uVar2" (( "(") (type_descriptor "byte" (type_identifier "byte")) () ")") (identifier "uVar2")) (& "&") (number_literal "1")) () ")")))) (; ";")) (} "}"))) (return_statement "return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);" (return "return") (call_expression "CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" (identifier "CONCAT44") (argument_list "(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13)" (( "(") (binary_expression "uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13)" (binary_expression "uVar6 + uVar8 * 0x100000" (identifier "uVar6") (+ "+") (binary_expression "uVar8 * 0x100000" (identifier "uVar8") (* "*") (number_literal "0x100000"))) (+ "+") (cast_expression "(uint)CARRY4(uVar2,(uint)bVar13)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar2,(uint)bVar13)" (identifier "CARRY4") (argument_list "(uVar2,(uint)bVar13)" (( "(") (identifier "uVar2") (, ",") (cast_expression "(uint)bVar13" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar13")) () ")"))))) (, ",") (binary_expression "uVar2 + bVar13" (identifier "uVar2") (+ "+") (identifier "bVar13")) () ")"))) (; ";")) (} "}"))) (} "}")))) (if_statement "if (!bVar13 && (int)uVar11 < 0 == bVar15) {\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" (if "if") (parenthesized_expression "(!bVar13 && (int)uVar11 < 0 == bVar15)" (( "(") (binary_expression "!bVar13 && (int)uVar11 < 0 == bVar15" (unary_expression "!bVar13" (! "!") (identifier "bVar13")) (&& "&&") (binary_expression "(int)uVar11 < 0 == bVar15" (binary_expression "(int)uVar11 < 0" (cast_expression "(int)uVar11" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar11")) (< "<") (number_literal "0")) (== "==") (identifier "bVar15"))) () ")")) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;\n }" ({ "{") (return_statement "return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;" (return "return") (binary_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000 | 0x7ff00000)" (parenthesized_expression "(ulonglong)" (( "(") (identifier "ulonglong") () ")")) (argument_list "(uVar6 & 0x80000000 | 0x7ff00000)" (( "(") (binary_expression "uVar6 & 0x80000000 | 0x7ff00000" (binary_expression "uVar6 & 0x80000000" (identifier "uVar6") (& "&") (number_literal "0x80000000")) (| "|") (number_literal "0x7ff00000")) () ")"))) (<< "<<") (number_literal "0x20")) (; ";")) (} "}"))) (if_statement "if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" (if "if") (parenthesized_expression "(uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36))" (( "(") (binary_expression "uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "uVar8 == 0xffffffca" (identifier "uVar8") (== "==") (number_literal "0xffffffca")) (|| "||") (binary_expression "(int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)" (binary_expression "(int)(uVar8 + 0x36) < 0" (cast_expression "(int)(uVar8 + 0x36)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(uVar8 + 0x36)" (( "(") (binary_expression "uVar8 + 0x36" (identifier "uVar8") (+ "+") (number_literal "0x36")) () ")"))) (< "<") (number_literal "0")) (!= "!=") (call_expression "SCARRY4(uVar8,0x36)" (identifier "SCARRY4") (argument_list "(uVar8,0x36)" (( "(") (identifier "uVar8") (, ",") (number_literal "0x36") () ")"))))) () ")")) (compound_statement "{\n return (ulonglong)(uVar6 & 0x80000000) << 0x20;\n }" ({ "{") (return_statement "return (ulonglong)(uVar6 & 0x80000000) << 0x20;" (return "return") (binary_expression "(ulonglong)(uVar6 & 0x80000000) << 0x20" (call_expression "(ulonglong)(uVar6 & 0x80000000)" (parenthesized_expression "(ulonglong)" (( "(") (identifier "ulonglong") () ")")) (argument_list "(uVar6 & 0x80000000)" (( "(") (binary_expression "uVar6 & 0x80000000" (identifier "uVar6") (& "&") (number_literal "0x80000000")) () ")"))) (<< "<<") (number_literal "0x20")) (; ";")) (} "}"))) (expression_statement "uVar11 = -uVar8;" (assignment_expression "uVar11 = -uVar8" (identifier "uVar11") (= "=") (unary_expression "-uVar8" (- "-") (identifier "uVar8"))) (; ";")) (expression_statement "uVar9 = uVar11 - 0x20;" (assignment_expression "uVar9 = uVar11 - 0x20" (identifier "uVar9") (= "=") (binary_expression "uVar11 - 0x20" (identifier "uVar11") (- "-") (number_literal "0x20"))) (; ";")) (if_statement "if (0x1f < (int)uVar11) {\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" (if "if") (parenthesized_expression "(0x1f < (int)uVar11)" (( "(") (binary_expression "0x1f < (int)uVar11" (number_literal "0x1f") (< "<") (cast_expression "(int)uVar11" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar11"))) () ")")) (compound_statement "{\n uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);\n uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);\n if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }\n return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;\n }" ({ "{") (expression_statement "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);" (assignment_expression "uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" (identifier "uVar8") (= "=") (binary_expression "uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff)" (binary_expression "uVar2 >> (uVar9 & 0xff)" (identifier "uVar2") (>> ">>") (parenthesized_expression "(uVar9 & 0xff)" (( "(") (binary_expression "uVar9 & 0xff" (identifier "uVar9") (& "&") (number_literal "0xff")) () ")"))) (| "|") (binary_expression "uVar6 << (0x20 - uVar9 & 0xff)" (identifier "uVar6") (<< "<<") (parenthesized_expression "(0x20 - uVar9 & 0xff)" (( "(") (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" (number_literal "0x20") (- "-") (identifier "uVar9")) (& "&") (number_literal "0xff")) () ")"))))) (; ";")) (expression_statement "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f);" (assignment_expression "uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" (identifier "uVar11") (= "=") (binary_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -\n ((int)uVar8 >> 0x1f)" (parenthesized_expression "(uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff)))" (( "(") (binary_expression "uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (binary_expression "uVar6 >> (uVar9 & 0xff)" (identifier "uVar6") (>> ">>") (parenthesized_expression "(uVar9 & 0xff)" (( "(") (binary_expression "uVar9 & 0xff" (identifier "uVar9") (& "&") (number_literal "0xff")) () ")"))) (& "&") (unary_expression "~((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (~ "~") (parenthesized_expression "((uVar6 & 0x80000000) >> (uVar9 & 0xff))" (( "(") (binary_expression "(uVar6 & 0x80000000) >> (uVar9 & 0xff)" (parenthesized_expression "(uVar6 & 0x80000000)" (( "(") (binary_expression "uVar6 & 0x80000000" (identifier "uVar6") (& "&") (number_literal "0x80000000")) () ")")) (>> ">>") (parenthesized_expression "(uVar9 & 0xff)" (( "(") (binary_expression "uVar9 & 0xff" (identifier "uVar9") (& "&") (number_literal "0xff")) () ")"))) () ")")))) () ")")) (- "-") (parenthesized_expression "((int)uVar8 >> 0x1f)" (( "(") (binary_expression "(int)uVar8 >> 0x1f" (cast_expression "(int)uVar8" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar8")) (>> ">>") (number_literal "0x1f")) () ")")))) (; ";")) (if_statement "if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" (if "if") (parenthesized_expression "((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0)" (( "(") (binary_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0)" (( "(") (binary_expression "uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar4 == 0" (identifier "uVar4") (== "==") (number_literal "0")) (&& "&&") (binary_expression "uVar2 << (0x20 - uVar9 & 0xff) == 0" (binary_expression "uVar2 << (0x20 - uVar9 & 0xff)" (identifier "uVar2") (<< "<<") (parenthesized_expression "(0x20 - uVar9 & 0xff)" (( "(") (binary_expression "0x20 - uVar9 & 0xff" (binary_expression "0x20 - uVar9" (number_literal "0x20") (- "-") (identifier "uVar9")) (& "&") (number_literal "0xff")) () ")"))) (== "==") (number_literal "0"))) () ")")) (&& "&&") (binary_expression "(uVar8 & 0x7fffffff) == 0" (parenthesized_expression "(uVar8 & 0x7fffffff)" (( "(") (binary_expression "uVar8 & 0x7fffffff" (identifier "uVar8") (& "&") (number_literal "0x7fffffff")) () ")")) (== "==") (number_literal "0"))) () ")")) (compound_statement "{\n uVar11 = uVar11 & ~(uVar8 >> 0x1f);\n }" ({ "{") (expression_statement "uVar11 = uVar11 & ~(uVar8 >> 0x1f);" (assignment_expression "uVar11 = uVar11 & ~(uVar8 >> 0x1f)" (identifier "uVar11") (= "=") (binary_expression "uVar11 & ~(uVar8 >> 0x1f)" (identifier "uVar11") (& "&") (unary_expression "~(uVar8 >> 0x1f)" (~ "~") (parenthesized_expression "(uVar8 >> 0x1f)" (( "(") (binary_expression "uVar8 >> 0x1f" (identifier "uVar8") (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (} "}"))) (return_statement "return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;" (return "return") (binary_expression "CONCAT44(uVar6,uVar11) & 0x80000000ffffffff" (call_expression "CONCAT44(uVar6,uVar11)" (identifier "CONCAT44") (argument_list "(uVar6,uVar11)" (( "(") (identifier "uVar6") (, ",") (identifier "uVar11") () ")"))) (& "&") (number_literal "0x80000000ffffffff")) (; ";")) (} "}"))) (expression_statement "iVar7 = uVar11 - 0x14;" (assignment_expression "iVar7 = uVar11 - 0x14" (identifier "iVar7") (= "=") (binary_expression "uVar11 - 0x14" (identifier "uVar11") (- "-") (number_literal "0x14"))) (; ";")) (if_statement "if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" (if "if") (parenthesized_expression "(iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc))" (( "(") (binary_expression "iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 != 0" (identifier "iVar7") (!= "!=") (number_literal "0")) (&& "&&") (binary_expression "iVar7 < 0 == SCARRY4(uVar9,0xc)" (binary_expression "iVar7 < 0" (identifier "iVar7") (< "<") (number_literal "0")) (== "==") (call_expression "SCARRY4(uVar9,0xc)" (identifier "SCARRY4") (argument_list "(uVar9,0xc)" (( "(") (identifier "uVar9") (, ",") (number_literal "0xc") () ")"))))) () ")")) (compound_statement "{\n uVar8 = 0xc - iVar7;\n uVar11 = uVar2 << (uVar8 & 0xff);\n uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);\n uVar8 = uVar2 + -((int)uVar11 >> 0x1f);\n if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }\n return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);\n }" ({ "{") (expression_statement "uVar8 = 0xc - iVar7;" (assignment_expression "uVar8 = 0xc - iVar7" (identifier "uVar8") (= "=") (binary_expression "0xc - iVar7" (number_literal "0xc") (- "-") (identifier "iVar7"))) (; ";")) (expression_statement "uVar11 = uVar2 << (uVar8 & 0xff);" (assignment_expression "uVar11 = uVar2 << (uVar8 & 0xff)" (identifier "uVar11") (= "=") (binary_expression "uVar2 << (uVar8 & 0xff)" (identifier "uVar2") (<< "<<") (parenthesized_expression "(uVar8 & 0xff)" (( "(") (binary_expression "uVar8 & 0xff" (identifier "uVar8") (& "&") (number_literal "0xff")) () ")")))) (; ";")) (expression_statement "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" (identifier "uVar2") (= "=") (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff)" (binary_expression "uVar2 >> (0x20 - uVar8 & 0xff)" (identifier "uVar2") (>> ">>") (parenthesized_expression "(0x20 - uVar8 & 0xff)" (( "(") (binary_expression "0x20 - uVar8 & 0xff" (binary_expression "0x20 - uVar8" (number_literal "0x20") (- "-") (identifier "uVar8")) (& "&") (number_literal "0xff")) () ")"))) (| "|") (binary_expression "uVar6 << (uVar8 & 0xff)" (identifier "uVar6") (<< "<<") (parenthesized_expression "(uVar8 & 0xff)" (( "(") (binary_expression "uVar8 & 0xff" (identifier "uVar8") (& "&") (number_literal "0xff")) () ")"))))) (; ";")) (expression_statement "uVar8 = uVar2 + -((int)uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar11 >> 0x1f)" (identifier "uVar8") (= "=") (binary_expression "uVar2 + -((int)uVar11 >> 0x1f)" (identifier "uVar2") (+ "+") (unary_expression "-((int)uVar11 >> 0x1f)" (- "-") (parenthesized_expression "((int)uVar11 >> 0x1f)" (( "(") (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar11")) (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (if_statement "if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" (if "if") (parenthesized_expression "(uVar4 == 0 && (uVar11 & 0x7fffffff) == 0)" (( "(") (binary_expression "uVar4 == 0 && (uVar11 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" (identifier "uVar4") (== "==") (number_literal "0")) (&& "&&") (binary_expression "(uVar11 & 0x7fffffff) == 0" (parenthesized_expression "(uVar11 & 0x7fffffff)" (( "(") (binary_expression "uVar11 & 0x7fffffff" (identifier "uVar11") (& "&") (number_literal "0x7fffffff")) () ")")) (== "==") (number_literal "0"))) () ")")) (compound_statement "{\n uVar8 = uVar8 & ~(uVar11 >> 0x1f);\n }" ({ "{") (expression_statement "uVar8 = uVar8 & ~(uVar11 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar11 >> 0x1f)" (identifier "uVar8") (= "=") (binary_expression "uVar8 & ~(uVar11 >> 0x1f)" (identifier "uVar8") (& "&") (unary_expression "~(uVar11 >> 0x1f)" (~ "~") (parenthesized_expression "(uVar11 >> 0x1f)" (( "(") (binary_expression "uVar11 >> 0x1f" (identifier "uVar11") (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (} "}"))) (return_statement "return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);" (return "return") (call_expression "CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" (identifier "CONCAT44") (argument_list "((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8)" (( "(") (binary_expression "(uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (parenthesized_expression "(uVar6 & 0x80000000)" (( "(") (binary_expression "uVar6 & 0x80000000" (identifier "uVar6") (& "&") (number_literal "0x80000000")) () ")")) (+ "+") (cast_expression "(uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar2,-((int)uVar11 >> 0x1f))" (identifier "CARRY4") (argument_list "(uVar2,-((int)uVar11 >> 0x1f))" (( "(") (identifier "uVar2") (, ",") (unary_expression "-((int)uVar11 >> 0x1f)" (- "-") (parenthesized_expression "((int)uVar11 >> 0x1f)" (( "(") (binary_expression "(int)uVar11 >> 0x1f" (cast_expression "(int)uVar11" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar11")) (>> ">>") (number_literal "0x1f")) () ")"))) () ")"))))) (, ",") (identifier "uVar8") () ")"))) (; ";")) (} "}"))) (expression_statement "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar9 = uVar2 << (uVar8 + 0x20 & 0xff)" (identifier "uVar9") (= "=") (binary_expression "uVar2 << (uVar8 + 0x20 & 0xff)" (identifier "uVar2") (<< "<<") (parenthesized_expression "(uVar8 + 0x20 & 0xff)" (( "(") (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" (identifier "uVar8") (+ "+") (number_literal "0x20")) (& "&") (number_literal "0xff")) () ")")))) (; ";")) (expression_statement "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);" (assignment_expression "uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" (identifier "uVar2") (= "=") (binary_expression "uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff)" (binary_expression "uVar2 >> (uVar11 & 0xff)" (identifier "uVar2") (>> ">>") (parenthesized_expression "(uVar11 & 0xff)" (( "(") (binary_expression "uVar11 & 0xff" (identifier "uVar11") (& "&") (number_literal "0xff")) () ")"))) (| "|") (binary_expression "uVar6 << (uVar8 + 0x20 & 0xff)" (identifier "uVar6") (<< "<<") (parenthesized_expression "(uVar8 + 0x20 & 0xff)" (( "(") (binary_expression "uVar8 + 0x20 & 0xff" (binary_expression "uVar8 + 0x20" (identifier "uVar8") (+ "+") (number_literal "0x20")) (& "&") (number_literal "0xff")) () ")"))))) (; ";")) (expression_statement "uVar8 = uVar2 + -((int)uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar2 + -((int)uVar9 >> 0x1f)" (identifier "uVar8") (= "=") (binary_expression "uVar2 + -((int)uVar9 >> 0x1f)" (identifier "uVar2") (+ "+") (unary_expression "-((int)uVar9 >> 0x1f)" (- "-") (parenthesized_expression "((int)uVar9 >> 0x1f)" (( "(") (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar9")) (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (if_statement "if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" (if "if") (parenthesized_expression "(uVar4 == 0 && (uVar9 & 0x7fffffff) == 0)" (( "(") (binary_expression "uVar4 == 0 && (uVar9 & 0x7fffffff) == 0" (binary_expression "uVar4 == 0" (identifier "uVar4") (== "==") (number_literal "0")) (&& "&&") (binary_expression "(uVar9 & 0x7fffffff) == 0" (parenthesized_expression "(uVar9 & 0x7fffffff)" (( "(") (binary_expression "uVar9 & 0x7fffffff" (identifier "uVar9") (& "&") (number_literal "0x7fffffff")) () ")")) (== "==") (number_literal "0"))) () ")")) (compound_statement "{\n uVar8 = uVar8 & ~(uVar9 >> 0x1f);\n }" ({ "{") (expression_statement "uVar8 = uVar8 & ~(uVar9 >> 0x1f);" (assignment_expression "uVar8 = uVar8 & ~(uVar9 >> 0x1f)" (identifier "uVar8") (= "=") (binary_expression "uVar8 & ~(uVar9 >> 0x1f)" (identifier "uVar8") (& "&") (unary_expression "~(uVar9 >> 0x1f)" (~ "~") (parenthesized_expression "(uVar9 >> 0x1f)" (( "(") (binary_expression "uVar9 >> 0x1f" (identifier "uVar9") (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (} "}"))) (return_statement "return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);" (return "return") (call_expression "CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" (identifier "CONCAT44") (argument_list "((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8)" (( "(") (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +\n (uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (binary_expression "(uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" (parenthesized_expression "(uVar6 & 0x80000000)" (( "(") (binary_expression "uVar6 & 0x80000000" (identifier "uVar6") (& "&") (number_literal "0x80000000")) () ")")) (+ "+") (parenthesized_expression "((uVar6 & 0x7fffffff) >> (uVar11 & 0xff))" (( "(") (binary_expression "(uVar6 & 0x7fffffff) >> (uVar11 & 0xff)" (parenthesized_expression "(uVar6 & 0x7fffffff)" (( "(") (binary_expression "uVar6 & 0x7fffffff" (identifier "uVar6") (& "&") (number_literal "0x7fffffff")) () ")")) (>> ">>") (parenthesized_expression "(uVar11 & 0xff)" (( "(") (binary_expression "uVar11 & 0xff" (identifier "uVar11") (& "&") (number_literal "0xff")) () ")"))) () ")"))) (+ "+") (cast_expression "(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar2,-((int)uVar9 >> 0x1f))" (identifier "CARRY4") (argument_list "(uVar2,-((int)uVar9 >> 0x1f))" (( "(") (identifier "uVar2") (, ",") (unary_expression "-((int)uVar9 >> 0x1f)" (- "-") (parenthesized_expression "((int)uVar9 >> 0x1f)" (( "(") (binary_expression "(int)uVar9 >> 0x1f" (cast_expression "(int)uVar9" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar9")) (>> ">>") (number_literal "0x1f")) () ")"))) () ")"))))) (, ",") (identifier "uVar8") () ")"))) (; ";")) (} "}")))
|
type_1 function_1(type_2 param_1,type_3 var_2,type_3 var_7,type_3 var_4)
{
type_3 var_21;
type_3 var_15;
type_3 var_18;
type_3 var_16;
type_3 var_20;
type_3 var_3;
int var_11;
type_3 var_8;
type_3 var_5;
type_3 var_17;
type_3 var_19;
type_3 var_10;
type_3 var_22;
bool var_12;
bool var_13;
bool var_24;
type_4 uVar16;
uVar16 = var_1(var_2,param_1);
var_10 = 0x7ff;
var_3 = var_2 >> 0x14 & 0x7ff;
var_12 = var_3 == 0;
if (!var_12) {
var_5 = var_4 >> 0x14 & 0x7ff;
var_12 = var_5 == 0;
}
if (!var_12) {
var_12 = var_3 == 0x7ff;
}
if (!var_12) {
var_12 = var_5 == 0x7ff;
}
if (var_12) {
uVar16 = var_6();
}
var_8 = (type_3)((type_1)uVar16 >> 0x20);
var_15 = (type_3)uVar16;
var_11 = var_3 - var_5;
if (var_7 == 0 && (var_4 & 0xfffff) == 0) {
var_3 = (var_8 ^ var_4) & 0x80000000 | var_8 & 0xfffff;
var_13 = var_9(var_11,var_10 >> 1);
var_8 = var_11 + (var_10 >> 1);
var_12 = (int)var_8 < 0;
var_24 = var_8 == 0;
if (!var_24 && var_12 == var_13) {
var_13 = var_14(var_10,var_8);
var_12 = (int)(var_10 - var_8) < 0;
var_24 = var_10 == var_8;
}
if (!var_24 && var_12 == var_13) {
return var_1(var_3 | var_8 * 0x100000,var_15);
}
var_3 = var_3 | 0x100000;
var_16 = 0;
var_24 = var_14(var_8,1);
var_8 = var_8 - 1;
var_12 = var_8 == 0;
var_10 = var_8;
}
else {
var_16 = (var_4 << 0xc) >> 4 | 0x10000000 | var_7 >> 0x18;
var_10 = var_7 << 8;
var_17 = (var_8 << 0xc) >> 4 | 0x10000000 | var_15 >> 0x18;
var_15 = var_15 * 0x100;
var_3 = (var_8 ^ var_4) & 0x80000000;
var_12 = var_16 <= var_17;
if (var_17 == var_16) {
var_12 = var_10 <= var_15;
}
var_11 = var_11 + (type_3)var_12;
var_8 = var_11 + 0x3fd;
if (!var_12) {
var_16 = var_16 >> 1;
var_10 = (type_3)((type_5)(var_7 >> 0x18) & 1) << 0x1f | var_10 >> 1;
}
var_19 = var_15 - var_10;
var_17 = var_17 - (var_16 + (var_15 < var_10));
var_20 = var_16 >> 1;
var_18 = (type_3)((type_5)var_16 & 1) << 0x1f | var_10 >> 1;
var_15 = 0x100000;
var_10 = 0x80000;
while( true ) {
var_12 = var_18 <= var_19;
if (var_20 < var_17 || var_17 - var_20 < (type_3)var_12) {
var_19 = var_19 - var_18;
var_15 = var_15 | var_10;
var_17 = var_17 - (var_20 + !var_12);
}
var_16 = var_20 >> 1;
var_18 = (type_3)((type_5)var_20 & 1) << 0x1f | var_18 >> 1;
var_12 = var_18 <= var_19;
if (var_16 < var_17 || var_17 - var_16 < (type_3)var_12) {
var_19 = var_19 - var_18;
var_15 = var_15 | var_10 >> 1;
var_17 = var_17 - (var_16 + !var_12);
}
var_22 = var_20 >> 2;
var_21 = (type_3)((type_5)var_16 & 1) << 0x1f | var_18 >> 1;
var_12 = var_21 <= var_19;
if (var_22 < var_17 || var_17 - var_22 < (type_3)var_12) {
var_19 = var_19 - var_21;
var_15 = var_15 | var_10 >> 2;
var_17 = var_17 - (var_22 + !var_12);
}
var_20 = var_20 >> 3;
var_18 = (type_3)((type_5)var_22 & 1) << 0x1f | var_21 >> 1;
var_12 = var_18 <= var_19;
if (var_20 < var_17 || var_17 - var_20 < (type_3)var_12) {
var_19 = var_19 - var_18;
var_15 = var_15 | var_10 >> 3;
var_17 = var_17 - (var_20 + !var_12);
}
var_16 = var_17 | var_19;
if (var_16 == 0) break;
var_17 = var_17 << 4 | var_19 >> 0x1c;
var_19 = var_19 << 4;
var_20 = var_20 << 3 | var_18 >> 0x1d;
var_18 = (var_21 >> 1) << 3;
var_10 = var_10 >> 4;
if (var_10 == 0) {
if ((var_3 & 0x100000) != 0) goto LAB_0001b1b4;
var_3 = var_3 | var_15;
var_15 = 0;
var_10 = 0x80000000;
}
}
if ((var_3 & 0x100000) == 0) {
var_3 = var_3 | var_15;
var_15 = 0;
}
LAB_0001b1b4:
var_13 = 0xfc < var_8;
var_24 = var_14(var_8,0xfd);
var_22 = var_11 + 0x300;
var_12 = var_22 == 0;
var_10 = var_22;
if (var_13 && !var_12) {
var_13 = 0x6ff < var_22;
var_24 = var_14(var_22,0x700);
var_10 = var_11 - 0x400;
var_12 = var_22 == 0x700;
}
if (!var_13 || var_12) {
var_12 = var_20 <= var_17;
if (var_17 == var_20) {
var_12 = var_18 <= var_19;
}
if (var_17 == var_20 && var_19 == var_18) {
var_12 = (bool)((type_5)var_15 & 1);
}
return var_1(var_3 + var_8 * 0x100000 + (type_3)var_23(var_15,(type_3)var_12),var_15 + var_12);
}
}
if (!var_12 && (int)var_10 < 0 == var_24) {
return (type_1)(var_3 & 0x80000000 | 0x7ff00000) << 0x20;
}
if (var_8 == 0xffffffca || (int)(var_8 + 0x36) < 0 != var_9(var_8,0x36)) {
return (type_1)(var_3 & 0x80000000) << 0x20;
}
var_10 = -var_8;
var_17 = var_10 - 0x20;
if (0x1f < (int)var_10) {
var_8 = var_15 >> (var_17 & 0xff) | var_3 << (0x20 - var_17 & 0xff);
var_10 = (var_3 >> (var_17 & 0xff) & ~((var_3 & 0x80000000) >> (var_17 & 0xff))) -
((int)var_8 >> 0x1f);
if ((var_16 == 0 && var_15 << (0x20 - var_17 & 0xff) == 0) && (var_8 & 0x7fffffff) == 0) {
var_10 = var_10 & ~(var_8 >> 0x1f);
}
return var_1(var_3,var_10) & 0x80000000ffffffff;
}
var_11 = var_10 - 0x14;
if (var_11 != 0 && var_11 < 0 == var_9(var_17,0xc)) {
var_8 = 0xc - var_11;
var_10 = var_15 << (var_8 & 0xff);
var_15 = var_15 >> (0x20 - var_8 & 0xff) | var_3 << (var_8 & 0xff);
var_8 = var_15 + -((int)var_10 >> 0x1f);
if (var_16 == 0 && (var_10 & 0x7fffffff) == 0) {
var_8 = var_8 & ~(var_10 >> 0x1f);
}
return var_1((var_3 & 0x80000000) + (type_3)var_23(var_15,-((int)var_10 >> 0x1f)),var_8);
}
var_17 = var_15 << (var_8 + 0x20 & 0xff);
var_15 = var_15 >> (var_10 & 0xff) | var_3 << (var_8 + 0x20 & 0xff);
var_8 = var_15 + -((int)var_17 >> 0x1f);
if (var_16 == 0 && (var_17 & 0x7fffffff) == 0) {
var_8 = var_8 & ~(var_17 >> 0x1f);
}
return var_1((var_3 & 0x80000000) + ((var_3 & 0x7fffffff) >> (var_10 & 0xff)) +
(type_3)var_23(var_15,-((int)var_17 >> 0x1f)),var_8);
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (unary_expression argument: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (unary_expression argument: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (unary_expression argument: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (unary_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (identifier)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (unary_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (identifier)))) consequence: (compound_statement (return_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (unary_expression argument: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)))) right: (number_literal)))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (while_statement condition: (parenthesized_expression (true)) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (unary_expression argument: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (unary_expression argument: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (unary_expression argument: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (unary_expression argument: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (number_literal) right: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (unary_expression argument: (identifier)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (number_literal) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (unary_expression argument: (identifier)) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (binary_expression left: (identifier) right: (identifier)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))))))) (return_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))))) (binary_expression left: (identifier) right: (identifier)))))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (unary_expression argument: (identifier)) right: (binary_expression left: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)) right: (identifier)))) consequence: (compound_statement (return_statement (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (number_literal)))) right: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (number_literal)) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal)))))) consequence: (compound_statement (return_statement (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (unary_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (number_literal) right: (identifier)) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) right: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (number_literal) right: (identifier)) right: (number_literal)))) right: (number_literal)))) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (return_statement (binary_expression left: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (number_literal) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (number_literal) right: (identifier)) right: (number_literal)))) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (return_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (unary_expression argument: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))))))) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (return_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (unary_expression argument: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))))))) (identifier)))))))
|
ulonglong MASKED(undefined4 param_1,uint param_2,uint param_3,uint param_4)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
int iVar7;
uint uVar8;
uint unaff_r5;
uint uVar9;
uint uVar10;
uint uVar11;
uint uVar12;
bool bVar13;
bool bVar14;
bool bVar15;
undefined8 uVar16;
uVar16 = CONCAT44(param_2,param_1);
uVar11 = 0x7ff;
uVar6 = param_2 >> 0x14 & 0x7ff;
bVar13 = uVar6 == 0;
if (!bVar13) {
unaff_r5 = param_4 >> 0x14 & 0x7ff;
bVar13 = unaff_r5 == 0;
}
if (!bVar13) {
bVar13 = uVar6 == 0x7ff;
}
if (!bVar13) {
bVar13 = unaff_r5 == 0x7ff;
}
if (bVar13) {
uVar16 = FUN_0001b208();
}
uVar8 = (uint)((ulonglong)uVar16 >> 0x20);
uVar2 = (uint)uVar16;
iVar7 = uVar6 - unaff_r5;
if (param_3 == 0 && (param_4 & 0xfffff) == 0) {
uVar6 = (uVar8 ^ param_4) & 0x80000000 | uVar8 & 0xfffff;
bVar14 = SCARRY4(iVar7,uVar11 >> 1);
uVar8 = iVar7 + (uVar11 >> 1);
bVar13 = (int)uVar8 < 0;
bVar15 = uVar8 == 0;
if (!bVar15 && bVar13 == bVar14) {
bVar14 = SBORROW4(uVar11,uVar8);
bVar13 = (int)(uVar11 - uVar8) < 0;
bVar15 = uVar11 == uVar8;
}
if (!bVar15 && bVar13 == bVar14) {
return CONCAT44(uVar6 | uVar8 * 0x100000,uVar2);
}
uVar6 = uVar6 | 0x100000;
uVar4 = 0;
bVar15 = SBORROW4(uVar8,1);
uVar8 = uVar8 - 1;
bVar13 = uVar8 == 0;
uVar11 = uVar8;
}
else {
uVar4 = (param_4 << 0xc) >> 4 | 0x10000000 | param_3 >> 0x18;
uVar11 = param_3 << 8;
uVar9 = (uVar8 << 0xc) >> 4 | 0x10000000 | uVar2 >> 0x18;
uVar2 = uVar2 * 0x100;
uVar6 = (uVar8 ^ param_4) & 0x80000000;
bVar13 = uVar4 <= uVar9;
if (uVar9 == uVar4) {
bVar13 = uVar11 <= uVar2;
}
iVar7 = iVar7 + (uint)bVar13;
uVar8 = iVar7 + 0x3fd;
if (!bVar13) {
uVar4 = uVar4 >> 1;
uVar11 = (uint)((byte)(param_3 >> 0x18) & 1) << 0x1f | uVar11 >> 1;
}
uVar10 = uVar2 - uVar11;
uVar9 = uVar9 - (uVar4 + (uVar2 < uVar11));
uVar5 = uVar4 >> 1;
uVar3 = (uint)((byte)uVar4 & 1) << 0x1f | uVar11 >> 1;
uVar2 = 0x100000;
uVar11 = 0x80000;
while( true ) {
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar5 >> 1;
uVar3 = (uint)((byte)uVar5 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar4 < uVar9 || uVar9 - uVar4 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 1;
uVar9 = uVar9 - (uVar4 + !bVar13);
}
uVar12 = uVar5 >> 2;
uVar1 = (uint)((byte)uVar4 & 1) << 0x1f | uVar3 >> 1;
bVar13 = uVar1 <= uVar10;
if (uVar12 < uVar9 || uVar9 - uVar12 < (uint)bVar13) {
uVar10 = uVar10 - uVar1;
uVar2 = uVar2 | uVar11 >> 2;
uVar9 = uVar9 - (uVar12 + !bVar13);
}
uVar5 = uVar5 >> 3;
uVar3 = (uint)((byte)uVar12 & 1) << 0x1f | uVar1 >> 1;
bVar13 = uVar3 <= uVar10;
if (uVar5 < uVar9 || uVar9 - uVar5 < (uint)bVar13) {
uVar10 = uVar10 - uVar3;
uVar2 = uVar2 | uVar11 >> 3;
uVar9 = uVar9 - (uVar5 + !bVar13);
}
uVar4 = uVar9 | uVar10;
if (uVar4 == 0) break;
uVar9 = uVar9 << 4 | uVar10 >> 0x1c;
uVar10 = uVar10 << 4;
uVar5 = uVar5 << 3 | uVar3 >> 0x1d;
uVar3 = (uVar1 >> 1) << 3;
uVar11 = uVar11 >> 4;
if (uVar11 == 0) {
if ((uVar6 & 0x100000) != 0) goto LAB_0001b1b4;
uVar6 = uVar6 | uVar2;
uVar2 = 0;
uVar11 = 0x80000000;
}
}
if ((uVar6 & 0x100000) == 0) {
uVar6 = uVar6 | uVar2;
uVar2 = 0;
}
LAB_0001b1b4:
bVar14 = 0xfc < uVar8;
bVar15 = SBORROW4(uVar8,0xfd);
uVar12 = iVar7 + 0x300;
bVar13 = uVar12 == 0;
uVar11 = uVar12;
if (bVar14 && !bVar13) {
bVar14 = 0x6ff < uVar12;
bVar15 = SBORROW4(uVar12,0x700);
uVar11 = iVar7 - 0x400;
bVar13 = uVar12 == 0x700;
}
if (!bVar14 || bVar13) {
bVar13 = uVar5 <= uVar9;
if (uVar9 == uVar5) {
bVar13 = uVar3 <= uVar10;
}
if (uVar9 == uVar5 && uVar10 == uVar3) {
bVar13 = (bool)((byte)uVar2 & 1);
}
return CONCAT44(uVar6 + uVar8 * 0x100000 + (uint)CARRY4(uVar2,(uint)bVar13),uVar2 + bVar13);
}
}
if (!bVar13 && (int)uVar11 < 0 == bVar15) {
return (ulonglong)(uVar6 & 0x80000000 | 0x7ff00000) << 0x20;
}
if (uVar8 == 0xffffffca || (int)(uVar8 + 0x36) < 0 != SCARRY4(uVar8,0x36)) {
return (ulonglong)(uVar6 & 0x80000000) << 0x20;
}
uVar11 = -uVar8;
uVar9 = uVar11 - 0x20;
if (0x1f < (int)uVar11) {
uVar8 = uVar2 >> (uVar9 & 0xff) | uVar6 << (0x20 - uVar9 & 0xff);
uVar11 = (uVar6 >> (uVar9 & 0xff) & ~((uVar6 & 0x80000000) >> (uVar9 & 0xff))) -
((int)uVar8 >> 0x1f);
if ((uVar4 == 0 && uVar2 << (0x20 - uVar9 & 0xff) == 0) && (uVar8 & 0x7fffffff) == 0) {
uVar11 = uVar11 & ~(uVar8 >> 0x1f);
}
return CONCAT44(uVar6,uVar11) & 0x80000000ffffffff;
}
iVar7 = uVar11 - 0x14;
if (iVar7 != 0 && iVar7 < 0 == SCARRY4(uVar9,0xc)) {
uVar8 = 0xc - iVar7;
uVar11 = uVar2 << (uVar8 & 0xff);
uVar2 = uVar2 >> (0x20 - uVar8 & 0xff) | uVar6 << (uVar8 & 0xff);
uVar8 = uVar2 + -((int)uVar11 >> 0x1f);
if (uVar4 == 0 && (uVar11 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar11 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + (uint)CARRY4(uVar2,-((int)uVar11 >> 0x1f)),uVar8);
}
uVar9 = uVar2 << (uVar8 + 0x20 & 0xff);
uVar2 = uVar2 >> (uVar11 & 0xff) | uVar6 << (uVar8 + 0x20 & 0xff);
uVar8 = uVar2 + -((int)uVar9 >> 0x1f);
if (uVar4 == 0 && (uVar9 & 0x7fffffff) == 0) {
uVar8 = uVar8 & ~(uVar9 >> 0x1f);
}
return CONCAT44((uVar6 & 0x80000000) + ((uVar6 & 0x7fffffff) >> (uVar11 & 0xff)) +
(uint)CARRY4(uVar2,-((int)uVar9 >> 0x1f)),uVar8);
}
| 12,185 |
||
15_pinky_and_pinky_strip.c
|
memcmp
|
memcmp
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int memcmp(void *__s1,void *__s2,size_t __n)
{
int iVar1;
iVar1 = (*(code *)PTR_memcmp_00028048)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int memcmp(void *__s1,void *__s2,size_t __n)
{
int iVar1;
iVar1 = (*(code *)PTR_memcmp_00028048)();
return iVar1;
}
|
adr r12,0x10fe4
add r12,r12,#0x17000
ldr pc,[r12,#0x64]!
| null | null | null | null |
[(u'INDIRECT_-1205989305', u'COPY_-1205989364'), (u'CAST_-1205989300', u'CALLIND_-1205989377'), ('const-0', u'RETURN_-1205989374'), (u'CALLIND_-1205989377', u'INDIRECT_-1205989305'), ('tmp_132', u'CAST_-1205989300'), (u'CALLIND_-1205989377', u'RETURN_-1205989374')]
|
[(u'INDIRECT_-1205989305', u'COPY_-1205989364'), (u'CAST_-1205989300', u'CALLIND_-1205989377'), ('const-0', u'RETURN_-1205989374'), (u'CALLIND_-1205989377', u'INDIRECT_-1205989305'), ('tmp_132', u'CAST_-1205989300'), (u'CALLIND_-1205989377', u'RETURN_-1205989374')]
| null | null |
00010fdc
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}\n\n" comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_memcmp_00028048)();" (assignment_expression "iVar1 = (*(code *)PTR_memcmp_00028048)()" identifier = (call_expression "(*(code *)PTR_memcmp_00028048)()" (parenthesized_expression "(*(code *)PTR_memcmp_00028048)" ( (pointer_expression "*(code *)PTR_memcmp_00028048" * (cast_expression "(code *)PTR_memcmp_00028048" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}\n\n" comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_memcmp_00028048)();" (assignment_expression "iVar1 = (*(code *)PTR_memcmp_00028048)()" identifier = (call_expression "(*(code *)PTR_memcmp_00028048)()" (parenthesized_expression "(*(code *)PTR_memcmp_00028048)" ( (pointer_expression "*(code *)PTR_memcmp_00028048" * (cast_expression "(code *)PTR_memcmp_00028048" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}\n\n" comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_memcmp_00028048)();" (assignment_expression "iVar1 = (*(code *)PTR_memcmp_00028048)()" identifier = (call_expression "(*(code *)PTR_memcmp_00028048)()" (parenthesized_expression "(*(code *)PTR_memcmp_00028048)" ( (pointer_expression "*(code *)PTR_memcmp_00028048" * (cast_expression "(code *)PTR_memcmp_00028048" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" (identifier "memcmp") (parameter_list "(void *__s1,void *__s2,size_t __n)" (( "(") (parameter_declaration "void *__s1" (primitive_type "void") (pointer_declarator "*__s1" (* "*") (identifier "__s1"))) (, ",") (parameter_declaration "void *__s2" (primitive_type "void") (pointer_declarator "*__s2" (* "*") (identifier "__s2"))) (, ",") (parameter_declaration "size_t __n" (primitive_type "size_t") (identifier "__n")) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_memcmp_00028048)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_memcmp_00028048)();" (assignment_expression "iVar1 = (*(code *)PTR_memcmp_00028048)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_memcmp_00028048)()" (parenthesized_expression "(*(code *)PTR_memcmp_00028048)" (( "(") (pointer_expression "*(code *)PTR_memcmp_00028048" (* "*") (cast_expression "(code *)PTR_memcmp_00028048" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_memcmp_00028048"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(void *__s1,void *__s2,size_t __n)
{
int iVar1;
iVar1 = (*(type_1 *)PTR_memcmp_00028048)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(void *__s1,void *__s2,size_t __n)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_00028048)();
return iVar1;
}
| 9,268 |
||
2086_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
add_local
|
FUN_00111d04
|
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* DWARF original prototype: void add_local(Output_data_reloc<9,_true,_64,_false> * this,
Sized_relobj<64,_false> * relobj, uint local_sym_index, uint type, Output_data * od, uint shndx,
Address address) */
void __thiscall
gold::Output_data_reloc<9,_true,_64,_false>::add_local
(Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,
uint type,Output_data *od,uint shndx,Address address)
{
Output_reloc<9,_true,_64,_false> OStack_38;
Output_reloc<9,_true,_64,_false>::Output_reloc
(&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false);
Output_data_reloc_base<9,_true,_64,_false>::add
(&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38);
return;
}
|
void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6)
{
undefined1 auStack_38 [36];
FUN_000f7dac(auStack_38);
FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);
return;
}
|
stmdb sp!,{r4,r5,r6,r7,lr}
sub sp,sp,#0x44
ldrd r6,r7,[sp,#0x60]
mov r12,#0x0
ldr lr,[sp,#0x5c]
add r4,sp,#0x20
cpy r5,r0
str lr,[sp,#0x0]
str r12,[sp,#0x1c]
str r12,[sp,#0x18]
str r12,[sp,#0x14]
str r12,[sp,#0x10]
strd r6,r7,[sp,#0x8]
cpy r0,r4
bl 0x000f7dac
cpy r2,r4
ldr r1,[sp,#0x58]
cpy r0,r5
bl 0x001118b0
add sp,sp,#0x44
ldmia sp!,{r4,r5,r6,r7,pc}
| null | null | null | null |
[('tmp_311', u'CALL_-1207034485'), (u'PTRSUB_-1207034327', u'CALL_-1207034463'), (u'PTRSUB_-1207034274', u'CALL_-1207034463'), ('tmp_312', u'CALL_-1207034485'), ('const-0', u'CALL_-1207034485'), ('const-0', u'RETURN_-1207034423'), ('tmp_314', u'CALL_-1207034463'), (u'PTRSUB_-1207034327', u'CALL_-1207034485'), ('const-0', u'CALL_-1207034485'), ('tmp_310', u'PTRSUB_-1207034274'), ('const-0', u'PTRSUB_-1207034274'), ('tmp_316', u'CALL_-1207034485'), ('tmp_313', u'CALL_-1207034485'), ('const-4294967240', u'PTRSUB_-1207034327'), ('tmp_465', u'PTRSUB_-1207034327'), ('const-0', u'CALL_-1207034485'), ('const-0', u'CALL_-1207034485'), ('tmp_315', u'CALL_-1207034485')]
|
[('tmp_438', u'CALL_-1207034463'), (u'INDIRECT_-1207034341', u'CALL_-1207034463'), ('tmp_430', u'PTRSUB_-1207034346'), (u'PTRSUB_-1207034346', u'CALL_-1207034463'), ('const-0', u'RETURN_-1207034423'), (u'CALL_-1207034485', u'INDIRECT_-1207034341'), ('tmp_654', u'CALL_-1207034463'), (u'PTRSUB_-1207034346', u'CALL_-1207034485'), ('const-4294967240', u'PTRSUB_-1207034346'), (u'INDIRECT_-1207034317', u'CALL_-1207034463'), (u'CALL_-1207034485', u'INDIRECT_-1207034317')]
| null | null |
00111d04
|
arm
|
O2
|
(translation_unit "void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)\n\n{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}\n\n" (function_definition "void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)\n\n{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" primitive_type (function_declarator "FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) ))) (compound_statement "{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" { (declaration "undefined1 auStack_38 [36];" type_identifier (array_declarator "auStack_38 [36]" identifier [ number_literal ]) ;) (expression_statement "FUN_000f7dac(auStack_38);" (call_expression "FUN_000f7dac(auStack_38)" identifier (argument_list "(auStack_38)" ( identifier ))) ;) (expression_statement "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);" (call_expression "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6)" identifier (argument_list "(param_1,param_5,auStack_38,param_4,param_6)" ( identifier , identifier , identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */\n/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */\n/* DWARF original prototype: void add_local(Output_data_reloc<9,_true,_64,_false> * this,\n Sized_relobj<64,_false> * relobj, uint local_sym_index, uint type, Output_data * od, uint shndx,\n Address address) */\n\nvoid __thiscall\ngold::Output_data_reloc<9,_true,_64,_false>::add_local\n (Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,\n uint type,Output_data *od,uint shndx,Address address)\n\n{\n Output_reloc<9,_true,_64,_false> OStack_38;\n \n Output_reloc<9,_true,_64,_false>::Output_reloc\n (&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false);\n Output_data_reloc_base<9,_true,_64,_false>::add\n (&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38);\n return;\n}\n\n" comment comment comment (declaration "void __thiscall\ngold::Output_data_reloc<9,_true,_64,_false>::add_local\n (Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,\n uint type,Output_data *od,uint shndx,Address address)\n\n{\n Output_reloc<9,_true,_64,_false> OStack_38;" primitive_type (ms_call_modifier "__thiscall" __thiscall) (ERROR "gold::" identifier : :) identifier (ERROR "<9" < number_literal) , identifier , identifier , (ERROR "_false>::add_local\n (Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,\n uint type,Output_data *od,uint shndx,Address address)\n\n{" identifier > : : (function_declarator "add_local\n (Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,\n uint type,Output_data *od,uint shndx,Address address)" identifier (parameter_list "(Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,\n uint type,Output_data *od,uint shndx,Address address)" ( (parameter_declaration "Output_data_reloc" type_identifier) (ERROR "<9" < number_literal) , (parameter_declaration "_true" type_identifier) , (parameter_declaration "_64" type_identifier) , (parameter_declaration "_false> *this" type_identifier (ERROR ">" >) (pointer_declarator "*this" * identifier)) , (parameter_declaration "Sized_relobj" type_identifier) (ERROR "<64" < number_literal) , (parameter_declaration "_false> *relobj" type_identifier (ERROR ">" >) (pointer_declarator "*relobj" * identifier)) , (parameter_declaration "uint param_2" type_identifier identifier) , (parameter_declaration "uint type" type_identifier identifier) , (parameter_declaration "Output_data *od" type_identifier (pointer_declarator "*od" * identifier)) , (parameter_declaration "uint shndx" type_identifier identifier) , (parameter_declaration "Address address" type_identifier identifier) ))) {) identifier (ERROR "<9" < number_literal) , identifier , identifier , (ERROR "_false>" identifier >) identifier ;) (expression_statement "Output_reloc<9,_true,_64,_false>::Output_reloc\n (&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false);" (update_expression "Output_reloc<9,_true,_64,_false>::Output_reloc\n (&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false)" (binary_expression "Output_reloc<9,_true,_64,_false>::Output_reloc\n (&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false)" (binary_expression "Output_reloc<9" identifier < number_literal) (ERROR ",_true,_64,_false" , identifier , identifier , identifier) > (ERROR "::" : :) (call_expression "Output_reloc\n (&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false)" identifier (argument_list "(&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false)" ( (pointer_expression "&OStack_38" & identifier) , identifier , identifier , identifier , identifier , identifier , false , false , false , false )))) --) ;) (expression_statement "Output_data_reloc_base<9,_true,_64,_false>::add\n (&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38);" (update_expression "Output_data_reloc_base<9,_true,_64,_false>::add\n (&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38)" (binary_expression "Output_data_reloc_base<9,_true,_64,_false>::add\n (&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38)" (binary_expression "Output_data_reloc_base<9" identifier < number_literal) (ERROR ",_true,_64,_false" , identifier , identifier , identifier) > (ERROR "::" : :) (call_expression "add\n (&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38)" identifier (argument_list "(&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38)" ( (binary_expression "&this->super_Output_data_reloc_base<9" (pointer_expression "&this->super_Output_data_reloc_base" & (field_expression "this->super_Output_data_reloc_base" identifier -> field_identifier)) < number_literal) , identifier , identifier , identifier (ERROR ">" >) , identifier , (pointer_expression "&OStack_38" & identifier) )))) --) ;) (return_statement "return;" return ;) (ERROR "}" }))
|
(translation_unit "void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)\n\n{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}\n\n" (function_definition "void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)\n\n{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" primitive_type (function_declarator "FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) ))) (compound_statement "{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" { (declaration "undefined1 auStack_38 [36];" type_identifier (array_declarator "auStack_38 [36]" identifier [ number_literal ]) ;) (expression_statement "FUN_000f7dac(auStack_38);" (call_expression "FUN_000f7dac(auStack_38)" identifier (argument_list "(auStack_38)" ( identifier ))) ;) (expression_statement "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);" (call_expression "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6)" identifier (argument_list "(param_1,param_5,auStack_38,param_4,param_6)" ( identifier , identifier , identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT , IDENT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)\n\n{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00111d04(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" (identifier "FUN_00111d04") (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) (, ",") (parameter_declaration "undefined4 param_5" (type_identifier "undefined4") (identifier "param_5")) (, ",") (parameter_declaration "undefined4 param_6" (type_identifier "undefined4") (identifier "param_6")) () ")"))) (compound_statement "{\n undefined1 auStack_38 [36];\n \n FUN_000f7dac(auStack_38);\n FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);\n return;\n}" ({ "{") (declaration "undefined1 auStack_38 [36];" (type_identifier "undefined1") (array_declarator "auStack_38 [36]" (identifier "auStack_38") ([ "[") (number_literal "36") (] "]")) (; ";")) (expression_statement "FUN_000f7dac(auStack_38);" (call_expression "FUN_000f7dac(auStack_38)" (identifier "FUN_000f7dac") (argument_list "(auStack_38)" (( "(") (identifier "auStack_38") () ")"))) (; ";")) (expression_statement "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);" (call_expression "FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6)" (identifier "FUN_001118b0") (argument_list "(param_1,param_5,auStack_38,param_4,param_6)" (( "(") (identifier "param_1") (, ",") (identifier "param_5") (, ",") (identifier "auStack_38") (, ",") (identifier "param_4") (, ",") (identifier "param_6") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* DWARF original prototype: void add_local(Output_data_reloc<9,_true,_64,_false> * this,
Sized_relobj<64,_false> * relobj, uint local_sym_index, uint type, Output_data * od, uint shndx,
Address address) */
void __thiscall
gold::Output_data_reloc<9,_true,_64,_false>::add_local
(Output_data_reloc<9,_true,_64,_false> *this,Sized_relobj<64,_false> *relobj,uint param_2,
uint type,Output_data *od,uint shndx,Address address)
{
var_1<9,_true,_64,_false> OStack_38;
var_1<9,_true,_64,_false>::var_1
(&OStack_38,relobj,param_2,type,shndx,address,false,false,false,false);
var_2<9,_true,_64,_false>::var_3
(&this->super_Output_data_reloc_base<9,_true,_64,_false>,od,&OStack_38);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier) (identifier)))) (return_statement))))
|
void MASKED(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6)
{
undefined1 auStack_38 [36];
FUN_000f7dac(auStack_38);
FUN_001118b0(param_1,param_5,auStack_38,param_4,param_6);
return;
}
| 82,798 |
||
2676_openssl_and_openssl_strip.c
|
OPENSSL_cleanse
|
OPENSSL_cleanse
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void OPENSSL_cleanse(void *ptr,size_t len)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* OPENSSL_cleanse@@OPENSSL_1_1_0 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void OPENSSL_cleanse(void *ptr,size_t len)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206640638')]
|
[('const-1', u'RETURN_-1206640638')]
| null | null |
000b1ff8
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "void OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "OPENSSL_cleanse(void *ptr,size_t len)" identifier (parameter_list "(void *ptr,size_t len)" ( (parameter_declaration "void *ptr" primitive_type (pointer_declarator "*ptr" * identifier)) , (parameter_declaration "size_t len" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* OPENSSL_cleanse@@OPENSSL_1_1_0 */\n halt_baddata();\n}\n\n" comment comment (function_definition "void OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* OPENSSL_cleanse@@OPENSSL_1_1_0 */\n halt_baddata();\n}" primitive_type (function_declarator "OPENSSL_cleanse(void *ptr,size_t len)" identifier (parameter_list "(void *ptr,size_t len)" ( (parameter_declaration "void *ptr" primitive_type (pointer_declarator "*ptr" * identifier)) , (parameter_declaration "size_t len" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* OPENSSL_cleanse@@OPENSSL_1_1_0 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "void OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "OPENSSL_cleanse(void *ptr,size_t len)" identifier (parameter_list "(void *ptr,size_t len)" ( (parameter_declaration "void *ptr" primitive_type (pointer_declarator "*ptr" * identifier)) , (parameter_declaration "size_t len" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "void OPENSSL_cleanse(void *ptr,size_t len)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "OPENSSL_cleanse(void *ptr,size_t len)" (identifier "OPENSSL_cleanse") (parameter_list "(void *ptr,size_t len)" (( "(") (parameter_declaration "void *ptr" (primitive_type "void") (pointer_declarator "*ptr" (* "*") (identifier "ptr"))) (, ",") (parameter_declaration "size_t len" (primitive_type "size_t") (identifier "len")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(void *ptr,size_t len)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* OPENSSL_cleanse@@OPENSSL_1_1_0 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void MASKED(void *ptr,size_t len)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 74,065 |
||
11_sg_readcap_and_sg_readcap_strip.c
|
perror
|
perror
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void perror(char *__s)
{
(*(code *)PTR_perror_00023f80)();
return;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void perror(char *__s)
{
(*(code *)PTR_perror_00023f80)();
return;
}
|
adr r12,0x1095c
add r12,r12,#0x13000
ldr pc,[r12,#0x624]!
| null | null | null | null |
[('const-0', u'RETURN_-1205991046'), (u'CAST_-1205990974', u'CALLIND_-1205991049'), ('tmp_119', u'CAST_-1205990974'), (u'CALLIND_-1205991049', u'INDIRECT_-1205990979'), (u'INDIRECT_-1205990979', u'COPY_-1205991038')]
|
[('const-0', u'RETURN_-1205991046'), (u'CAST_-1205990974', u'CALLIND_-1205991049'), ('tmp_119', u'CAST_-1205990974'), (u'CALLIND_-1205991049', u'INDIRECT_-1205990979'), (u'INDIRECT_-1205990979', u'COPY_-1205991038')]
| null | null |
00010954
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f80)();" (call_expression "(*(code *)PTR_perror_00023f80)()" (parenthesized_expression "(*(code *)PTR_perror_00023f80)" ( (pointer_expression "*(code *)PTR_perror_00023f80" * (cast_expression "(code *)PTR_perror_00023f80" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f80)();" (call_expression "(*(code *)PTR_perror_00023f80)()" (parenthesized_expression "(*(code *)PTR_perror_00023f80)" ( (pointer_expression "*(code *)PTR_perror_00023f80" * (cast_expression "(code *)PTR_perror_00023f80" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f80)();" (call_expression "(*(code *)PTR_perror_00023f80)()" (parenthesized_expression "(*(code *)PTR_perror_00023f80)" ( (pointer_expression "*(code *)PTR_perror_00023f80" * (cast_expression "(code *)PTR_perror_00023f80" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" (primitive_type "void") (function_declarator "perror(char *__s)" (identifier "perror") (parameter_list "(char *__s)" (( "(") (parameter_declaration "char *__s" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s"))) () ")"))) (compound_statement "{\n (*(code *)PTR_perror_00023f80)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_perror_00023f80)();" (call_expression "(*(code *)PTR_perror_00023f80)()" (parenthesized_expression "(*(code *)PTR_perror_00023f80)" (( "(") (pointer_expression "*(code *)PTR_perror_00023f80" (* "*") (cast_expression "(code *)PTR_perror_00023f80" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_perror_00023f80"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(char *__s)
{
(*(type_1 *)PTR_perror_00023f80)();
return;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void MASKED(char *__s)
{
(*(code *)PTR_MASKED_00023f80)();
return;
}
| 24,300 |
||
52_lemon_and_lemon_strip.c
|
Action_new
|
FUN_000117a8
|
/* WARNING: Unknown calling convention */
action * Action_new(void)
{
action *paVar1;
action *paVar2;
int *piVar3;
int iVar4;
piVar3 = (int *)(DAT_00011840 + 0x117bc);
paVar1 = (action *)*piVar3;
iVar4 = DAT_00011844 + 0x117c4;
if (paVar1 == (action *)0x0) {
paVar1 = (action *)calloc(100,0x18);
*piVar3 = (int)paVar1;
if (paVar1 == (action *)0x0) {
fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)
);
/* WARNING: Subroutine does not return */
exit(1);
}
paVar2 = paVar1 + 1;
do {
paVar2[-1].next = paVar2;
paVar2 = paVar2 + 1;
} while (paVar2 != paVar1 + 100);
paVar1[99].next = (action *)0x0;
}
*(action **)(DAT_00011848 + 0x117d8) = paVar1->next;
return paVar1;
}
|
void FUN_000117a8(void)
{
void *pvVar1;
int *piVar2;
int iVar3;
piVar2 = (int *)(DAT_00011840 + 0x117bc);
pvVar1 = (void *)*piVar2;
iVar3 = DAT_00011844 + 0x117c4;
if (pvVar1 == (void *)0x0) {
pvVar1 = calloc(100,0x18);
*piVar2 = (int)pvVar1;
if (pvVar1 == (void *)0x0) {
fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)
);
/* WARNING: Subroutine does not return */
exit(1);
}
iVar3 = (int)pvVar1 + 0x18;
do {
*(int *)(iVar3 + -8) = iVar3;
iVar3 = iVar3 + 0x18;
} while (iVar3 != (int)pvVar1 + 0x960);
*(undefined4 *)((int)pvVar1 + 0x958) = 0;
}
*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);
return;
}
|
stmdb sp!,{r4,r5,r6,lr}
ldr r4,[0x11840]
ldr r5,[0x11844]
add r4,pc,r4
ldr r0,[r4,#0x0]
add r5,pc,r5
cmp r0,#0x0
beq 0x000117dc
ldr r3,[0x11848]
ldr r2,[r0,#0x10]
add r3,pc,r3
str r2,[r3,#0x0]
ldmia sp!,{r4,r5,r6,pc}
mov r1,#0x18
mov r0,#0x64
bl 0x00010ac8
cmp r0,#0x0
str r0,[r4,#0x0]
addne r3,r0,#0x18
addne r2,r0,#0x960
beq 0x00011818
str r3,[r3,#-0x8]
add r3,r3,#0x18
cmp r3,r2
bne 0x000117fc
mov r3,#0x0
str r3,[r0,#0x958]
b 0x000117c8
ldr r3,[0x1184c]
ldr r0,[0x11850]
ldr r3,[r5,r3]
mov r2,#0x32
mov r1,#0x1
ldr r3,[r3,#0x0]
add r0,pc,r0
bl 0x00010b70
mov r0,#0x1
bl 0x00010bdc
| null | null | null | null |
[(u'LOAD_-1205987378', u'CAST_-1205986865'), ('const-16', u'PTRSUB_-1205986800'), (u'STORE_-1205987181', u'INDIRECT_-1205986842'), (u'INT_ADD_-1205987039', u'CAST_-1205986740'), (u'INDIRECT_-1205986848', u'INT_ADD_-1205987039'), (u'INDIRECT_-1205986816', u'COPY_-1205986874'), (u'LOAD_-1205987331', u'STORE_-1205987313'), ('const-0', u'RETURN_-1205987287'), (u'STORE_-1205987313', u'INDIRECT_-1205986873'), ('const-1', u'CALL_-1205987043'), ('const-24', u'PTRADD_-1205986811'), (u'PTRADD_-1205986816', u'MULTIEQUAL_-1205986974'), (u'CAST_-1205986811', u'STORE_-1205987230'), (u'CALL_-1205987252', u'CAST_-1205986820'), ('const-417', u'STORE_-1205987181'), (u'CAST_-1205986835', u'STORE_-1205987313'), ('const-50', u'CALL_-1205987043'), ('const-1', u'PTRADD_-1205986816'), ('const-24', u'PTRADD_-1205986802'), (u'CAST_-1205986820', u'CAST_-1205986811'), (u'CAST_-1205986820', u'PTRADD_-1205986811'), (u'INDIRECT_-1205986870', u'MULTIEQUAL_-1205986851'), (u'MULTIEQUAL_-1205986974', u'PTRADD_-1205986802'), (u'STORE_-1205987123', u'INDIRECT_-1205986821'), (u'LOAD_-1205987065', u'CAST_-1205986745'), ('const-417', u'LOAD_-1205987331'), ('const-100', u'CALL_-1205987252'), ('const-24', u'PTRADD_-1205986796'), ('const-71612', u'INT_ADD_-1205987369'), (u'PTRSUB_-1205986800', u'STORE_-1205987181'), ('const-0', u'STORE_-1205987123'), (u'MULTIEQUAL_-1205987040', u'RETURN_-1205987287'), (u'INDIRECT_-1205986848', u'MULTIEQUAL_-1205986829'), ('const-16', u'PTRSUB_-1205986852'), (u'INDIRECT_-1205986783', u'COPY_-1205986841'), ('const-417', u'LOAD_-1205987065'), (u'INDIRECT_-1205986859', u'MULTIEQUAL_-1205986840'), (u'INT_NOTEQUAL_-1205987146', u'CBRANCH_-1205987143'), (u'CAST_-1205986820', u'PTRADD_-1205986779'), (u'CALL_-1205987021', u'INDIRECT_-1205986772'), (u'INDIRECT_-1205986821', u'MULTIEQUAL_-1205986893'), ('const-417', u'STORE_-1205987123'), (u'STORE_-1205987123', u'INDIRECT_-1205986810'), ('tmp_519', u'BRANCH_-1205987117'), ('const-417', u'STORE_-1205987313'), (u'STORE_-1205987123', u'INDIRECT_-1205986832'), (u'STORE_-1205987181', u'INDIRECT_-1205986853'), (u'STORE_-1205987313', u'INDIRECT_-1205986917'), ('tmp_1366', u'MULTIEQUAL_-1205986882'), (u'STORE_-1205987123', u'INDIRECT_-1205986854'), (u'INDIRECT_-1205986895', u'COPY_-1205986953'), ('const-71640', u'INT_ADD_-1205987305'), (u'STORE_-1205987181', u'INDIRECT_-1205986864'), ('tmp_1365', u'INT_ADD_-1205987352'), (u'INDIRECT_-1205986843', u'MULTIEQUAL_-1205986915'), (u'CALL_-1205987252', u'INDIRECT_-1205986884'), (u'STORE_-1205987230', u'INDIRECT_-1205986892'), (u'INDIRECT_-1205986854', u'MULTIEQUAL_-1205986926'), (u'STORE_-1205987313', u'INDIRECT_-1205986895'), (u'CAST_-1205986820', u'MULTIEQUAL_-1205987040'), (u'STORE_-1205987230', u'INDIRECT_-1205986848'), ('const-1', u'PTRADD_-1205986796'), (u'INDIRECT_-1205986842', u'MULTIEQUAL_-1205986840'), (u'STORE_-1205987181', u'INDIRECT_-1205986831'), (u'INDIRECT_-1205986873', u'COPY_-1205986931'), (u'CAST_-1205986870', u'STORE_-1205987230'), ('const-99', u'PTRADD_-1205986779'), ('const-1', u'RETURN_-1205987016'), (u'CALL_-1205987021', u'INDIRECT_-1205986805'), ('const-24', u'CALL_-1205987252'), ('const-24', u'PTRADD_-1205986816'), (u'INDIRECT_-1205986831', u'MULTIEQUAL_-1205986829'), (u'INDIRECT_-1205986810', u'MULTIEQUAL_-1205986882'), (u'CAST_-1205986820', u'INT_EQUAL_-1205987232'), (u'CALL_-1205987043', u'INDIRECT_-1205986814'), (u'CALL_-1205987043', u'INDIRECT_-1205986803'), (u'CAST_-1205986870', u'LOAD_-1205987378'), (u'CAST_-1205986740', u'CALL_-1205987043'), (u'INDIRECT_-1205986906', u'COPY_-1205986964'), ('const-1', u'CALL_-1205987021'), (u'PTRSUB_-1205986777', u'STORE_-1205987123'), (u'MULTIEQUAL_-1205987040', u'PTRSUB_-1205986852'), ('tmp_1365', u'MULTIEQUAL_-1205986915'), (u'CALL_-1205987252', u'INDIRECT_-1205986862'), (u'INT_EQUAL_-1205987342', u'CBRANCH_-1205987339'), ('tmp_1367', u'MULTIEQUAL_-1205986893'), (u'INT_ADD_-1205987305', u'CAST_-1205986835'), (u'CAST_-1205986865', u'INT_EQUAL_-1205987342'), (u'INDIRECT_-1205986917', u'COPY_-1205986975'), (u'STORE_-1205987123', u'INDIRECT_-1205986843'), (u'STORE_-1205987181', u'INDIRECT_-1205986875'), (u'INDIRECT_-1205986805', u'COPY_-1205986863'), ('tmp_1364', u'INT_ADD_-1205987369'), ('tmp_478', u'CBRANCH_-1205987143'), (u'INDIRECT_-1205986794', u'COPY_-1205986852'), (u'CAST_-1205986758', u'LOAD_-1205987103'), (u'CALL_-1205987043', u'INDIRECT_-1205986792'), (u'INT_ADD_-1205987352', u'INT_ADD_-1205987087'), (u'CALL_-1205987021', u'INDIRECT_-1205986783'), (u'INT_ADD_-1205987369', u'CAST_-1205986870'), ('const-0', u'INT_EQUAL_-1205987342'), ('const-71620', u'INT_ADD_-1205987352'), (u'CAST_-1205986820', u'PTRADD_-1205986816'), (u'CALL_-1205987043', u'INDIRECT_-1205986825'), (u'CALL_-1205987021', u'INDIRECT_-1205986816'), ('const-71736', u'INT_ADD_-1205987039'), (u'PTRADD_-1205986796', u'MULTIEQUAL_-1205986974'), ('const-0', u'INT_EQUAL_-1205987232'), (u'MULTIEQUAL_-1205986904', u'INT_ADD_-1205987305'), (u'PTRADD_-1205986796', u'INT_NOTEQUAL_-1205987146'), (u'CALL_-1205987021', u'INDIRECT_-1205986794'), (u'CALL_-1205987252', u'INDIRECT_-1205986873'), (u'MULTIEQUAL_-1205986974', u'STORE_-1205987181'), ('const-417', u'LOAD_-1205987103'), (u'INT_ADD_-1205987087', u'CAST_-1205986758'), ('tmp_1368', u'MULTIEQUAL_-1205986904'), (u'INDIRECT_-1205986875', u'MULTIEQUAL_-1205986873'), ('const-24', u'PTRADD_-1205986779'), (u'INT_EQUAL_-1205987232', u'CBRANCH_-1205987221'), (u'INDIRECT_-1205986892', u'MULTIEQUAL_-1205986873'), (u'INDIRECT_-1205986832', u'MULTIEQUAL_-1205986904'), (u'STORE_-1205987313', u'INDIRECT_-1205986906'), (u'INDIRECT_-1205986772', u'COPY_-1205986830'), (u'INDIRECT_-1205986884', u'COPY_-1205986942'), (u'STORE_-1205987230', u'INDIRECT_-1205986859'), (u'STORE_-1205987230', u'INDIRECT_-1205986870'), (u'INDIRECT_-1205986881', u'MULTIEQUAL_-1205986862'), (u'PTRADD_-1205986802', u'PTRSUB_-1205986800'), (u'PTRSUB_-1205986852', u'LOAD_-1205987331'), (u'CAST_-1205986865', u'MULTIEQUAL_-1205987040'), ('tmp_126', u'CBRANCH_-1205987339'), ('tmp_327', u'CBRANCH_-1205987221'), (u'CAST_-1205986745', u'CALL_-1205987043'), (u'CALL_-1205987252', u'INDIRECT_-1205986895'), ('tmp_1364', u'MULTIEQUAL_-1205986926'), (u'STORE_-1205987230', u'INDIRECT_-1205986881'), (u'CALL_-1205987043', u'INDIRECT_-1205986781'), (u'PTRADD_-1205986779', u'PTRSUB_-1205986777'), (u'STORE_-1205987313', u'INDIRECT_-1205986884'), (u'INDIRECT_-1205986864', u'MULTIEQUAL_-1205986862'), ('const-100', u'PTRADD_-1205986811'), (u'LOAD_-1205987103', u'LOAD_-1205987065'), (u'INDIRECT_-1205986853', u'MULTIEQUAL_-1205986851'), (u'CALL_-1205987252', u'INDIRECT_-1205986906'), ('const-4294967295', u'PTRADD_-1205986802'), (u'MULTIEQUAL_-1205986974', u'PTRADD_-1205986796'), ('const-417', u'STORE_-1205987230'), (u'INDIRECT_-1205986859', u'INT_ADD_-1205987087'), ('const-417', u'LOAD_-1205987378'), (u'PTRADD_-1205986811', u'INT_NOTEQUAL_-1205987146'), ('const-16', u'PTRSUB_-1205986777')]
|
[(u'CALL_-1205987252', u'CAST_-1205986780'), (u'INT_ADD_-1205987087', u'CAST_-1205986762'), (u'CAST_-1205986762', u'LOAD_-1205987103'), (u'STORE_-1205987181', u'INDIRECT_-1205986842'), (u'INDIRECT_-1205986848', u'INT_ADD_-1205987039'), (u'INDIRECT_-1205986816', u'COPY_-1205986874'), (u'LOAD_-1205987331', u'STORE_-1205987313'), ('const-0', u'RETURN_-1205987287'), (u'STORE_-1205987313', u'INDIRECT_-1205986873'), ('tmp_1366', u'MULTIEQUAL_-1205986915'), (u'CALL_-1205987252', u'CAST_-1205986820'), (u'INT_ADD_-1205987178', u'INT_NOTEQUAL_-1205987146'), (u'INDIRECT_-1205986870', u'MULTIEQUAL_-1205986851'), (u'CAST_-1205986873', u'INT_EQUAL_-1205987342'), (u'CALL_-1205987252', u'INT_EQUAL_-1205987232'), ('const-16', u'INT_ADD_-1205987315'), (u'STORE_-1205987123', u'INDIRECT_-1205986821'), (u'CAST_-1205986810', u'INT_ADD_-1205987178'), (u'INT_ADD_-1205987151', u'INT_NOTEQUAL_-1205987146'), ('const-4294967288', u'INT_ADD_-1205987166'), ('const-24', u'CALL_-1205987252'), (u'INDIRECT_-1205986848', u'MULTIEQUAL_-1205986829'), (u'INDIRECT_-1205986783', u'COPY_-1205986841'), ('tmp_1368', u'MULTIEQUAL_-1205986893'), (u'INDIRECT_-1205986859', u'MULTIEQUAL_-1205986840'), ('tmp_1367', u'MULTIEQUAL_-1205986882'), ('const-71640', u'INT_ADD_-1205987305'), (u'INT_ADD_-1205987108', u'CAST_-1205986779'), ('tmp_1366', u'INT_ADD_-1205987352'), (u'INT_NOTEQUAL_-1205987146', u'CBRANCH_-1205987143'), (u'CALL_-1205987021', u'INDIRECT_-1205986772'), (u'INDIRECT_-1205986821', u'MULTIEQUAL_-1205986893'), (u'STORE_-1205987123', u'INDIRECT_-1205986810'), ('tmp_519', u'BRANCH_-1205987117'), (u'CAST_-1205986837', u'STORE_-1205987313'), (u'STORE_-1205987123', u'INDIRECT_-1205986832'), (u'CALL_-1205987252', u'MULTIEQUAL_-1205987040'), (u'STORE_-1205987181', u'INDIRECT_-1205986853'), (u'STORE_-1205987313', u'INDIRECT_-1205986917'), (u'CAST_-1205986815', u'INT_ADD_-1205987197'), (u'STORE_-1205987123', u'INDIRECT_-1205986854'), (u'INDIRECT_-1205986895', u'COPY_-1205986953'), (u'STORE_-1205987181', u'INDIRECT_-1205986864'), (u'INDIRECT_-1205986843', u'MULTIEQUAL_-1205986915'), (u'CALL_-1205987252', u'CAST_-1205986815'), (u'CALL_-1205987252', u'INDIRECT_-1205986884'), (u'STORE_-1205987230', u'INDIRECT_-1205986892'), (u'INDIRECT_-1205986854', u'MULTIEQUAL_-1205986926'), (u'STORE_-1205987313', u'INDIRECT_-1205986895'), (u'STORE_-1205987230', u'INDIRECT_-1205986848'), ('const-71612', u'INT_ADD_-1205987369'), (u'CAST_-1205986780', u'INT_ADD_-1205987108'), (u'INDIRECT_-1205986842', u'MULTIEQUAL_-1205986840'), (u'STORE_-1205987181', u'INDIRECT_-1205986831'), (u'INDIRECT_-1205986873', u'COPY_-1205986931'), ('const-1', u'RETURN_-1205987016'), ('const-0', u'INT_EQUAL_-1205987232'), (u'CALL_-1205987021', u'INDIRECT_-1205986805'), (u'INDIRECT_-1205986831', u'MULTIEQUAL_-1205986829'), (u'CAST_-1205986749', u'CALL_-1205987043'), (u'INDIRECT_-1205986810', u'MULTIEQUAL_-1205986882'), (u'INT_ADD_-1205987305', u'CAST_-1205986837'), ('const-71620', u'INT_ADD_-1205987352'), ('tmp_1369', u'MULTIEQUAL_-1205986904'), (u'MULTIEQUAL_-1205986974', u'INT_ADD_-1205987166'), ('const-417', u'STORE_-1205987230'), ('const-0', u'INT_EQUAL_-1205987342'), (u'CALL_-1205987043', u'INDIRECT_-1205986814'), (u'CALL_-1205987043', u'INDIRECT_-1205986803'), ('const-24', u'INT_ADD_-1205987197'), ('const-71736', u'INT_ADD_-1205987039'), ('const-417', u'LOAD_-1205987331'), (u'INDIRECT_-1205986906', u'COPY_-1205986964'), ('tmp_1365', u'INT_ADD_-1205987369'), (u'CALL_-1205987252', u'INDIRECT_-1205986862'), (u'MULTIEQUAL_-1205986974', u'INT_ADD_-1205987151'), (u'INT_EQUAL_-1205987342', u'CBRANCH_-1205987339'), ('const-50', u'CALL_-1205987043'), ('const-417', u'LOAD_-1205987378'), (u'INDIRECT_-1205986917', u'COPY_-1205986975'), (u'CAST_-1205986801', u'STORE_-1205987181'), (u'STORE_-1205987123', u'INDIRECT_-1205986843'), (u'STORE_-1205987181', u'INDIRECT_-1205986875'), (u'INDIRECT_-1205986805', u'COPY_-1205986863'), (u'CAST_-1205986873', u'MULTIEQUAL_-1205987040'), ('tmp_478', u'CBRANCH_-1205987143'), ('const-417', u'STORE_-1205987123'), (u'INDIRECT_-1205986794', u'COPY_-1205986852'), (u'CALL_-1205987043', u'INDIRECT_-1205986792'), (u'INT_ADD_-1205987352', u'INT_ADD_-1205987087'), ('const-417', u'LOAD_-1205987103'), (u'CALL_-1205987021', u'INDIRECT_-1205986783'), (u'MULTIEQUAL_-1205987040', u'CAST_-1205986843'), ('const-2392', u'INT_ADD_-1205987108'), (u'CAST_-1205986820', u'STORE_-1205987230'), (u'CALL_-1205987043', u'INDIRECT_-1205986825'), (u'CALL_-1205987021', u'INDIRECT_-1205986816'), (u'CAST_-1205986843', u'INT_ADD_-1205987315'), (u'MULTIEQUAL_-1205986904', u'INT_ADD_-1205987305'), (u'INT_ADD_-1205987369', u'CAST_-1205986878'), ('tmp_1365', u'MULTIEQUAL_-1205986926'), (u'CAST_-1205986744', u'CALL_-1205987043'), (u'CALL_-1205987021', u'INDIRECT_-1205986794'), (u'CALL_-1205987252', u'INDIRECT_-1205986873'), (u'MULTIEQUAL_-1205986974', u'STORE_-1205987181'), ('const-1', u'CALL_-1205987043'), (u'LOAD_-1205987065', u'CAST_-1205986749'), (u'INT_ADD_-1205987315', u'CAST_-1205986842'), (u'INDIRECT_-1205986875', u'MULTIEQUAL_-1205986873'), (u'CALL_-1205987252', u'CAST_-1205986810'), (u'INT_ADD_-1205987166', u'CAST_-1205986801'), (u'CAST_-1205986779', u'STORE_-1205987123'), (u'CAST_-1205986878', u'STORE_-1205987230'), (u'INT_EQUAL_-1205987232', u'CBRANCH_-1205987221'), (u'CAST_-1205986842', u'LOAD_-1205987331'), (u'INDIRECT_-1205986892', u'MULTIEQUAL_-1205986873'), ('const-417', u'STORE_-1205987313'), (u'INDIRECT_-1205986832', u'MULTIEQUAL_-1205986904'), (u'STORE_-1205987313', u'INDIRECT_-1205986906'), (u'INDIRECT_-1205986772', u'COPY_-1205986830'), (u'INT_ADD_-1205987197', u'MULTIEQUAL_-1205986974'), (u'INDIRECT_-1205986884', u'COPY_-1205986942'), (u'STORE_-1205987230', u'INDIRECT_-1205986859'), (u'STORE_-1205987230', u'INDIRECT_-1205986870'), ('const-24', u'INT_ADD_-1205987151'), ('const-1', u'CALL_-1205987021'), (u'INDIRECT_-1205986881', u'MULTIEQUAL_-1205986862'), ('const-417', u'STORE_-1205987181'), ('tmp_126', u'CBRANCH_-1205987339'), ('tmp_327', u'CBRANCH_-1205987221'), (u'CALL_-1205987252', u'INDIRECT_-1205986895'), ('const-2400', u'INT_ADD_-1205987178'), ('const-0', u'STORE_-1205987123'), (u'STORE_-1205987230', u'INDIRECT_-1205986881'), (u'CALL_-1205987043', u'INDIRECT_-1205986781'), (u'STORE_-1205987313', u'INDIRECT_-1205986884'), (u'INDIRECT_-1205986864', u'MULTIEQUAL_-1205986862'), (u'INT_ADD_-1205987151', u'MULTIEQUAL_-1205986974'), (u'CAST_-1205986878', u'LOAD_-1205987378'), ('const-100', u'CALL_-1205987252'), (u'LOAD_-1205987103', u'LOAD_-1205987065'), (u'INDIRECT_-1205986853', u'MULTIEQUAL_-1205986851'), (u'CALL_-1205987252', u'INDIRECT_-1205986906'), ('const-417', u'LOAD_-1205987065'), (u'LOAD_-1205987378', u'CAST_-1205986873'), (u'INDIRECT_-1205986859', u'INT_ADD_-1205987087'), (u'INT_ADD_-1205987039', u'CAST_-1205986744')]
| null | null |
000117a8
|
arm
|
O2
|
(translation_unit "void FUN_000117a8(void)\n\n{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}\n\n" (function_definition "void FUN_000117a8(void)\n\n{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" primitive_type (function_declarator "FUN_000117a8(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" { (declaration "void *pvVar1;" primitive_type (pointer_declarator "*pvVar1" * identifier) ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "piVar2 = (int *)(DAT_00011840 + 0x117bc);" (assignment_expression "piVar2 = (int *)(DAT_00011840 + 0x117bc)" identifier = (cast_expression "(int *)(DAT_00011840 + 0x117bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011840 + 0x117bc)" ( (binary_expression "DAT_00011840 + 0x117bc" identifier + number_literal) )))) ;) (expression_statement "pvVar1 = (void *)*piVar2;" (assignment_expression "pvVar1 = (void *)*piVar2" identifier = (cast_expression "(void *)*piVar2" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*piVar2" * identifier))) ;) (expression_statement "iVar3 = DAT_00011844 + 0x117c4;" (assignment_expression "iVar3 = DAT_00011844 + 0x117c4" identifier = (binary_expression "DAT_00011844 + 0x117c4" identifier + number_literal)) ;) (if_statement "if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" if (parenthesized_expression "(pvVar1 == (void *)0x0)" ( (binary_expression "pvVar1 == (void *)0x0" identifier == (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" { (expression_statement "pvVar1 = calloc(100,0x18);" (assignment_expression "pvVar1 = calloc(100,0x18)" identifier = (call_expression "calloc(100,0x18)" identifier (argument_list "(100,0x18)" ( number_literal , number_literal )))) ;) (expression_statement "*piVar2 = (int)pvVar1;" (assignment_expression "*piVar2 = (int)pvVar1" (pointer_expression "*piVar2" * identifier) = (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier)) ;) (if_statement "if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" if (parenthesized_expression "(pvVar1 == (void *)0x0)" ( (binary_expression "pvVar1 == (void *)0x0" identifier == (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" { (expression_statement "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );" (call_expression "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" identifier (argument_list "((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" ( (cast_expression "(void *)(DAT_00011850 + 0x11838)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011850 + 0x11838)" ( (binary_expression "DAT_00011850 + 0x11838" identifier + number_literal) ))) , number_literal , number_literal , (cast_expression "(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar3 + DAT_0001184c)" * (pointer_expression "*(undefined4 **)(iVar3 + DAT_0001184c)" * (cast_expression "(undefined4 **)(iVar3 + DAT_0001184c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar3 + DAT_0001184c)" ( (binary_expression "iVar3 + DAT_0001184c" identifier + identifier) )))))) ))) ;) comment (expression_statement "exit(1);" (call_expression "exit(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })) (expression_statement "iVar3 = (int)pvVar1 + 0x18;" (assignment_expression "iVar3 = (int)pvVar1 + 0x18" identifier = (binary_expression "(int)pvVar1 + 0x18" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal)) ;) (do_statement "do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);" do (compound_statement "{\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n }" { (expression_statement "*(int *)(iVar3 + -8) = iVar3;" (assignment_expression "*(int *)(iVar3 + -8) = iVar3" (pointer_expression "*(int *)(iVar3 + -8)" * (cast_expression "(int *)(iVar3 + -8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar3 + -8)" ( (binary_expression "iVar3 + -8" identifier + number_literal) )))) = identifier) ;) (expression_statement "iVar3 = iVar3 + 0x18;" (assignment_expression "iVar3 = iVar3 + 0x18" identifier = (binary_expression "iVar3 + 0x18" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 != (int)pvVar1 + 0x960)" ( (binary_expression "iVar3 != (int)pvVar1 + 0x960" identifier != (binary_expression "(int)pvVar1 + 0x960" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal)) )) ;) (expression_statement "*(undefined4 *)((int)pvVar1 + 0x958) = 0;" (assignment_expression "*(undefined4 *)((int)pvVar1 + 0x958) = 0" (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x958)" * (cast_expression "(undefined4 *)((int)pvVar1 + 0x958)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)pvVar1 + 0x958)" ( (binary_expression "(int)pvVar1 + 0x958" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = number_literal) ;) })) (expression_statement "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);" (assignment_expression "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10)" (pointer_expression "*(undefined4 *)(DAT_00011848 + 0x117d8)" * (cast_expression "(undefined4 *)(DAT_00011848 + 0x117d8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011848 + 0x117d8)" ( (binary_expression "DAT_00011848 + 0x117d8" identifier + number_literal) )))) = (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x10)" * (cast_expression "(undefined4 *)((int)pvVar1 + 0x10)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)pvVar1 + 0x10)" ( (binary_expression "(int)pvVar1 + 0x10" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) ))))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n\naction * Action_new(void)\n\n{\n action *paVar1;\n action *paVar2;\n int *piVar3;\n int iVar4;\n \n piVar3 = (int *)(DAT_00011840 + 0x117bc);\n paVar1 = (action *)*piVar3;\n iVar4 = DAT_00011844 + 0x117c4;\n if (paVar1 == (action *)0x0) {\n paVar1 = (action *)calloc(100,0x18);\n *piVar3 = (int)paVar1;\n if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n paVar2 = paVar1 + 1;\n do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);\n paVar1[99].next = (action *)0x0;\n }\n *(action **)(DAT_00011848 + 0x117d8) = paVar1->next;\n return paVar1;\n}\n\n" comment (function_definition "action * Action_new(void)\n\n{\n action *paVar1;\n action *paVar2;\n int *piVar3;\n int iVar4;\n \n piVar3 = (int *)(DAT_00011840 + 0x117bc);\n paVar1 = (action *)*piVar3;\n iVar4 = DAT_00011844 + 0x117c4;\n if (paVar1 == (action *)0x0) {\n paVar1 = (action *)calloc(100,0x18);\n *piVar3 = (int)paVar1;\n if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n paVar2 = paVar1 + 1;\n do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);\n paVar1[99].next = (action *)0x0;\n }\n *(action **)(DAT_00011848 + 0x117d8) = paVar1->next;\n return paVar1;\n}" type_identifier (pointer_declarator "* Action_new(void)" * (function_declarator "Action_new(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) )))) (compound_statement "{\n action *paVar1;\n action *paVar2;\n int *piVar3;\n int iVar4;\n \n piVar3 = (int *)(DAT_00011840 + 0x117bc);\n paVar1 = (action *)*piVar3;\n iVar4 = DAT_00011844 + 0x117c4;\n if (paVar1 == (action *)0x0) {\n paVar1 = (action *)calloc(100,0x18);\n *piVar3 = (int)paVar1;\n if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n paVar2 = paVar1 + 1;\n do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);\n paVar1[99].next = (action *)0x0;\n }\n *(action **)(DAT_00011848 + 0x117d8) = paVar1->next;\n return paVar1;\n}" { (declaration "action *paVar1;" type_identifier (pointer_declarator "*paVar1" * identifier) ;) (declaration "action *paVar2;" type_identifier (pointer_declarator "*paVar2" * identifier) ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "int iVar4;" primitive_type identifier ;) (expression_statement "piVar3 = (int *)(DAT_00011840 + 0x117bc);" (assignment_expression "piVar3 = (int *)(DAT_00011840 + 0x117bc)" identifier = (cast_expression "(int *)(DAT_00011840 + 0x117bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011840 + 0x117bc)" ( (binary_expression "DAT_00011840 + 0x117bc" identifier + number_literal) )))) ;) (expression_statement "paVar1 = (action *)*piVar3;" (assignment_expression "paVar1 = (action *)*piVar3" identifier = (cast_expression "(action *)*piVar3" ( (type_descriptor "action *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "*piVar3" * identifier))) ;) (expression_statement "iVar4 = DAT_00011844 + 0x117c4;" (assignment_expression "iVar4 = DAT_00011844 + 0x117c4" identifier = (binary_expression "DAT_00011844 + 0x117c4" identifier + number_literal)) ;) (if_statement "if (paVar1 == (action *)0x0) {\n paVar1 = (action *)calloc(100,0x18);\n *piVar3 = (int)paVar1;\n if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n paVar2 = paVar1 + 1;\n do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);\n paVar1[99].next = (action *)0x0;\n }" if (parenthesized_expression "(paVar1 == (action *)0x0)" ( (binary_expression "paVar1 == (action *)0x0" identifier == (cast_expression "(action *)0x0" ( (type_descriptor "action *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n paVar1 = (action *)calloc(100,0x18);\n *piVar3 = (int)paVar1;\n if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n paVar2 = paVar1 + 1;\n do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);\n paVar1[99].next = (action *)0x0;\n }" { (expression_statement "paVar1 = (action *)calloc(100,0x18);" (assignment_expression "paVar1 = (action *)calloc(100,0x18)" identifier = (cast_expression "(action *)calloc(100,0x18)" ( (type_descriptor "action *" type_identifier (abstract_pointer_declarator "*" *)) ) (call_expression "calloc(100,0x18)" identifier (argument_list "(100,0x18)" ( number_literal , number_literal ))))) ;) (expression_statement "*piVar3 = (int)paVar1;" (assignment_expression "*piVar3 = (int)paVar1" (pointer_expression "*piVar3" * identifier) = (cast_expression "(int)paVar1" ( (type_descriptor "int" primitive_type) ) identifier)) ;) (if_statement "if (paVar1 == (action *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" if (parenthesized_expression "(paVar1 == (action *)0x0)" ( (binary_expression "paVar1 == (action *)0x0" identifier == (cast_expression "(action *)0x0" ( (type_descriptor "action *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" { (expression_statement "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n );" (call_expression "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n )" identifier (argument_list "((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)\n )" ( (cast_expression "(void *)(DAT_00011850 + 0x11838)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011850 + 0x11838)" ( (binary_expression "DAT_00011850 + 0x11838" identifier + number_literal) ))) , number_literal , number_literal , (cast_expression "(FILE *)**(undefined4 **)(iVar4 + DAT_0001184c)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar4 + DAT_0001184c)" * (pointer_expression "*(undefined4 **)(iVar4 + DAT_0001184c)" * (cast_expression "(undefined4 **)(iVar4 + DAT_0001184c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_0001184c)" ( (binary_expression "iVar4 + DAT_0001184c" identifier + identifier) )))))) ))) ;) comment (expression_statement "exit(1);" (call_expression "exit(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })) (expression_statement "paVar2 = paVar1 + 1;" (assignment_expression "paVar2 = paVar1 + 1" identifier = (binary_expression "paVar1 + 1" identifier + number_literal)) ;) (do_statement "do {\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n } while (paVar2 != paVar1 + 100);" do (compound_statement "{\n paVar2[-1].next = paVar2;\n paVar2 = paVar2 + 1;\n }" { (expression_statement "paVar2[-1].next = paVar2;" (assignment_expression "paVar2[-1].next = paVar2" (field_expression "paVar2[-1].next" (subscript_expression "paVar2[-1]" identifier [ number_literal ]) . field_identifier) = identifier) ;) (expression_statement "paVar2 = paVar2 + 1;" (assignment_expression "paVar2 = paVar2 + 1" identifier = (binary_expression "paVar2 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(paVar2 != paVar1 + 100)" ( (binary_expression "paVar2 != paVar1 + 100" identifier != (binary_expression "paVar1 + 100" identifier + number_literal)) )) ;) (expression_statement "paVar1[99].next = (action *)0x0;" (assignment_expression "paVar1[99].next = (action *)0x0" (field_expression "paVar1[99].next" (subscript_expression "paVar1[99]" identifier [ number_literal ]) . field_identifier) = (cast_expression "(action *)0x0" ( (type_descriptor "action *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) })) (expression_statement "*(action **)(DAT_00011848 + 0x117d8) = paVar1->next;" (assignment_expression "*(action **)(DAT_00011848 + 0x117d8) = paVar1->next" (pointer_expression "*(action **)(DAT_00011848 + 0x117d8)" * (cast_expression "(action **)(DAT_00011848 + 0x117d8)" ( (type_descriptor "action **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00011848 + 0x117d8)" ( (binary_expression "DAT_00011848 + 0x117d8" identifier + number_literal) )))) = (field_expression "paVar1->next" identifier -> field_identifier)) ;) (return_statement "return paVar1;" return identifier ;) })))
|
(translation_unit "void FUN_000117a8(void)\n\n{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}\n\n" (function_definition "void FUN_000117a8(void)\n\n{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" primitive_type (function_declarator "FUN_000117a8(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" { (declaration "void *pvVar1;" primitive_type (pointer_declarator "*pvVar1" * identifier) ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "piVar2 = (int *)(DAT_00011840 + 0x117bc);" (assignment_expression "piVar2 = (int *)(DAT_00011840 + 0x117bc)" identifier = (cast_expression "(int *)(DAT_00011840 + 0x117bc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011840 + 0x117bc)" ( (binary_expression "DAT_00011840 + 0x117bc" identifier + number_literal) )))) ;) (expression_statement "pvVar1 = (void *)*piVar2;" (assignment_expression "pvVar1 = (void *)*piVar2" identifier = (cast_expression "(void *)*piVar2" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*piVar2" * identifier))) ;) (expression_statement "iVar3 = DAT_00011844 + 0x117c4;" (assignment_expression "iVar3 = DAT_00011844 + 0x117c4" identifier = (binary_expression "DAT_00011844 + 0x117c4" identifier + number_literal)) ;) (if_statement "if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" if (parenthesized_expression "(pvVar1 == (void *)0x0)" ( (binary_expression "pvVar1 == (void *)0x0" identifier == (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" { (expression_statement "pvVar1 = calloc(100,0x18);" (assignment_expression "pvVar1 = calloc(100,0x18)" identifier = (call_expression "calloc(100,0x18)" identifier (argument_list "(100,0x18)" ( number_literal , number_literal )))) ;) (expression_statement "*piVar2 = (int)pvVar1;" (assignment_expression "*piVar2 = (int)pvVar1" (pointer_expression "*piVar2" * identifier) = (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier)) ;) (if_statement "if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" if (parenthesized_expression "(pvVar1 == (void *)0x0)" ( (binary_expression "pvVar1 == (void *)0x0" identifier == (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" { (expression_statement "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );" (call_expression "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" identifier (argument_list "((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" ( (cast_expression "(void *)(DAT_00011850 + 0x11838)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011850 + 0x11838)" ( (binary_expression "DAT_00011850 + 0x11838" identifier + number_literal) ))) , number_literal , number_literal , (cast_expression "(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar3 + DAT_0001184c)" * (pointer_expression "*(undefined4 **)(iVar3 + DAT_0001184c)" * (cast_expression "(undefined4 **)(iVar3 + DAT_0001184c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar3 + DAT_0001184c)" ( (binary_expression "iVar3 + DAT_0001184c" identifier + identifier) )))))) ))) ;) comment (expression_statement "exit(1);" (call_expression "exit(1)" identifier (argument_list "(1)" ( number_literal ))) ;) })) (expression_statement "iVar3 = (int)pvVar1 + 0x18;" (assignment_expression "iVar3 = (int)pvVar1 + 0x18" identifier = (binary_expression "(int)pvVar1 + 0x18" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal)) ;) (do_statement "do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);" do (compound_statement "{\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n }" { (expression_statement "*(int *)(iVar3 + -8) = iVar3;" (assignment_expression "*(int *)(iVar3 + -8) = iVar3" (pointer_expression "*(int *)(iVar3 + -8)" * (cast_expression "(int *)(iVar3 + -8)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar3 + -8)" ( (binary_expression "iVar3 + -8" identifier + number_literal) )))) = identifier) ;) (expression_statement "iVar3 = iVar3 + 0x18;" (assignment_expression "iVar3 = iVar3 + 0x18" identifier = (binary_expression "iVar3 + 0x18" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 != (int)pvVar1 + 0x960)" ( (binary_expression "iVar3 != (int)pvVar1 + 0x960" identifier != (binary_expression "(int)pvVar1 + 0x960" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal)) )) ;) (expression_statement "*(undefined4 *)((int)pvVar1 + 0x958) = 0;" (assignment_expression "*(undefined4 *)((int)pvVar1 + 0x958) = 0" (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x958)" * (cast_expression "(undefined4 *)((int)pvVar1 + 0x958)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)pvVar1 + 0x958)" ( (binary_expression "(int)pvVar1 + 0x958" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = number_literal) ;) })) (expression_statement "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);" (assignment_expression "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10)" (pointer_expression "*(undefined4 *)(DAT_00011848 + 0x117d8)" * (cast_expression "(undefined4 *)(DAT_00011848 + 0x117d8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00011848 + 0x117d8)" ( (binary_expression "DAT_00011848 + 0x117d8" identifier + number_literal) )))) = (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x10)" * (cast_expression "(undefined4 *)((int)pvVar1 + 0x10)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)pvVar1 + 0x10)" ( (binary_expression "(int)pvVar1 + 0x10" (cast_expression "(int)pvVar1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) ))))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , LIT )))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (cast_expression ( (type_descriptor TYPE) ) IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) , LIT , LIT , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ))) ;) comment (expression_statement (call_expression IDENT (argument_list ( LIT ))) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT)) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT != (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT)) )) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = LIT) ;) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) ))))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000117a8(void)\n\n{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" (primitive_type "void") (function_declarator "FUN_000117a8(void)" (identifier "FUN_000117a8") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n void *pvVar1;\n int *piVar2;\n int iVar3;\n \n piVar2 = (int *)(DAT_00011840 + 0x117bc);\n pvVar1 = (void *)*piVar2;\n iVar3 = DAT_00011844 + 0x117c4;\n if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }\n *(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);\n return;\n}" ({ "{") (declaration "void *pvVar1;" (primitive_type "void") (pointer_declarator "*pvVar1" (* "*") (identifier "pvVar1")) (; ";")) (declaration "int *piVar2;" (primitive_type "int") (pointer_declarator "*piVar2" (* "*") (identifier "piVar2")) (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (expression_statement "piVar2 = (int *)(DAT_00011840 + 0x117bc);" (assignment_expression "piVar2 = (int *)(DAT_00011840 + 0x117bc)" (identifier "piVar2") (= "=") (cast_expression "(int *)(DAT_00011840 + 0x117bc)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00011840 + 0x117bc)" (( "(") (binary_expression "DAT_00011840 + 0x117bc" (identifier "DAT_00011840") (+ "+") (number_literal "0x117bc")) () ")")))) (; ";")) (expression_statement "pvVar1 = (void *)*piVar2;" (assignment_expression "pvVar1 = (void *)*piVar2" (identifier "pvVar1") (= "=") (cast_expression "(void *)*piVar2" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*piVar2" (* "*") (identifier "piVar2")))) (; ";")) (expression_statement "iVar3 = DAT_00011844 + 0x117c4;" (assignment_expression "iVar3 = DAT_00011844 + 0x117c4" (identifier "iVar3") (= "=") (binary_expression "DAT_00011844 + 0x117c4" (identifier "DAT_00011844") (+ "+") (number_literal "0x117c4"))) (; ";")) (if_statement "if (pvVar1 == (void *)0x0) {\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" (if "if") (parenthesized_expression "(pvVar1 == (void *)0x0)" (( "(") (binary_expression "pvVar1 == (void *)0x0" (identifier "pvVar1") (== "==") (cast_expression "(void *)0x0" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n pvVar1 = calloc(100,0x18);\n *piVar2 = (int)pvVar1;\n if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }\n iVar3 = (int)pvVar1 + 0x18;\n do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);\n *(undefined4 *)((int)pvVar1 + 0x958) = 0;\n }" ({ "{") (expression_statement "pvVar1 = calloc(100,0x18);" (assignment_expression "pvVar1 = calloc(100,0x18)" (identifier "pvVar1") (= "=") (call_expression "calloc(100,0x18)" (identifier "calloc") (argument_list "(100,0x18)" (( "(") (number_literal "100") (, ",") (number_literal "0x18") () ")")))) (; ";")) (expression_statement "*piVar2 = (int)pvVar1;" (assignment_expression "*piVar2 = (int)pvVar1" (pointer_expression "*piVar2" (* "*") (identifier "piVar2")) (= "=") (cast_expression "(int)pvVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pvVar1"))) (; ";")) (if_statement "if (pvVar1 == (void *)0x0) {\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" (if "if") (parenthesized_expression "(pvVar1 == (void *)0x0)" (( "(") (binary_expression "pvVar1 == (void *)0x0" (identifier "pvVar1") (== "==") (cast_expression "(void *)0x0" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );\n /* WARNING: Subroutine does not return */\n exit(1);\n }" ({ "{") (expression_statement "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n );" (call_expression "fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" (identifier "fwrite") (argument_list "((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)\n )" (( "(") (cast_expression "(void *)(DAT_00011850 + 0x11838)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00011850 + 0x11838)" (( "(") (binary_expression "DAT_00011850 + 0x11838" (identifier "DAT_00011850") (+ "+") (number_literal "0x11838")) () ")"))) (, ",") (number_literal "1") (, ",") (number_literal "0x32") (, ",") (cast_expression "(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(iVar3 + DAT_0001184c)" (* "*") (pointer_expression "*(undefined4 **)(iVar3 + DAT_0001184c)" (* "*") (cast_expression "(undefined4 **)(iVar3 + DAT_0001184c)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar3 + DAT_0001184c)" (( "(") (binary_expression "iVar3 + DAT_0001184c" (identifier "iVar3") (+ "+") (identifier "DAT_0001184c")) () ")")))))) () ")"))) (; ";")) (comment "/* WARNING: Subroutine does not return */") (expression_statement "exit(1);" (call_expression "exit(1)" (identifier "exit") (argument_list "(1)" (( "(") (number_literal "1") () ")"))) (; ";")) (} "}"))) (expression_statement "iVar3 = (int)pvVar1 + 0x18;" (assignment_expression "iVar3 = (int)pvVar1 + 0x18" (identifier "iVar3") (= "=") (binary_expression "(int)pvVar1 + 0x18" (cast_expression "(int)pvVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pvVar1")) (+ "+") (number_literal "0x18"))) (; ";")) (do_statement "do {\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n } while (iVar3 != (int)pvVar1 + 0x960);" (do "do") (compound_statement "{\n *(int *)(iVar3 + -8) = iVar3;\n iVar3 = iVar3 + 0x18;\n }" ({ "{") (expression_statement "*(int *)(iVar3 + -8) = iVar3;" (assignment_expression "*(int *)(iVar3 + -8) = iVar3" (pointer_expression "*(int *)(iVar3 + -8)" (* "*") (cast_expression "(int *)(iVar3 + -8)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar3 + -8)" (( "(") (binary_expression "iVar3 + -8" (identifier "iVar3") (+ "+") (number_literal "-8")) () ")")))) (= "=") (identifier "iVar3")) (; ";")) (expression_statement "iVar3 = iVar3 + 0x18;" (assignment_expression "iVar3 = iVar3 + 0x18" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 0x18" (identifier "iVar3") (+ "+") (number_literal "0x18"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar3 != (int)pvVar1 + 0x960)" (( "(") (binary_expression "iVar3 != (int)pvVar1 + 0x960" (identifier "iVar3") (!= "!=") (binary_expression "(int)pvVar1 + 0x960" (cast_expression "(int)pvVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pvVar1")) (+ "+") (number_literal "0x960"))) () ")")) (; ";")) (expression_statement "*(undefined4 *)((int)pvVar1 + 0x958) = 0;" (assignment_expression "*(undefined4 *)((int)pvVar1 + 0x958) = 0" (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x958)" (* "*") (cast_expression "(undefined4 *)((int)pvVar1 + 0x958)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)pvVar1 + 0x958)" (( "(") (binary_expression "(int)pvVar1 + 0x958" (cast_expression "(int)pvVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pvVar1")) (+ "+") (number_literal "0x958")) () ")")))) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);" (assignment_expression "*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10)" (pointer_expression "*(undefined4 *)(DAT_00011848 + 0x117d8)" (* "*") (cast_expression "(undefined4 *)(DAT_00011848 + 0x117d8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00011848 + 0x117d8)" (( "(") (binary_expression "DAT_00011848 + 0x117d8" (identifier "DAT_00011848") (+ "+") (number_literal "0x117d8")) () ")")))) (= "=") (pointer_expression "*(undefined4 *)((int)pvVar1 + 0x10)" (* "*") (cast_expression "(undefined4 *)((int)pvVar1 + 0x10)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)pvVar1 + 0x10)" (( "(") (binary_expression "(int)pvVar1 + 0x10" (cast_expression "(int)pvVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pvVar1")) (+ "+") (number_literal "0x10")) () ")"))))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
type_1 * function_1(void)
{
type_1 *var_3;
type_1 *var_10;
int *piVar3;
int var_7;
piVar3 = (int *)(var_1 + 0x117bc);
var_3 = (type_1 *)*piVar3;
var_7 = var_2 + 0x117c4;
if (var_3 == (type_1 *)0x0) {
var_3 = (type_1 *)var_4(100,0x18);
*piVar3 = (int)var_3;
if (var_3 == (type_1 *)0x0) {
var_5((void *)(var_6 + 0x11838),1,0x32,(type_2 *)**(type_3 **)(var_7 + var_8)
);
/* WARNING: Subroutine does not return */
var_9(1);
}
var_10 = var_3 + 1;
do {
var_10[-1].next = var_10;
var_10 = var_10 + 1;
} while (var_10 != var_3 + 100);
var_3[99].next = (type_1 *)0x0;
}
*(type_1 **)(var_11 + 0x117d8) = var_3->next;
return var_3;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (number_literal) (number_literal) (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) right: (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))))) (return_statement))))
|
void MASKED(void)
{
void *pvVar1;
int *piVar2;
int iVar3;
piVar2 = (int *)(DAT_00011840 + 0x117bc);
pvVar1 = (void *)*piVar2;
iVar3 = DAT_00011844 + 0x117c4;
if (pvVar1 == (void *)0x0) {
pvVar1 = calloc(100,0x18);
*piVar2 = (int)pvVar1;
if (pvVar1 == (void *)0x0) {
fwrite((void *)(DAT_00011850 + 0x11838),1,0x32,(FILE *)**(undefined4 **)(iVar3 + DAT_0001184c)
);
/* WARNING: Subroutine does not return */
exit(1);
}
iVar3 = (int)pvVar1 + 0x18;
do {
*(int *)(iVar3 + -8) = iVar3;
iVar3 = iVar3 + 0x18;
} while (iVar3 != (int)pvVar1 + 0x960);
*(undefined4 *)((int)pvVar1 + 0x958) = 0;
}
*(undefined4 *)(DAT_00011848 + 0x117d8) = *(undefined4 *)((int)pvVar1 + 0x10);
return;
}
| 23,247 |
||
164_libmicrohttpd.so.12.56_and_libmicrohttpd.so.12.56_strip.c
|
MHD_init
|
FUN_0001ce40
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void MHD_init(void)
{
if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {
*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;
}
MHD_monotonic_sec_counter_init();
MHD_init_mem_pools_();
return;
}
|
void FUN_0001ce40(void)
{
if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {
*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;
}
FUN_0001d59c();
*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;
return;
}
|
stmdb sp!,{r4,lr}
ldr r3,[0x1ce6c]
add r3,pc,r3
ldr r2,[r3,#0x4]
cmp r2,#0x0
ldreq r2,[0x1ce70]
addeq r2,pc,r2
streq r2,[r3,#0x4]
bl 0x0001d59c
ldmia sp!,{r4,lr}
b 0x0001d20c
mov r2,#0x1000
ldr r3,[0x1d220]
add r3,pc,r3
str r2,[r3,#0x0]
bx lr
| null | null | null | null |
[('const-417', u'LOAD_-1205940643'), (u'LOAD_-1205940643', u'INT_EQUAL_-1205940618'), ('const-118356', u'INT_ADD_-1205940627'), (u'INDIRECT_-1205940471', u'MULTIEQUAL_-1205940467'), (u'STORE_-1205940594', u'INDIRECT_-1205940476'), ('const-118368', u'INT_ADD_-1205940588'), ('const-0', u'RETURN_-1205940565'), (u'INDIRECT_-1205940466', u'COPY_-1205940525'), (u'CALL_-1205940569', u'INDIRECT_-1205940461'), (u'CALL_-1205940569', u'INDIRECT_-1205940466'), (u'INT_ADD_-1205940627', u'CAST_-1205940477'), ('const-118356', u'INT_ADD_-1205940579'), ('const-417', u'STORE_-1205940594'), (u'INDIRECT_-1205940461', u'COPY_-1205940520'), (u'CAST_-1205940460', u'STORE_-1205940594'), ('const-0', u'INT_EQUAL_-1205940618'), (u'STORE_-1205940594', u'INDIRECT_-1205940471'), ('tmp_360', u'INT_ADD_-1205940588'), ('tmp_359', u'INT_ADD_-1205940579'), (u'INT_ADD_-1205940579', u'CAST_-1205940460'), (u'INDIRECT_-1205940476', u'MULTIEQUAL_-1205940472'), (u'INT_ADD_-1205940588', u'STORE_-1205940594'), ('tmp_360', u'MULTIEQUAL_-1205940467'), ('tmp_93', u'CBRANCH_-1205940614'), (u'CALL_-1205940584', u'INDIRECT_-1205940475'), (u'CALL_-1205940584', u'INDIRECT_-1205940470'), ('tmp_359', u'INT_ADD_-1205940627'), (u'INT_EQUAL_-1205940618', u'CBRANCH_-1205940614'), (u'CAST_-1205940477', u'LOAD_-1205940643'), ('tmp_359', u'MULTIEQUAL_-1205940472')]
|
[('tmp_409', u'INT_ADD_-1205940588'), ('const-417', u'STORE_-1205939607'), (u'STORE_-1205939607', u'INDIRECT_-1205939506'), ('const-4096', u'STORE_-1205939607'), (u'LOAD_-1205940643', u'INT_EQUAL_-1205940618'), (u'INDIRECT_-1205940453', u'MULTIEQUAL_-1205940448'), ('const-118368', u'INT_ADD_-1205940588'), (u'STORE_-1205940594', u'INDIRECT_-1205940463'), ('tmp_407', u'INT_ADD_-1205940579'), ('const-0', u'INT_EQUAL_-1205940618'), (u'CALL_-1205940584', u'INDIRECT_-1205940461'), (u'INDIRECT_-1205939496', u'COPY_-1205939554'), (u'INDIRECT_-1205940463', u'MULTIEQUAL_-1205940458'), ('const-417', u'LOAD_-1205940643'), (u'INDIRECT_-1205940451', u'INT_ADD_-1205939599'), ('tmp_408', u'MULTIEQUAL_-1205940448'), (u'INT_ADD_-1205940579', u'CAST_-1205940443'), (u'INT_ADD_-1205939599', u'CAST_-1205939490'), (u'STORE_-1205939607', u'INDIRECT_-1205939496'), (u'CALL_-1205940584', u'INDIRECT_-1205940451'), ('const-0', u'RETURN_-1205939591'), ('tmp_407', u'MULTIEQUAL_-1205940458'), (u'STORE_-1205939607', u'INDIRECT_-1205939501'), (u'CAST_-1205940460', u'LOAD_-1205940643'), (u'CALL_-1205940584', u'INDIRECT_-1205940456'), (u'CAST_-1205939490', u'STORE_-1205939607'), (u'INT_ADD_-1205940588', u'STORE_-1205940594'), (u'INDIRECT_-1205939501', u'COPY_-1205939559'), ('const-417', u'STORE_-1205940594'), ('tmp_93', u'CBRANCH_-1205940614'), (u'STORE_-1205940594', u'INDIRECT_-1205940458'), (u'STORE_-1205940594', u'INDIRECT_-1205940453'), ('tmp_407', u'INT_ADD_-1205940627'), ('const-118356', u'INT_ADD_-1205940627'), (u'CAST_-1205940443', u'STORE_-1205940594'), (u'INDIRECT_-1205940458', u'MULTIEQUAL_-1205940453'), (u'INDIRECT_-1205939506', u'COPY_-1205939564'), ('const-119324', u'INT_ADD_-1205939599'), (u'INT_EQUAL_-1205940618', u'CBRANCH_-1205940614'), ('const-118356', u'INT_ADD_-1205940579'), (u'INT_ADD_-1205940627', u'CAST_-1205940460'), ('tmp_409', u'MULTIEQUAL_-1205940453')]
| null | null |
0001ce40
|
arm
|
O2
|
(translation_unit "void FUN_0001ce40(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}\n\n" (function_definition "void FUN_0001ce40(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" primitive_type (function_declarator "FUN_0001ce40(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" { (if_statement "if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" if (parenthesized_expression "(*(int *)(DAT_0001ce6c + 0x1ce54) == 0)" ( (binary_expression "*(int *)(DAT_0001ce6c + 0x1ce54) == 0" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" { (expression_statement "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;" (assignment_expression "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) = (binary_expression "DAT_0001ce70 + 0x1ce60" identifier + number_literal)) ;) })) (expression_statement "FUN_0001d59c();" (call_expression "FUN_0001d59c()" identifier (argument_list "()" ( ))) ;) (expression_statement "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;" (assignment_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000" (pointer_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c)" * (cast_expression "(undefined4 *)(DAT_0001d220 + 0x1d21c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001d220 + 0x1d21c)" ( (binary_expression "DAT_0001d220 + 0x1d21c" identifier + number_literal) )))) = number_literal) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid MHD_init(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n MHD_monotonic_sec_counter_init();\n MHD_init_mem_pools_();\n return;\n}\n\n" comment (function_definition "void MHD_init(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n MHD_monotonic_sec_counter_init();\n MHD_init_mem_pools_();\n return;\n}" primitive_type (function_declarator "MHD_init(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n MHD_monotonic_sec_counter_init();\n MHD_init_mem_pools_();\n return;\n}" { (if_statement "if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" if (parenthesized_expression "(*(int *)(DAT_0001ce6c + 0x1ce54) == 0)" ( (binary_expression "*(int *)(DAT_0001ce6c + 0x1ce54) == 0" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" { (expression_statement "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;" (assignment_expression "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) = (binary_expression "DAT_0001ce70 + 0x1ce60" identifier + number_literal)) ;) })) (expression_statement "MHD_monotonic_sec_counter_init();" (call_expression "MHD_monotonic_sec_counter_init()" identifier (argument_list "()" ( ))) ;) (expression_statement "MHD_init_mem_pools_();" (call_expression "MHD_init_mem_pools_()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_0001ce40(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}\n\n" (function_definition "void FUN_0001ce40(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" primitive_type (function_declarator "FUN_0001ce40(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" { (if_statement "if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" if (parenthesized_expression "(*(int *)(DAT_0001ce6c + 0x1ce54) == 0)" ( (binary_expression "*(int *)(DAT_0001ce6c + 0x1ce54) == 0" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" { (expression_statement "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;" (assignment_expression "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" * (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" ( (binary_expression "DAT_0001ce6c + 0x1ce54" identifier + number_literal) )))) = (binary_expression "DAT_0001ce70 + 0x1ce60" identifier + number_literal)) ;) })) (expression_statement "FUN_0001d59c();" (call_expression "FUN_0001d59c()" identifier (argument_list "()" ( ))) ;) (expression_statement "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;" (assignment_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000" (pointer_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c)" * (cast_expression "(undefined4 *)(DAT_0001d220 + 0x1d21c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001d220 + 0x1d21c)" ( (binary_expression "DAT_0001d220 + 0x1d21c" identifier + number_literal) )))) = number_literal) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + LIT)) ;) })) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0001ce40(void)\n\n{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" (primitive_type "void") (function_declarator "FUN_0001ce40(void)" (identifier "FUN_0001ce40") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }\n FUN_0001d59c();\n *(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;\n return;\n}" ({ "{") (if_statement "if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" (if "if") (parenthesized_expression "(*(int *)(DAT_0001ce6c + 0x1ce54) == 0)" (( "(") (binary_expression "*(int *)(DAT_0001ce6c + 0x1ce54) == 0" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" (* "*") (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" (( "(") (binary_expression "DAT_0001ce6c + 0x1ce54" (identifier "DAT_0001ce6c") (+ "+") (number_literal "0x1ce54")) () ")")))) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n *(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;\n }" ({ "{") (expression_statement "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;" (assignment_expression "*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60" (pointer_expression "*(int *)(DAT_0001ce6c + 0x1ce54)" (* "*") (cast_expression "(int *)(DAT_0001ce6c + 0x1ce54)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001ce6c + 0x1ce54)" (( "(") (binary_expression "DAT_0001ce6c + 0x1ce54" (identifier "DAT_0001ce6c") (+ "+") (number_literal "0x1ce54")) () ")")))) (= "=") (binary_expression "DAT_0001ce70 + 0x1ce60" (identifier "DAT_0001ce70") (+ "+") (number_literal "0x1ce60"))) (; ";")) (} "}"))) (expression_statement "FUN_0001d59c();" (call_expression "FUN_0001d59c()" (identifier "FUN_0001d59c") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;" (assignment_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000" (pointer_expression "*(undefined4 *)(DAT_0001d220 + 0x1d21c)" (* "*") (cast_expression "(undefined4 *)(DAT_0001d220 + 0x1d21c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001d220 + 0x1d21c)" (( "(") (binary_expression "DAT_0001d220 + 0x1d21c" (identifier "DAT_0001d220") (+ "+") (number_literal "0x1d21c")) () ")")))) (= "=") (number_literal "0x1000")) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(void)
{
if (*(int *)(var_1 + 0x1ce54) == 0) {
*(int *)(var_1 + 0x1ce54) = var_2 + 0x1ce60;
}
var_3();
var_4();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (return_statement))))
|
void MASKED(void)
{
if (*(int *)(DAT_0001ce6c + 0x1ce54) == 0) {
*(int *)(DAT_0001ce6c + 0x1ce54) = DAT_0001ce70 + 0x1ce60;
}
FUN_0001d59c();
*(undefined4 *)(DAT_0001d220 + 0x1d21c) = 0x1000;
return;
}
| 55,591 |
||
135_dirname_and_dirname_strip.c
|
strchr
|
strchr
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * strchr(char *__s,int __c)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strchr@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * strchr(char *__s,int __c)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206026082')]
|
[('const-1', u'RETURN_-1206026082')]
| null | null |
00028094
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (pointer_declarator "* strchr(char *__s,int __c)" * (function_declarator "strchr(char *__s,int __c)" identifier (parameter_list "(char *__s,int __c)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) , (parameter_declaration "int __c" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strchr@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strchr@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (pointer_declarator "* strchr(char *__s,int __c)" * (function_declarator "strchr(char *__s,int __c)" identifier (parameter_list "(char *__s,int __c)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) , (parameter_declaration "int __c" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strchr@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (pointer_declarator "* strchr(char *__s,int __c)" * (function_declarator "strchr(char *__s,int __c)" identifier (parameter_list "(char *__s,int __c)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) , (parameter_declaration "int __c" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) )))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "char * strchr(char *__s,int __c)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "char") (pointer_declarator "* strchr(char *__s,int __c)" (* "*") (function_declarator "strchr(char *__s,int __c)" (identifier "strchr") (parameter_list "(char *__s,int __c)" (( "(") (parameter_declaration "char *__s" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s"))) (, ",") (parameter_declaration "int __c" (primitive_type "int") (identifier "__c")) () ")")))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * function_1(char *__s,int __c)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strchr@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * MASKED(char *__s,int __c)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 1,016 |
||
339_pageant_and_pageant_strip.c
|
bigmul
|
FUN_0002909c
|
Bignum_conflict bigmul(Bignum_conflict a,Bignum_conflict b)
{
Bignum_conflict pBVar1;
pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0);
return pBVar1;
}
|
void FUN_0002909c(undefined4 param_1,undefined4 param_2)
{
FUN_00028e48(param_1,param_2,0);
return;
}
|
mov r2,#0x0
b 0x00028e48
| null | null | null | null |
[('tmp_40', u'CALL_-1206021965'), ('const-0', u'CALL_-1206021965'), ('const-0', u'RETURN_-1206021961'), ('tmp_39', u'CALL_-1206021965'), (u'CALL_-1206021965', u'RETURN_-1206021961')]
|
[('tmp_84', u'CALL_-1206021965'), ('const-0', u'CALL_-1206021965'), ('tmp_85', u'CALL_-1206021965'), ('const-0', u'RETURN_-1206021961')]
| null | null |
0002909c
|
arm
|
O2
|
(translation_unit "void FUN_0002909c(undefined4 param_1,undefined4 param_2)\n\n{\n FUN_00028e48(param_1,param_2,0);\n return;\n}\n\n" (function_definition "void FUN_0002909c(undefined4 param_1,undefined4 param_2)\n\n{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" primitive_type (function_declarator "FUN_0002909c(undefined4 param_1,undefined4 param_2)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) ))) (compound_statement "{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" { (expression_statement "FUN_00028e48(param_1,param_2,0);" (call_expression "FUN_00028e48(param_1,param_2,0)" identifier (argument_list "(param_1,param_2,0)" ( identifier , identifier , number_literal ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "Bignum_conflict bigmul(Bignum_conflict a,Bignum_conflict b)\n\n{\n Bignum_conflict pBVar1;\n \n pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0);\n return pBVar1;\n}\n\n" (function_definition "Bignum_conflict bigmul(Bignum_conflict a,Bignum_conflict b)\n\n{\n Bignum_conflict pBVar1;\n \n pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0);\n return pBVar1;\n}" type_identifier (function_declarator "bigmul(Bignum_conflict a,Bignum_conflict b)" identifier (parameter_list "(Bignum_conflict a,Bignum_conflict b)" ( (parameter_declaration "Bignum_conflict a" type_identifier identifier) , (parameter_declaration "Bignum_conflict b" type_identifier identifier) ))) (compound_statement "{\n Bignum_conflict pBVar1;\n \n pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0);\n return pBVar1;\n}" { (declaration "Bignum_conflict pBVar1;" type_identifier identifier ;) (expression_statement "pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0);" (assignment_expression "pBVar1 = bigmuladd(a,b,(Bignum_conflict)0x0)" identifier = (call_expression "bigmuladd(a,b,(Bignum_conflict)0x0)" identifier (argument_list "(a,b,(Bignum_conflict)0x0)" ( identifier , identifier , (cast_expression "(Bignum_conflict)0x0" ( (type_descriptor "Bignum_conflict" type_identifier) ) number_literal) )))) ;) (return_statement "return pBVar1;" return identifier ;) })))
|
(translation_unit "void FUN_0002909c(undefined4 param_1,undefined4 param_2)\n\n{\n FUN_00028e48(param_1,param_2,0);\n return;\n}\n\n" (function_definition "void FUN_0002909c(undefined4 param_1,undefined4 param_2)\n\n{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" primitive_type (function_declarator "FUN_0002909c(undefined4 param_1,undefined4 param_2)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) ))) (compound_statement "{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" { (expression_statement "FUN_00028e48(param_1,param_2,0);" (call_expression "FUN_00028e48(param_1,param_2,0)" identifier (argument_list "(param_1,param_2,0)" ( identifier , identifier , number_literal ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , LIT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0002909c(undefined4 param_1,undefined4 param_2)\n\n{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" (primitive_type "void") (function_declarator "FUN_0002909c(undefined4 param_1,undefined4 param_2)" (identifier "FUN_0002909c") (parameter_list "(undefined4 param_1,undefined4 param_2)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) () ")"))) (compound_statement "{\n FUN_00028e48(param_1,param_2,0);\n return;\n}" ({ "{") (expression_statement "FUN_00028e48(param_1,param_2,0);" (call_expression "FUN_00028e48(param_1,param_2,0)" (identifier "FUN_00028e48") (argument_list "(param_1,param_2,0)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (number_literal "0") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
type_1 function_1(type_1 a,type_1 b)
{
type_1 pBVar1;
pBVar1 = var_1(a,b,(type_1)0x0);
return pBVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal)))) (return_statement))))
|
void MASKED(undefined4 param_1,undefined4 param_2)
{
FUN_00028e48(param_1,param_2,0);
return;
}
| 40,397 |
||
135_id_and_id_strip.c
|
getpwuid
|
getpwuid
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
passwd * getpwuid(__uid_t __uid)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* getpwuid@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
passwd * getpwuid(__uid_t __uid)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206018002')]
|
[('const-1', u'RETURN_-1206018002')]
| null | null |
0002a024
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\npasswd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "passwd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" type_identifier (pointer_declarator "* getpwuid(__uid_t __uid)" * (function_declarator "getpwuid(__uid_t __uid)" identifier (parameter_list "(__uid_t __uid)" ( (parameter_declaration "__uid_t __uid" type_identifier identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\npasswd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* getpwuid@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "passwd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* getpwuid@@GLIBC_2.4 */\n halt_baddata();\n}" type_identifier (pointer_declarator "* getpwuid(__uid_t __uid)" * (function_declarator "getpwuid(__uid_t __uid)" identifier (parameter_list "(__uid_t __uid)" ( (parameter_declaration "__uid_t __uid" type_identifier identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* getpwuid@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\npasswd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "passwd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" type_identifier (pointer_declarator "* getpwuid(__uid_t __uid)" * (function_declarator "getpwuid(__uid_t __uid)" identifier (parameter_list "(__uid_t __uid)" ( (parameter_declaration "__uid_t __uid" type_identifier identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) )))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "passwd * getpwuid(__uid_t __uid)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (type_identifier "passwd") (pointer_declarator "* getpwuid(__uid_t __uid)" (* "*") (function_declarator "getpwuid(__uid_t __uid)" (identifier "getpwuid") (parameter_list "(__uid_t __uid)" (( "(") (parameter_declaration "__uid_t __uid" (type_identifier "__uid_t") (identifier "__uid")) () ")")))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
type_1 * function_1(type_2 __uid)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* getpwuid@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (type_identifier) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
passwd * MASKED(__uid_t __uid)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 11,534 |
||
93_sg_inq_and_sg_inq_strip.c
|
nvme_hex_raw
|
FUN_0001820c
|
/* DWARF original prototype: void nvme_hex_raw(uint8_t * b, int b_len, opts_t * op, opts_t * op) */
void nvme_hex_raw(uint8_t *b,int b_len,opts_t *op,opts_t *op_1)
{
uint uVar1;
int iVar2;
int iVar3;
byte *pbVar4;
if (op_1 == (opts_t *)0x0) {
iVar3._0_1_ = op->do_ata;
iVar3._1_1_ = op->do_decode;
iVar3._2_1_ = op->do_descriptors;
iVar3._3_1_ = op->do_export;
if (iVar3 != 0) {
if (iVar3 < 3) {
puts((char *)(DAT_000182a0 + 0x18278));
iVar2._0_1_ = op->do_ata;
iVar2._1_1_ = op->do_decode;
iVar2._2_1_ = op->do_descriptors;
iVar2._3_1_ = op->do_export;
uVar1 = (uint)(iVar2 == 2);
}
else {
uVar1 = 0xffffffff;
}
hex2stdout(b,b_len,uVar1);
return;
}
}
else if (0 < b_len) {
pbVar4 = b + -1;
do {
pbVar4 = pbVar4 + 1;
putchar((uint)*pbVar4);
} while (pbVar4 != b + b_len + -1);
}
return;
}
|
void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)
{
uint uVar1;
byte *pbVar2;
if (param_4 == 0) {
if (*param_3 != 0) {
if (*param_3 < 3) {
puts((char *)(DAT_000182a0 + 0x18278));
uVar1 = (uint)(*param_3 == 2);
}
else {
uVar1 = 0xffffffff;
}
hex2stdout(param_1,param_2,uVar1);
return;
}
}
else if (0 < param_2) {
pbVar2 = (byte *)(param_1 + -1);
do {
pbVar2 = pbVar2 + 1;
putchar((uint)*pbVar2);
} while (pbVar2 != (byte *)(param_1 + param_2 + -1));
}
return;
}
|
cmp r3,#0x0
stmdb sp!,{r4,r5,lr}
cpy r4,r0
sub sp,sp,#0xc
cpy r5,r1
beq 0x00018250
cmp r1,#0x0
ble 0x00018248
sub r5,r1,#0x1
add r5,r0,r5
sub r4,r0,#0x1
ldrb r0,[r4,#0x1]!
bl 0x00012698
cmp r4,r5
bne 0x00018238
add sp,sp,#0xc
ldmia sp!,{r4,r5,pc}
ldr r3,[r2,#0x0]
str r2,[sp,#0x4]
cmp r3,#0x0
beq 0x00018248
cmp r3,#0x2
mvngt r2,#0x0
bgt 0x00018294
ldr r0,[0x182a0]
add r0,pc,r0
bl 0x000125d8
ldr r2,[sp,#0x4]
cpy r1,r5
ldr r2,[r2,#0x0]
cpy r0,r4
sub r2,r2,#0x2
clz r2,r2
mov r2,r2, lsr #0x5
add sp,sp,#0xc
ldmia sp!,{r4,r5,lr}
b 0x000125a8
| null | null | null | null |
[('const-1', u'PTRSUB_-1205959583'), (u'LOAD_-1205959581', u'PIECE_-1205959524'), (u'MULTIEQUAL_-1205959681', u'CALL_-1205959782'), (u'LOAD_-1205959641', u'PIECE_-1205959582'), (u'PTRADD_-1205959983', u'MULTIEQUAL_-1205959762'), ('const-417', u'LOAD_-1205959638'), ('const-0', u'INT_EQUAL_-1205960158'), (u'PIECE_-1205959584', u'PIECE_-1205959583'), (u'PTRADD_-1205959990', u'MULTIEQUAL_-1205959762'), (u'PTRSUB_-1205959581', u'LOAD_-1205959638'), ('tmp_693', u'PTRSUB_-1205959584'), ('tmp_1434', u'MULTIEQUAL_-1205959550'), (u'INT_SLESS_-1205960083', u'CBRANCH_-1205960090'), ('tmp_692', u'INT_ADD_-1205960062'), ('tmp_160', u'CBRANCH_-1205960090'), (u'PIECE_-1205959523', u'INT_EQUAL_-1205959611'), (u'LOAD_-1205959639', u'PIECE_-1205959584'), ('const-4294967295', u'COPY_-1205959912'), ('tmp_691', u'PTRADD_-1205960006'), ('tmp_693', u'PTRSUB_-1205959583'), ('const-0', u'PTRSUB_-1205959584'), ('tmp_290', u'CBRANCH_-1205960015'), (u'PTRSUB_-1205959524', u'LOAD_-1205959581'), ('tmp_1434', u'MULTIEQUAL_-1205959628'), (u'MULTIEQUAL_-1205959762', u'PTRADD_-1205959983'), ('tmp_692', u'CALL_-1205959782'), (u'PTRSUB_-1205959525', u'LOAD_-1205959582'), ('const-2', u'PTRSUB_-1205959582'), ('tmp_1434', u'INT_ADD_-1205959868'), ('const-0', u'PTRSUB_-1205959525'), (u'CALL_-1205960033', u'INDIRECT_-1205959642'), ('const-1', u'PTRADD_-1205959990'), ('tmp_693', u'PTRSUB_-1205959522'), ('const-1', u'PTRSUB_-1205959524'), (u'PTRSUB_-1205959584', u'LOAD_-1205959641'), (u'LOAD_-1205959638', u'PIECE_-1205959584'), (u'PIECE_-1205959583', u'PIECE_-1205959582'), (u'INT_ADD_-1205960062', u'PTRADD_-1205960006'), ('const-417', u'LOAD_-1205959579'), ('tmp_693', u'PTRSUB_-1205959524'), ('const-3', u'PTRSUB_-1205959522'), ('const-1', u'PTRADD_-1205959983'), ('const-1', u'PTRADD_-1205960006'), ('const-417', u'LOAD_-1205959640'), (u'INDIRECT_-1205959642', u'MULTIEQUAL_-1205959643'), ('const-417', u'LOAD_-1205959580'), ('tmp_694', u'INT_EQUAL_-1205960158'), (u'INDIRECT_-1205959588', u'MULTIEQUAL_-1205959550'), (u'LOAD_-1205959582', u'PIECE_-1205959523'), ('tmp_1434', u'MULTIEQUAL_-1205959643'), (u'PTRADD_-1205959983', u'INT_NOTEQUAL_-1205960018'), (u'PIECE_-1205959582', u'INT_NOTEQUAL_-1205959947'), (u'INDIRECT_-1205959642', u'MULTIEQUAL_-1205959628'), ('const-417', u'LOAD_-1205960045'), ('const-0', u'INT_NOTEQUAL_-1205959947'), ('const-3', u'PTRSUB_-1205959581'), ('const-1', u'PTRADD_-1205959983'), (u'LOAD_-1205959640', u'PIECE_-1205959583'), ('tmp_693', u'PTRSUB_-1205959523'), ('const-4294967295', u'INT_ADD_-1205960062'), (u'INT_ZEXT_-1205960029', u'CALL_-1205960033'), ('tmp_693', u'PTRSUB_-1205959581'), (u'CALL_-1205959782', u'INDIRECT_-1205959547'), (u'INT_EQUAL_-1205960158', u'CBRANCH_-1205960117'), (u'INT_ADD_-1205959868', u'CAST_-1205959532'), (u'PIECE_-1205959582', u'INT_SLESS_-1205959909'), (u'INT_NOTEQUAL_-1205960018', u'CBRANCH_-1205960015'), (u'LOAD_-1205960045', u'INT_ZEXT_-1205960029'), (u'PIECE_-1205959525', u'PIECE_-1205959524'), (u'LOAD_-1205959579', u'PIECE_-1205959525'), ('tmp_693', u'PTRSUB_-1205959525'), (u'PTRADD_-1205959983', u'LOAD_-1205960045'), ('tmp_691', u'PTRADD_-1205959990'), ('const-2', u'INT_EQUAL_-1205959611'), ('tmp_418', u'CBRANCH_-1205959945'), (u'CALL_-1205959872', u'INDIRECT_-1205959588'), ('tmp_691', u'CALL_-1205959782'), ('const-417', u'LOAD_-1205959641'), (u'CAST_-1205959532', u'CALL_-1205959872'), (u'INT_EQUAL_-1205959611', u'INT_ZEXT_-1205959810'), (u'INT_NOTEQUAL_-1205959947', u'CBRANCH_-1205959945'), ('const-417', u'LOAD_-1205959639'), ('tmp_108', u'CBRANCH_-1205960117'), (u'MULTIEQUAL_-1205959628', u'COPY_-1205959685'), ('const-3', u'INT_SLESS_-1205959909'), ('const-417', u'LOAD_-1205959581'), (u'COPY_-1205959912', u'MULTIEQUAL_-1205959681'), ('const-0', u'INT_SLESS_-1205960083'), (u'INT_SLESS_-1205959909', u'CBRANCH_-1205959916'), ('const-0', u'RETURN_-1205959778'), (u'PIECE_-1205959524', u'PIECE_-1205959523'), ('const-98936', u'INT_ADD_-1205959868'), (u'PTRSUB_-1205959523', u'LOAD_-1205959580'), ('const-417', u'LOAD_-1205959582'), ('const-4294967295', u'PTRADD_-1205959990'), ('const-0', u'RETURN_-1205959977'), (u'PTRSUB_-1205959582', u'LOAD_-1205959639'), ('const-2', u'PTRSUB_-1205959523'), ('tmp_692', u'INT_SLESS_-1205960083'), (u'INT_ZEXT_-1205959810', u'MULTIEQUAL_-1205959681'), (u'PTRSUB_-1205959583', u'LOAD_-1205959640'), (u'PTRSUB_-1205959522', u'LOAD_-1205959579'), (u'PTRADD_-1205960006', u'INT_NOTEQUAL_-1205960018'), (u'INDIRECT_-1205959547', u'COPY_-1205959604'), ('tmp_474', u'CBRANCH_-1205959916'), ('tmp_693', u'PTRSUB_-1205959582'), (u'LOAD_-1205959580', u'PIECE_-1205959525')]
|
[(u'PTRADD_-1205959983', u'INT_NOTEQUAL_-1205960018'), (u'CAST_-1205959612', u'MULTIEQUAL_-1205959762'), ('tmp_1223', u'INT_ADD_-1205960052'), (u'INDIRECT_-1205959642', u'MULTIEQUAL_-1205959628'), (u'MULTIEQUAL_-1205959681', u'CALL_-1205959782'), (u'PTRADD_-1205959983', u'MULTIEQUAL_-1205959762'), ('const-0', u'INT_NOTEQUAL_-1205959947'), ('const-0', u'INT_EQUAL_-1205960158'), ('tmp_1224', u'INT_ADD_-1205960062'), ('const-417', u'LOAD_-1205959979'), ('tmp_1225', u'LOAD_-1205959979'), ('tmp_1434', u'MULTIEQUAL_-1205959550'), (u'INT_SLESS_-1205960083', u'CBRANCH_-1205960090'), ('const-4294967295', u'INT_ADD_-1205960062'), (u'INT_ADD_-1205960036', u'CAST_-1205959612'), (u'INT_ZEXT_-1205960029', u'CALL_-1205960033'), (u'CALL_-1205959782', u'INDIRECT_-1205959547'), (u'INT_EQUAL_-1205960158', u'CBRANCH_-1205960117'), ('tmp_160', u'CBRANCH_-1205960090'), (u'INT_NOTEQUAL_-1205960018', u'CBRANCH_-1205960015'), (u'LOAD_-1205960045', u'INT_ZEXT_-1205960029'), (u'INT_ADD_-1205960062', u'INT_ADD_-1205960052'), (u'INT_ADD_-1205959868', u'CAST_-1205959554'), ('const-1', u'PTRADD_-1205959983'), ('const-4294967295', u'COPY_-1205959912'), ('tmp_1223', u'CALL_-1205959782'), (u'PTRADD_-1205959983', u'LOAD_-1205960045'), (u'LOAD_-1205959860', u'INT_EQUAL_-1205959611'), (u'LOAD_-1205959979', u'INT_NOTEQUAL_-1205959947'), ('const-2', u'INT_EQUAL_-1205959611'), ('tmp_290', u'CBRANCH_-1205960015'), (u'MULTIEQUAL_-1205959762', u'PTRADD_-1205959983'), ('tmp_1434', u'MULTIEQUAL_-1205959628'), ('tmp_418', u'CBRANCH_-1205959945'), (u'CALL_-1205959872', u'INDIRECT_-1205959588'), ('const-417', u'LOAD_-1205960045'), (u'INT_EQUAL_-1205959611', u'INT_ZEXT_-1205959810'), (u'INT_NOTEQUAL_-1205959947', u'CBRANCH_-1205959945'), (u'INT_ADD_-1205960052', u'CAST_-1205959617'), ('tmp_108', u'CBRANCH_-1205960117'), ('tmp_1434', u'INT_ADD_-1205959868'), (u'MULTIEQUAL_-1205959628', u'COPY_-1205959685'), (u'LOAD_-1205959979', u'INT_SLESS_-1205959909'), (u'CALL_-1205960033', u'INDIRECT_-1205959642'), ('const-3', u'INT_SLESS_-1205959909'), ('tmp_1224', u'INT_SLESS_-1205960083'), (u'COPY_-1205959912', u'MULTIEQUAL_-1205959681'), ('tmp_1224', u'CALL_-1205959782'), ('const-0', u'INT_SLESS_-1205960083'), (u'INT_SLESS_-1205959909', u'CBRANCH_-1205959916'), ('tmp_1225', u'LOAD_-1205959860'), (u'CAST_-1205959554', u'CALL_-1205959872'), ('const-0', u'RETURN_-1205959778'), (u'CAST_-1205959617', u'INT_NOTEQUAL_-1205960018'), ('const-98936', u'INT_ADD_-1205959868'), ('tmp_1223', u'INT_ADD_-1205960036'), ('const-0', u'RETURN_-1205959977'), ('tmp_1218', u'INT_EQUAL_-1205960158'), ('const-1', u'PTRADD_-1205959983'), (u'INDIRECT_-1205959642', u'MULTIEQUAL_-1205959643'), ('const-417', u'LOAD_-1205959860'), (u'INT_ZEXT_-1205959810', u'MULTIEQUAL_-1205959681'), (u'INDIRECT_-1205959588', u'MULTIEQUAL_-1205959550'), (u'INDIRECT_-1205959547', u'COPY_-1205959604'), ('const-4294967295', u'INT_ADD_-1205960036'), ('tmp_474', u'CBRANCH_-1205959916'), ('tmp_1434', u'MULTIEQUAL_-1205959643')]
| null | null |
0001820c
|
arm
|
O2
|
(translation_unit "void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)\n\n{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}\n\n" (function_definition "void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)\n\n{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" primitive_type (function_declarator "FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)" identifier (parameter_list "(int param_1,int param_2,int *param_3,int param_4)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "int *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "int param_4" primitive_type identifier) ))) (compound_statement "{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "byte *pbVar2;" type_identifier (pointer_declarator "*pbVar2" * identifier) ;) (if_statement "if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" if (parenthesized_expression "(param_4 == 0)" ( (binary_expression "param_4 == 0" identifier == number_literal) )) (compound_statement "{\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }" { (if_statement "if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" if (parenthesized_expression "(*param_3 != 0)" ( (binary_expression "*param_3 != 0" (pointer_expression "*param_3" * identifier) != number_literal) )) (compound_statement "{\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" { (if_statement "if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }" if (parenthesized_expression "(*param_3 < 3)" ( (binary_expression "*param_3 < 3" (pointer_expression "*param_3" * identifier) < number_literal) )) (compound_statement "{\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }" { (expression_statement "puts((char *)(DAT_000182a0 + 0x18278));" (call_expression "puts((char *)(DAT_000182a0 + 0x18278))" identifier (argument_list "((char *)(DAT_000182a0 + 0x18278))" ( (cast_expression "(char *)(DAT_000182a0 + 0x18278)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000182a0 + 0x18278)" ( (binary_expression "DAT_000182a0 + 0x18278" identifier + number_literal) ))) ))) ;) (expression_statement "uVar1 = (uint)(*param_3 == 2);" (assignment_expression "uVar1 = (uint)(*param_3 == 2)" identifier = (call_expression "(uint)(*param_3 == 2)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(*param_3 == 2)" ( (binary_expression "*param_3 == 2" (pointer_expression "*param_3" * identifier) == number_literal) )))) ;) }) (else_clause "else {\n uVar1 = 0xffffffff;\n }" else (compound_statement "{\n uVar1 = 0xffffffff;\n }" { (expression_statement "uVar1 = 0xffffffff;" (assignment_expression "uVar1 = 0xffffffff" identifier = number_literal) ;) }))) (expression_statement "hex2stdout(param_1,param_2,uVar1);" (call_expression "hex2stdout(param_1,param_2,uVar1)" identifier (argument_list "(param_1,param_2,uVar1)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })) }) (else_clause "else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" else (if_statement "if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" if (parenthesized_expression "(0 < param_2)" ( (binary_expression "0 < param_2" number_literal < identifier) )) (compound_statement "{\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" { (expression_statement "pbVar2 = (byte *)(param_1 + -1);" (assignment_expression "pbVar2 = (byte *)(param_1 + -1)" identifier = (cast_expression "(byte *)(param_1 + -1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + -1)" ( (binary_expression "param_1 + -1" identifier + number_literal) )))) ;) (do_statement "do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));" do (compound_statement "{\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n }" { (expression_statement "pbVar2 = pbVar2 + 1;" (assignment_expression "pbVar2 = pbVar2 + 1" identifier = (binary_expression "pbVar2 + 1" identifier + number_literal)) ;) (expression_statement "putchar((uint)*pbVar2);" (call_expression "putchar((uint)*pbVar2)" identifier (argument_list "((uint)*pbVar2)" ( (binary_expression "(uint)*pbVar2" (parenthesized_expression "(uint)" ( identifier )) * identifier) ))) ;) }) while (parenthesized_expression "(pbVar2 != (byte *)(param_1 + param_2 + -1))" ( (binary_expression "pbVar2 != (byte *)(param_1 + param_2 + -1)" identifier != (cast_expression "(byte *)(param_1 + param_2 + -1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + param_2 + -1)" ( (binary_expression "param_1 + param_2 + -1" (binary_expression "param_1 + param_2" identifier + identifier) + number_literal) )))) )) ;) })))) (return_statement "return;" return ;) })))
|
(translation_unit "/* DWARF original prototype: void nvme_hex_raw(uint8_t * b, int b_len, opts_t * op, opts_t * op) */\n\nvoid nvme_hex_raw(uint8_t *b,int b_len,opts_t *op,opts_t *op_1)\n\n{\n uint uVar1;\n int iVar2;\n int iVar3;\n byte *pbVar4;\n \n if (op_1 == (opts_t *)0x0) {\n iVar3._0_1_ = op->do_ata;\n iVar3._1_1_ = op->do_decode;\n iVar3._2_1_ = op->do_descriptors;\n iVar3._3_1_ = op->do_export;\n if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }\n }\n else if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }\n return;\n}\n\n" comment (function_definition "void nvme_hex_raw(uint8_t *b,int b_len,opts_t *op,opts_t *op_1)\n\n{\n uint uVar1;\n int iVar2;\n int iVar3;\n byte *pbVar4;\n \n if (op_1 == (opts_t *)0x0) {\n iVar3._0_1_ = op->do_ata;\n iVar3._1_1_ = op->do_decode;\n iVar3._2_1_ = op->do_descriptors;\n iVar3._3_1_ = op->do_export;\n if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }\n }\n else if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }\n return;\n}" primitive_type (function_declarator "nvme_hex_raw(uint8_t *b,int b_len,opts_t *op,opts_t *op_1)" identifier (parameter_list "(uint8_t *b,int b_len,opts_t *op,opts_t *op_1)" ( (parameter_declaration "uint8_t *b" primitive_type (pointer_declarator "*b" * identifier)) , (parameter_declaration "int b_len" primitive_type identifier) , (parameter_declaration "opts_t *op" type_identifier (pointer_declarator "*op" * identifier)) , (parameter_declaration "opts_t *op_1" type_identifier (pointer_declarator "*op_1" * identifier)) ))) (compound_statement "{\n uint uVar1;\n int iVar2;\n int iVar3;\n byte *pbVar4;\n \n if (op_1 == (opts_t *)0x0) {\n iVar3._0_1_ = op->do_ata;\n iVar3._1_1_ = op->do_decode;\n iVar3._2_1_ = op->do_descriptors;\n iVar3._3_1_ = op->do_export;\n if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }\n }\n else if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "byte *pbVar4;" type_identifier (pointer_declarator "*pbVar4" * identifier) ;) (if_statement "if (op_1 == (opts_t *)0x0) {\n iVar3._0_1_ = op->do_ata;\n iVar3._1_1_ = op->do_decode;\n iVar3._2_1_ = op->do_descriptors;\n iVar3._3_1_ = op->do_export;\n if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }\n }\n else if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }" if (parenthesized_expression "(op_1 == (opts_t *)0x0)" ( (binary_expression "op_1 == (opts_t *)0x0" identifier == (cast_expression "(opts_t *)0x0" ( (type_descriptor "opts_t *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n iVar3._0_1_ = op->do_ata;\n iVar3._1_1_ = op->do_decode;\n iVar3._2_1_ = op->do_descriptors;\n iVar3._3_1_ = op->do_export;\n if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }\n }" { (expression_statement "iVar3._0_1_ = op->do_ata;" (assignment_expression "iVar3._0_1_ = op->do_ata" (field_expression "iVar3._0_1_" identifier . field_identifier) = (field_expression "op->do_ata" identifier -> field_identifier)) ;) (expression_statement "iVar3._1_1_ = op->do_decode;" (assignment_expression "iVar3._1_1_ = op->do_decode" (field_expression "iVar3._1_1_" identifier . field_identifier) = (field_expression "op->do_decode" identifier -> field_identifier)) ;) (expression_statement "iVar3._2_1_ = op->do_descriptors;" (assignment_expression "iVar3._2_1_ = op->do_descriptors" (field_expression "iVar3._2_1_" identifier . field_identifier) = (field_expression "op->do_descriptors" identifier -> field_identifier)) ;) (expression_statement "iVar3._3_1_ = op->do_export;" (assignment_expression "iVar3._3_1_ = op->do_export" (field_expression "iVar3._3_1_" identifier . field_identifier) = (field_expression "op->do_export" identifier -> field_identifier)) ;) (if_statement "if (iVar3 != 0) {\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }" if (parenthesized_expression "(iVar3 != 0)" ( (binary_expression "iVar3 != 0" identifier != number_literal) )) (compound_statement "{\n if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(b,b_len,uVar1);\n return;\n }" { (if_statement "if (iVar3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }" if (parenthesized_expression "(iVar3 < 3)" ( (binary_expression "iVar3 < 3" identifier < number_literal) )) (compound_statement "{\n puts((char *)(DAT_000182a0 + 0x18278));\n iVar2._0_1_ = op->do_ata;\n iVar2._1_1_ = op->do_decode;\n iVar2._2_1_ = op->do_descriptors;\n iVar2._3_1_ = op->do_export;\n uVar1 = (uint)(iVar2 == 2);\n }" { (expression_statement "puts((char *)(DAT_000182a0 + 0x18278));" (call_expression "puts((char *)(DAT_000182a0 + 0x18278))" identifier (argument_list "((char *)(DAT_000182a0 + 0x18278))" ( (cast_expression "(char *)(DAT_000182a0 + 0x18278)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000182a0 + 0x18278)" ( (binary_expression "DAT_000182a0 + 0x18278" identifier + number_literal) ))) ))) ;) (expression_statement "iVar2._0_1_ = op->do_ata;" (assignment_expression "iVar2._0_1_ = op->do_ata" (field_expression "iVar2._0_1_" identifier . field_identifier) = (field_expression "op->do_ata" identifier -> field_identifier)) ;) (expression_statement "iVar2._1_1_ = op->do_decode;" (assignment_expression "iVar2._1_1_ = op->do_decode" (field_expression "iVar2._1_1_" identifier . field_identifier) = (field_expression "op->do_decode" identifier -> field_identifier)) ;) (expression_statement "iVar2._2_1_ = op->do_descriptors;" (assignment_expression "iVar2._2_1_ = op->do_descriptors" (field_expression "iVar2._2_1_" identifier . field_identifier) = (field_expression "op->do_descriptors" identifier -> field_identifier)) ;) (expression_statement "iVar2._3_1_ = op->do_export;" (assignment_expression "iVar2._3_1_ = op->do_export" (field_expression "iVar2._3_1_" identifier . field_identifier) = (field_expression "op->do_export" identifier -> field_identifier)) ;) (expression_statement "uVar1 = (uint)(iVar2 == 2);" (assignment_expression "uVar1 = (uint)(iVar2 == 2)" identifier = (call_expression "(uint)(iVar2 == 2)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(iVar2 == 2)" ( (binary_expression "iVar2 == 2" identifier == number_literal) )))) ;) }) (else_clause "else {\n uVar1 = 0xffffffff;\n }" else (compound_statement "{\n uVar1 = 0xffffffff;\n }" { (expression_statement "uVar1 = 0xffffffff;" (assignment_expression "uVar1 = 0xffffffff" identifier = number_literal) ;) }))) (expression_statement "hex2stdout(b,b_len,uVar1);" (call_expression "hex2stdout(b,b_len,uVar1)" identifier (argument_list "(b,b_len,uVar1)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })) }) (else_clause "else if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }" else (if_statement "if (0 < b_len) {\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }" if (parenthesized_expression "(0 < b_len)" ( (binary_expression "0 < b_len" number_literal < identifier) )) (compound_statement "{\n pbVar4 = b + -1;\n do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);\n }" { (expression_statement "pbVar4 = b + -1;" (assignment_expression "pbVar4 = b + -1" identifier = (binary_expression "b + -1" identifier + number_literal)) ;) (do_statement "do {\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n } while (pbVar4 != b + b_len + -1);" do (compound_statement "{\n pbVar4 = pbVar4 + 1;\n putchar((uint)*pbVar4);\n }" { (expression_statement "pbVar4 = pbVar4 + 1;" (assignment_expression "pbVar4 = pbVar4 + 1" identifier = (binary_expression "pbVar4 + 1" identifier + number_literal)) ;) (expression_statement "putchar((uint)*pbVar4);" (call_expression "putchar((uint)*pbVar4)" identifier (argument_list "((uint)*pbVar4)" ( (binary_expression "(uint)*pbVar4" (parenthesized_expression "(uint)" ( identifier )) * identifier) ))) ;) }) while (parenthesized_expression "(pbVar4 != b + b_len + -1)" ( (binary_expression "pbVar4 != b + b_len + -1" identifier != (binary_expression "b + b_len + -1" (binary_expression "b + b_len" identifier + identifier) + number_literal)) )) ;) })))) (return_statement "return;" return ;) })))
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(translation_unit "void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)\n\n{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}\n\n" (function_definition "void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)\n\n{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" primitive_type (function_declarator "FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)" identifier (parameter_list "(int param_1,int param_2,int *param_3,int param_4)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "int *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "int param_4" primitive_type identifier) ))) (compound_statement "{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (declaration "byte *pbVar2;" type_identifier (pointer_declarator "*pbVar2" * identifier) ;) (if_statement "if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" if (parenthesized_expression "(param_4 == 0)" ( (binary_expression "param_4 == 0" identifier == number_literal) )) (compound_statement "{\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }" { (if_statement "if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" if (parenthesized_expression "(*param_3 != 0)" ( (binary_expression "*param_3 != 0" (pointer_expression "*param_3" * identifier) != number_literal) )) (compound_statement "{\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" { (if_statement "if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }" if (parenthesized_expression "(*param_3 < 3)" ( (binary_expression "*param_3 < 3" (pointer_expression "*param_3" * identifier) < number_literal) )) (compound_statement "{\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }" { (expression_statement "puts((char *)(DAT_000182a0 + 0x18278));" (call_expression "puts((char *)(DAT_000182a0 + 0x18278))" identifier (argument_list "((char *)(DAT_000182a0 + 0x18278))" ( (cast_expression "(char *)(DAT_000182a0 + 0x18278)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000182a0 + 0x18278)" ( (binary_expression "DAT_000182a0 + 0x18278" identifier + number_literal) ))) ))) ;) (expression_statement "uVar1 = (uint)(*param_3 == 2);" (assignment_expression "uVar1 = (uint)(*param_3 == 2)" identifier = (call_expression "(uint)(*param_3 == 2)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(*param_3 == 2)" ( (binary_expression "*param_3 == 2" (pointer_expression "*param_3" * identifier) == number_literal) )))) ;) }) (else_clause "else {\n uVar1 = 0xffffffff;\n }" else (compound_statement "{\n uVar1 = 0xffffffff;\n }" { (expression_statement "uVar1 = 0xffffffff;" (assignment_expression "uVar1 = 0xffffffff" identifier = number_literal) ;) }))) (expression_statement "hex2stdout(param_1,param_2,uVar1);" (call_expression "hex2stdout(param_1,param_2,uVar1)" identifier (argument_list "(param_1,param_2,uVar1)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })) }) (else_clause "else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" else (if_statement "if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" if (parenthesized_expression "(0 < param_2)" ( (binary_expression "0 < param_2" number_literal < identifier) )) (compound_statement "{\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" { (expression_statement "pbVar2 = (byte *)(param_1 + -1);" (assignment_expression "pbVar2 = (byte *)(param_1 + -1)" identifier = (cast_expression "(byte *)(param_1 + -1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + -1)" ( (binary_expression "param_1 + -1" identifier + number_literal) )))) ;) (do_statement "do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));" do (compound_statement "{\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n }" { (expression_statement "pbVar2 = pbVar2 + 1;" (assignment_expression "pbVar2 = pbVar2 + 1" identifier = (binary_expression "pbVar2 + 1" identifier + number_literal)) ;) (expression_statement "putchar((uint)*pbVar2);" (call_expression "putchar((uint)*pbVar2)" identifier (argument_list "((uint)*pbVar2)" ( (binary_expression "(uint)*pbVar2" (parenthesized_expression "(uint)" ( identifier )) * identifier) ))) ;) }) while (parenthesized_expression "(pbVar2 != (byte *)(param_1 + param_2 + -1))" ( (binary_expression "pbVar2 != (byte *)(param_1 + param_2 + -1)" identifier != (cast_expression "(byte *)(param_1 + param_2 + -1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + param_2 + -1)" ( (binary_expression "param_1 + param_2 + -1" (binary_expression "param_1 + param_2" identifier + identifier) + number_literal) )))) )) ;) })))) (return_statement "return;" return ;) })))
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(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) < LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (pointer_expression * IDENT) == LIT) )))) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (return_statement return ;) })) }) (else_clause else (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( (binary_expression (parenthesized_expression ( IDENT )) * IDENT) ))) ;) }) while (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + IDENT) + LIT) )))) )) ;) })))) (return_statement return ;) })))
|
(function_definition "void FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)\n\n{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" (primitive_type "void") (function_declarator "FUN_0001820c(int param_1,int param_2,int *param_3,int param_4)" (identifier "FUN_0001820c") (parameter_list "(int param_1,int param_2,int *param_3,int param_4)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) (, ",") (parameter_declaration "int *param_3" (primitive_type "int") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) (, ",") (parameter_declaration "int param_4" (primitive_type "int") (identifier "param_4")) () ")"))) (compound_statement "{\n uint uVar1;\n byte *pbVar2;\n \n if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }\n return;\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (declaration "byte *pbVar2;" (type_identifier "byte") (pointer_declarator "*pbVar2" (* "*") (identifier "pbVar2")) (; ";")) (if_statement "if (param_4 == 0) {\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }\n else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" (if "if") (parenthesized_expression "(param_4 == 0)" (( "(") (binary_expression "param_4 == 0" (identifier "param_4") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }\n }" ({ "{") (if_statement "if (*param_3 != 0) {\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" (if "if") (parenthesized_expression "(*param_3 != 0)" (( "(") (binary_expression "*param_3 != 0" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }\n hex2stdout(param_1,param_2,uVar1);\n return;\n }" ({ "{") (if_statement "if (*param_3 < 3) {\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }\n else {\n uVar1 = 0xffffffff;\n }" (if "if") (parenthesized_expression "(*param_3 < 3)" (( "(") (binary_expression "*param_3 < 3" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (< "<") (number_literal "3")) () ")")) (compound_statement "{\n puts((char *)(DAT_000182a0 + 0x18278));\n uVar1 = (uint)(*param_3 == 2);\n }" ({ "{") (expression_statement "puts((char *)(DAT_000182a0 + 0x18278));" (call_expression "puts((char *)(DAT_000182a0 + 0x18278))" (identifier "puts") (argument_list "((char *)(DAT_000182a0 + 0x18278))" (( "(") (cast_expression "(char *)(DAT_000182a0 + 0x18278)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000182a0 + 0x18278)" (( "(") (binary_expression "DAT_000182a0 + 0x18278" (identifier "DAT_000182a0") (+ "+") (number_literal "0x18278")) () ")"))) () ")"))) (; ";")) (expression_statement "uVar1 = (uint)(*param_3 == 2);" (assignment_expression "uVar1 = (uint)(*param_3 == 2)" (identifier "uVar1") (= "=") (call_expression "(uint)(*param_3 == 2)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "(*param_3 == 2)" (( "(") (binary_expression "*param_3 == 2" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (== "==") (number_literal "2")) () ")")))) (; ";")) (} "}")) (else_clause "else {\n uVar1 = 0xffffffff;\n }" (else "else") (compound_statement "{\n uVar1 = 0xffffffff;\n }" ({ "{") (expression_statement "uVar1 = 0xffffffff;" (assignment_expression "uVar1 = 0xffffffff" (identifier "uVar1") (= "=") (number_literal "0xffffffff")) (; ";")) (} "}")))) (expression_statement "hex2stdout(param_1,param_2,uVar1);" (call_expression "hex2stdout(param_1,param_2,uVar1)" (identifier "hex2stdout") (argument_list "(param_1,param_2,uVar1)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (identifier "uVar1") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}"))) (} "}")) (else_clause "else if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" (else "else") (if_statement "if (0 < param_2) {\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" (if "if") (parenthesized_expression "(0 < param_2)" (( "(") (binary_expression "0 < param_2" (number_literal "0") (< "<") (identifier "param_2")) () ")")) (compound_statement "{\n pbVar2 = (byte *)(param_1 + -1);\n do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));\n }" ({ "{") (expression_statement "pbVar2 = (byte *)(param_1 + -1);" (assignment_expression "pbVar2 = (byte *)(param_1 + -1)" (identifier "pbVar2") (= "=") (cast_expression "(byte *)(param_1 + -1)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + -1)" (( "(") (binary_expression "param_1 + -1" (identifier "param_1") (+ "+") (number_literal "-1")) () ")")))) (; ";")) (do_statement "do {\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n } while (pbVar2 != (byte *)(param_1 + param_2 + -1));" (do "do") (compound_statement "{\n pbVar2 = pbVar2 + 1;\n putchar((uint)*pbVar2);\n }" ({ "{") (expression_statement "pbVar2 = pbVar2 + 1;" (assignment_expression "pbVar2 = pbVar2 + 1" (identifier "pbVar2") (= "=") (binary_expression "pbVar2 + 1" (identifier "pbVar2") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "putchar((uint)*pbVar2);" (call_expression "putchar((uint)*pbVar2)" (identifier "putchar") (argument_list "((uint)*pbVar2)" (( "(") (binary_expression "(uint)*pbVar2" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (* "*") (identifier "pbVar2")) () ")"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(pbVar2 != (byte *)(param_1 + param_2 + -1))" (( "(") (binary_expression "pbVar2 != (byte *)(param_1 + param_2 + -1)" (identifier "pbVar2") (!= "!=") (cast_expression "(byte *)(param_1 + param_2 + -1)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + param_2 + -1)" (( "(") (binary_expression "param_1 + param_2 + -1" (binary_expression "param_1 + param_2" (identifier "param_1") (+ "+") (identifier "param_2")) (+ "+") (number_literal "-1")) () ")")))) () ")")) (; ";")) (} "}"))))) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* DWARF original prototype: void nvme_hex_raw(uint8_t * b, int b_len, opts_t * op, opts_t * op) */
void function_1(uint8_t *var_8,int var_7,type_1 *op,type_1 *var_1)
{
type_2 uVar1;
int var_5;
int var_2;
type_3 *var_9;
if (var_1 == (type_1 *)0x0) {
var_2._0_1_ = op->do_ata;
var_2._1_1_ = op->do_decode;
var_2._2_1_ = op->do_descriptors;
var_2._3_1_ = op->do_export;
if (var_2 != 0) {
if (var_2 < 3) {
var_3((char *)(var_4 + 0x18278));
var_5._0_1_ = op->do_ata;
var_5._1_1_ = op->do_decode;
var_5._2_1_ = op->do_descriptors;
var_5._3_1_ = op->do_export;
uVar1 = (type_2)(var_5 == 2);
}
else {
uVar1 = 0xffffffff;
}
var_6(var_8,var_7,uVar1);
return;
}
}
else if (0 < var_7) {
var_9 = var_8 + -1;
do {
var_9 = var_9 + 1;
var_10((type_2)*var_9);
} while (var_9 != var_8 + var_7 + -1);
}
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (return_statement)))) alternative: (else_clause (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (parenthesized_expression (identifier)) right: (identifier)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal))))))))))) (return_statement))))
|
void MASKED(int param_1,int param_2,int *param_3,int param_4)
{
uint uVar1;
byte *pbVar2;
if (param_4 == 0) {
if (*param_3 != 0) {
if (*param_3 < 3) {
puts((char *)(DAT_000182a0 + 0x18278));
uVar1 = (uint)(*param_3 == 2);
}
else {
uVar1 = 0xffffffff;
}
hex2stdout(param_1,param_2,uVar1);
return;
}
}
else if (0 < param_2) {
pbVar2 = (byte *)(param_1 + -1);
do {
pbVar2 = pbVar2 + 1;
putchar((uint)*pbVar2);
} while (pbVar2 != (byte *)(param_1 + param_2 + -1));
}
return;
}
| 32,606 |
||
175_arm-linux-gnueabi-ranlib_and_arm-linux-gnueabi-ranlib_strip.c
|
make_temp_file
|
FUN_00018bc8
|
char * make_temp_file(char *suffix)
{
char *__s;
size_t __suffixlen;
size_t sVar1;
char *pcVar2;
int __fd;
int *piVar3;
FILE *__stream;
int iVar4;
__s = choose_tmpdir();
iVar4 = DAT_00018cb4 + 0x18be4;
if (suffix == (char *)0x0) {
suffix = (char *)(DAT_00018cbc + 0x18c7c);
__suffixlen = 0;
}
else {
__suffixlen = strlen(suffix);
}
sVar1 = strlen(__s);
pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);
strcpy(pcVar2,__s);
memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);
strcpy(pcVar2 + sVar1 + 8,suffix);
__fd = mkstemps64(pcVar2,__suffixlen);
if (__fd != -1) {
iVar4 = close(__fd);
if (iVar4 == 0) {
return pcVar2;
}
/* WARNING: Subroutine does not return */
abort();
}
__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);
piVar3 = __errno_location();
pcVar2 = strerror(*piVar3);
fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);
/* WARNING: Subroutine does not return */
abort();
}
|
char * FUN_00018bc8(char *param_1)
{
char *__s;
size_t __suffixlen;
size_t sVar1;
char *pcVar2;
int __fd;
int *piVar3;
FILE *__stream;
int iVar4;
__s = (char *)FUN_000189cc();
iVar4 = DAT_00018cb4 + 0x18be4;
if (param_1 == (char *)0x0) {
param_1 = (char *)(DAT_00018cbc + 0x18c7c);
__suffixlen = 0;
}
else {
__suffixlen = strlen(param_1);
}
sVar1 = strlen(__s);
pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);
strcpy(pcVar2,__s);
memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);
strcpy(pcVar2 + sVar1 + 8,param_1);
__fd = mkstemps64(pcVar2,__suffixlen);
if (__fd != -1) {
iVar4 = close(__fd);
if (iVar4 == 0) {
return pcVar2;
}
/* WARNING: Subroutine does not return */
abort();
}
__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);
piVar3 = __errno_location();
pcVar2 = strerror(*piVar3);
fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);
/* WARNING: Subroutine does not return */
abort();
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,lr}
cpy r6,r0
bl 0x000189cc
ldr r8,[0x18cb4]
cmp r6,#0x0
add r8,pc,r8
cpy r7,r0
beq 0x00018c68
cpy r0,r6
bl 0x000114e0
cpy r5,r0
cpy r9,r0
cpy r0,r7
bl 0x000114e0
cpy r4,r0
add r0,r0,r5
add r0,r0,#0x9
bl 0x000113e4
cpy r1,r7
cpy r5,r0
bl 0x00011414
ldr r1,[0x18cb8]
mov r2,#0x9
add r1,pc,r1
add r0,r5,r4
bl 0x00011348
add r0,r4,#0x8
cpy r1,r6
add r0,r5,r0
bl 0x00011414
cpy r1,r9
cpy r0,r5
bl 0x00011450
cmn r0,#0x1
beq 0x00018c7c
bl 0x000116cc
cmp r0,#0x0
bne 0x00018cb0
cpy r0,r5
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,pc}
cpy r9,r6
cpy r5,r6
ldr r6,[0x18cbc]
add r6,pc,r6
b 0x00018bf8
ldr r3,[0x18cc0]
ldr r3,[r8,r3]
ldr r4,[r3,#0x0]
bl 0x00011528
ldr r0,[r0,#0x0]
bl 0x0001148c
ldr r1,[0x18cc4]
cpy r2,r7
add r1,pc,r1
cpy r3,r0
cpy r0,r4
bl 0x00011504
bl 0x000116b4
bl 0x000116b4
| null | null | null | null |
[(u'INT_ADD_-1205957448', u'PTRADD_-1205957387'), (u'MULTIEQUAL_-1205957262', u'CALL_-1205957421'), (u'CAST_-1205956787', u'CALL_-1205957522'), (u'CALL_-1205957653', u'CALL_-1205957522'), (u'CALL_-1205957653', u'CALL_-1205957236'), (u'CALL_-1205957474', u'INDIRECT_-1205956895'), (u'CALL_-1205957538', u'INDIRECT_-1205957001'), (u'CALL_-1205957273', u'INDIRECT_-1205956845'), (u'INDIRECT_-1205956884', u'COPY_-1205956926'), (u'INDIRECT_-1205956848', u'COPY_-1205956890'), ('const-0', u'COPY_-1205956744'), (u'CAST_-1205956669', u'LOAD_-1205957302'), (u'INDIRECT_-1205956999', u'MULTIEQUAL_-1205956972'), (u'CALL_-1205957421', u'CALL_-1205957390'), (u'CALL_-1205957254', u'INDIRECT_-1205956755'), (u'CALL_-1205957575', u'INT_ADD_-1205957448'), ('const-9', u'INT_ADD_-1205957534'), (u'CAST_-1205956762', u'CALL_-1205957474'), ('const-0', u'INT_EQUAL_-1205957370'), (u'CALL_-1205957254', u'INDIRECT_-1205956809'), (u'CALL_-1205957437', u'INDIRECT_-1205956932'), ('const-8', u'INT_ADD_-1205957448'), (u'CALL_-1205957236', u'INDIRECT_-1205956820'), (u'CALL_-1205957230', u'INDIRECT_-1205956815'), (u'CALL_-1205957538', u'CAST_-1205956787'), (u'CALL_-1205957437', u'INDIRECT_-1205956914'), (u'INDIRECT_-1205956833', u'COPY_-1205956888'), ('tmp_454', u'CBRANCH_-1205957366'), (u'CALL_-1205957653', u'CALL_-1205957575'), (u'CALL_-1205957538', u'INDIRECT_-1205956947'), (u'CALL_-1205957390', u'INDIRECT_-1205956866'), (u'CALL_-1205957575', u'INDIRECT_-1205957000'), (u'CALL_-1205957596', u'INDIRECT_-1205956981'), (u'CALL_-1205957596', u'INDIRECT_-1205956963'), (u'INDIRECT_-1205956992', u'MULTIEQUAL_-1205956936'), ('const-0', u'RETURN_-1205957329'), (u'CALL_-1205957273', u'INDIRECT_-1205956809'), (u'CALL_-1205957236', u'INDIRECT_-1205956838'), (u'MULTIEQUAL_-1205957263', u'CALL_-1205957437'), (u'CALL_-1205957596', u'INDIRECT_-1205956999'), (u'INDIRECT_-1205956970', u'INT_ADD_-1205957480'), (u'INDIRECT_-1205957064', u'MULTIEQUAL_-1205957008'), (u'CALL_-1205957538', u'INDIRECT_-1205956929'), (u'CALL_-1205957390', u'INT_EQUAL_-1205957370'), (u'CALL_-1205957273', u'INDIRECT_-1205956863'), (u'CALL_-1205957236', u'INDIRECT_-1205956766'), (u'CALL_-1205957596', u'MULTIEQUAL_-1205957262'), (u'INDIRECT_-1205957064', u'INT_ADD_-1205957607'), (u'INDIRECT_-1205957017', u'MULTIEQUAL_-1205956990'), (u'CALL_-1205957421', u'INDIRECT_-1205956883'), (u'CALL_-1205957653', u'INDIRECT_-1205957046'), (u'CAST_-1205956684', u'MULTIEQUAL_-1205957263'), (u'INDIRECT_-1205957010', u'MULTIEQUAL_-1205956954'), (u'INDIRECT_-1205956755', u'COPY_-1205956813'), (u'INDIRECT_-1205956773', u'COPY_-1205956831'), (u'CALL_-1205957522', u'INDIRECT_-1205956916'), (u'CALL_-1205957575', u'INDIRECT_-1205957018'), (u'CALL_-1205957653', u'INDIRECT_-1205957010'), ('const-101348', u'INT_ADD_-1205957607'), ('const-1', u'RETURN_-1205957225'), (u'CALL_-1205957230', u'INDIRECT_-1205956761'), (u'INDIRECT_-1205956902', u'COPY_-1205956944'), (u'CAST_-1205956787', u'COPY_-1205957365'), (u'INDIRECT_-1205956827', u'COPY_-1205956885'), (u'CALL_-1205957522', u'INDIRECT_-1205956970'), (u'INT_EQUAL_-1205957628', u'CBRANCH_-1205957609'), (u'CAST_-1205956639', u'CALL_-1205957236'), (u'CALL_-1205957653', u'INDIRECT_-1205956992'), (u'MULTIEQUAL_-1205957262', u'INT_ADD_-1205957550'), (u'INDIRECT_-1205956761', u'COPY_-1205956816'), ('const-9', u'CALL_-1205957474'), (u'CALL_-1205957538', u'INDIRECT_-1205956983'), ('tmp_628', u'INT_EQUAL_-1205957628'), (u'INDIRECT_-1205956809', u'COPY_-1205956867'), (u'CALL_-1205957522', u'INDIRECT_-1205956952'), ('tmp_628', u'MULTIEQUAL_-1205957263'), (u'CALL_-1205957421', u'INDIRECT_-1205956865'), (u'INDIRECT_-1205956779', u'COPY_-1205956834'), (u'CALL_-1205957437', u'INDIRECT_-1205956896'), (u'CALL_-1205957437', u'INDIRECT_-1205956878'), (u'CALL_-1205957522', u'INDIRECT_-1205956988'), ('const-1', u'PTRADD_-1205957387'), ('const-101420', u'INT_ADD_-1205957480'), (u'CALL_-1205957273', u'INDIRECT_-1205956791'), (u'INDIRECT_-1205956815', u'COPY_-1205956870'), (u'INDIRECT_-1205957046', u'MULTIEQUAL_-1205956990'), ('const-1', u'PTRADD_-1205957424'), (u'INT_ADD_-1205957480', u'CAST_-1205956762'), (u'CALL_-1205957596', u'INDIRECT_-1205957035'), (u'LOAD_-1205957284', u'CALL_-1205957273'), (u'PTRADD_-1205957424', u'CALL_-1205957474'), (u'CALL_-1205957522', u'INDIRECT_-1205956934'), (u'CALL_-1205957596', u'INDIRECT_-1205957017'), (u'CAST_-1205956787', u'PTRADD_-1205957424'), (u'INT_ADD_-1205957607', u'INT_ADD_-1205957286'), (u'COPY_-1205957365', u'RETURN_-1205957329'), (u'COPY_-1205956744', u'MULTIEQUAL_-1205957262'), (u'CALL_-1205957474', u'INDIRECT_-1205956913'), ('const-0', u'INT_EQUAL_-1205957628'), (u'CALL_-1205957421', u'INDIRECT_-1205956919'), (u'INT_ADD_-1205957550', u'INT_ADD_-1205957534'), (u'CAST_-1205956787', u'PTRADD_-1205957387'), (u'CAST_-1205956787', u'CALL_-1205957421'), (u'INT_ADD_-1205957264', u'CAST_-1205956684'), (u'CALL_-1205957236', u'INDIRECT_-1205956802'), (u'CALL_-1205957230', u'INDIRECT_-1205956833'), (u'INDIRECT_-1205956883', u'INT_ADD_-1205957286'), (u'CALL_-1205957390', u'INDIRECT_-1205956884'), ('const-101540', u'INT_ADD_-1205957242'), (u'INT_ADD_-1205957286', u'CAST_-1205956669'), (u'CALL_-1205957575', u'INDIRECT_-1205956964'), (u'INT_ADD_-1205957242', u'CAST_-1205956639'), (u'INDIRECT_-1205957035', u'MULTIEQUAL_-1205957008'), (u'CALL_-1205957474', u'INDIRECT_-1205956967'), (u'INDIRECT_-1205957028', u'INT_ADD_-1205957264'), (u'CAST_-1205956664', u'CALL_-1205957236'), (u'CALL_-1205957285', u'INDIRECT_-1205956836'), (u'CALL_-1205957285', u'LOAD_-1205957284'), (u'CALL_-1205957421', u'INDIRECT_-1205956937'), (u'CALL_-1205957285', u'INDIRECT_-1205956800'), ('const-417', u'LOAD_-1205957284'), (u'CALL_-1205957236', u'INDIRECT_-1205956784'), (u'INDIRECT_-1205956866', u'COPY_-1205956908'), (u'CALL_-1205957390', u'INDIRECT_-1205956920'), (u'INT_EQUAL_-1205957370', u'CBRANCH_-1205957366'), ('tmp_623', u'BRANCH_-1205957272'), (u'CALL_-1205957390', u'INDIRECT_-1205956848'), (u'CALL_-1205957285', u'INDIRECT_-1205956818'), ('const-417', u'LOAD_-1205957296'), (u'CALL_-1205957474', u'INDIRECT_-1205956931'), (u'PTRADD_-1205957387', u'CALL_-1205957437'), (u'INDIRECT_-1205956791', u'COPY_-1205956849'), (u'INDIRECT_-1205957028', u'MULTIEQUAL_-1205956972'), (u'CALL_-1205957474', u'INDIRECT_-1205956949'), ('tmp_129', u'CBRANCH_-1205957609'), (u'CALL_-1205957653', u'INDIRECT_-1205957064'), ('const-1', u'RETURN_-1205957249'), (u'CALL_-1205957230', u'INDIRECT_-1205956779'), (u'CALL_-1205957273', u'INDIRECT_-1205956827'), (u'INDIRECT_-1205956791', u'INT_ADD_-1205957242'), ('const-101500', u'INT_ADD_-1205957264'), (u'CALL_-1205957254', u'INDIRECT_-1205956791'), (u'CALL_-1205957575', u'INT_ADD_-1205957550'), (u'CALL_-1205957653', u'INDIRECT_-1205957028'), (u'CALL_-1205957285', u'INDIRECT_-1205956872'), (u'CALL_-1205957575', u'INDIRECT_-1205956946'), (u'CALL_-1205957390', u'INDIRECT_-1205956902'), (u'CALL_-1205957273', u'CALL_-1205957236'), (u'CALL_-1205957285', u'INDIRECT_-1205956854'), ('tmp_628', u'CALL_-1205957596'), (u'CALL_-1205957575', u'PTRADD_-1205957424'), (u'CALL_-1205957254', u'INDIRECT_-1205956827'), (u'CALL_-1205957575', u'INDIRECT_-1205956982'), ('const-417', u'LOAD_-1205957302'), (u'CALL_-1205957421', u'INDIRECT_-1205956901'), ('tmp_402', u'CBRANCH_-1205957398'), (u'INDIRECT_-1205956981', u'MULTIEQUAL_-1205956954'), (u'CALL_-1205957254', u'INDIRECT_-1205956773'), (u'CALL_-1205957437', u'INDIRECT_-1205956950'), (u'CALL_-1205957230', u'INDIRECT_-1205956797'), (u'INDIRECT_-1205956797', u'COPY_-1205956852'), (u'LOAD_-1205957302', u'LOAD_-1205957296'), (u'INDIRECT_-1205956963', u'MULTIEQUAL_-1205956936'), ('const-4294967295', u'INT_NOTEQUAL_-1205957400'), (u'INT_ADD_-1205957534', u'CALL_-1205957538'), (u'LOAD_-1205957296', u'CAST_-1205956664'), (u'INDIRECT_-1205956920', u'COPY_-1205956962'), (u'INT_NOTEQUAL_-1205957400', u'CBRANCH_-1205957398'), (u'CALL_-1205957538', u'INDIRECT_-1205956965'), (u'CALL_-1205957421', u'INT_NOTEQUAL_-1205957400')]
|
[(u'INT_ADD_-1205957448', u'PTRADD_-1205957387'), ('const-0', u'INT_EQUAL_-1205957370'), (u'INDIRECT_-1205956754', u'COPY_-1205956812'), (u'CALL_-1205957596', u'INDIRECT_-1205956998'), (u'CALL_-1205957390', u'INDIRECT_-1205956865'), (u'CALL_-1205957538', u'INDIRECT_-1205956928'), (u'CAST_-1205956667', u'LOAD_-1205957302'), (u'INDIRECT_-1205957063', u'MULTIEQUAL_-1205957007'), (u'INDIRECT_-1205956882', u'INT_ADD_-1205957286'), (u'CALL_-1205957236', u'INDIRECT_-1205956783'), (u'CALL_-1205957390', u'INDIRECT_-1205956847'), (u'CALL_-1205957575', u'INDIRECT_-1205957017'), (u'CALL_-1205957421', u'CALL_-1205957390'), (u'CALL_-1205957575', u'INT_ADD_-1205957448'), ('const-9', u'INT_ADD_-1205957534'), (u'CALL_-1205957230', u'INDIRECT_-1205956796'), ('const-8', u'INT_ADD_-1205957448'), (u'CALL_-1205957437', u'INDIRECT_-1205956913'), (u'CALL_-1205957285', u'INDIRECT_-1205956799'), ('tmp_454', u'CBRANCH_-1205957366'), (u'CALL_-1205957596', u'INDIRECT_-1205956980'), (u'CALL_-1205957230', u'INDIRECT_-1205956760'), (u'CALL_-1205957273', u'INDIRECT_-1205956808'), ('const-0', u'RETURN_-1205957329'), (u'CALL_-1205957273', u'INDIRECT_-1205956844'), (u'CALL_-1205957596', u'INDIRECT_-1205957016'), (u'INDIRECT_-1205956832', u'COPY_-1205956887'), (u'INDIRECT_-1205956980', u'MULTIEQUAL_-1205956953'), (u'INDIRECT_-1205956790', u'INT_ADD_-1205957242'), (u'CALL_-1205957390', u'INT_EQUAL_-1205957370'), ('const-0', u'COPY_-1205956743'), (u'CALL_-1205957522', u'INDIRECT_-1205956987'), (u'CALL_-1205957437', u'INDIRECT_-1205956931'), (u'CALL_-1205957390', u'INDIRECT_-1205956883'), (u'INDIRECT_-1205956847', u'COPY_-1205956889'), (u'CALL_-1205957230', u'INDIRECT_-1205956778'), (u'CALL_-1205957522', u'INDIRECT_-1205956969'), (u'CALL_-1205957474', u'INDIRECT_-1205956894'), (u'CALL_-1205957437', u'INDIRECT_-1205956895'), (u'INDIRECT_-1205956760', u'COPY_-1205956815'), (u'CALL_-1205957285', u'INDIRECT_-1205956871'), (u'CALL_-1205957236', u'INDIRECT_-1205956801'), (u'CALL_-1205957575', u'INDIRECT_-1205956963'), (u'CALL_-1205957285', u'INDIRECT_-1205956817'), (u'CALL_-1205957538', u'INDIRECT_-1205956946'), ('const-101348', u'INT_ADD_-1205957607'), ('const-1', u'RETURN_-1205957225'), (u'CALL_-1205957653', u'CAST_-1205956847'), (u'CALL_-1205957474', u'INDIRECT_-1205956930'), (u'INDIRECT_-1205956883', u'COPY_-1205956925'), (u'CALL_-1205957437', u'INDIRECT_-1205956949'), (u'INT_EQUAL_-1205957628', u'CBRANCH_-1205957609'), (u'INT_ADD_-1205957480', u'CAST_-1205956760'), (u'CALL_-1205957230', u'INDIRECT_-1205956832'), (u'CALL_-1205957273', u'INDIRECT_-1205956826'), (u'INDIRECT_-1205956919', u'COPY_-1205956961'), (u'CALL_-1205957273', u'INDIRECT_-1205956790'), (u'CALL_-1205957285', u'INDIRECT_-1205956853'), (u'INDIRECT_-1205956998', u'MULTIEQUAL_-1205956971'), (u'INDIRECT_-1205957009', u'MULTIEQUAL_-1205956953'), ('const-1', u'PTRADD_-1205957424'), (u'INDIRECT_-1205957027', u'INT_ADD_-1205957264'), ('const-9', u'CALL_-1205957474'), (u'INDIRECT_-1205957034', u'MULTIEQUAL_-1205957007'), (u'CALL_-1205957474', u'INDIRECT_-1205956966'), (u'CALL_-1205957538', u'CAST_-1205956785'), (u'CALL_-1205957236', u'INDIRECT_-1205956837'), (u'CALL_-1205957653', u'INDIRECT_-1205957063'), (u'CAST_-1205956847', u'CALL_-1205957522'), (u'CALL_-1205957653', u'INDIRECT_-1205957045'), ('const-1', u'PTRADD_-1205957387'), (u'CALL_-1205957474', u'INDIRECT_-1205956948'), (u'CAST_-1205956785', u'CALL_-1205957421'), ('tmp_1580', u'MULTIEQUAL_-1205957262'), (u'CALL_-1205957236', u'INDIRECT_-1205956819'), (u'LOAD_-1205957284', u'CALL_-1205957273'), (u'PTRADD_-1205957424', u'CALL_-1205957474'), (u'CAST_-1205956785', u'PTRADD_-1205957387'), (u'LOAD_-1205957296', u'CAST_-1205956662'), (u'INDIRECT_-1205956814', u'COPY_-1205956869'), (u'CALL_-1205957254', u'INDIRECT_-1205956808'), (u'INDIRECT_-1205956991', u'MULTIEQUAL_-1205956935'), (u'INT_ADD_-1205957607', u'INT_ADD_-1205957286'), (u'INDIRECT_-1205956808', u'COPY_-1205956866'), (u'COPY_-1205957365', u'RETURN_-1205957329'), (u'CALL_-1205957596', u'INDIRECT_-1205956962'), (u'CALL_-1205957575', u'INDIRECT_-1205956999'), (u'CALL_-1205957421', u'INDIRECT_-1205956936'), (u'CALL_-1205957538', u'INDIRECT_-1205956964'), (u'CALL_-1205957575', u'INDIRECT_-1205956945'), (u'CALL_-1205957254', u'INDIRECT_-1205956754'), (u'INT_ADD_-1205957550', u'INT_ADD_-1205957534'), (u'MULTIEQUAL_-1205957261', u'CALL_-1205957421'), (u'CALL_-1205957437', u'INDIRECT_-1205956877'), ('const-101540', u'INT_ADD_-1205957242'), (u'CALL_-1205957538', u'INDIRECT_-1205957000'), ('const-0', u'INT_EQUAL_-1205957628'), (u'CALL_-1205957653', u'INDIRECT_-1205957027'), (u'CALL_-1205957538', u'INDIRECT_-1205956982'), (u'CALL_-1205957596', u'INDIRECT_-1205957034'), (u'INDIRECT_-1205956778', u'COPY_-1205956833'), (u'CAST_-1205956785', u'PTRADD_-1205957424'), (u'INDIRECT_-1205957027', u'MULTIEQUAL_-1205956971'), (u'CALL_-1205957522', u'INDIRECT_-1205956915'), (u'CAST_-1205956847', u'CALL_-1205957575'), (u'INT_ADD_-1205957242', u'CAST_-1205956637'), (u'INDIRECT_-1205956865', u'COPY_-1205956907'), (u'CALL_-1205957285', u'LOAD_-1205957284'), (u'INDIRECT_-1205956826', u'COPY_-1205956884'), (u'INDIRECT_-1205956962', u'MULTIEQUAL_-1205956935'), (u'CALL_-1205957390', u'INDIRECT_-1205956919'), (u'CALL_-1205957285', u'INDIRECT_-1205956835'), (u'INDIRECT_-1205957045', u'MULTIEQUAL_-1205956989'), (u'INT_EQUAL_-1205957370', u'CBRANCH_-1205957366'), ('tmp_623', u'BRANCH_-1205957272'), (u'PTRADD_-1205957387', u'CALL_-1205957437'), (u'INDIRECT_-1205956901', u'COPY_-1205956943'), (u'CALL_-1205957230', u'INDIRECT_-1205956814'), ('const-101500', u'INT_ADD_-1205957264'), (u'CALL_-1205957421', u'INDIRECT_-1205956900'), ('tmp_1580', u'CALL_-1205957596'), (u'INDIRECT_-1205957016', u'MULTIEQUAL_-1205956989'), ('const-4294967295', u'INT_NOTEQUAL_-1205957400'), ('tmp_1580', u'INT_EQUAL_-1205957628'), (u'INDIRECT_-1205957063', u'INT_ADD_-1205957607'), ('tmp_129', u'CBRANCH_-1205957609'), (u'CAST_-1205956682', u'MULTIEQUAL_-1205957262'), (u'CALL_-1205957474', u'INDIRECT_-1205956912'), (u'CAST_-1205956847', u'CALL_-1205957236'), (u'CALL_-1205957421', u'INDIRECT_-1205956918'), ('const-1', u'RETURN_-1205957249'), (u'CAST_-1205956637', u'CALL_-1205957236'), (u'INDIRECT_-1205956772', u'COPY_-1205956830'), (u'CALL_-1205957522', u'INDIRECT_-1205956933'), (u'INDIRECT_-1205956790', u'COPY_-1205956848'), (u'CALL_-1205957575', u'INT_ADD_-1205957550'), (u'CALL_-1205957273', u'INDIRECT_-1205956862'), (u'CAST_-1205956662', u'CALL_-1205957236'), (u'CALL_-1205957236', u'INDIRECT_-1205956765'), (u'MULTIEQUAL_-1205957262', u'CALL_-1205957437'), (u'CALL_-1205957653', u'INDIRECT_-1205956991'), (u'CALL_-1205957522', u'INDIRECT_-1205956951'), ('const-101420', u'INT_ADD_-1205957480'), (u'CALL_-1205957273', u'CALL_-1205957236'), (u'CALL_-1205957254', u'INDIRECT_-1205956772'), (u'CALL_-1205957596', u'MULTIEQUAL_-1205957261'), (u'CALL_-1205957575', u'PTRADD_-1205957424'), (u'CAST_-1205956760', u'CALL_-1205957474'), ('const-417', u'LOAD_-1205957302'), (u'CALL_-1205957421', u'INDIRECT_-1205956864'), (u'CALL_-1205957421', u'INDIRECT_-1205956882'), (u'INT_ADD_-1205957264', u'CAST_-1205956682'), ('tmp_402', u'CBRANCH_-1205957398'), (u'CAST_-1205956785', u'COPY_-1205957365'), (u'CALL_-1205957390', u'INDIRECT_-1205956901'), (u'CALL_-1205957653', u'INDIRECT_-1205957009'), (u'MULTIEQUAL_-1205957261', u'INT_ADD_-1205957550'), (u'INDIRECT_-1205956969', u'INT_ADD_-1205957480'), (u'LOAD_-1205957302', u'LOAD_-1205957296'), (u'CALL_-1205957254', u'INDIRECT_-1205956790'), (u'INDIRECT_-1205956796', u'COPY_-1205956851'), (u'CALL_-1205957575', u'INDIRECT_-1205956981'), (u'INT_ADD_-1205957286', u'CAST_-1205956667'), (u'INT_ADD_-1205957534', u'CALL_-1205957538'), (u'INT_NOTEQUAL_-1205957400', u'CBRANCH_-1205957398'), ('const-417', u'LOAD_-1205957296'), ('const-417', u'LOAD_-1205957284'), (u'CALL_-1205957254', u'INDIRECT_-1205956826'), (u'CALL_-1205957421', u'INT_NOTEQUAL_-1205957400'), (u'COPY_-1205956743', u'MULTIEQUAL_-1205957261'), (u'CAST_-1205956785', u'CALL_-1205957522')]
| null | null |
00018bc8
|
arm
|
O2
|
(translation_unit "char * FUN_00018bc8(char *param_1)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}\n\n" (function_definition "char * FUN_00018bc8(char *param_1)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" primitive_type (pointer_declarator "* FUN_00018bc8(char *param_1)" * (function_declarator "FUN_00018bc8(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) )))) (compound_statement "{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" { (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "size_t __suffixlen;" primitive_type identifier ;) (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "int __fd;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar4;" primitive_type identifier ;) (expression_statement "__s = (char *)FUN_000189cc();" (assignment_expression "__s = (char *)FUN_000189cc()" identifier = (cast_expression "(char *)FUN_000189cc()" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_000189cc()" identifier (argument_list "()" ( ))))) ;) (expression_statement "iVar4 = DAT_00018cb4 + 0x18be4;" (assignment_expression "iVar4 = DAT_00018cb4 + 0x18be4" identifier = (binary_expression "DAT_00018cb4 + 0x18be4" identifier + number_literal)) ;) (if_statement "if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }" if (parenthesized_expression "(param_1 == (char *)0x0)" ( (binary_expression "param_1 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }" { (expression_statement "param_1 = (char *)(DAT_00018cbc + 0x18c7c);" (assignment_expression "param_1 = (char *)(DAT_00018cbc + 0x18c7c)" identifier = (cast_expression "(char *)(DAT_00018cbc + 0x18c7c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cbc + 0x18c7c)" ( (binary_expression "DAT_00018cbc + 0x18c7c" identifier + number_literal) )))) ;) (expression_statement "__suffixlen = 0;" (assignment_expression "__suffixlen = 0" identifier = number_literal) ;) }) (else_clause "else {\n __suffixlen = strlen(param_1);\n }" else (compound_statement "{\n __suffixlen = strlen(param_1);\n }" { (expression_statement "__suffixlen = strlen(param_1);" (assignment_expression "__suffixlen = strlen(param_1)" identifier = (call_expression "strlen(param_1)" identifier (argument_list "(param_1)" ( identifier )))) ;) }))) (expression_statement "sVar1 = strlen(__s);" (assignment_expression "sVar1 = strlen(__s)" identifier = (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier )))) ;) (expression_statement "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);" (assignment_expression "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9)" identifier = (cast_expression "(char *)xmalloc(sVar1 + __suffixlen + 9)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "xmalloc(sVar1 + __suffixlen + 9)" identifier (argument_list "(sVar1 + __suffixlen + 9)" ( (binary_expression "sVar1 + __suffixlen + 9" (binary_expression "sVar1 + __suffixlen" identifier + identifier) + number_literal) ))))) ;) (expression_statement "strcpy(pcVar2,__s);" (call_expression "strcpy(pcVar2,__s)" identifier (argument_list "(pcVar2,__s)" ( identifier , identifier ))) ;) (expression_statement "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);" (call_expression "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" identifier (argument_list "(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" ( (binary_expression "pcVar2 + sVar1" identifier + identifier) , (cast_expression "(void *)(DAT_00018cb8 + 0x18c2c)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cb8 + 0x18c2c)" ( (binary_expression "DAT_00018cb8 + 0x18c2c" identifier + number_literal) ))) , number_literal ))) ;) (expression_statement "strcpy(pcVar2 + sVar1 + 8,param_1);" (call_expression "strcpy(pcVar2 + sVar1 + 8,param_1)" identifier (argument_list "(pcVar2 + sVar1 + 8,param_1)" ( (binary_expression "pcVar2 + sVar1 + 8" (binary_expression "pcVar2 + sVar1" identifier + identifier) + number_literal) , identifier ))) ;) (expression_statement "__fd = mkstemps64(pcVar2,__suffixlen);" (assignment_expression "__fd = mkstemps64(pcVar2,__suffixlen)" identifier = (call_expression "mkstemps64(pcVar2,__suffixlen)" identifier (argument_list "(pcVar2,__suffixlen)" ( identifier , identifier )))) ;) (if_statement "if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" if (parenthesized_expression "(__fd != -1)" ( (binary_expression "__fd != -1" identifier != number_literal) )) (compound_statement "{\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" { (expression_statement "iVar4 = close(__fd);" (assignment_expression "iVar4 = close(__fd)" identifier = (call_expression "close(__fd)" identifier (argument_list "(__fd)" ( identifier )))) ;) (if_statement "if (iVar4 == 0) {\n return pcVar2;\n }" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (compound_statement "{\n return pcVar2;\n }" { (return_statement "return pcVar2;" return identifier ;) })) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar4 + DAT_00018cc0)" * (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018cc0)" * (cast_expression "(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_00018cc0)" ( (binary_expression "iVar4 + DAT_00018cc0" identifier + identifier) ))))))) ;) (expression_statement "piVar3 = __errno_location();" (assignment_expression "piVar3 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "pcVar2 = strerror(*piVar3);" (assignment_expression "pcVar2 = strerror(*piVar3)" identifier = (call_expression "strerror(*piVar3)" identifier (argument_list "(*piVar3)" ( (pointer_expression "*piVar3" * identifier) )))) ;) (expression_statement "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);" (call_expression "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" identifier (argument_list "(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" ( identifier , (cast_expression "(char *)(DAT_00018cc4 + 0x18ca4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cc4 + 0x18ca4)" ( (binary_expression "DAT_00018cc4 + 0x18ca4" identifier + number_literal) ))) , identifier , identifier ))) ;) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "char * make_temp_file(char *suffix)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = choose_tmpdir();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (suffix == (char *)0x0) {\n suffix = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(suffix);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,suffix);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}\n\n" (function_definition "char * make_temp_file(char *suffix)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = choose_tmpdir();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (suffix == (char *)0x0) {\n suffix = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(suffix);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,suffix);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" primitive_type (pointer_declarator "* make_temp_file(char *suffix)" * (function_declarator "make_temp_file(char *suffix)" identifier (parameter_list "(char *suffix)" ( (parameter_declaration "char *suffix" primitive_type (pointer_declarator "*suffix" * identifier)) )))) (compound_statement "{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = choose_tmpdir();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (suffix == (char *)0x0) {\n suffix = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(suffix);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,suffix);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" { (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "size_t __suffixlen;" primitive_type identifier ;) (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "int __fd;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar4;" primitive_type identifier ;) (expression_statement "__s = choose_tmpdir();" (assignment_expression "__s = choose_tmpdir()" identifier = (call_expression "choose_tmpdir()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar4 = DAT_00018cb4 + 0x18be4;" (assignment_expression "iVar4 = DAT_00018cb4 + 0x18be4" identifier = (binary_expression "DAT_00018cb4 + 0x18be4" identifier + number_literal)) ;) (if_statement "if (suffix == (char *)0x0) {\n suffix = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(suffix);\n }" if (parenthesized_expression "(suffix == (char *)0x0)" ( (binary_expression "suffix == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n suffix = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }" { (expression_statement "suffix = (char *)(DAT_00018cbc + 0x18c7c);" (assignment_expression "suffix = (char *)(DAT_00018cbc + 0x18c7c)" identifier = (cast_expression "(char *)(DAT_00018cbc + 0x18c7c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cbc + 0x18c7c)" ( (binary_expression "DAT_00018cbc + 0x18c7c" identifier + number_literal) )))) ;) (expression_statement "__suffixlen = 0;" (assignment_expression "__suffixlen = 0" identifier = number_literal) ;) }) (else_clause "else {\n __suffixlen = strlen(suffix);\n }" else (compound_statement "{\n __suffixlen = strlen(suffix);\n }" { (expression_statement "__suffixlen = strlen(suffix);" (assignment_expression "__suffixlen = strlen(suffix)" identifier = (call_expression "strlen(suffix)" identifier (argument_list "(suffix)" ( identifier )))) ;) }))) (expression_statement "sVar1 = strlen(__s);" (assignment_expression "sVar1 = strlen(__s)" identifier = (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier )))) ;) (expression_statement "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);" (assignment_expression "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9)" identifier = (cast_expression "(char *)xmalloc(sVar1 + __suffixlen + 9)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "xmalloc(sVar1 + __suffixlen + 9)" identifier (argument_list "(sVar1 + __suffixlen + 9)" ( (binary_expression "sVar1 + __suffixlen + 9" (binary_expression "sVar1 + __suffixlen" identifier + identifier) + number_literal) ))))) ;) (expression_statement "strcpy(pcVar2,__s);" (call_expression "strcpy(pcVar2,__s)" identifier (argument_list "(pcVar2,__s)" ( identifier , identifier ))) ;) (expression_statement "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);" (call_expression "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" identifier (argument_list "(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" ( (binary_expression "pcVar2 + sVar1" identifier + identifier) , (cast_expression "(void *)(DAT_00018cb8 + 0x18c2c)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cb8 + 0x18c2c)" ( (binary_expression "DAT_00018cb8 + 0x18c2c" identifier + number_literal) ))) , number_literal ))) ;) (expression_statement "strcpy(pcVar2 + sVar1 + 8,suffix);" (call_expression "strcpy(pcVar2 + sVar1 + 8,suffix)" identifier (argument_list "(pcVar2 + sVar1 + 8,suffix)" ( (binary_expression "pcVar2 + sVar1 + 8" (binary_expression "pcVar2 + sVar1" identifier + identifier) + number_literal) , identifier ))) ;) (expression_statement "__fd = mkstemps64(pcVar2,__suffixlen);" (assignment_expression "__fd = mkstemps64(pcVar2,__suffixlen)" identifier = (call_expression "mkstemps64(pcVar2,__suffixlen)" identifier (argument_list "(pcVar2,__suffixlen)" ( identifier , identifier )))) ;) (if_statement "if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" if (parenthesized_expression "(__fd != -1)" ( (binary_expression "__fd != -1" identifier != number_literal) )) (compound_statement "{\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" { (expression_statement "iVar4 = close(__fd);" (assignment_expression "iVar4 = close(__fd)" identifier = (call_expression "close(__fd)" identifier (argument_list "(__fd)" ( identifier )))) ;) (if_statement "if (iVar4 == 0) {\n return pcVar2;\n }" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (compound_statement "{\n return pcVar2;\n }" { (return_statement "return pcVar2;" return identifier ;) })) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar4 + DAT_00018cc0)" * (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018cc0)" * (cast_expression "(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_00018cc0)" ( (binary_expression "iVar4 + DAT_00018cc0" identifier + identifier) ))))))) ;) (expression_statement "piVar3 = __errno_location();" (assignment_expression "piVar3 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "pcVar2 = strerror(*piVar3);" (assignment_expression "pcVar2 = strerror(*piVar3)" identifier = (call_expression "strerror(*piVar3)" identifier (argument_list "(*piVar3)" ( (pointer_expression "*piVar3" * identifier) )))) ;) (expression_statement "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);" (call_expression "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" identifier (argument_list "(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" ( identifier , (cast_expression "(char *)(DAT_00018cc4 + 0x18ca4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cc4 + 0x18ca4)" ( (binary_expression "DAT_00018cc4 + 0x18ca4" identifier + number_literal) ))) , identifier , identifier ))) ;) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "char * FUN_00018bc8(char *param_1)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}\n\n" (function_definition "char * FUN_00018bc8(char *param_1)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" primitive_type (pointer_declarator "* FUN_00018bc8(char *param_1)" * (function_declarator "FUN_00018bc8(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) )))) (compound_statement "{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" { (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "size_t __suffixlen;" primitive_type identifier ;) (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "int __fd;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "FILE *__stream;" type_identifier (pointer_declarator "*__stream" * identifier) ;) (declaration "int iVar4;" primitive_type identifier ;) (expression_statement "__s = (char *)FUN_000189cc();" (assignment_expression "__s = (char *)FUN_000189cc()" identifier = (cast_expression "(char *)FUN_000189cc()" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_000189cc()" identifier (argument_list "()" ( ))))) ;) (expression_statement "iVar4 = DAT_00018cb4 + 0x18be4;" (assignment_expression "iVar4 = DAT_00018cb4 + 0x18be4" identifier = (binary_expression "DAT_00018cb4 + 0x18be4" identifier + number_literal)) ;) (if_statement "if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }" if (parenthesized_expression "(param_1 == (char *)0x0)" ( (binary_expression "param_1 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }" { (expression_statement "param_1 = (char *)(DAT_00018cbc + 0x18c7c);" (assignment_expression "param_1 = (char *)(DAT_00018cbc + 0x18c7c)" identifier = (cast_expression "(char *)(DAT_00018cbc + 0x18c7c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cbc + 0x18c7c)" ( (binary_expression "DAT_00018cbc + 0x18c7c" identifier + number_literal) )))) ;) (expression_statement "__suffixlen = 0;" (assignment_expression "__suffixlen = 0" identifier = number_literal) ;) }) (else_clause "else {\n __suffixlen = strlen(param_1);\n }" else (compound_statement "{\n __suffixlen = strlen(param_1);\n }" { (expression_statement "__suffixlen = strlen(param_1);" (assignment_expression "__suffixlen = strlen(param_1)" identifier = (call_expression "strlen(param_1)" identifier (argument_list "(param_1)" ( identifier )))) ;) }))) (expression_statement "sVar1 = strlen(__s);" (assignment_expression "sVar1 = strlen(__s)" identifier = (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier )))) ;) (expression_statement "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);" (assignment_expression "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9)" identifier = (cast_expression "(char *)xmalloc(sVar1 + __suffixlen + 9)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "xmalloc(sVar1 + __suffixlen + 9)" identifier (argument_list "(sVar1 + __suffixlen + 9)" ( (binary_expression "sVar1 + __suffixlen + 9" (binary_expression "sVar1 + __suffixlen" identifier + identifier) + number_literal) ))))) ;) (expression_statement "strcpy(pcVar2,__s);" (call_expression "strcpy(pcVar2,__s)" identifier (argument_list "(pcVar2,__s)" ( identifier , identifier ))) ;) (expression_statement "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);" (call_expression "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" identifier (argument_list "(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" ( (binary_expression "pcVar2 + sVar1" identifier + identifier) , (cast_expression "(void *)(DAT_00018cb8 + 0x18c2c)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cb8 + 0x18c2c)" ( (binary_expression "DAT_00018cb8 + 0x18c2c" identifier + number_literal) ))) , number_literal ))) ;) (expression_statement "strcpy(pcVar2 + sVar1 + 8,param_1);" (call_expression "strcpy(pcVar2 + sVar1 + 8,param_1)" identifier (argument_list "(pcVar2 + sVar1 + 8,param_1)" ( (binary_expression "pcVar2 + sVar1 + 8" (binary_expression "pcVar2 + sVar1" identifier + identifier) + number_literal) , identifier ))) ;) (expression_statement "__fd = mkstemps64(pcVar2,__suffixlen);" (assignment_expression "__fd = mkstemps64(pcVar2,__suffixlen)" identifier = (call_expression "mkstemps64(pcVar2,__suffixlen)" identifier (argument_list "(pcVar2,__suffixlen)" ( identifier , identifier )))) ;) (if_statement "if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" if (parenthesized_expression "(__fd != -1)" ( (binary_expression "__fd != -1" identifier != number_literal) )) (compound_statement "{\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" { (expression_statement "iVar4 = close(__fd);" (assignment_expression "iVar4 = close(__fd)" identifier = (call_expression "close(__fd)" identifier (argument_list "(__fd)" ( identifier )))) ;) (if_statement "if (iVar4 == 0) {\n return pcVar2;\n }" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (compound_statement "{\n return pcVar2;\n }" { (return_statement "return pcVar2;" return identifier ;) })) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" identifier = (cast_expression "(FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(iVar4 + DAT_00018cc0)" * (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018cc0)" * (cast_expression "(undefined4 **)(iVar4 + DAT_00018cc0)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_00018cc0)" ( (binary_expression "iVar4 + DAT_00018cc0" identifier + identifier) ))))))) ;) (expression_statement "piVar3 = __errno_location();" (assignment_expression "piVar3 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "pcVar2 = strerror(*piVar3);" (assignment_expression "pcVar2 = strerror(*piVar3)" identifier = (call_expression "strerror(*piVar3)" identifier (argument_list "(*piVar3)" ( (pointer_expression "*piVar3" * identifier) )))) ;) (expression_statement "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);" (call_expression "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" identifier (argument_list "(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" ( identifier , (cast_expression "(char *)(DAT_00018cc4 + 0x18ca4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018cc4 + 0x18ca4)" ( (binary_expression "DAT_00018cc4 + 0x18ca4" identifier + number_literal) ))) , identifier , identifier ))) ;) comment (expression_statement "abort();" (call_expression "abort()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) )))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) }))) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( (binary_expression (binary_expression IDENT + IDENT) + LIT) ))))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( (binary_expression IDENT + IDENT) , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) , LIT ))) ;) (expression_statement (call_expression IDENT (argument_list ( (binary_expression (binary_expression IDENT + IDENT) + LIT) , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (return_statement return IDENT ;) })) comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * IDENT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) , IDENT , IDENT ))) ;) comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(function_definition "char * FUN_00018bc8(char *param_1)\n\n{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" (primitive_type "char") (pointer_declarator "* FUN_00018bc8(char *param_1)" (* "*") (function_declarator "FUN_00018bc8(char *param_1)" (identifier "FUN_00018bc8") (parameter_list "(char *param_1)" (( "(") (parameter_declaration "char *param_1" (primitive_type "char") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")")))) (compound_statement "{\n char *__s;\n size_t __suffixlen;\n size_t sVar1;\n char *pcVar2;\n int __fd;\n int *piVar3;\n FILE *__stream;\n int iVar4;\n \n __s = (char *)FUN_000189cc();\n iVar4 = DAT_00018cb4 + 0x18be4;\n if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }\n sVar1 = strlen(__s);\n pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);\n strcpy(pcVar2,__s);\n memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);\n strcpy(pcVar2 + sVar1 + 8,param_1);\n __fd = mkstemps64(pcVar2,__suffixlen);\n if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }\n __stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);\n piVar3 = __errno_location();\n pcVar2 = strerror(*piVar3);\n fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);\n /* WARNING: Subroutine does not return */\n abort();\n}" ({ "{") (declaration "char *__s;" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s")) (; ";")) (declaration "size_t __suffixlen;" (primitive_type "size_t") (identifier "__suffixlen") (; ";")) (declaration "size_t sVar1;" (primitive_type "size_t") (identifier "sVar1") (; ";")) (declaration "char *pcVar2;" (primitive_type "char") (pointer_declarator "*pcVar2" (* "*") (identifier "pcVar2")) (; ";")) (declaration "int __fd;" (primitive_type "int") (identifier "__fd") (; ";")) (declaration "int *piVar3;" (primitive_type "int") (pointer_declarator "*piVar3" (* "*") (identifier "piVar3")) (; ";")) (declaration "FILE *__stream;" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream")) (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (expression_statement "__s = (char *)FUN_000189cc();" (assignment_expression "__s = (char *)FUN_000189cc()" (identifier "__s") (= "=") (cast_expression "(char *)FUN_000189cc()" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "FUN_000189cc()" (identifier "FUN_000189cc") (argument_list "()" (( "(") () ")"))))) (; ";")) (expression_statement "iVar4 = DAT_00018cb4 + 0x18be4;" (assignment_expression "iVar4 = DAT_00018cb4 + 0x18be4" (identifier "iVar4") (= "=") (binary_expression "DAT_00018cb4 + 0x18be4" (identifier "DAT_00018cb4") (+ "+") (number_literal "0x18be4"))) (; ";")) (if_statement "if (param_1 == (char *)0x0) {\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }\n else {\n __suffixlen = strlen(param_1);\n }" (if "if") (parenthesized_expression "(param_1 == (char *)0x0)" (( "(") (binary_expression "param_1 == (char *)0x0" (identifier "param_1") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n param_1 = (char *)(DAT_00018cbc + 0x18c7c);\n __suffixlen = 0;\n }" ({ "{") (expression_statement "param_1 = (char *)(DAT_00018cbc + 0x18c7c);" (assignment_expression "param_1 = (char *)(DAT_00018cbc + 0x18c7c)" (identifier "param_1") (= "=") (cast_expression "(char *)(DAT_00018cbc + 0x18c7c)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018cbc + 0x18c7c)" (( "(") (binary_expression "DAT_00018cbc + 0x18c7c" (identifier "DAT_00018cbc") (+ "+") (number_literal "0x18c7c")) () ")")))) (; ";")) (expression_statement "__suffixlen = 0;" (assignment_expression "__suffixlen = 0" (identifier "__suffixlen") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n __suffixlen = strlen(param_1);\n }" (else "else") (compound_statement "{\n __suffixlen = strlen(param_1);\n }" ({ "{") (expression_statement "__suffixlen = strlen(param_1);" (assignment_expression "__suffixlen = strlen(param_1)" (identifier "__suffixlen") (= "=") (call_expression "strlen(param_1)" (identifier "strlen") (argument_list "(param_1)" (( "(") (identifier "param_1") () ")")))) (; ";")) (} "}")))) (expression_statement "sVar1 = strlen(__s);" (assignment_expression "sVar1 = strlen(__s)" (identifier "sVar1") (= "=") (call_expression "strlen(__s)" (identifier "strlen") (argument_list "(__s)" (( "(") (identifier "__s") () ")")))) (; ";")) (expression_statement "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);" (assignment_expression "pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9)" (identifier "pcVar2") (= "=") (cast_expression "(char *)xmalloc(sVar1 + __suffixlen + 9)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "xmalloc(sVar1 + __suffixlen + 9)" (identifier "xmalloc") (argument_list "(sVar1 + __suffixlen + 9)" (( "(") (binary_expression "sVar1 + __suffixlen + 9" (binary_expression "sVar1 + __suffixlen" (identifier "sVar1") (+ "+") (identifier "__suffixlen")) (+ "+") (number_literal "9")) () ")"))))) (; ";")) (expression_statement "strcpy(pcVar2,__s);" (call_expression "strcpy(pcVar2,__s)" (identifier "strcpy") (argument_list "(pcVar2,__s)" (( "(") (identifier "pcVar2") (, ",") (identifier "__s") () ")"))) (; ";")) (expression_statement "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);" (call_expression "memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" (identifier "memcpy") (argument_list "(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9)" (( "(") (binary_expression "pcVar2 + sVar1" (identifier "pcVar2") (+ "+") (identifier "sVar1")) (, ",") (cast_expression "(void *)(DAT_00018cb8 + 0x18c2c)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018cb8 + 0x18c2c)" (( "(") (binary_expression "DAT_00018cb8 + 0x18c2c" (identifier "DAT_00018cb8") (+ "+") (number_literal "0x18c2c")) () ")"))) (, ",") (number_literal "9") () ")"))) (; ";")) (expression_statement "strcpy(pcVar2 + sVar1 + 8,param_1);" (call_expression "strcpy(pcVar2 + sVar1 + 8,param_1)" (identifier "strcpy") (argument_list "(pcVar2 + sVar1 + 8,param_1)" (( "(") (binary_expression "pcVar2 + sVar1 + 8" (binary_expression "pcVar2 + sVar1" (identifier "pcVar2") (+ "+") (identifier "sVar1")) (+ "+") (number_literal "8")) (, ",") (identifier "param_1") () ")"))) (; ";")) (expression_statement "__fd = mkstemps64(pcVar2,__suffixlen);" (assignment_expression "__fd = mkstemps64(pcVar2,__suffixlen)" (identifier "__fd") (= "=") (call_expression "mkstemps64(pcVar2,__suffixlen)" (identifier "mkstemps64") (argument_list "(pcVar2,__suffixlen)" (( "(") (identifier "pcVar2") (, ",") (identifier "__suffixlen") () ")")))) (; ";")) (if_statement "if (__fd != -1) {\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" (if "if") (parenthesized_expression "(__fd != -1)" (( "(") (binary_expression "__fd != -1" (identifier "__fd") (!= "!=") (number_literal "-1")) () ")")) (compound_statement "{\n iVar4 = close(__fd);\n if (iVar4 == 0) {\n return pcVar2;\n }\n /* WARNING: Subroutine does not return */\n abort();\n }" ({ "{") (expression_statement "iVar4 = close(__fd);" (assignment_expression "iVar4 = close(__fd)" (identifier "iVar4") (= "=") (call_expression "close(__fd)" (identifier "close") (argument_list "(__fd)" (( "(") (identifier "__fd") () ")")))) (; ";")) (if_statement "if (iVar4 == 0) {\n return pcVar2;\n }" (if "if") (parenthesized_expression "(iVar4 == 0)" (( "(") (binary_expression "iVar4 == 0" (identifier "iVar4") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n return pcVar2;\n }" ({ "{") (return_statement "return pcVar2;" (return "return") (identifier "pcVar2") (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "abort();" (call_expression "abort()" (identifier "abort") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (expression_statement "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);" (assignment_expression "__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" (identifier "__stream") (= "=") (cast_expression "(FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(iVar4 + DAT_00018cc0)" (* "*") (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018cc0)" (* "*") (cast_expression "(undefined4 **)(iVar4 + DAT_00018cc0)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + DAT_00018cc0)" (( "(") (binary_expression "iVar4 + DAT_00018cc0" (identifier "iVar4") (+ "+") (identifier "DAT_00018cc0")) () ")"))))))) (; ";")) (expression_statement "piVar3 = __errno_location();" (assignment_expression "piVar3 = __errno_location()" (identifier "piVar3") (= "=") (call_expression "__errno_location()" (identifier "__errno_location") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "pcVar2 = strerror(*piVar3);" (assignment_expression "pcVar2 = strerror(*piVar3)" (identifier "pcVar2") (= "=") (call_expression "strerror(*piVar3)" (identifier "strerror") (argument_list "(*piVar3)" (( "(") (pointer_expression "*piVar3" (* "*") (identifier "piVar3")) () ")")))) (; ";")) (expression_statement "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);" (call_expression "fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" (identifier "fprintf") (argument_list "(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2)" (( "(") (identifier "__stream") (, ",") (cast_expression "(char *)(DAT_00018cc4 + 0x18ca4)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018cc4 + 0x18ca4)" (( "(") (binary_expression "DAT_00018cc4 + 0x18ca4" (identifier "DAT_00018cc4") (+ "+") (number_literal "0x18ca4")) () ")"))) (, ",") (identifier "__s") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (comment "/* WARNING: Subroutine does not return */") (expression_statement "abort();" (call_expression "abort()" (identifier "abort") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
char * function_1(char *var_3)
{
char *__s;
size_t var_8;
size_t var_7;
char *var_11;
int var_14;
int *piVar3;
type_1 *__stream;
int var_16;
__s = var_1();
var_16 = var_2 + 0x18be4;
if (var_3 == (char *)0x0) {
var_3 = (char *)(var_4 + 0x18c7c);
var_8 = 0;
}
else {
var_8 = var_5(var_3);
}
var_7 = var_5(__s);
var_11 = (char *)var_6(var_7 + var_8 + 9);
var_9(var_11,__s);
var_10(var_11 + var_7,(void *)(var_12 + 0x18c2c),9);
var_9(var_11 + var_7 + 8,var_3);
var_14 = var_13(var_11,var_8);
if (var_14 != -1) {
var_16 = var_15(var_14);
if (var_16 == 0) {
return var_11;
}
/* WARNING: Subroutine does not return */
var_17();
}
__stream = (type_1 *)**(type_2 **)(var_16 + var_18);
piVar3 = var_19();
var_11 = var_20(*piVar3);
var_21(__stream,(char *)(var_22 + 0x18ca4),__s,var_11);
/* WARNING: Subroutine does not return */
var_17();
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier)))))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)) (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal)) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement (identifier)))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (identifier) (identifier)))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
char * MASKED(char *param_1)
{
char *__s;
size_t __suffixlen;
size_t sVar1;
char *pcVar2;
int __fd;
int *piVar3;
FILE *__stream;
int iVar4;
__s = (char *)FUN_000189cc();
iVar4 = DAT_00018cb4 + 0x18be4;
if (param_1 == (char *)0x0) {
param_1 = (char *)(DAT_00018cbc + 0x18c7c);
__suffixlen = 0;
}
else {
__suffixlen = strlen(param_1);
}
sVar1 = strlen(__s);
pcVar2 = (char *)xmalloc(sVar1 + __suffixlen + 9);
strcpy(pcVar2,__s);
memcpy(pcVar2 + sVar1,(void *)(DAT_00018cb8 + 0x18c2c),9);
strcpy(pcVar2 + sVar1 + 8,param_1);
__fd = mkstemps64(pcVar2,__suffixlen);
if (__fd != -1) {
iVar4 = close(__fd);
if (iVar4 == 0) {
return pcVar2;
}
/* WARNING: Subroutine does not return */
abort();
}
__stream = (FILE *)**(undefined4 **)(iVar4 + DAT_00018cc0);
piVar3 = __errno_location();
pcVar2 = strerror(*piVar3);
fprintf(__stream,(char *)(DAT_00018cc4 + 0x18ca4),__s,pcVar2);
/* WARNING: Subroutine does not return */
abort();
}
| 37,065 |
||
701_putty_and_putty_strip.c
|
plug_proxy_receive
|
FUN_00030ec0
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void plug_proxy_receive(Plug p,int urgent,char *data,int len)
{
Proxy_Plug pp;
accept_ctx_t aVar1;
plug_function_table *ppVar2;
ppVar2 = p[1];
if (ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0) {
/* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(code **)(*(int *)ppVar2->sent + 8))();
return;
}
aVar1.i = len;
bufchain_add((bufchain *)&ppVar2[2].sent,data,len);
ppVar2[4].sent = (_func_void_Plug_int *)urgent;
ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data;
ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len;
/* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */
/* WARNING: Treating indirect jump as call */
(*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1);
return;
}
|
void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)
{
int iVar1;
iVar1 = *(int *)(param_1 + 4);
if (*(int *)(iVar1 + 0x44) == 0) {
/* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(code **)(**(int **)(iVar1 + 0xc) + 8))();
return;
}
FUN_0002f28c(iVar1 + 0x34,param_3,param_4);
*(undefined4 *)(iVar1 + 0x5c) = param_2;
*(undefined4 *)(iVar1 + 0x60) = param_3;
*(undefined4 *)(iVar1 + 100) = param_4;
/* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(code **)(iVar1 + 0x4c))(iVar1,2);
return;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
ldr r4,[r0,#0x4]
ldr r0,[r4,#0x44]
cmp r0,#0x0
bne 0x00030eec
ldr r0,[r4,#0xc]
ldr r12,[r0,#0x0]
ldr lr,[r12,#0x8]
cpy r12,lr
ldmia sp!,{r4,r5,r6,r7,r8,lr}
bx r12
cpy r6,r2
cpy r5,r3
cpy r7,r1
add r0,r4,#0x34
cpy r1,r6
cpy r2,r3
bl 0x0002f28c
str r7,[r4,#0x5c]
str r6,[r4,#0x60]
str r5,[r4,#0x64]
ldr r3,[r4,#0x4c]
cpy r0,r4
mov r1,#0x2
ldmia sp!,{r4,r5,r6,r7,r8,lr}
bx r3
| null | null | null | null |
[('const-4', u'PTRADD_-1206120409'), (u'CAST_-1206120405', u'CALL_-1206120613'), ('tmp_340', u'CAST_-1206120400'), ('tmp_342', u'COPY_-1206120469'), ('const-4', u'PTRADD_-1206120483'), (u'LOAD_-1206120594', u'CALLIND_-1206120540'), (u'PTRADD_-1206120478', u'PTRSUB_-1206120476'), (u'CAST_-1206120395', u'STORE_-1206120605'), ('const-16', u'PTRSUB_-1206120401'), (u'LOAD_-1206120747', u'PTRADD_-1206120478'), (u'LOAD_-1206120747', u'PTRADD_-1206120403'), ('const-417', u'LOAD_-1206120594'), ('const-3', u'PTRADD_-1206120478'), (u'CAST_-1206120390', u'STORE_-1206120599'), (u'LOAD_-1206120741', u'INT_EQUAL_-1206120716'), ('tmp_100', u'CBRANCH_-1206120712'), (u'PTRADD_-1206120483', u'LOAD_-1206120747'), ('const-20', u'PTRADD_-1206120397'), (u'LOAD_-1206120703', u'INT_ADD_-1206120681'), (u'LOAD_-1206120747', u'PTRADD_-1206120391'), (u'INT_EQUAL_-1206120716', u'CBRANCH_-1206120712'), ('const-417', u'STORE_-1206120605'), ('const-12', u'PTRSUB_-1206120425'), ('const-20', u'PTRADD_-1206120409'), ('const-20', u'PTRADD_-1206120478'), ('const-417', u'LOAD_-1206120709'), (u'PTRADD_-1206120427', u'PTRSUB_-1206120425'), ('const-4', u'PTRADD_-1206120403'), ('const-5', u'PTRADD_-1206120397'), (u'PTRSUB_-1206120407', u'STORE_-1206120611'), ('tmp_342', u'CALL_-1206120613'), ('const-417', u'LOAD_-1206120747'), ('const-2', u'CALLIND_-1206120540'), ('const-417', u'LOAD_-1206120697'), (u'PTRSUB_-1206120463', u'LOAD_-1206120709'), (u'PTRSUB_-1206120401', u'STORE_-1206120605'), ('const-417', u'STORE_-1206120599'), (u'CALL_-1206120613', u'INDIRECT_-1206120504'), ('const-0', u'PTRSUB_-1206120395'), (u'LOAD_-1206120709', u'CAST_-1206120444'), ('const-12', u'PTRSUB_-1206120407'), ('tmp_342', u'CAST_-1206120390'), ('const-20', u'PTRADD_-1206120427'), (u'LOAD_-1206120697', u'CALLIND_-1206120659'), ('const-1', u'RETURN_-1206120597'), ('const-20', u'PTRADD_-1206120391'), ('const-417', u'LOAD_-1206120741'), (u'LOAD_-1206120747', u'PTRADD_-1206120409'), ('tmp_341', u'CAST_-1206120395'), ('const-12', u'PTRSUB_-1206120463'), (u'CAST_-1206120439', u'LOAD_-1206120697'), ('tmp_341', u'CALL_-1206120613'), (u'PTRSUB_-1206120425', u'CAST_-1206120405'), (u'LOAD_-1206120747', u'PTRSUB_-1206120463'), ('const-1', u'RETURN_-1206120536'), (u'PTRSUB_-1206120476', u'LOAD_-1206120741'), (u'PTRSUB_-1206120395', u'STORE_-1206120599'), ('const-417', u'STORE_-1206120611'), (u'LOAD_-1206120747', u'PTRADD_-1206120397'), ('const-3', u'PTRADD_-1206120391'), (u'INT_ADD_-1206120681', u'CAST_-1206120439'), ('const-8', u'INT_ADD_-1206120681'), (u'PTRSUB_-1206120389', u'LOAD_-1206120594'), (u'CAST_-1206120400', u'STORE_-1206120611'), (u'PTRADD_-1206120403', u'PTRSUB_-1206120401'), (u'LOAD_-1206120747', u'CAST_-1206120369'), ('const-20', u'PTRADD_-1206120403'), ('tmp_339', u'PTRADD_-1206120483'), ('const-16', u'PTRSUB_-1206120389'), ('const-2', u'PTRADD_-1206120427'), ('const-417', u'LOAD_-1206120703'), (u'CAST_-1206120369', u'CALLIND_-1206120540'), (u'PTRADD_-1206120391', u'PTRSUB_-1206120389'), (u'INDIRECT_-1206120504', u'CALLIND_-1206120540'), ('const-1', u'PTRADD_-1206120483'), ('const-8', u'PTRSUB_-1206120476'), (u'PTRADD_-1206120397', u'PTRSUB_-1206120395'), (u'PTRADD_-1206120409', u'PTRSUB_-1206120407'), ('const-0', u'INT_EQUAL_-1206120716'), (u'LOAD_-1206120747', u'PTRADD_-1206120427'), (u'CAST_-1206120444', u'LOAD_-1206120703')]
|
[(u'LOAD_-1206120747', u'INT_ADD_-1206120619'), (u'LOAD_-1206120747', u'INT_ADD_-1206120596'), ('const-0', u'INT_EQUAL_-1206120716'), (u'LOAD_-1206120594', u'CALLIND_-1206120540'), (u'INT_ADD_-1206120725', u'CAST_-1206120478'), ('const-92', u'INT_ADD_-1206120596'), (u'CAST_-1206120461', u'LOAD_-1206120709'), (u'CAST_-1206120452', u'LOAD_-1206120697'), (u'LOAD_-1206120747', u'CALLIND_-1206120540'), (u'LOAD_-1206120747', u'INT_ADD_-1206120725'), (u'CAST_-1206120408', u'STORE_-1206120605'), (u'CAST_-1206120403', u'STORE_-1206120599'), ('const-417', u'STORE_-1206120599'), ('tmp_560', u'STORE_-1206120599'), (u'INT_ADD_-1206120731', u'CAST_-1206120483'), ('const-68', u'INT_ADD_-1206120725'), (u'INT_ADD_-1206120693', u'CAST_-1206120461'), ('const-2', u'CALLIND_-1206120540'), (u'LOAD_-1206120741', u'INT_EQUAL_-1206120716'), ('const-417', u'LOAD_-1206120697'), ('tmp_100', u'CBRANCH_-1206120712'), (u'CAST_-1206120483', u'LOAD_-1206120747'), ('tmp_559', u'STORE_-1206120605'), (u'LOAD_-1206120703', u'INT_ADD_-1206120681'), ('tmp_560', u'CALL_-1206120613'), (u'LOAD_-1206120709', u'LOAD_-1206120703'), (u'INT_EQUAL_-1206120716', u'CBRANCH_-1206120712'), (u'CAST_-1206120478', u'LOAD_-1206120741'), ('const-417', u'LOAD_-1206120747'), ('const-100', u'INT_ADD_-1206120584'), ('const-417', u'LOAD_-1206120741'), ('const-417', u'STORE_-1206120605'), (u'INT_ADD_-1206120590', u'CAST_-1206120408'), ('const-417', u'STORE_-1206120611'), ('const-417', u'LOAD_-1206120703'), ('tmp_557', u'INT_ADD_-1206120731'), (u'CAST_-1206120413', u'STORE_-1206120611'), ('const-12', u'INT_ADD_-1206120693'), (u'LOAD_-1206120747', u'INT_ADD_-1206120578'), ('tmp_559', u'CALL_-1206120613'), (u'INT_ADD_-1206120596', u'CAST_-1206120413'), (u'LOAD_-1206120697', u'CALLIND_-1206120659'), ('const-1', u'RETURN_-1206120597'), (u'INT_ADD_-1206120681', u'CAST_-1206120452'), ('tmp_561', u'STORE_-1206120611'), ('const-1', u'RETURN_-1206120536'), (u'LOAD_-1206120747', u'INT_ADD_-1206120590'), (u'INT_ADD_-1206120619', u'CALL_-1206120613'), ('const-417', u'LOAD_-1206120594'), ('const-96', u'INT_ADD_-1206120590'), (u'LOAD_-1206120747', u'INT_ADD_-1206120584'), ('const-8', u'INT_ADD_-1206120681'), ('const-417', u'LOAD_-1206120709'), ('const-52', u'INT_ADD_-1206120619'), ('const-76', u'INT_ADD_-1206120578'), (u'CAST_-1206120398', u'LOAD_-1206120594'), (u'INT_ADD_-1206120578', u'CAST_-1206120398'), (u'INT_ADD_-1206120584', u'CAST_-1206120403'), (u'LOAD_-1206120747', u'INT_ADD_-1206120693'), ('const-4', u'INT_ADD_-1206120731')]
| null | null |
00030ec0
|
arm
|
O2
|
(translation_unit "void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)\n\n{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}\n\n" (function_definition "void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)\n\n{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" primitive_type (function_declarator "FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" identifier (parameter_list "(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = *(int *)(param_1 + 4);" (assignment_expression "iVar1 = *(int *)(param_1 + 4)" identifier = (pointer_expression "*(int *)(param_1 + 4)" * (cast_expression "(int *)(param_1 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 4)" ( (binary_expression "param_1 + 4" identifier + number_literal) ))))) ;) (if_statement "if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" if (parenthesized_expression "(*(int *)(iVar1 + 0x44) == 0)" ( (binary_expression "*(int *)(iVar1 + 0x44) == 0" (pointer_expression "*(int *)(iVar1 + 0x44)" * (cast_expression "(int *)(iVar1 + 0x44)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x44)" ( (binary_expression "iVar1 + 0x44" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" { comment comment (expression_statement "(**(code **)(**(int **)(iVar1 + 0xc) + 8))();" (call_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))()" (parenthesized_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))" ( (pointer_expression "**(code **)(**(int **)(iVar1 + 0xc) + 8)" * (pointer_expression "*(code **)(**(int **)(iVar1 + 0xc) + 8)" * (cast_expression "(code **)(**(int **)(iVar1 + 0xc) + 8)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(**(int **)(iVar1 + 0xc) + 8)" ( (binary_expression "**(int **)(iVar1 + 0xc) + 8" (pointer_expression "**(int **)(iVar1 + 0xc)" * (pointer_expression "*(int **)(iVar1 + 0xc)" * (cast_expression "(int **)(iVar1 + 0xc)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + 0xc)" ( (binary_expression "iVar1 + 0xc" identifier + number_literal) ))))) + number_literal) ))))) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })) (expression_statement "FUN_0002f28c(iVar1 + 0x34,param_3,param_4);" (call_expression "FUN_0002f28c(iVar1 + 0x34,param_3,param_4)" identifier (argument_list "(iVar1 + 0x34,param_3,param_4)" ( (binary_expression "iVar1 + 0x34" identifier + number_literal) , identifier , identifier ))) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x5c) = param_2;" (assignment_expression "*(undefined4 *)(iVar1 + 0x5c) = param_2" (pointer_expression "*(undefined4 *)(iVar1 + 0x5c)" * (cast_expression "(undefined4 *)(iVar1 + 0x5c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x5c)" ( (binary_expression "iVar1 + 0x5c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x60) = param_3;" (assignment_expression "*(undefined4 *)(iVar1 + 0x60) = param_3" (pointer_expression "*(undefined4 *)(iVar1 + 0x60)" * (cast_expression "(undefined4 *)(iVar1 + 0x60)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x60)" ( (binary_expression "iVar1 + 0x60" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(iVar1 + 100) = param_4;" (assignment_expression "*(undefined4 *)(iVar1 + 100) = param_4" (pointer_expression "*(undefined4 *)(iVar1 + 100)" * (cast_expression "(undefined4 *)(iVar1 + 100)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 100)" ( (binary_expression "iVar1 + 100" identifier + number_literal) )))) = identifier) ;) comment comment (expression_statement "(**(code **)(iVar1 + 0x4c))(iVar1,2);" (call_expression "(**(code **)(iVar1 + 0x4c))(iVar1,2)" (parenthesized_expression "(**(code **)(iVar1 + 0x4c))" ( (pointer_expression "**(code **)(iVar1 + 0x4c)" * (pointer_expression "*(code **)(iVar1 + 0x4c)" * (cast_expression "(code **)(iVar1 + 0x4c)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + 0x4c)" ( (binary_expression "iVar1 + 0x4c" identifier + number_literal) ))))) )) (argument_list "(iVar1,2)" ( identifier , number_literal ))) ;) (return_statement "return;" return ;) })))
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(translation_unit "/* WARNING: Enum "anon_enum_32": Some values do not have unique names */\n\nvoid plug_proxy_receive(Plug p,int urgent,char *data,int len)\n\n{\n Proxy_Plug pp;\n accept_ctx_t aVar1;\n plug_function_table *ppVar2;\n \n ppVar2 = p[1];\n if (ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(*(int *)ppVar2->sent + 8))();\n return;\n }\n aVar1.i = len;\n bufchain_add((bufchain *)&ppVar2[2].sent,data,len);\n ppVar2[4].sent = (_func_void_Plug_int *)urgent;\n ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data;\n ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1);\n return;\n}\n\n" comment (function_definition "void plug_proxy_receive(Plug p,int urgent,char *data,int len)\n\n{\n Proxy_Plug pp;\n accept_ctx_t aVar1;\n plug_function_table *ppVar2;\n \n ppVar2 = p[1];\n if (ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(*(int *)ppVar2->sent + 8))();\n return;\n }\n aVar1.i = len;\n bufchain_add((bufchain *)&ppVar2[2].sent,data,len);\n ppVar2[4].sent = (_func_void_Plug_int *)urgent;\n ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data;\n ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1);\n return;\n}" primitive_type (function_declarator "plug_proxy_receive(Plug p,int urgent,char *data,int len)" identifier (parameter_list "(Plug p,int urgent,char *data,int len)" ( (parameter_declaration "Plug p" type_identifier identifier) , (parameter_declaration "int urgent" primitive_type identifier) , (parameter_declaration "char *data" primitive_type (pointer_declarator "*data" * identifier)) , (parameter_declaration "int len" primitive_type identifier) ))) (compound_statement "{\n Proxy_Plug pp;\n accept_ctx_t aVar1;\n plug_function_table *ppVar2;\n \n ppVar2 = p[1];\n if (ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(*(int *)ppVar2->sent + 8))();\n return;\n }\n aVar1.i = len;\n bufchain_add((bufchain *)&ppVar2[2].sent,data,len);\n ppVar2[4].sent = (_func_void_Plug_int *)urgent;\n ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data;\n ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1);\n return;\n}" { (declaration "Proxy_Plug pp;" type_identifier identifier ;) (declaration "accept_ctx_t aVar1;" type_identifier identifier ;) (declaration "plug_function_table *ppVar2;" type_identifier (pointer_declarator "*ppVar2" * identifier) ;) (expression_statement "ppVar2 = p[1];" (assignment_expression "ppVar2 = p[1]" identifier = (subscript_expression "p[1]" identifier [ number_literal ])) ;) (if_statement "if (ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(*(int *)ppVar2->sent + 8))();\n return;\n }" if (parenthesized_expression "(ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0)" ( (binary_expression "ppVar2[3].receive == (_func_void_Plug_int_char_ptr_int *)0x0" (field_expression "ppVar2[3].receive" (subscript_expression "ppVar2[3]" identifier [ number_literal ]) . field_identifier) == (cast_expression "(_func_void_Plug_int_char_ptr_int *)0x0" ( (type_descriptor "_func_void_Plug_int_char_ptr_int *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(*(int *)ppVar2->sent + 8))();\n return;\n }" { comment comment (expression_statement "(**(code **)(*(int *)ppVar2->sent + 8))();" (call_expression "(**(code **)(*(int *)ppVar2->sent + 8))()" (parenthesized_expression "(**(code **)(*(int *)ppVar2->sent + 8))" ( (pointer_expression "**(code **)(*(int *)ppVar2->sent + 8)" * (pointer_expression "*(code **)(*(int *)ppVar2->sent + 8)" * (cast_expression "(code **)(*(int *)ppVar2->sent + 8)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)ppVar2->sent + 8)" ( (binary_expression "*(int *)ppVar2->sent + 8" (pointer_expression "*(int *)ppVar2->sent" * (cast_expression "(int *)ppVar2->sent" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (field_expression "ppVar2->sent" identifier -> field_identifier))) + number_literal) ))))) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })) (expression_statement "aVar1.i = len;" (assignment_expression "aVar1.i = len" (field_expression "aVar1.i" identifier . field_identifier) = identifier) ;) (expression_statement "bufchain_add((bufchain *)&ppVar2[2].sent,data,len);" (call_expression "bufchain_add((bufchain *)&ppVar2[2].sent,data,len)" identifier (argument_list "((bufchain *)&ppVar2[2].sent,data,len)" ( (cast_expression "(bufchain *)&ppVar2[2].sent" ( (type_descriptor "bufchain *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&ppVar2[2].sent" & (field_expression "ppVar2[2].sent" (subscript_expression "ppVar2[2]" identifier [ number_literal ]) . field_identifier))) , identifier , identifier ))) ;) (expression_statement "ppVar2[4].sent = (_func_void_Plug_int *)urgent;" (assignment_expression "ppVar2[4].sent = (_func_void_Plug_int *)urgent" (field_expression "ppVar2[4].sent" (subscript_expression "ppVar2[4]" identifier [ number_literal ]) . field_identifier) = (cast_expression "(_func_void_Plug_int *)urgent" ( (type_descriptor "_func_void_Plug_int *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) (expression_statement "ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data;" (assignment_expression "ppVar2[4].accepting = (_func_int_Plug_accept_fn_t_accept_ctx_t *)data" (field_expression "ppVar2[4].accepting" (subscript_expression "ppVar2[4]" identifier [ number_literal ]) . field_identifier) = (cast_expression "(_func_int_Plug_accept_fn_t_accept_ctx_t *)data" ( (type_descriptor "_func_int_Plug_accept_fn_t_accept_ctx_t *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) (expression_statement "ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len;" (assignment_expression "ppVar2[5].log = (_func_void_Plug_int_SockAddr_int_char_ptr_int *)len" (field_expression "ppVar2[5].log" (subscript_expression "ppVar2[5]" identifier [ number_literal ]) . field_identifier) = (cast_expression "(_func_void_Plug_int_SockAddr_int_char_ptr_int *)len" ( (type_descriptor "_func_void_Plug_int_SockAddr_int_char_ptr_int *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) comment comment (expression_statement "(*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1);" (call_expression "(*ppVar2[3].accepting)((Plug)ppVar2,(accept_fn_t)0x2,aVar1)" (parenthesized_expression "(*ppVar2[3].accepting)" ( (pointer_expression "*ppVar2[3].accepting" * (field_expression "ppVar2[3].accepting" (subscript_expression "ppVar2[3]" identifier [ number_literal ]) . field_identifier)) )) (argument_list "((Plug)ppVar2,(accept_fn_t)0x2,aVar1)" ( (cast_expression "(Plug)ppVar2" ( (type_descriptor "Plug" type_identifier) ) identifier) , (cast_expression "(accept_fn_t)0x2" ( (type_descriptor "accept_fn_t" type_identifier) ) number_literal) , identifier ))) ;) (return_statement "return;" return ;) })))
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(translation_unit "void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)\n\n{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}\n\n" (function_definition "void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)\n\n{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" primitive_type (function_declarator "FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" identifier (parameter_list "(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = *(int *)(param_1 + 4);" (assignment_expression "iVar1 = *(int *)(param_1 + 4)" identifier = (pointer_expression "*(int *)(param_1 + 4)" * (cast_expression "(int *)(param_1 + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 4)" ( (binary_expression "param_1 + 4" identifier + number_literal) ))))) ;) (if_statement "if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" if (parenthesized_expression "(*(int *)(iVar1 + 0x44) == 0)" ( (binary_expression "*(int *)(iVar1 + 0x44) == 0" (pointer_expression "*(int *)(iVar1 + 0x44)" * (cast_expression "(int *)(iVar1 + 0x44)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x44)" ( (binary_expression "iVar1 + 0x44" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" { comment comment (expression_statement "(**(code **)(**(int **)(iVar1 + 0xc) + 8))();" (call_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))()" (parenthesized_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))" ( (pointer_expression "**(code **)(**(int **)(iVar1 + 0xc) + 8)" * (pointer_expression "*(code **)(**(int **)(iVar1 + 0xc) + 8)" * (cast_expression "(code **)(**(int **)(iVar1 + 0xc) + 8)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(**(int **)(iVar1 + 0xc) + 8)" ( (binary_expression "**(int **)(iVar1 + 0xc) + 8" (pointer_expression "**(int **)(iVar1 + 0xc)" * (pointer_expression "*(int **)(iVar1 + 0xc)" * (cast_expression "(int **)(iVar1 + 0xc)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + 0xc)" ( (binary_expression "iVar1 + 0xc" identifier + number_literal) ))))) + number_literal) ))))) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })) (expression_statement "FUN_0002f28c(iVar1 + 0x34,param_3,param_4);" (call_expression "FUN_0002f28c(iVar1 + 0x34,param_3,param_4)" identifier (argument_list "(iVar1 + 0x34,param_3,param_4)" ( (binary_expression "iVar1 + 0x34" identifier + number_literal) , identifier , identifier ))) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x5c) = param_2;" (assignment_expression "*(undefined4 *)(iVar1 + 0x5c) = param_2" (pointer_expression "*(undefined4 *)(iVar1 + 0x5c)" * (cast_expression "(undefined4 *)(iVar1 + 0x5c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x5c)" ( (binary_expression "iVar1 + 0x5c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x60) = param_3;" (assignment_expression "*(undefined4 *)(iVar1 + 0x60) = param_3" (pointer_expression "*(undefined4 *)(iVar1 + 0x60)" * (cast_expression "(undefined4 *)(iVar1 + 0x60)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x60)" ( (binary_expression "iVar1 + 0x60" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(iVar1 + 100) = param_4;" (assignment_expression "*(undefined4 *)(iVar1 + 100) = param_4" (pointer_expression "*(undefined4 *)(iVar1 + 100)" * (cast_expression "(undefined4 *)(iVar1 + 100)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 100)" ( (binary_expression "iVar1 + 100" identifier + number_literal) )))) = identifier) ;) comment comment (expression_statement "(**(code **)(iVar1 + 0x4c))(iVar1,2);" (call_expression "(**(code **)(iVar1 + 0x4c))(iVar1,2)" (parenthesized_expression "(**(code **)(iVar1 + 0x4c))" ( (pointer_expression "**(code **)(iVar1 + 0x4c)" * (pointer_expression "*(code **)(iVar1 + 0x4c)" * (cast_expression "(code **)(iVar1 + 0x4c)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + 0x4c)" ( (binary_expression "iVar1 + 0x4c" identifier + number_literal) ))))) )) (argument_list "(iVar1,2)" ( identifier , number_literal ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) (compound_statement { comment comment (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) + LIT) ))))) )) (argument_list ( ))) ;) (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , IDENT , IDENT ))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) comment comment (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) )) (argument_list ( IDENT , LIT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)\n\n{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00030ec0(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" (identifier "FUN_00030ec0") (parameter_list "(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = *(int *)(param_1 + 4);\n if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }\n FUN_0002f28c(iVar1 + 0x34,param_3,param_4);\n *(undefined4 *)(iVar1 + 0x5c) = param_2;\n *(undefined4 *)(iVar1 + 0x60) = param_3;\n *(undefined4 *)(iVar1 + 100) = param_4;\n /* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(iVar1 + 0x4c))(iVar1,2);\n return;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = *(int *)(param_1 + 4);" (assignment_expression "iVar1 = *(int *)(param_1 + 4)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(param_1 + 4)" (* "*") (cast_expression "(int *)(param_1 + 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 4)" (( "(") (binary_expression "param_1 + 4" (identifier "param_1") (+ "+") (number_literal "4")) () ")"))))) (; ";")) (if_statement "if (*(int *)(iVar1 + 0x44) == 0) {\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" (if "if") (parenthesized_expression "(*(int *)(iVar1 + 0x44) == 0)" (( "(") (binary_expression "*(int *)(iVar1 + 0x44) == 0" (pointer_expression "*(int *)(iVar1 + 0x44)" (* "*") (cast_expression "(int *)(iVar1 + 0x44)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x44)" (( "(") (binary_expression "iVar1 + 0x44" (identifier "iVar1") (+ "+") (number_literal "0x44")) () ")")))) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n /* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (**(code **)(**(int **)(iVar1 + 0xc) + 8))();\n return;\n }" ({ "{") (comment "/* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */") (comment "/* WARNING: Treating indirect jump as call */") (expression_statement "(**(code **)(**(int **)(iVar1 + 0xc) + 8))();" (call_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))()" (parenthesized_expression "(**(code **)(**(int **)(iVar1 + 0xc) + 8))" (( "(") (pointer_expression "**(code **)(**(int **)(iVar1 + 0xc) + 8)" (* "*") (pointer_expression "*(code **)(**(int **)(iVar1 + 0xc) + 8)" (* "*") (cast_expression "(code **)(**(int **)(iVar1 + 0xc) + 8)" (( "(") (type_descriptor "code **" (type_identifier "code") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(**(int **)(iVar1 + 0xc) + 8)" (( "(") (binary_expression "**(int **)(iVar1 + 0xc) + 8" (pointer_expression "**(int **)(iVar1 + 0xc)" (* "*") (pointer_expression "*(int **)(iVar1 + 0xc)" (* "*") (cast_expression "(int **)(iVar1 + 0xc)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar1 + 0xc)" (( "(") (binary_expression "iVar1 + 0xc" (identifier "iVar1") (+ "+") (number_literal "0xc")) () ")"))))) (+ "+") (number_literal "8")) () ")"))))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "FUN_0002f28c(iVar1 + 0x34,param_3,param_4);" (call_expression "FUN_0002f28c(iVar1 + 0x34,param_3,param_4)" (identifier "FUN_0002f28c") (argument_list "(iVar1 + 0x34,param_3,param_4)" (( "(") (binary_expression "iVar1 + 0x34" (identifier "iVar1") (+ "+") (number_literal "0x34")) (, ",") (identifier "param_3") (, ",") (identifier "param_4") () ")"))) (; ";")) (expression_statement "*(undefined4 *)(iVar1 + 0x5c) = param_2;" (assignment_expression "*(undefined4 *)(iVar1 + 0x5c) = param_2" (pointer_expression "*(undefined4 *)(iVar1 + 0x5c)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x5c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x5c)" (( "(") (binary_expression "iVar1 + 0x5c" (identifier "iVar1") (+ "+") (number_literal "0x5c")) () ")")))) (= "=") (identifier "param_2")) (; ";")) (expression_statement "*(undefined4 *)(iVar1 + 0x60) = param_3;" (assignment_expression "*(undefined4 *)(iVar1 + 0x60) = param_3" (pointer_expression "*(undefined4 *)(iVar1 + 0x60)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x60)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x60)" (( "(") (binary_expression "iVar1 + 0x60" (identifier "iVar1") (+ "+") (number_literal "0x60")) () ")")))) (= "=") (identifier "param_3")) (; ";")) (expression_statement "*(undefined4 *)(iVar1 + 100) = param_4;" (assignment_expression "*(undefined4 *)(iVar1 + 100) = param_4" (pointer_expression "*(undefined4 *)(iVar1 + 100)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 100)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 100)" (( "(") (binary_expression "iVar1 + 100" (identifier "iVar1") (+ "+") (number_literal "100")) () ")")))) (= "=") (identifier "param_4")) (; ";")) (comment "/* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */") (comment "/* WARNING: Treating indirect jump as call */") (expression_statement "(**(code **)(iVar1 + 0x4c))(iVar1,2);" (call_expression "(**(code **)(iVar1 + 0x4c))(iVar1,2)" (parenthesized_expression "(**(code **)(iVar1 + 0x4c))" (( "(") (pointer_expression "**(code **)(iVar1 + 0x4c)" (* "*") (pointer_expression "*(code **)(iVar1 + 0x4c)" (* "*") (cast_expression "(code **)(iVar1 + 0x4c)" (( "(") (type_descriptor "code **" (type_identifier "code") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar1 + 0x4c)" (( "(") (binary_expression "iVar1 + 0x4c" (identifier "iVar1") (+ "+") (number_literal "0x4c")) () ")"))))) () ")")) (argument_list "(iVar1,2)" (( "(") (identifier "iVar1") (, ",") (number_literal "2") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void function_1(type_1 p,int urgent,char *data,int len)
{
type_2 pp;
type_3 aVar1;
type_4 *ppVar2;
ppVar2 = p[1];
if (ppVar2[3].receive == (type_5 *)0x0) {
/* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(type_6 **)(*(int *)ppVar2->sent + 8))();
return;
}
aVar1.i = len;
var_1((type_7 *)&ppVar2[2].sent,data,len);
ppVar2[4].sent = (type_8 *)urgent;
ppVar2[4].accepting = (type_9 *)data;
ppVar2[5].log = (type_10 *)len;
/* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */
/* WARNING: Treating indirect jump as call */
(*ppVar2[3].accepting)((type_1)ppVar2,(type_11)0x2,aVar1);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (comment) (comment) (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) right: (number_literal))))))) arguments: (argument_list))) (return_statement))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (identifier) (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (comment) (comment) (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) arguments: (argument_list (identifier) (number_literal)))) (return_statement))))
|
void MASKED(int param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4)
{
int iVar1;
iVar1 = *(int *)(param_1 + 4);
if (*(int *)(iVar1 + 0x44) == 0) {
/* WARNING: Could not recover jumptable at 0x00030ee8. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(code **)(**(int **)(iVar1 + 0xc) + 8))();
return;
}
FUN_0002f28c(iVar1 + 0x34,param_3,param_4);
*(undefined4 *)(iVar1 + 0x5c) = param_2;
*(undefined4 *)(iVar1 + 0x60) = param_3;
*(undefined4 *)(iVar1 + 100) = param_4;
/* WARNING: Could not recover jumptable at 0x00030f24. Too many branches */
/* WARNING: Treating indirect jump as call */
(**(code **)(iVar1 + 0x4c))(iVar1,2);
return;
}
| 65,697 |
||
1701_sqldiff_and_sqldiff_strip.c
|
sqlite3changeset_apply_strm
|
FUN_000f648c
|
int sqlite3changeset_apply_strm
(sqlite3 *db,_func_int_void_ptr_void_ptr_int_ptr *xInput,void *pIn,
_func_int_void_ptr_char_ptr *xFilter,
_func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict,void *pCtx)
{
int iVar1;
iVar1 = sqlite3changeset_apply_v2_strm
(db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);
return iVar1;
}
|
void FUN_000f648c(void)
{
FUN_000f63ec();
return;
}
|
str lr,[sp,#-0x4]!
sub sp,sp,#0x1c
ldr r12,[sp,#0x20]
ldr lr,[sp,#0x24]
str r12,[sp,#0x0]
mov r12,#0x0
str lr,[sp,#0x4]
str r12,[sp,#0x10]
str r12,[sp,#0xc]
str r12,[sp,#0x8]
bl 0x000f63ec
add sp,sp,#0x1c
ldr pc,[sp],#0x4
| null | null | null | null |
[('const-0', u'CALL_-1206885148'), ('tmp_184', u'CALL_-1206885148'), ('tmp_182', u'CALL_-1206885148'), ('tmp_186', u'CALL_-1206885148'), ('tmp_181', u'CALL_-1206885148'), (u'CALL_-1206885148', u'RETURN_-1206885117'), ('const-0', u'CALL_-1206885148'), ('const-0', u'RETURN_-1206885117'), ('tmp_183', u'CALL_-1206885148'), ('const-0', u'CALL_-1206885148'), ('tmp_185', u'CALL_-1206885148')]
|
[('const-0', u'RETURN_-1206885117')]
| null | null |
000f648c
|
arm
|
O2
|
(translation_unit "void FUN_000f648c(void)\n\n{\n FUN_000f63ec();\n return;\n}\n\n" (function_definition "void FUN_000f648c(void)\n\n{\n FUN_000f63ec();\n return;\n}" primitive_type (function_declarator "FUN_000f648c(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n FUN_000f63ec();\n return;\n}" { (expression_statement "FUN_000f63ec();" (call_expression "FUN_000f63ec()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "int sqlite3changeset_apply_strm\n (sqlite3 *db,_func_int_void_ptr_void_ptr_int_ptr *xInput,void *pIn,\n _func_int_void_ptr_char_ptr *xFilter,\n _func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict,void *pCtx)\n\n{\n int iVar1;\n \n iVar1 = sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);\n return iVar1;\n}\n\n" (function_definition "int sqlite3changeset_apply_strm\n (sqlite3 *db,_func_int_void_ptr_void_ptr_int_ptr *xInput,void *pIn,\n _func_int_void_ptr_char_ptr *xFilter,\n _func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict,void *pCtx)\n\n{\n int iVar1;\n \n iVar1 = sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);\n return iVar1;\n}" primitive_type (function_declarator "sqlite3changeset_apply_strm\n (sqlite3 *db,_func_int_void_ptr_void_ptr_int_ptr *xInput,void *pIn,\n _func_int_void_ptr_char_ptr *xFilter,\n _func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict,void *pCtx)" identifier (parameter_list "(sqlite3 *db,_func_int_void_ptr_void_ptr_int_ptr *xInput,void *pIn,\n _func_int_void_ptr_char_ptr *xFilter,\n _func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict,void *pCtx)" ( (parameter_declaration "sqlite3 *db" type_identifier (pointer_declarator "*db" * identifier)) , (parameter_declaration "_func_int_void_ptr_void_ptr_int_ptr *xInput" type_identifier (pointer_declarator "*xInput" * identifier)) , (parameter_declaration "void *pIn" primitive_type (pointer_declarator "*pIn" * identifier)) , (parameter_declaration "_func_int_void_ptr_char_ptr *xFilter" type_identifier (pointer_declarator "*xFilter" * identifier)) , (parameter_declaration "_func_int_void_ptr_int_sqlite3_changeset_iter_ptr *xConflict" type_identifier (pointer_declarator "*xConflict" * identifier)) , (parameter_declaration "void *pCtx" primitive_type (pointer_declarator "*pCtx" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);" (assignment_expression "iVar1 = sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0)" identifier = (call_expression "sqlite3changeset_apply_v2_strm\n (db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0)" identifier (argument_list "(db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0)" ( identifier , identifier , identifier , identifier , identifier , identifier , (cast_expression "(void **)0x0" ( (type_descriptor "void **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) number_literal) , (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal) , number_literal )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "void FUN_000f648c(void)\n\n{\n FUN_000f63ec();\n return;\n}\n\n" (function_definition "void FUN_000f648c(void)\n\n{\n FUN_000f63ec();\n return;\n}" primitive_type (function_declarator "FUN_000f648c(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n FUN_000f63ec();\n return;\n}" { (expression_statement "FUN_000f63ec();" (call_expression "FUN_000f63ec()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000f648c(void)\n\n{\n FUN_000f63ec();\n return;\n}" (primitive_type "void") (function_declarator "FUN_000f648c(void)" (identifier "FUN_000f648c") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n FUN_000f63ec();\n return;\n}" ({ "{") (expression_statement "FUN_000f63ec();" (call_expression "FUN_000f63ec()" (identifier "FUN_000f63ec") (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
int function_1
(type_1 *db,type_2 *xInput,void *pIn,
type_3 *xFilter,
type_4 *xConflict,void *pCtx)
{
int iVar1;
iVar1 = var_1
(db,xInput,pIn,xFilter,xConflict,pCtx,(void **)0x0,(int *)0x0,0);
return iVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
FUN_000f63ec();
return;
}
| 71,211 |
||
1020_openssl_and_openssl_strip.c
|
puts
|
puts
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int puts(char *__s)
{
int iVar1;
iVar1 = (*(code *)PTR_puts_000a8a3c)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int puts(char *__s)
{
int iVar1;
iVar1 = (*(code *)PTR_puts_000a8a3c)();
return iVar1;
}
|
adr r12,0x296e8
add r12,r12,#0x7f000
ldr pc,[r12,#0x354]!
| null | null | null | null |
[(u'CAST_-1206020274', u'CALLIND_-1206020349'), (u'CALLIND_-1206020349', u'RETURN_-1206020346'), ('const-0', u'RETURN_-1206020346'), (u'CALLIND_-1206020349', u'INDIRECT_-1206020279'), ('tmp_120', u'CAST_-1206020274'), (u'INDIRECT_-1206020279', u'COPY_-1206020338')]
|
[(u'CAST_-1206020274', u'CALLIND_-1206020349'), (u'CALLIND_-1206020349', u'RETURN_-1206020346'), ('const-0', u'RETURN_-1206020346'), (u'CALLIND_-1206020349', u'INDIRECT_-1206020279'), ('tmp_120', u'CAST_-1206020274'), (u'INDIRECT_-1206020279', u'COPY_-1206020338')]
| null | null |
000296e0
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}\n\n" comment (function_definition "int puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" primitive_type (function_declarator "puts(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_puts_000a8a3c)();" (assignment_expression "iVar1 = (*(code *)PTR_puts_000a8a3c)()" identifier = (call_expression "(*(code *)PTR_puts_000a8a3c)()" (parenthesized_expression "(*(code *)PTR_puts_000a8a3c)" ( (pointer_expression "*(code *)PTR_puts_000a8a3c" * (cast_expression "(code *)PTR_puts_000a8a3c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}\n\n" comment (function_definition "int puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" primitive_type (function_declarator "puts(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_puts_000a8a3c)();" (assignment_expression "iVar1 = (*(code *)PTR_puts_000a8a3c)()" identifier = (call_expression "(*(code *)PTR_puts_000a8a3c)()" (parenthesized_expression "(*(code *)PTR_puts_000a8a3c)" ( (pointer_expression "*(code *)PTR_puts_000a8a3c" * (cast_expression "(code *)PTR_puts_000a8a3c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}\n\n" comment (function_definition "int puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" primitive_type (function_declarator "puts(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_puts_000a8a3c)();" (assignment_expression "iVar1 = (*(code *)PTR_puts_000a8a3c)()" identifier = (call_expression "(*(code *)PTR_puts_000a8a3c)()" (parenthesized_expression "(*(code *)PTR_puts_000a8a3c)" ( (pointer_expression "*(code *)PTR_puts_000a8a3c" * (cast_expression "(code *)PTR_puts_000a8a3c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int puts(char *__s)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "puts(char *__s)" (identifier "puts") (parameter_list "(char *__s)" (( "(") (parameter_declaration "char *__s" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s"))) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_puts_000a8a3c)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_puts_000a8a3c)();" (assignment_expression "iVar1 = (*(code *)PTR_puts_000a8a3c)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_puts_000a8a3c)()" (parenthesized_expression "(*(code *)PTR_puts_000a8a3c)" (( "(") (pointer_expression "*(code *)PTR_puts_000a8a3c" (* "*") (cast_expression "(code *)PTR_puts_000a8a3c" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_puts_000a8a3c"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(char *__s)
{
int iVar1;
iVar1 = (*(type_1 *)PTR_puts_000a8a3c)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(char *__s)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_000a8a3c)();
return iVar1;
}
| 72,409 |
||
346_plink_and_plink_strip.c
|
ssh_rportcmp_ssh2
|
FUN_0002b4d8
|
int ssh_rportcmp_ssh2(void *av,void *bv)
{
/* WARNING: Subroutine does not return */
strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8));
}
|
undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)
{
int iVar1;
undefined4 uVar2;
iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);
if (iVar1 == 0) {
if (*param_1 <= *param_2) {
if (*param_1 < *param_2) {
uVar2 = 0xffffffff;
}
else {
uVar2 = 0;
}
return uVar2;
}
}
else if (iVar1 < 0) {
return 0xffffffff;
}
return 1;
}
|
stmdb sp!,{r4,r5,r6,lr}
cpy r5,r0
cpy r4,r1
ldr r0,[r0,#0x8]
ldr r1,[r1,#0x8]
bl 0x000134b0
cmp r0,#0x0
bne 0x0002b514
ldr r2,[r5,#0x0]
ldr r3,[r4,#0x0]
cmp r2,r3
bhi 0x0002b518
mvncc r0,#0x0
movcs r0,#0x0
ldmia sp!,{r4,r5,r6,pc}
blt 0x0002b520
mov r0,#0x1
ldmia sp!,{r4,r5,r6,pc}
mvn r0,#0x0
ldmia sp!,{r4,r5,r6,pc}
| null | null | null | null |
[('const-8', u'INT_ADD_-1206012663'), (u'CAST_-1206012599', u'LOAD_-1206012685'), ('const-1', u'RETURN_-1206012663'), (u'LOAD_-1206012679', u'CALL_-1206012668'), (u'CAST_-1206012593', u'LOAD_-1206012679'), ('tmp_54', u'CAST_-1206012600'), ('const-8', u'INT_ADD_-1206012669'), (u'INT_ADD_-1206012669', u'CAST_-1206012599'), (u'LOAD_-1206012685', u'CALL_-1206012668'), ('const-417', u'LOAD_-1206012679'), ('tmp_55', u'CAST_-1206012594'), (u'CAST_-1206012600', u'INT_ADD_-1206012669'), ('const-417', u'LOAD_-1206012685'), (u'CAST_-1206012594', u'INT_ADD_-1206012663'), (u'INT_ADD_-1206012663', u'CAST_-1206012593')]
|
[(u'CALL_-1206012668', u'INT_EQUAL_-1206012648'), ('const-2', u'PTRADD_-1206012408'), (u'PTRADD_-1206012408', u'LOAD_-1206012685'), ('const-417', u'LOAD_-1206012679'), (u'LOAD_-1206012679', u'CAST_-1206012402'), (u'INT_LESS_-1206012616', u'CBRANCH_-1206012604'), ('const-417', u'LOAD_-1206012685'), (u'LOAD_-1206012685', u'CAST_-1206012407'), ('const-417', u'LOAD_-1206012635'), (u'COPY_-1206012543', u'RETURN_-1206012511'), ('const-0', u'RETURN_-1206012511'), (u'CAST_-1206012402', u'CALL_-1206012668'), (u'MULTIEQUAL_-1206012423', u'RETURN_-1206012550'), (u'COPY_-1206012582', u'MULTIEQUAL_-1206012423'), ('tmp_607', u'LOAD_-1206012641'), (u'LOAD_-1206012641', u'INT_LESS_-1206012616'), (u'INT_LESSEQUAL_-1206012601', u'CBRANCH_-1206012611'), (u'COPY_-1206012600', u'MULTIEQUAL_-1206012423'), ('const-2', u'PTRADD_-1206012403'), ('const-0', u'COPY_-1206012582'), (u'INT_SLESS_-1206012647', u'CBRANCH_-1206012522'), ('const-0', u'RETURN_-1206012550'), ('const-0', u'RETURN_-1206012474'), ('tmp_140', u'CBRANCH_-1206012611'), (u'CAST_-1206012407', u'CALL_-1206012668'), (u'INT_EQUAL_-1206012648', u'CBRANCH_-1206012644'), (u'COPY_-1206012506', u'RETURN_-1206012474'), ('tmp_607', u'PTRADD_-1206012408'), ('const-417', u'LOAD_-1206012641'), ('const-0', u'INT_EQUAL_-1206012648'), ('tmp_334', u'CBRANCH_-1206012522'), (u'LOAD_-1206012641', u'INT_LESSEQUAL_-1206012601'), (u'LOAD_-1206012635', u'INT_LESSEQUAL_-1206012601'), ('const-4294967295', u'COPY_-1206012600'), ('const-4', u'PTRADD_-1206012403'), ('const-1', u'COPY_-1206012543'), ('tmp_608', u'LOAD_-1206012635'), ('tmp_146', u'CBRANCH_-1206012604'), ('const-0', u'INT_SLESS_-1206012647'), (u'PTRADD_-1206012403', u'LOAD_-1206012679'), (u'CALL_-1206012668', u'INT_SLESS_-1206012647'), ('tmp_96', u'CBRANCH_-1206012644'), ('const-4294967295', u'COPY_-1206012506'), ('const-4', u'PTRADD_-1206012408'), ('tmp_608', u'PTRADD_-1206012403'), (u'LOAD_-1206012635', u'INT_LESS_-1206012616')]
| null | null |
0002b4d8
|
arm
|
O2
|
(translation_unit "undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}\n\n" (function_definition "undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" type_identifier (function_declarator "FUN_0002b4d8(uint *param_1,uint *param_2)" identifier (parameter_list "(uint *param_1,uint *param_2)" ( (parameter_declaration "uint *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "uint *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);" (assignment_expression "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2])" identifier = (call_expression "strcmp((char *)param_1[2],(char *)param_2[2])" identifier (argument_list "((char *)param_1[2],(char *)param_2[2])" ( (cast_expression "(char *)param_1[2]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "param_1[2]" identifier [ number_literal ])) , (cast_expression "(char *)param_2[2]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "param_2[2]" identifier [ number_literal ])) )))) ;) (if_statement "if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }" if (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) (compound_statement "{\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }" { (if_statement "if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" if (parenthesized_expression "(*param_1 <= *param_2)" ( (binary_expression "*param_1 <= *param_2" (pointer_expression "*param_1" * identifier) <= (pointer_expression "*param_2" * identifier)) )) (compound_statement "{\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" { (if_statement "if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }" if (parenthesized_expression "(*param_1 < *param_2)" ( (binary_expression "*param_1 < *param_2" (pointer_expression "*param_1" * identifier) < (pointer_expression "*param_2" * identifier)) )) (compound_statement "{\n uVar2 = 0xffffffff;\n }" { (expression_statement "uVar2 = 0xffffffff;" (assignment_expression "uVar2 = 0xffffffff" identifier = number_literal) ;) }) (else_clause "else {\n uVar2 = 0;\n }" else (compound_statement "{\n uVar2 = 0;\n }" { (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) }))) (return_statement "return uVar2;" return identifier ;) })) }) (else_clause "else if (iVar1 < 0) {\n return 0xffffffff;\n }" else (if_statement "if (iVar1 < 0) {\n return 0xffffffff;\n }" if (parenthesized_expression "(iVar1 < 0)" ( (binary_expression "iVar1 < 0" identifier < number_literal) )) (compound_statement "{\n return 0xffffffff;\n }" { (return_statement "return 0xffffffff;" return number_literal ;) })))) (return_statement "return 1;" return number_literal ;) })))
|
(translation_unit "int ssh_rportcmp_ssh2(void *av,void *bv)\n\n{\n /* WARNING: Subroutine does not return */\n strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8));\n}\n\n" (function_definition "int ssh_rportcmp_ssh2(void *av,void *bv)\n\n{\n /* WARNING: Subroutine does not return */\n strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8));\n}" primitive_type (function_declarator "ssh_rportcmp_ssh2(void *av,void *bv)" identifier (parameter_list "(void *av,void *bv)" ( (parameter_declaration "void *av" primitive_type (pointer_declarator "*av" * identifier)) , (parameter_declaration "void *bv" primitive_type (pointer_declarator "*bv" * identifier)) ))) (compound_statement "{\n /* WARNING: Subroutine does not return */\n strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8));\n}" { comment (expression_statement "strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8));" (call_expression "strcmp(*(char **)((int)av + 8),*(char **)((int)bv + 8))" identifier (argument_list "(*(char **)((int)av + 8),*(char **)((int)bv + 8))" ( (pointer_expression "*(char **)((int)av + 8)" * (cast_expression "(char **)((int)av + 8)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "((int)av + 8)" ( (binary_expression "(int)av + 8" (cast_expression "(int)av" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) , (pointer_expression "*(char **)((int)bv + 8)" * (cast_expression "(char **)((int)bv + 8)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "((int)bv + 8)" ( (binary_expression "(int)bv + 8" (cast_expression "(int)bv" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) ))) ;) })))
|
(translation_unit "undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}\n\n" (function_definition "undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" type_identifier (function_declarator "FUN_0002b4d8(uint *param_1,uint *param_2)" identifier (parameter_list "(uint *param_1,uint *param_2)" ( (parameter_declaration "uint *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "uint *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);" (assignment_expression "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2])" identifier = (call_expression "strcmp((char *)param_1[2],(char *)param_2[2])" identifier (argument_list "((char *)param_1[2],(char *)param_2[2])" ( (cast_expression "(char *)param_1[2]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "param_1[2]" identifier [ number_literal ])) , (cast_expression "(char *)param_2[2]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "param_2[2]" identifier [ number_literal ])) )))) ;) (if_statement "if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }" if (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) (compound_statement "{\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }" { (if_statement "if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" if (parenthesized_expression "(*param_1 <= *param_2)" ( (binary_expression "*param_1 <= *param_2" (pointer_expression "*param_1" * identifier) <= (pointer_expression "*param_2" * identifier)) )) (compound_statement "{\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" { (if_statement "if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }" if (parenthesized_expression "(*param_1 < *param_2)" ( (binary_expression "*param_1 < *param_2" (pointer_expression "*param_1" * identifier) < (pointer_expression "*param_2" * identifier)) )) (compound_statement "{\n uVar2 = 0xffffffff;\n }" { (expression_statement "uVar2 = 0xffffffff;" (assignment_expression "uVar2 = 0xffffffff" identifier = number_literal) ;) }) (else_clause "else {\n uVar2 = 0;\n }" else (compound_statement "{\n uVar2 = 0;\n }" { (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) }))) (return_statement "return uVar2;" return identifier ;) })) }) (else_clause "else if (iVar1 < 0) {\n return 0xffffffff;\n }" else (if_statement "if (iVar1 < 0) {\n return 0xffffffff;\n }" if (parenthesized_expression "(iVar1 < 0)" ( (binary_expression "iVar1 < 0" identifier < number_literal) )) (compound_statement "{\n return 0xffffffff;\n }" { (return_statement "return 0xffffffff;" return number_literal ;) })))) (return_statement "return 1;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ])) , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ])) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) <= (pointer_expression * IDENT)) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) < (pointer_expression * IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (return_statement return IDENT ;) })) }) (else_clause else (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (return_statement return LIT ;) })))) (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_0002b4d8(uint *param_1,uint *param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" (type_identifier "undefined4") (function_declarator "FUN_0002b4d8(uint *param_1,uint *param_2)" (identifier "FUN_0002b4d8") (parameter_list "(uint *param_1,uint *param_2)" (( "(") (parameter_declaration "uint *param_1" (type_identifier "uint") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "uint *param_2" (type_identifier "uint") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) () ")"))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);\n if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }\n return 1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (expression_statement "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);" (assignment_expression "iVar1 = strcmp((char *)param_1[2],(char *)param_2[2])" (identifier "iVar1") (= "=") (call_expression "strcmp((char *)param_1[2],(char *)param_2[2])" (identifier "strcmp") (argument_list "((char *)param_1[2],(char *)param_2[2])" (( "(") (cast_expression "(char *)param_1[2]" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "param_1[2]" (identifier "param_1") ([ "[") (number_literal "2") (] "]"))) (, ",") (cast_expression "(char *)param_2[2]" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "param_2[2]" (identifier "param_2") ([ "[") (number_literal "2") (] "]"))) () ")")))) (; ";")) (if_statement "if (iVar1 == 0) {\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }\n else if (iVar1 < 0) {\n return 0xffffffff;\n }" (if "if") (parenthesized_expression "(iVar1 == 0)" (( "(") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }\n }" ({ "{") (if_statement "if (*param_1 <= *param_2) {\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" (if "if") (parenthesized_expression "(*param_1 <= *param_2)" (( "(") (binary_expression "*param_1 <= *param_2" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (<= "<=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) () ")")) (compound_statement "{\n if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }\n return uVar2;\n }" ({ "{") (if_statement "if (*param_1 < *param_2) {\n uVar2 = 0xffffffff;\n }\n else {\n uVar2 = 0;\n }" (if "if") (parenthesized_expression "(*param_1 < *param_2)" (( "(") (binary_expression "*param_1 < *param_2" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (< "<") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) () ")")) (compound_statement "{\n uVar2 = 0xffffffff;\n }" ({ "{") (expression_statement "uVar2 = 0xffffffff;" (assignment_expression "uVar2 = 0xffffffff" (identifier "uVar2") (= "=") (number_literal "0xffffffff")) (; ";")) (} "}")) (else_clause "else {\n uVar2 = 0;\n }" (else "else") (compound_statement "{\n uVar2 = 0;\n }" ({ "{") (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" (identifier "uVar2") (= "=") (number_literal "0")) (; ";")) (} "}")))) (return_statement "return uVar2;" (return "return") (identifier "uVar2") (; ";")) (} "}"))) (} "}")) (else_clause "else if (iVar1 < 0) {\n return 0xffffffff;\n }" (else "else") (if_statement "if (iVar1 < 0) {\n return 0xffffffff;\n }" (if "if") (parenthesized_expression "(iVar1 < 0)" (( "(") (binary_expression "iVar1 < 0" (identifier "iVar1") (< "<") (number_literal "0")) () ")")) (compound_statement "{\n return 0xffffffff;\n }" ({ "{") (return_statement "return 0xffffffff;" (return "return") (number_literal "0xffffffff") (; ";")) (} "}"))))) (return_statement "return 1;" (return "return") (number_literal "1") (; ";")) (} "}")))
|
int function_1(void *av,void *bv)
{
/* WARNING: Subroutine does not return */
var_1(*(char **)((int)av + 8),*(char **)((int)bv + 8));
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))) (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))))) (return_statement (identifier))))) alternative: (else_clause (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement (number_literal)))))) (return_statement (number_literal)))))
|
undefined4 MASKED(uint *param_1,uint *param_2)
{
int iVar1;
undefined4 uVar2;
iVar1 = strcmp((char *)param_1[2],(char *)param_2[2]);
if (iVar1 == 0) {
if (*param_1 <= *param_2) {
if (*param_1 < *param_2) {
uVar2 = 0xffffffff;
}
else {
uVar2 = 0;
}
return uVar2;
}
}
else if (iVar1 < 0) {
return 0xffffffff;
}
return 1;
}
| 45,758 |
||
73_nice_and_nice_strip.c
|
quote
|
FUN_00013ebc
|
char * quote(char *arg)
{
char *pcVar1;
pcVar1 = quote_n(0,arg);
return pcVar1;
}
|
void FUN_00013ebc(undefined4 param_1)
{
FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));
return;
}
|
ldr r3,[0x13e9c]
ldr r12,[0x13ea0]
add r3,pc,r3
ldr r3,[r3,r12]
b 0x000135a4
mvn r2,#0x0
b 0x00013e88
cpy r1,r0
mov r0,#0x0
b 0x00013eb4
| null | null | null | null |
[('tmp_41', u'CALL_-1205977384'), (u'CALL_-1205977384', u'RETURN_-1205977380'), ('const-0', u'RETURN_-1205977380'), ('const-0', u'CALL_-1205977384')]
|
[(u'LOAD_-1205977413', u'CALL_-1205977403'), ('const-0', u'RETURN_-1205977399'), (u'CALL_-1205977403', u'INDIRECT_-1205977329'), ('tmp_180', u'INT_ADD_-1205977397'), (u'INT_ADD_-1205977397', u'CAST_-1205977328'), ('tmp_179', u'INT_ADD_-1205977404'), ('tmp_157', u'CALL_-1205977403'), (u'INDIRECT_-1205977331', u'COPY_-1205977390'), ('const-4294967295', u'CALL_-1205977403'), ('const-417', u'LOAD_-1205977413'), (u'INT_ADD_-1205977404', u'INT_ADD_-1205977397'), (u'INDIRECT_-1205977329', u'COPY_-1205977388'), ('const-0', u'CALL_-1205977403'), (u'CAST_-1205977328', u'LOAD_-1205977413'), (u'CALL_-1205977403', u'INDIRECT_-1205977331'), ('const-81560', u'INT_ADD_-1205977404')]
| null | null |
00013ebc
|
arm
|
O2
|
(translation_unit "void FUN_00013ebc(undefined4 param_1)\n\n{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}\n\n" (function_definition "void FUN_00013ebc(undefined4 param_1)\n\n{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" primitive_type (function_declarator "FUN_00013ebc(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" { (expression_statement "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));" (call_expression "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" identifier (argument_list "(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" ( number_literal , identifier , number_literal , (pointer_expression "*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" * (cast_expression "(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" ( (binary_expression "DAT_00013e9c + 0x13e98 + DAT_00013ea0" (binary_expression "DAT_00013e9c + 0x13e98" identifier + number_literal) + identifier) )))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "char * quote(char *arg)\n\n{\n char *pcVar1;\n \n pcVar1 = quote_n(0,arg);\n return pcVar1;\n}\n\n" (function_definition "char * quote(char *arg)\n\n{\n char *pcVar1;\n \n pcVar1 = quote_n(0,arg);\n return pcVar1;\n}" primitive_type (pointer_declarator "* quote(char *arg)" * (function_declarator "quote(char *arg)" identifier (parameter_list "(char *arg)" ( (parameter_declaration "char *arg" primitive_type (pointer_declarator "*arg" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = quote_n(0,arg);\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (expression_statement "pcVar1 = quote_n(0,arg);" (assignment_expression "pcVar1 = quote_n(0,arg)" identifier = (call_expression "quote_n(0,arg)" identifier (argument_list "(0,arg)" ( number_literal , identifier )))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit "void FUN_00013ebc(undefined4 param_1)\n\n{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}\n\n" (function_definition "void FUN_00013ebc(undefined4 param_1)\n\n{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" primitive_type (function_declarator "FUN_00013ebc(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" { (expression_statement "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));" (call_expression "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" identifier (argument_list "(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" ( number_literal , identifier , number_literal , (pointer_expression "*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" * (cast_expression "(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" ( (binary_expression "DAT_00013e9c + 0x13e98 + DAT_00013ea0" (binary_expression "DAT_00013e9c + 0x13e98" identifier + number_literal) + identifier) )))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( LIT , IDENT , LIT , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) )))) ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00013ebc(undefined4 param_1)\n\n{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" (primitive_type "void") (function_declarator "FUN_00013ebc(undefined4 param_1)" (identifier "FUN_00013ebc") (parameter_list "(undefined4 param_1)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) () ")"))) (compound_statement "{\n FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));\n return;\n}" ({ "{") (expression_statement "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));" (call_expression "FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" (identifier "FUN_000135a4") (argument_list "(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0))" (( "(") (number_literal "0") (, ",") (identifier "param_1") (, ",") (number_literal "0xffffffff") (, ",") (pointer_expression "*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" (* "*") (cast_expression "(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00013e9c + 0x13e98 + DAT_00013ea0)" (( "(") (binary_expression "DAT_00013e9c + 0x13e98 + DAT_00013ea0" (binary_expression "DAT_00013e9c + 0x13e98" (identifier "DAT_00013e9c") (+ "+") (number_literal "0x13e98")) (+ "+") (identifier "DAT_00013ea0")) () ")")))) () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
char * function_1(char *arg)
{
char *pcVar1;
pcVar1 = var_1(0,arg);
return pcVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))))) (return_statement))))
|
void MASKED(undefined4 param_1)
{
FUN_000135a4(0,param_1,0xffffffff,*(undefined4 *)(DAT_00013e9c + 0x13e98 + DAT_00013ea0));
return;
}
| 9,692 |
||
699_pageant_and_pageant_strip.c
|
pango_layout_get_extents
|
pango_layout_get_extents
|
/* WARNING: Control flow encountered bad instruction data */
void pango_layout_get_extents(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void pango_layout_get_extents(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206296458')]
|
[('const-1', u'RETURN_-1206296458')]
| null | null |
0006606c
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_layout_get_extents(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_layout_get_extents(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "pango_layout_get_extents(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void pango_layout_get_extents(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "pango_layout_get_extents(void)" (identifier "pango_layout_get_extents") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 40,757 |
||
1_rmd320_and_rmd320_strip.c
|
rmd320_compress
|
FUN_00010000
|
/* WARNING: Unknown calling convention */
int rmd320_compress(hash_state *md,uchar *buf)
{
ulong32 *puVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uint uVar6;
uint uVar7;
uint uVar8;
uint uVar9;
uint uVar10;
ulong32 *__dest;
ulong32 *puVar11;
uint uVar12;
uint uVar13;
uint uVar14;
uint uVar15;
ulong32 uVar16;
ulong32 uVar17;
uint uVar18;
ulong32 uVar19;
uint uVar20;
uint uVar21;
uint uVar22;
uint uVar23;
ulong32 uVar24;
uint uVar25;
uint uVar26;
uint uVar27;
ulong32 X [16];
ulong32 local_2c [2];
local_2c[0] = *DAT_00011004;
__dest = X;
do {
puVar11 = __dest + 1;
memcpy(__dest,buf,4);
puVar1 = DAT_00011028;
buf = buf + 4;
__dest = puVar11;
} while (local_2c != puVar11);
uVar21 = (md->rmd320).state[8];
uVar7 = (md->rmd256).state[7];
uVar18 = (md->rmd256).state[6];
uVar22 = uVar7 >> 0x16 | uVar7 << 10;
uVar16 = (md->rmd256).state[5];
uVar23 = uVar18 >> 0x16 | uVar18 << 10;
uVar17 = (md->rmd320).state[9];
uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16;
uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar8 = uVar4 >> 0x16 | uVar4 * 0x400;
uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17;
uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200);
uVar12 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21;
uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);
uVar4 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22;
uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800);
uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23;
uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000);
uVar23 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8;
uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000);
uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12;
uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000);
uVar12 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4;
uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);
uVar4 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22;
uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80);
uVar13 = (md->rmd128).state[2];
uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23;
uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80);
uVar19 = (md->rmd128).state[0];
uVar2 = (md->md2).curlen;
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar14 = (md->rmd128).state[3];
uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar24 = (md->rmd160).state[4];
uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19;
uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800);
uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8;
uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar8 = uVar13 >> 0x16 | uVar13 << 10;
uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12;
uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);
uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24;
uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar10 = uVar2 >> 0x16 | uVar2 << 10;
uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000);
uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4;
uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);
uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14;
uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);
uVar4 = uVar27 >> 0x16 | uVar27 * 0x400;
uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8;
uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000);
uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10;
uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20);
uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3;
uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100);
uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25;
uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80);
uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8;
uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);
uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10;
uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800);
uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3;
uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000);
uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25;
uVar3 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000);
uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8;
uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000);
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10;
uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);
uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22;
uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);
uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3;
uVar22 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23;
uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80);
uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);
uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25;
uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200);
uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5;
uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40);
uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22;
uVar10 = uVar27 >> 0x16 | uVar27 * 0x400;
uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80);
uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5;
uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40);
uVar3 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23;
uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);
uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10;
uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000);
uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3;
uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800);
uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25;
uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200);
uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12;
uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23;
uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80);
uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200);
uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4;
uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000);
uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10;
uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000);
uVar22 = uVar22 >> 0x16 | uVar22 * 0x400;
uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5;
uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8;
uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000);
uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);
uVar8 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12;
uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);
uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23;
uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80);
uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4;
uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);
uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8;
uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);
uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22;
uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5;
uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100);
uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10;
uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);
uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12;
uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200);
uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23;
uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80);
uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8;
uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);
uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22;
uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800);
uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5;
uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4;
uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);
uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8;
uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22;
uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12;
uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4;
uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40);
uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22;
uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10;
uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);
uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8;
uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23;
uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12;
uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);
uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000);
uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22;
uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40);
uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8;
uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4;
uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200);
uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5;
uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23;
uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000);
uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);
uVar23 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22;
uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12;
uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);
uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8;
uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800);
uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200);
uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4;
uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23;
uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000);
uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5;
uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100);
uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22;
uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8;
uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12;
uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);
uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4;
uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40);
uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23;
uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000);
uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22;
uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000);
uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12;
uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8;
uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40);
uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4;
uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23;
uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20);
uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22;
uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5;
uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20);
uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8;
uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000);
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12;
uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23;
uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4;
uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20);
uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000);
uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22;
uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23;
uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000);
uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12;
uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4;
uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);
uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22;
uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12;
uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4;
uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000);
uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22;
uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200);
uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5;
uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10;
uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);
uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12;
uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100);
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4;
uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);
uVar4 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8;
uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5;
uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22;
uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20);
uVar22 = uVar23 >> 0x16 | uVar23 * 0x400;
uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000);
uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4;
uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12;
uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100);
uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10;
uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20);
uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800);
uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8;
uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22;
uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40);
uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12;
uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23;
uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);
uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100);
uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar12 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4;
uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5;
uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40);
uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40);
uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22;
uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);
uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23;
uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40);
uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;
uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5;
uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200);
uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22;
uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23;
uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200);
uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5;
uVar23 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);
uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10;
uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20);
uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8;
uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22;
uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000);
uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12;
uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5;
uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200);
uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8;
uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000);
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4;
uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);
uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22;
uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);
uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12;
uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40);
uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5;
uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8;
uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000);
uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4;
uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000);
uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22;
uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20);
uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12;
uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);
uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23;
uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);
uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5;
uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10;
uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100);
uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000);
uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3;
uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);
uVar10 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000);
uVar3 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23;
uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);
uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4;
uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5;
uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800);
uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200);
uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10;
uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000);
uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3;
uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20);
uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23;
uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000);
uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5;
uVar5 = uVar3 >> 0x16 | uVar3 * 0x400;
uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40);
uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10;
uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100);
uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23;
uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000);
uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5;
uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);
uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3;
uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);
uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar3 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23;
uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;
uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12;
uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000);
uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5;
uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);
uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;
uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000);
uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22;
uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10;
uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800);
uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20);
uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8;
uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3;
(md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400);
(md->rmd128).state[0] = uVar19 + uVar23;
(md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40);
(md->rmd256).state[5] = uVar16 + uVar12;
uVar16 = *puVar1;
(md->rmd128).state[2] = uVar13 + uVar5;
(md->rmd160).state[4] = uVar24 + uVar22;
(md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800);
(md->rmd320).state[9] = uVar17 + uVar4;
(md->rmd256).state[7] = uVar7 + uVar25;
(md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400);
if (local_2c[0] == uVar16) {
return 0;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
/* WARNING: Control flow encountered bad instruction data */
void FUN_00010000(int param_1,int param_2)
{
undefined8 uVar1;
int *piVar2;
undefined4 uVar3;
undefined4 uVar4;
uint uVar5;
undefined4 *puVar6;
uint uVar7;
uint uVar8;
uint uVar9;
undefined1 *puVar10;
undefined1 *puVar11;
int extraout_r1;
uint uVar12;
uint uVar13;
uint uVar14;
uint uVar15;
uint uVar16;
uint *puVar17;
uint *puVar18;
uint uVar19;
uint uVar20;
int iVar21;
int iVar22;
int iVar23;
int iVar24;
uint uVar25;
uint *puVar26;
uint uVar27;
uint uVar28;
uint uVar29;
uint uVar30;
uint uVar31;
uint uVar32;
undefined4 uVar33;
code *UNRECOVERED_JUMPTABLE;
bool bVar34;
undefined1 uVar35;
undefined8 uVar36;
uint uStack_e0;
int iStack_dc;
uint uStack_d8;
int iStack_d4;
uint uStack_d0;
uint uStack_cc;
int iStack_c8;
int iStack_c4;
uint uStack_c0;
undefined4 uStack_bc;
uint uStack_b8;
uint uStack_b4;
uint uStack_b0;
uint uStack_ac;
int local_a8;
int iStack_a4;
uint uStack_a0;
int iStack_9c;
int iStack_98;
uint uStack_94;
uint uStack_90;
uint uStack_8c;
int iStack_88;
uint uStack_84;
uint uStack_80;
uint uStack_7c;
uint uStack_78;
uint uStack_74;
uint uStack_6c;
int iStack_68;
int iStack_64;
int iStack_60;
int iStack_5c;
int iStack_58;
int iStack_54;
int iStack_50;
int iStack_4c;
int iStack_48;
int iStack_44;
int iStack_40;
int iStack_3c;
int iStack_38;
int iStack_34;
int iStack_30;
uint local_2c [2];
local_2c[0] = *DAT_00011004;
puVar17 = &uStack_6c;
local_a8 = param_1;
do {
puVar18 = puVar17 + 1;
FUN_00010034(puVar17,param_2);
uVar16 = local_2c[0];
puVar26 = DAT_00011028;
param_2 = param_2 + 4;
puVar17 = puVar18;
} while (local_2c != puVar18);
uVar27 = *(uint *)(local_a8 + 0x6c);
uVar12 = *(uint *)(local_a8 + 0x68);
uStack_94 = *(uint *)(local_a8 + 100);
uVar28 = uVar12 >> 0x16 | uVar12 << 10;
iStack_98 = *(int *)(local_a8 + 0x60);
uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;
iVar23 = *(int *)(local_a8 + 0x70);
uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;
uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);
uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;
uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;
uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;
uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;
uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;
uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;
uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;
uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);
uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;
uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;
uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);
uStack_b4 = *(uint *)(local_a8 + 0x54);
uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;
uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);
iStack_a4 = *(int *)(local_a8 + 0x4c);
uStack_b8 = *(uint *)(local_a8 + 0x50);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uStack_b0 = *(uint *)(local_a8 + 0x58);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
iStack_9c = *(int *)(local_a8 + 0x5c);
uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;
uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);
uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;
uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);
uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;
uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);
uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;
uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;
uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);
uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;
uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;
uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;
uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);
uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;
uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;
uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;
uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);
uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;
uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);
uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;
uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);
uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;
uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);
uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;
uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;
uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;
uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);
uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;
uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);
uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;
uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;
uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);
uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);
uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;
uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;
uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;
uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;
uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);
uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;
uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);
uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;
uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;
uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;
uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);
uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;
uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);
uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;
uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;
uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;
uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;
uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);
uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;
uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;
uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;
uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;
uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;
uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;
uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);
uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;
uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;
uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);
uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;
uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;
uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;
uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;
uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;
uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);
uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;
uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;
uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;
uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;
uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);
uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;
uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;
uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;
uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;
uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;
uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);
uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;
uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);
uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;
uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;
uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);
uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;
uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;
uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;
uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);
uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;
uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;
uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);
uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;
uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;
uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;
uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;
uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;
uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;
uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;
uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);
uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;
uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;
uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);
uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;
uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;
uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;
uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;
uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;
uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;
uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;
uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;
uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);
uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;
uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;
uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);
uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;
uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;
uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;
uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;
uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);
uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;
uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;
uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;
uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;
uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;
uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;
uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;
uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;
uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;
uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);
uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;
uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;
uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);
uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;
uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;
uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);
uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;
uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;
uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);
uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;
uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);
uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;
uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;
uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);
uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;
uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;
uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);
uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;
uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;
uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;
uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;
uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;
uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;
uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;
uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;
uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;
uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);
uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;
uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;
uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;
uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;
uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);
uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;
uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;
uStack_74 = ~uStack_78;
uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;
uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;
uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;
uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;
uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;
uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);
uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);
uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);
uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;
uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);
uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;
uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;
uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;
uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;
uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);
uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;
uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;
uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);
uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;
uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);
uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;
uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;
uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;
uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;
*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);
*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;
*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);
*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;
uVar28 = *puVar26;
*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;
iVar21 = iStack_9c + uVar7;
iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);
*(int *)(local_a8 + 0x5c) = iVar21;
*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);
*(uint *)(local_a8 + 0x70) = iVar23 + uVar19;
*(uint *)(local_a8 + 0x68) = uVar12 + uVar14;
*(int *)(local_a8 + 0x6c) = iVar24;
if (local_2c[0] == uVar28) {
return;
}
uVar33 = 0x11abc;
uStack_ac = uVar19;
uStack_90 = uVar12;
uStack_8c = uVar27;
iStack_88 = iVar23;
uVar36 = FUN_00011ab8(0);
piVar2 = piRam00011d3c;
iVar22 = (int)((ulonglong)uVar36 >> 0x20);
puVar17 = (uint *)uVar36;
uStack_d8 = uVar16;
iStack_dc = *piRam00011d3c;
uVar35 = puVar17 == (uint *)0x0;
iStack_d4 = iVar21;
uStack_d0 = uVar27;
uStack_cc = uVar19;
iStack_c8 = iVar24;
iStack_c4 = iVar23;
uStack_c0 = uVar12;
uStack_bc = uVar33;
uVar1 = CONCAT44(iVar21,puVar17);
if ((bool)uVar35) goto LAB_00011d2c;
uVar35 = iVar22 == 0;
if (!(bool)uVar35) {
uVar28 = puVar17[0x12];
if (uVar28 < 0x40) {
uVar29 = *puVar17 + uVar28 * 8;
uVar16 = uVar28 + 1;
uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);
*puVar17 = uVar29;
puVar17[1] = uVar13;
puVar17[0x12] = uVar16;
*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;
if (uVar16 < 0x39) {
if (uVar16 != 0x38) goto LAB_00011b2c;
}
else {
if (uVar16 != 0x40) {
*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;
if (uVar28 != 0x3e) {
*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;
if (uVar28 != 0x3d) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;
if (uVar28 != 0x3c) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;
if (uVar28 != 0x3b) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;
if ((uVar28 != 0x3a) &&
(*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {
*(undefined1 *)((int)puVar17 + 0x47) = 0;
}
}
}
}
}
puVar17[0x12] = 0x40;
}
FUN_00010000(puVar17,puVar17 + 2);
uVar16 = 0;
LAB_00011b2c:
uVar28 = 0x38 - uVar16 & 7;
puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);
if (uVar28 == 0) goto LAB_00011bb0;
if (uVar28 != 1) {
puVar11 = puVar10;
if (uVar28 != 2) {
if (uVar28 != 3) {
if (uVar28 != 4) {
if (uVar28 != 5) {
if (uVar28 != 6) {
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
*puVar10 = 0;
puVar10 = puVar10 + 1;
for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {
LAB_00011bb0:
*puVar10 = 0;
puVar10[1] = 0;
puVar10[2] = 0;
puVar10[3] = 0;
puVar10[4] = 0;
puVar10[5] = 0;
puVar10[6] = 0;
puVar10[7] = 0;
puVar10 = puVar10 + 8;
}
uVar29 = *puVar17;
uVar13 = puVar17[1];
puVar17[0x12] = 0x38;
}
*(char *)(puVar17 + 0x10) = (char)uVar29;
uVar16 = uVar29 >> 0x10;
*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);
*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);
*(char *)(puVar17 + 0x11) = (char)uVar13;
*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);
*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);
*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);
*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);
FUN_00010000(puVar17,puVar17 + 2);
puVar26 = puVar17 + 0x12;
do {
puVar26 = puVar26 + 1;
uStack_e0 = *puVar26;
FUN_00011c4c(iVar22,&uStack_e0,4);
iVar22 = iVar22 + 4;
uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);
} while (puVar17 + 0x1c != puVar26);
uVar33 = 0;
}
else {
uVar33 = 0x10;
}
uVar35 = iStack_dc == *piVar2;
if ((bool)uVar35) {
return;
}
FUN_00011d18(uVar33);
}
FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);
uVar1 = uVar36;
LAB_00011d2c:
iVar21 = (int)((ulonglong)uVar1 >> 0x20);
UNRECOVERED_JUMPTABLE = (code *)0x11d3c;
puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);
uVar33 = uRam00011de0;
if ((bool)uVar35) {
puVar6 = (undefined4 *)0x0;
}
bVar34 = false;
if (puVar6 != (undefined4 *)0x0) {
puVar6[0x14] = uRam00011ddc;
uVar4 = DAT_00011dec;
uVar3 = DAT_00011de8;
iVar21 = DAT_00011de4;
puVar6[0x13] = uVar33;
uVar33 = DAT_00011df0;
puVar6[0x18] = iVar21;
puVar6[0x15] = uVar3;
puVar6[0x16] = uVar4;
uVar4 = DAT_00011df8;
uVar3 = DAT_00011df4;
puVar6[0x17] = uVar33;
uVar33 = DAT_00011dfc;
puVar6[0x12] = 0;
*puVar6 = 0;
puVar6[1] = 0;
puVar6[0x19] = uVar3;
puVar6[0x1a] = uVar4;
puVar6[0x1b] = uVar33;
puVar6[0x1c] = iVar21 + -0x3a271401;
/* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */
/* WARNING: Treating indirect jump as call */
(*UNRECOVERED_JUMPTABLE)();
return;
}
uVar35 = 0x58;
FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);
software_interrupt(0xcdab89);
if (bVar34) {
*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;
}
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
cpy r5,r1
ldr r3,[0x11004]
sub sp,sp,#0x94
str r0,[sp,#0x10]
ldr r0,[r3,#0x0]
add r4,sp,#0x4c
add r6,sp,#0x8c
str r0,[sp,#0x8c]
mov r2,#0x4
cpy r1,r5
cpy r0,r4
add r4,r4,r2
| null | null | null | null |
[(u'INT_XOR_-1205986262', u'INT_ADD_-1205986225'), (u'INT_MULT_-1205987849', u'INT_OR_-1205987852'), (u'INT_OR_-1205983586', u'INT_XOR_-1205983558'), ('const-18', u'INT_RIGHT_-1205990883'), (u'INT_XOR_-1205986559', u'INT_ADD_-1205986544'), (u'INT_RIGHT_-1205982246', u'INT_OR_-1205982245'), (u'INT_ADD_-1205980527', u'INT_RIGHT_-1205980493'), (u'INT_ADD_-1205981059', u'INT_RIGHT_-1205980535'), (u'INT_XOR_-1205985255', u'INT_ADD_-1205985230'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205986497'), (u'INT_XOR_-1205990046', u'INT_ADD_-1205990025'), (u'INT_XOR_-1205988096', u'INT_AND_-1205988079'), (u'INT_OR_-1205985750', u'INT_ADD_-1205985753'), (u'INT_OR_-1205992465', u'INT_ADD_-1205991925'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205976834'), (u'INT_ADD_-1205975535', u'INT_RIGHT_-1205975495'), (u'INT_OR_-1205980633', u'INT_ADD_-1205980636'), (u'INDIRECT_-1205980560', u'MULTIEQUAL_-1205980575'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205989725'), (u'INT_OR_-1205988409', u'INT_ADD_-1205988412'), (u'INT_RIGHT_-1205984492', u'INT_OR_-1205984491'), (u'INDIRECT_-1205973932', u'COPY_-1205973987'), (u'INT_ADD_-1205979632', u'INT_ADD_-1205979444'), (u'INT_ADD_-1205989983', u'INT_ADD_-1205989963'), ('const-4', u'CALL_-1205993328'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205982018'), ('const-6', u'PTRADD_-1205980409'), (u'INT_ADD_-1205978360', u'INT_ADD_-1205978334'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977278'), (u'INT_ADD_-1205992608', u'INT_MULT_-1205992560'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205979684'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205983745'), ('const-25', u'INT_RIGHT_-1205987253'), ('const-20', u'INT_RIGHT_-1205978501'), (u'INT_OR_-1205989365', u'INT_ADD_-1205989368'), ('const-22', u'INT_RIGHT_-1205980535'), (u'INT_OR_-1205978063', u'INT_ADD_-1205977682'), ('const-22', u'INT_RIGHT_-1205987405'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205984886'), (u'INT_OR_-1205984992', u'INT_XOR_-1205984954'), (u'INT_ADD_-1205992370', u'INT_OR_-1205992265'), (u'INT_XOR_-1205990539', u'INT_ADD_-1205990518'), (u'INT_XOR_-1205980548', u'INT_ADD_-1205980527'), ('const-76', u'PTRSUB_-1205980008'), (u'LOAD_-1205993137', u'INT_ADD_-1205974582'), (u'STORE_-1205974526', u'INDIRECT_-1205973887'), (u'INT_XOR_-1205985126', u'INT_ADD_-1205985121'), ('const-20', u'INT_RIGHT_-1205981950'), (u'INT_MULT_-1205992932', u'INT_OR_-1205992935'), (u'INT_OR_-1205987564', u'INT_ADD_-1205987567'), ('const-18', u'INT_RIGHT_-1205976183'), (u'INT_ADD_-1205991995', u'INT_RIGHT_-1205991961'), ('const-22', u'INT_RIGHT_-1205976449'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205988612'), (u'INT_RIGHT_-1205987253', u'INT_OR_-1205987252'), (u'INT_OR_-1205982823', u'INT_ADD_-1205982322'), (u'INT_ADD_-1205983645', u'INT_ADD_-1205983543'), (u'INT_ADD_-1205979990', u'INT_XOR_-1205979766'), (u'INT_OR_-1205983372', u'INT_ADD_-1205982862'), (u'INT_ADD_-1205976477', u'INT_ADD_-1205976467'), (u'INT_AND_-1205986774', u'INT_XOR_-1205986755'), (u'INT_XOR_-1205981825', u'INT_ADD_-1205981814'), ('const-22', u'INT_RIGHT_-1205989114'), (u'INT_XOR_-1205986858', u'INT_ADD_-1205986853'), (u'INT_OR_-1205988707', u'INT_XOR_-1205988561'), (u'INT_RIGHT_-1205984026', u'INT_OR_-1205984025'), (u'INT_ADD_-1205982140', u'INT_MULT_-1205982102'), (u'INT_MULT_-1205978431', u'INT_OR_-1205978434'), (u'INT_ADD_-1205987439', u'INT_RIGHT_-1205987285'), (u'INT_RIGHT_-1205975823', u'INT_OR_-1205975822'), (u'INT_ADD_-1205979610', u'INT_RIGHT_-1205978064'), (u'INT_XOR_-1205989860', u'INT_ADD_-1205989757'), ('const-19', u'INT_RIGHT_-1205983337'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987392'), (u'INT_ADD_-1205991799', u'INT_MULT_-1205991777'), ('tmp_38856', u'MULTIEQUAL_-1205980542'), (u'INT_ADD_-1205975731', u'INT_XOR_-1205975696'), (u'INT_RIGHT_-1205982106', u'INT_OR_-1205982105'), (u'INT_OR_-1205982388', u'INT_ADD_-1205980841'), (u'STORE_-1205974682', u'INDIRECT_-1205973980'), (u'INT_MULT_-1205978497', u'INT_OR_-1205978500'), (u'LOAD_-1205992207', u'INT_XOR_-1205992111'), ('tmp_38888', u'MULTIEQUAL_-1205980641'), ('const-0', u'PTRSUB_-1205979959'), (u'INT_OR_-1205986834', u'INT_ADD_-1205986837'), (u'INT_ADD_-1205986007', u'INT_RIGHT_-1205985324'), (u'INT_ADD_-1205979393', u'INT_MULT_-1205978893'), (u'INT_AND_-1205982002', u'INT_XOR_-1205981983'), ('const-417', u'STORE_-1205974550'), (u'INT_OR_-1205977709', u'INT_NEGATE_-1205977688'), (u'INT_OR_-1205989585', u'INT_ADD_-1205989064'), ('const-1024', u'INT_MULT_-1205984022'), (u'INT_ADD_-1205979434', u'INT_RIGHT_-1205979391'), (u'CALL_-1205993328', u'INDIRECT_-1205980545'), (u'INT_ADD_-1205992664', u'INT_OR_-1205992581'), ('tmp_38862', u'MULTIEQUAL_-1205980560'), (u'INT_MULT_-1205988454', u'INT_OR_-1205988457'), ('tmp_34436', u'PTRSUB_-1205980508'), (u'INT_OR_-1205986452', u'INT_ADD_-1205986127'), (u'STORE_-1205974676', u'INDIRECT_-1205974050'), (u'INT_ADD_-1205989963', u'INT_ADD_-1205989927'), ('const-22', u'INT_RIGHT_-1205985175'), (u'INT_RIGHT_-1205992466', u'INT_OR_-1205992465'), (u'INT_ADD_-1205978292', u'INT_XOR_-1205977984'), ('const-0', u'COPY_-1205974516'), (u'INT_ADD_-1205975419', u'INT_XOR_-1205975384'), (u'INT_RIGHT_-1205990359', u'INT_OR_-1205990358'), (u'INT_OR_-1205981877', u'INT_ADD_-1205981646'), (u'PTRADD_-1205973755', u'STORE_-1205974682'), ('const-4', u'PTRADD_-1205979981'), (u'INT_OR_-1205985566', u'INT_XOR_-1205985480'), (u'INT_ADD_-1205974781', u'INT_RIGHT_-1205974719'), ('const-22', u'INT_RIGHT_-1205990105'), (u'INT_AND_-1205986381', u'INT_XOR_-1205986346'), (u'INT_RIGHT_-1205978316', u'INT_OR_-1205978315'), (u'INT_ADD_-1205991353', u'INT_RIGHT_-1205991227'), (u'INT_ADD_-1205975887', u'INT_XOR_-1205975794'), (u'INT_ADD_-1205982186', u'INT_ADD_-1205982176'), (u'INT_ADD_-1205976581', u'INT_MULT_-1205976303'), (u'INT_OR_-1205993161', u'INT_ADD_-1205992778'), (u'INT_XOR_-1205992629', u'INT_ADD_-1205992608'), (u'INT_ADD_-1205991297', u'INT_RIGHT_-1205991273'), (u'INT_RIGHT_-1205979837', u'INT_OR_-1205979836'), (u'INT_ADD_-1205986225', u'INT_MULT_-1205986094'), (u'INT_OR_-1205985836', u'INT_ADD_-1205985270'), (u'INT_ADD_-1205987881', u'INT_ADD_-1205987835'), ('const-26', u'INT_RIGHT_-1205979013'), (u'INT_ADD_-1205975363', u'INT_XOR_-1205975274'), (u'INT_ADD_-1205983802', u'INT_ADD_-1205983792'), (u'INT_RIGHT_-1205990983', u'INT_OR_-1205990982'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205988210'), (u'INT_MULT_-1205985099', u'INT_OR_-1205985102'), (u'INT_RIGHT_-1205987801', u'INT_OR_-1205987800'), (u'INT_NEGATE_-1205993140', u'INT_OR_-1205993005'), (u'INT_ADD_-1205991799', u'INT_RIGHT_-1205991781'), (u'INT_XOR_-1205980085', u'INT_ADD_-1205980054'), (u'PTRSUB_-1205973650', u'PTRSUB_-1205973692'), ('const-22', u'INT_RIGHT_-1205988828'), (u'INT_MULT_-1205993068', u'INT_OR_-1205993071'), ('const-22', u'INT_RIGHT_-1205978897'), (u'INT_OR_-1205989696', u'INT_AND_-1205989502'), (u'INT_ADD_-1205983339', u'INT_MULT_-1205982630'), (u'INT_MULT_-1205991919', u'INT_OR_-1205991922'), ('const-76', u'PTRSUB_-1205973764'), (u'INT_NEGATE_-1205992882', u'INT_OR_-1205992735'), (u'INT_ADD_-1205988652', u'INT_AND_-1205988586'), ('const-1024', u'INT_MULT_-1205984734'), ('const-76', u'PTRSUB_-1205980416'), ('const-22', u'INT_RIGHT_-1205985567'), (u'INT_XOR_-1205991628', u'INT_ADD_-1205991597'), ('const-417', u'STORE_-1205974670'), (u'PTRSUB_-1205980389', u'PTRSUB_-1205980442'), (u'INT_MULT_-1205987097', u'INT_OR_-1205987100'), (u'CALL_-1205993328', u'INDIRECT_-1205980563'), (u'INT_NEGATE_-1205993245', u'INT_OR_-1205993195'), (u'INT_RIGHT_-1205991273', u'INT_OR_-1205991272'), (u'INT_ADD_-1205990855', u'INT_ADD_-1205990829'), (u'INT_ADD_-1205985240', u'INT_MULT_-1205985025'), (u'INT_RIGHT_-1205989398', u'INT_OR_-1205989397'), ('const-20', u'INT_RIGHT_-1205991441'), (u'INT_RIGHT_-1205989114', u'INT_OR_-1205989113'), (u'INT_ADD_-1205990611', u'INT_XOR_-1205990539'), (u'INT_XOR_-1205984751', u'INT_ADD_-1205984720'), (u'INT_OR_-1205984585', u'INT_XOR_-1205984537'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205982045'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205986074'), ('const-1024', u'INT_MULT_-1205987921'), (u'INT_OR_-1205986081', u'INT_XOR_-1205986039'), (u'INT_OR_-1205982121', u'INT_ADD_-1205982124'), ('const-256', u'INT_MULT_-1205975071'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977232'), ('tmp_38866', u'MULTIEQUAL_-1205980572'), (u'INT_OR_-1205978537', u'INT_ADD_-1205978155'), (u'INT_XOR_-1205978214', u'INT_ADD_-1205978113'), ('const-1836072691', u'INT_ADD_-1205982872'), (u'INT_RIGHT_-1205983894', u'INT_OR_-1205983893'), (u'INT_OR_-1205982823', u'INT_ADD_-1205982332'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205978483'), (u'INT_RIGHT_-1205989681', u'INT_OR_-1205989680'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987224'), (u'INT_AND_-1205980417', u'INT_XOR_-1205980360'), (u'INT_ADD_-1205988674', u'INT_RIGHT_-1205988650'), (u'INDIRECT_-1205980698', u'INT_ADD_-1205985300'), (u'INT_MULT_-1205989362', u'INT_OR_-1205989365'), ('const-417', u'STORE_-1205974538'), (u'CALL_-1205993328', u'INDIRECT_-1205980638'), (u'PTRADD_-1205993242', u'MULTIEQUAL_-1205981172'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205990179'), (u'INT_ADD_-1205978915', u'INT_RIGHT_-1205978626'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205978586'), (u'INT_RIGHT_-1205976786', u'INT_OR_-1205976785'), (u'INT_ADD_-1205992804', u'INT_RIGHT_-1205992776'), (u'INT_OR_-1205975806', u'INT_ADD_-1205975809'), (u'PTRADD_-1205973674', u'STORE_-1205974538'), (u'INT_ADD_-1205978915', u'INT_MULT_-1205978622'), (u'INT_OR_-1205977908', u'INT_AND_-1205977869'), (u'INT_ADD_-1205986325', u'INT_XOR_-1205986194'), (u'INT_OR_-1205990487', u'INT_ADD_-1205990490'), (u'INT_ADD_-1205991079', u'INT_RIGHT_-1205991039'), (u'INT_NEGATE_-1205992144', u'INT_OR_-1205991978'), (u'CALL_-1205993328', u'INDIRECT_-1205980758'), (u'INT_ADD_-1205974827', u'INT_ADD_-1205974753'), (u'INT_ADD_-1205988652', u'INT_RIGHT_-1205988135'), (u'INT_RIGHT_-1205984178', u'INT_OR_-1205984177'), (u'STORE_-1205974544', u'INDIRECT_-1205973962'), (u'INT_RIGHT_-1205989240', u'INT_OR_-1205989239'), (u'INT_ADD_-1205980831', u'INT_RIGHT_-1205980802'), (u'INT_XOR_-1205976881', u'INT_ADD_-1205976860'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205983176'), (u'INT_RIGHT_-1205988860', u'INT_OR_-1205988859'), (u'INT_RIGHT_-1205991681', u'INT_OR_-1205991680'), ('const-24', u'INT_RIGHT_-1205988109'), ('const-512', u'INT_MULT_-1205989362'), (u'INT_ADD_-1205989652', u'INT_RIGHT_-1205989548'), (u'INT_OR_-1205977695', u'INT_XOR_-1205977667'), (u'INT_XOR_-1205988064', u'INT_ADD_-1205988033'), (u'INT_XOR_-1205983558', u'INT_ADD_-1205983533'), (u'INT_ADD_-1205989905', u'INT_AND_-1205989849'), ('const-32', u'INT_MULT_-1205977426'), (u'INT_ADD_-1205985753', u'INT_OR_-1205985736'), (u'INT_ADD_-1205980385', u'INT_ADD_-1205980355'), (u'INT_OR_-1205976364', u'INT_ADD_-1205976367'), (u'INT_ADD_-1205988612', u'INT_ADD_-1205988556'), (u'PTRSUB_-1205973692', u'PTRADD_-1205973674'), (u'INT_ADD_-1205977792', u'INT_RIGHT_-1205977768'), (u'INT_OR_-1205980769', u'INT_ADD_-1205980080'), (u'INT_ADD_-1205978503', u'INT_XOR_-1205978385'), (u'INT_MULT_-1205975159', u'INT_OR_-1205975162'), (u'INT_ADD_-1205988652', u'INT_XOR_-1205988381'), ('tmp_34209', u'PTRSUB_-1205973723'), (u'INT_ADD_-1205982364', u'INT_RIGHT_-1205981878'), (u'INT_ADD_-1205984258', u'INT_ADD_-1205984238'), (u'INT_ADD_-1205982872', u'INT_ADD_-1205982862'), ('const-22', u'INT_RIGHT_-1205993162'), ('const-22', u'INT_RIGHT_-1205993072'), (u'INT_OR_-1205977373', u'INT_ADD_-1205977046'), (u'INT_ADD_-1205982936', u'INT_OR_-1205982725'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205979361'), ('const-32768', u'INT_MULT_-1205991575'), (u'INT_OR_-1205991696', u'INT_ADD_-1205991417'), (u'LOAD_-1205993274', u'INT_OR_-1205993195'), (u'INT_ADD_-1205978649', u'INT_RIGHT_-1205978604'), (u'STORE_-1205974664', u'INDIRECT_-1205974025'), (u'INT_MULT_-1205980766', u'INT_OR_-1205980769'), (u'INT_OR_-1205992735', u'INT_XOR_-1205992721'), ('const-1024', u'INT_MULT_-1205980531'), ('const-23', u'INT_RIGHT_-1205987801'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205989184'), (u'INT_ADD_-1205980495', u'INT_RIGHT_-1205980020'), (u'INT_XOR_-1205987736', u'INT_AND_-1205987725'), ('const-8192', u'INT_MULT_-1205976361'), (u'INT_ADD_-1205991001', u'INT_MULT_-1205990957'), ('const-22', u'INT_RIGHT_-1205987645'), (u'INT_OR_-1205978896', u'INT_ADD_-1205978566'), ('const-2053994217', u'INT_ADD_-1205980245'), ('const-1024', u'INT_MULT_-1205990029'), ('const-26', u'INT_RIGHT_-1205975651'), ('tmp_38857', u'MULTIEQUAL_-1205980545'), (u'INT_RIGHT_-1205991713', u'INT_OR_-1205991712'), (u'INT_ADD_-1205975399', u'INT_ADD_-1205975379'), (u'INT_RIGHT_-1205988410', u'INT_OR_-1205988409'), (u'INT_XOR_-1205975872', u'INT_XOR_-1205975852'), (u'INT_MULT_-1205975071', u'INT_OR_-1205975074'), (u'INT_RIGHT_-1205974881', u'INT_OR_-1205974880'), (u'INT_OR_-1205984177', u'INT_XOR_-1205984081'), (u'INT_XOR_-1205982438', u'INT_ADD_-1205982423'), (u'CALL_-1205993328', u'INDIRECT_-1205980569'), (u'INT_OR_-1205975234', u'INT_ADD_-1205974827'), (u'INT_MULT_-1205989204', u'INT_OR_-1205989207'), (u'INT_ADD_-1205986837', u'INT_RIGHT_-1205986453'), (u'INT_RIGHT_-1205987565', u'INT_OR_-1205987564'), (u'INT_ADD_-1205989064', u'INT_AND_-1205988980'), (u'INT_ADD_-1205975457', u'INT_RIGHT_-1205975417'), (u'INT_OR_-1205977321', u'INT_ADD_-1205976932'), ('const-128', u'INT_MULT_-1205987761'), (u'INT_MULT_-1205988304', u'INT_OR_-1205988307'), (u'INT_ADD_-1205991041', u'INT_XOR_-1205991016'), (u'INT_OR_-1205989113', u'INT_ADD_-1205988556'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205975633'), ('const-16384', u'INT_MULT_-1205991677'), (u'INT_OR_-1205985608', u'INT_XOR_-1205985596'), (u'INT_ADD_-1205984390', u'INT_MULT_-1205984362'), ('const-18', u'INT_RIGHT_-1205981460'), (u'INT_OR_-1205991388', u'INT_ADD_-1205991197'), (u'INT_XOR_-1205988747', u'INT_AND_-1205988678'), (u'INT_MULT_-1205983369', u'INT_OR_-1205983372'), ('const-0', u'PTRSUB_-1205973655'), (u'PTRSUB_-1205973685', u'PTRSUB_-1205973730'), (u'INT_ADD_-1205976003', u'INT_XOR_-1205975946'), (u'INT_ADD_-1205992778', u'INT_XOR_-1205992721'), (u'INT_MULT_-1205983511', u'INT_OR_-1205983514'), (u'INT_ADD_-1205982862', u'INT_ADD_-1205982796'), (u'INT_ADD_-1205983186', u'INT_RIGHT_-1205982502'), ('const-22', u'INT_RIGHT_-1205992832'), ('const-2048', u'INT_MULT_-1205986121'), (u'INT_ADD_-1205988674', u'INT_MULT_-1205988646'), (u'INT_RIGHT_-1205986005', u'INT_OR_-1205986004'), (u'INT_ADD_-1205990199', u'INT_AND_-1205990163'), (u'INT_ADD_-1205988376', u'INT_ADD_-1205988269'), (u'INT_ADD_-1205990025', u'INT_MULT_-1205989997'), (u'INT_OR_-1205981949', u'INT_ADD_-1205981952'), (u'INT_ADD_-1205979213', u'INT_ADD_-1205979193'), ('const-26', u'INT_RIGHT_-1205974751'), (u'INT_ADD_-1205974694', u'STORE_-1205974682'), (u'INT_ADD_-1205989106', u'INT_RIGHT_-1205989062'), (u'INT_OR_-1205976166', u'INT_XOR_-1205976102'), (u'INT_RIGHT_-1205980493', u'INT_OR_-1205980492'), (u'INT_OR_-1205991562', u'INT_NEGATE_-1205991545'), ('const-0', u'PTRSUB_-1205973640'), (u'INT_ADD_-1205983954', u'INT_ADD_-1205983934'), (u'INDIRECT_-1205980566', u'MULTIEQUAL_-1205980581'), (u'INT_ADD_-1205992510', u'INT_ADD_-1205992500'), (u'INT_RIGHT_-1205985029', u'INT_OR_-1205985028'), (u'INT_ADD_-1205990923', u'INT_MULT_-1205990879'), (u'INT_OR_-1205990104', u'INT_ADD_-1205989905'), (u'INT_ADD_-1205984923', u'INT_NEGATE_-1205984856'), (u'INT_ADD_-1205977422', u'INT_ADD_-1205977392'), ('const-1024', u'INT_MULT_-1205982385'), ('const-8192', u'INT_MULT_-1205989899'), (u'PTRSUB_-1205980335', u'PTRSUB_-1205980386'), (u'INT_ADD_-1205982433', u'INT_ADD_-1205982413'), (u'INT_OR_-1205992093', u'INT_XOR_-1205992000'), (u'INT_XOR_-1205988815', u'INT_AND_-1205988788'), (u'INT_ADD_-1205977770', u'INT_RIGHT_-1205977710'), (u'INT_ADD_-1205975165', u'INT_RIGHT_-1205974881'), (u'INDIRECT_-1205980698', u'MULTIEQUAL_-1205980701'), (u'INT_MULT_-1205977764', u'INT_OR_-1205977767'), (u'INT_ADD_-1205977432', u'INT_OR_-1205977297'), (u'INDIRECT_-1205980668', u'MULTIEQUAL_-1205980671'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986148'), (u'INT_MULT_-1205988824', u'INT_OR_-1205988827'), (u'INT_ADD_-1205988878', u'INT_ADD_-1205988852'), (u'INT_RIGHT_-1205976017', u'INT_OR_-1205976016'), ('const-1024', u'INT_MULT_-1205978622'), (u'INT_RIGHT_-1205987765', u'INT_OR_-1205987764'), (u'INT_ADD_-1205977770', u'INT_OR_-1205977591'), ('const-1024', u'INT_MULT_-1205975055'), (u'INT_ADD_-1205988253', u'INT_RIGHT_-1205987623'), (u'INT_XOR_-1205979505', u'INT_AND_-1205979458'), (u'INT_OR_-1205975438', u'INT_XOR_-1205975404'), (u'INT_ADD_-1205984939', u'INT_MULT_-1205984917'), (u'INT_MULT_-1205992364', u'INT_OR_-1205992367'), ('const-25', u'INT_RIGHT_-1205989398'), (u'INT_OR_-1205980019', u'INT_XOR_-1205979918'), (u'INT_ADD_-1205976597', u'INT_MULT_-1205976575'), (u'INT_ADD_-1205976565', u'INT_ADD_-1205976435'), (u'INT_ADD_-1205978400', u'INT_AND_-1205978364'), (u'INT_XOR_-1205976072', u'INT_ADD_-1205976051'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205992360'), (u'INT_MULT_-1205985171', u'INT_OR_-1205985174'), (u'INT_OR_-1205987148', u'INT_ADD_-1205986837'), (u'INT_OR_-1205979804', u'INT_ADD_-1205979807'), (u'INT_OR_-1205976672', u'INT_XOR_-1205976628'), (u'INT_RIGHT_-1205989903', u'INT_OR_-1205989902'), ('const-1024', u'INT_MULT_-1205989807'), (u'INT_XOR_-1205978591', u'INT_AND_-1205978570'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980085'), (u'INT_ADD_-1205975269', u'INT_RIGHT_-1205975163'), ('const-64', u'INT_MULT_-1205979009'), (u'INT_OR_-1205992537', u'INT_NEGATE_-1205992526'), (u'INT_ADD_-1205979990', u'INT_RIGHT_-1205979640'), (u'INT_RIGHT_-1205989046', u'INT_OR_-1205989045'), ('const-22', u'INT_RIGHT_-1205984586'), (u'INT_ADD_-1205992350', u'INT_ADD_-1205992298'), (u'INT_ADD_-1205992896', u'INT_MULT_-1205992864'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205977818'), (u'INT_RIGHT_-1205985324', u'INT_OR_-1205985323'), (u'INT_ADD_-1205989803', u'INT_MULT_-1205989771'), (u'INT_RIGHT_-1205992130', u'INT_OR_-1205992129'), ('const-256', u'INT_MULT_-1205979365'), (u'INT_ADD_-1205975575', u'INT_MULT_-1205975435'), (u'INT_MULT_-1205991527', u'INT_OR_-1205991530'), (u'INT_ADD_-1205981049', u'INT_ADD_-1205980887'), (u'INT_RIGHT_-1205975075', u'INT_OR_-1205975074'), (u'INT_ADD_-1205991491', u'INT_ADD_-1205991459'), (u'INT_RIGHT_-1205992538', u'INT_OR_-1205992537'), (u'INT_OR_-1205985339', u'INT_ADD_-1205985342'), ('const-22', u'INT_RIGHT_-1205977482'), (u'INT_ADD_-1205976117', u'INT_XOR_-1205976072'), (u'CALL_-1205993328', u'INDIRECT_-1205980728'), (u'INT_MULT_-1205993084', u'INT_OR_-1205993087'), (u'INT_OR_-1205975292', u'INT_ADD_-1205974947'), (u'INT_ADD_-1205976117', u'INT_MULT_-1205975929'), (u'INT_RIGHT_-1205990213', u'INT_OR_-1205990212'), (u'INT_OR_-1205993195', u'INT_XOR_-1205993175'), (u'INT_ADD_-1205974797', u'INT_ADD_-1205974721'), (u'INT_OR_-1205981109', u'INT_XOR_-1205981091'), (u'INT_OR_-1205989045', u'INT_ADD_-1205988376'), (u'INT_ADD_-1205979073', u'INT_ADD_-1205978963'), (u'INT_RIGHT_-1205982778', u'INT_OR_-1205982777'), (u'INT_MULT_-1205975491', u'INT_OR_-1205975494'), (u'INT_ADD_-1205982668', u'INT_ADD_-1205982658'), (u'INT_RIGHT_-1205976541', u'INT_OR_-1205976540'), (u'INT_OR_-1205974908', u'INT_ADD_-1205974911'), (u'INT_ADD_-1205975535', u'INT_MULT_-1205975491'), (u'INT_ADD_-1205988111', u'INT_MULT_-1205987401'), ('const-0', u'PTRSUB_-1205973733'), (u'INT_ADD_-1205979474', u'INT_ADD_-1205979434'), (u'INT_MULT_-1205991191', u'INT_OR_-1205991194'), (u'CALL_-1205993328', u'INDIRECT_-1205980653'), (u'LOAD_-1205993413', u'MULTIEQUAL_-1205980536'), (u'INT_MULT_-1205979025', u'INT_OR_-1205979028'), (u'INT_ADD_-1205992282', u'INT_OR_-1205992093'), ('const-3', u'PTRADD_-1205973755'), (u'INT_ADD_-1205976003', u'INT_XOR_-1205975872'), (u'INT_OR_-1205984115', u'INT_XOR_-1205984081'), (u'INT_ADD_-1205976087', u'INT_ADD_-1205976051'), ('const-1024', u'INT_MULT_-1205991835'), (u'INT_OR_-1205985488', u'INT_XOR_-1205985480'), (u'INT_OR_-1205990342', u'INT_ADD_-1205990061'), (u'INT_OR_-1205988521', u'INT_XOR_-1205988381'), (u'LOAD_-1205992207', u'INT_RIGHT_-1205991697'), (u'INT_OR_-1205979336', u'INT_ADD_-1205978915'), (u'INT_ADD_-1205978915', u'INT_XOR_-1205978716'), (u'INT_MULT_-1205983770', u'INT_OR_-1205983773'), (u'STORE_-1205974664', u'INDIRECT_-1205973935'), (u'INT_XOR_-1205989529', u'INT_AND_-1205989502'), (u'INT_OR_-1205985283', u'INT_XOR_-1205985245'), (u'INT_XOR_-1205989880', u'INT_XOR_-1205989860'), (u'INT_OR_-1205984893', u'INT_ADD_-1205984258'), (u'INT_ADD_-1205974807', u'INT_MULT_-1205974747'), (u'INT_XOR_-1205982151', u'INT_ADD_-1205982140'), (u'INT_RIGHT_-1205990488', u'INT_OR_-1205990487'), (u'PTRSUB_-1205979914', u'PTRSUB_-1205979962'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205987557'), (u'INT_MULT_-1205979115', u'INT_OR_-1205979118'), ('const-128', u'INT_MULT_-1205992276'), (u'INT_ADD_-1205987103', u'INT_RIGHT_-1205986808'), (u'INT_OR_-1205984291', u'INT_ADD_-1205983735'), ('const-1024', u'INT_MULT_-1205975325'), (u'INT_XOR_-1205976102', u'INT_XOR_-1205976072'), (u'INT_ADD_-1205987567', u'INT_RIGHT_-1205986301'), (u'INT_RIGHT_-1205983916', u'INT_OR_-1205983915'), (u'INT_ADD_-1205974979', u'INT_MULT_-1205974905'), (u'INT_OR_-1205984491', u'INT_XOR_-1205984405'), (u'INT_ADD_-1205987911', u'INT_ADD_-1205987881'), (u'INT_MULT_-1205985304', u'INT_OR_-1205985307'), ('const-24', u'INT_RIGHT_-1205975573'), (u'INT_ADD_-1205991275', u'INT_RIGHT_-1205991149'), (u'INT_ADD_-1205992680', u'INT_MULT_-1205992658'), (u'INT_ADD_-1205989018', u'INT_ADD_-1205988920'), (u'INT_ADD_-1205984949', u'INT_ADD_-1205984939'), (u'INT_OR_-1205975932', u'INT_ADD_-1205975711'), (u'INT_ADD_-1205987803', u'INT_RIGHT_-1205987237'), (u'INT_ADD_-1205979610', u'INT_MULT_-1205978060'), (u'INT_XOR_-1205990258', u'INT_ADD_-1205990237'), ('const-27', u'INT_RIGHT_-1205992368'), ('const-256', u'INT_MULT_-1205979984'), (u'INT_OR_-1205975968', u'INT_NEGATE_-1205975915'), (u'INT_OR_-1205976578', u'INT_ADD_-1205976581'), (u'INT_ADD_-1205992664', u'INT_RIGHT_-1205992616'), ('const-417', u'LOAD_-1205992207'), (u'INT_XOR_-1205986148', u'INT_ADD_-1205986143'), ('const-1024', u'INT_MULT_-1205977096'), (u'INT_OR_-1205979336', u'INT_ADD_-1205978815'), (u'INT_ADD_-1205991783', u'INT_MULT_-1205991709'), (u'INT_MULT_-1205977748', u'INT_OR_-1205977751'), (u'INT_ADD_-1205985465', u'INT_RIGHT_-1205985441'), (u'INT_ADD_-1205985031', u'INT_NEGATE_-1205985017'), ('const-80', u'PTRSUB_-1205980025'), (u'INT_ADD_-1205991783', u'INT_RIGHT_-1205991713'), (u'INT_OR_-1205991960', u'INT_ADD_-1205991963'), (u'INT_XOR_-1205977938', u'INT_ADD_-1205977891'), (u'INT_ADD_-1205974911', u'INT_XOR_-1205974842'), (u'INT_RIGHT_-1205989548', u'INT_OR_-1205989547'), (u'INT_ADD_-1205975029', u'INT_MULT_-1205974550'), (u'STORE_-1205974532', u'INDIRECT_-1205973862'), (u'CALL_-1205993328', u'INDIRECT_-1205980533'), (u'INT_ADD_-1205990490', u'INT_MULT_-1205990339'), (u'INT_OR_-1205976540', u'INT_ADD_-1205976325'), ('const-8192', u'INT_MULT_-1205982118'), (u'INT_ADD_-1205988862', u'INT_AND_-1205988788'), ('const-417', u'LOAD_-1205993137'), (u'INT_XOR_-1205982045', u'INT_AND_-1205982002'), (u'INT_NEGATE_-1205976716', u'INT_OR_-1205976286'), (u'INT_OR_-1205982271', u'INT_ADD_-1205981952'), (u'INT_ADD_-1205982176', u'INT_ADD_-1205982140'), (u'INT_ADD_-1205981462', u'INT_MULT_-1205981011'), (u'INT_ADD_-1205988310', u'INT_RIGHT_-1205987853'), (u'INT_RIGHT_-1205982389', u'INT_OR_-1205982388'), (u'INT_OR_-1205976929', u'INT_ADD_-1205976932'), (u'INT_OR_-1205983077', u'INT_XOR_-1205983019'), (u'INT_OR_-1205975750', u'INT_ADD_-1205975575'), (u'INT_RIGHT_-1205981878', u'INT_OR_-1205981877'), (u'INT_OR_-1205991824', u'INT_XOR_-1205991648'), (u'INT_ADD_-1205986837', u'INT_MULT_-1205986449'), (u'INT_OR_-1205984649', u'INT_ADD_-1205984652'), (u'INT_RIGHT_-1205976199', u'INT_OR_-1205976198'), (u'PTRSUB_-1205980508', u'INT_NOTEQUAL_-1205993313'), (u'INT_XOR_-1205989321', u'INT_AND_-1205989278'), (u'INT_RIGHT_-1205990526', u'INT_OR_-1205990525'), (u'INT_NEGATE_-1205992036', u'INT_OR_-1205991824'), (u'INT_ADD_-1205985753', u'INT_MULT_-1205985171'), (u'INT_ADD_-1205990933', u'INT_ADD_-1205990923'), (u'INT_OR_-1205989696', u'INT_ADD_-1205988950'), ('const-22', u'INT_RIGHT_-1205975293'), (u'INT_OR_-1205988457', u'INT_AND_-1205988390'), (u'INT_ADD_-1205981326', u'INT_MULT_-1205980766'), (u'INT_ADD_-1205987449', u'INT_RIGHT_-1205987149'), (u'INT_RIGHT_-1205990795', u'INT_OR_-1205990794'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989875'), (u'INT_OR_-1205992563', u'INT_ADD_-1205992566'), (u'INT_OR_-1205976182', u'INT_ADD_-1205976185'), (u'INT_XOR_-1205978385', u'INT_AND_-1205978364'), (u'INT_OR_-1205984491', u'INT_ADD_-1205984222'), (u'INT_OR_-1205983077', u'INT_ADD_-1205982433'), (u'INT_ADD_-1205983934', u'INT_RIGHT_-1205983916'), (u'INT_OR_-1205981171', u'INT_ADD_-1205981174'), (u'INDIRECT_-1205973977', u'COPY_-1205974032'), (u'INT_RIGHT_-1205975933', u'INT_OR_-1205975932'), (u'INDIRECT_-1205980545', u'MULTIEQUAL_-1205980560'), ('const-27', u'INT_RIGHT_-1205982956'), ('const-16384', u'INT_MULT_-1205975725'), (u'INT_OR_-1205975494', u'INT_ADD_-1205975497'), (u'INT_OR_-1205980534', u'INT_ADD_-1205979954'), ('const-417', u'LOAD_-1205993274'), (u'INT_XOR_-1205991852', u'INT_ADD_-1205991799'), (u'PTRSUB_-1205973686', u'PTRADD_-1205973669'), (u'INT_XOR_-1205975560', u'INT_XOR_-1205975540'), (u'INT_XOR_-1205983009', u'INT_ADD_-1205983004'), (u'INT_OR_-1205981014', u'INT_ADD_-1205980636'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205979213'), (u'STORE_-1205974538', u'INDIRECT_-1205973882'), (u'CALL_-1205974449', u'INDIRECT_-1205973909'), (u'INT_ADD_-1205978606', u'INT_MULT_-1205978431'), (u'INT_ADD_-1205975555', u'INT_ADD_-1205975535'), ('const-20', u'INT_RIGHT_-1205976930'), ('const-22', u'INT_RIGHT_-1205992760'), (u'INT_MULT_-1205985605', u'INT_OR_-1205985608'), (u'STORE_-1205974538', u'INDIRECT_-1205973867'), (u'INT_OR_-1205987924', u'INT_ADD_-1205987567'), ('const-1', u'RETURN_-1205974444'), (u'INT_MULT_-1205992560', u'INT_OR_-1205992563'), (u'INT_NEGATE_-1205982838', u'INT_OR_-1205982476'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979505'), (u'INT_ADD_-1205976788', u'INT_XOR_-1205976492'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981399'), ('const-1024', u'INT_MULT_-1205982748'), (u'INT_ADD_-1205985105', u'INT_MULT_-1205984174'), (u'INT_OR_-1205985836', u'INT_ADD_-1205985342'), (u'INT_OR_-1205989239', u'INT_XOR_-1205989143'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987224'), (u'STORE_-1205974676', u'INDIRECT_-1205973960'), (u'INT_ADD_-1205987103', u'INT_MULT_-1205986804'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205979073'), (u'CALL_-1205974449', u'INDIRECT_-1205973894'), (u'INT_XOR_-1205980584', u'INT_AND_-1205980563'), (u'INT_NEGATE_-1205977610', u'INT_OR_-1205977405'), (u'INT_RIGHT_-1205990121', u'INT_OR_-1205990120'), (u'PTRADD_-1205973664', u'STORE_-1205974526'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205988878'), (u'INT_ADD_-1205992030', u'INT_ADD_-1205992015'), (u'INT_OR_-1205988222', u'INT_ADD_-1205987803'), (u'STORE_-1205974664', u'INDIRECT_-1205973965'), (u'INT_ADD_-1205991915', u'INT_ADD_-1205991867'), (u'INT_ADD_-1205991963', u'INT_XOR_-1205991668'), (u'INT_MULT_-1205977514', u'INT_OR_-1205977517'), (u'INT_OR_-1205985608', u'INT_ADD_-1205985147'), (u'INT_MULT_-1205975435', u'INT_OR_-1205975438'), (u'STORE_-1205974544', u'INDIRECT_-1205973887'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205986687'), ('const-417', u'STORE_-1205974676'), (u'INT_ADD_-1205980672', u'INT_ADD_-1205980652'), ('const-1024', u'INT_MULT_-1205992126'), (u'INT_MULT_-1205974905', u'INT_OR_-1205974908'), (u'INT_XOR_-1205980330', u'INT_ADD_-1205980309'), (u'INT_ADD_-1205985369', u'INT_ADD_-1205985240'), (u'INT_AND_-1205987343', u'INT_XOR_-1205987324'), ('const-22', u'INT_RIGHT_-1205978745'), (u'INT_OR_-1205983314', u'INT_XOR_-1205983228'), (u'INT_ADD_-1205976393', u'INT_ADD_-1205976357'), (u'INT_OR_-1205975750', u'INT_ADD_-1205975555'), ('const-4', u'PTRADD_-1205973742'), (u'INT_OR_-1205992129', u'INT_ADD_-1205990559'), (u'INT_XOR_-1205982621', u'INT_ADD_-1205982616'), ('const-76', u'PTRSUB_-1205973692'), (u'INT_OR_-1205991388', u'INT_XOR_-1205991338'), (u'INT_RIGHT_-1205986835', u'INT_OR_-1205986834'), (u'INT_ADD_-1205986034', u'INT_RIGHT_-1205986005'), (u'INT_ADD_-1205985887', u'INT_ADD_-1205985769'), ('const-1024', u'INT_MULT_-1205976303'), (u'INT_OR_-1205979836', u'INT_XOR_-1205979766'), ('const-18', u'INT_RIGHT_-1205978913'), (u'INT_ADD_-1205992680', u'INT_RIGHT_-1205992662'), (u'INT_ADD_-1205986967', u'INT_RIGHT_-1205986705'), (u'INT_ADD_-1205985121', u'INT_RIGHT_-1205985103'), (u'INT_ADD_-1205987045', u'INT_ADD_-1205987019'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205978051'), (u'INT_RIGHT_-1205984366', u'INT_OR_-1205984365'), (u'INT_OR_-1205993071', u'INT_ADD_-1205992644'), (u'INT_XOR_-1205986692', u'INT_AND_-1205986671'), (u'INT_OR_-1205986932', u'INT_ADD_-1205986734'), (u'INT_ADD_-1205983918', u'INT_OR_-1205983566'), ('const-1024', u'INT_MULT_-1205987849'), (u'INT_AND_-1205987023', u'INT_XOR_-1205987004'), (u'INT_ADD_-1205983401', u'INT_ADD_-1205983355'), ('const-22', u'INT_RIGHT_-1205989935'), (u'INT_RIGHT_-1205978064', u'INT_OR_-1205978063'), ('const-1024', u'INT_MULT_-1205985605'), ('const-1024', u'INT_MULT_-1205978431'), ('const-2400959708', u'INT_ADD_-1205980897'), (u'INT_ADD_-1205978087', u'INT_XOR_-1205976628'), (u'INT_XOR_-1205981515', u'INT_ADD_-1205981510'), (u'INT_XOR_-1205981399', u'INT_AND_-1205981378'), (u'INT_RIGHT_-1205975417', u'INT_OR_-1205975416'), (u'INT_ADD_-1205975497', u'INT_MULT_-1205975325'), (u'INT_ADD_-1205974592', u'STORE_-1205974550'), ('tmp_34209', u'PTRSUB_-1205980403'), (u'INT_ADD_-1205982780', u'INT_RIGHT_-1205982389'), (u'INT_ADD_-1205977656', u'INT_RIGHT_-1205977638'), (u'PTRSUB_-1205973733', u'PTRSUB_-1205973780'), (u'INT_MULT_-1205991035', u'INT_OR_-1205991038'), ('const-1024', u'INT_MULT_-1205985304'), (u'INT_OR_-1205985566', u'INT_ADD_-1205984949'), (u'INT_MULT_-1205975881', u'INT_OR_-1205975884'), (u'INT_RIGHT_-1205988650', u'INT_OR_-1205988649'), (u'INT_OR_-1205980226', u'INT_ADD_-1205979807'), ('const-22', u'INT_RIGHT_-1205979640'), (u'INT_RIGHT_-1205981015', u'INT_OR_-1205981014'), (u'INT_XOR_-1205978716', u'INT_AND_-1205978673'), (u'INT_OR_-1205991226', u'INT_ADD_-1205991041'), (u'INT_ADD_-1205975419', u'INT_RIGHT_-1205975293'), (u'INT_MULT_-1205983074', u'INT_OR_-1205983077'), (u'LOAD_-1205993137', u'INT_ADD_-1205993002'), (u'INT_OR_-1205986567', u'INT_XOR_-1205986559'), (u'INT_ADD_-1205981086', u'INT_RIGHT_-1205981057'), ('const-27', u'INT_RIGHT_-1205980839'), (u'INT_ADD_-1205981952', u'INT_MULT_-1205981576'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205977738'), ('const-128', u'INT_MULT_-1205985336'), (u'INT_XOR_-1205979449', u'INT_ADD_-1205979434'), (u'INT_MULT_-1205975647', u'INT_OR_-1205975650'), (u'INT_MULT_-1205979984', u'INT_OR_-1205979987'), (u'INDIRECT_-1205980653', u'MULTIEQUAL_-1205980656'), (u'INT_NEGATE_-1205985017', u'INT_OR_-1205984759'), (u'INT_ADD_-1205979371', u'INT_RIGHT_-1205977909'), (u'STORE_-1205974670', u'INDIRECT_-1205974030'), (u'INT_XOR_-1205991172', u'INT_ADD_-1205991141'), (u'INT_XOR_-1205975794', u'INT_XOR_-1205975774'), (u'INT_ADD_-1205988001', u'INT_AND_-1205987839'), (u'INT_OR_-1205983514', u'INT_ADD_-1205983517'), ('const-20', u'INT_RIGHT_-1205987285'), (u'INT_OR_-1205985307', u'INT_ADD_-1205984786'), (u'STORE_-1205974544', u'INDIRECT_-1205973917'), (u'INT_OR_-1205992129', u'INT_NEGATE_-1205992036'), (u'INT_ADD_-1205989158', u'INT_ADD_-1205989106'), (u'INT_ADD_-1205990611', u'INT_MULT_-1205989693'), (u'INT_ADD_-1205992896', u'INT_RIGHT_-1205992868'), (u'INT_OR_-1205979028', u'INT_XOR_-1205979000'), (u'INT_ADD_-1205991041', u'INT_RIGHT_-1205990905'), (u'INT_RIGHT_-1205992322', u'INT_OR_-1205992321'), (u'INT_OR_-1205984585', u'INT_ADD_-1205983954'), (u'INT_ADD_-1205975497', u'INT_XOR_-1205975462'), (u'LOAD_-1205993280', u'INT_ADD_-1205974556'), (u'INT_MULT_-1205977618', u'INT_OR_-1205977621'), ('const-2053994217', u'INT_ADD_-1205978841'), ('const-25', u'INT_RIGHT_-1205991195'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981719'), ('const-1024', u'INT_MULT_-1205990522'), ('const-25', u'INT_RIGHT_-1205992280'), (u'INDIRECT_-1205980542', u'MULTIEQUAL_-1205980557'), ('const-21', u'INT_RIGHT_-1205986125'), (u'INT_OR_-1205980956', u'INT_ADD_-1205980433'), (u'INT_ADD_-1205980355', u'INT_ADD_-1205980309'), ('tmp_34436', u'PTRSUB_-1205980513'), (u'INT_ADD_-1205992370', u'INT_MULT_-1205992318'), ('const-22', u'INT_RIGHT_-1205985837'), (u'INT_XOR_-1205975982', u'INT_XOR_-1205975946'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205975789'), (u'INT_NEGATE_-1205983715', u'INT_OR_-1205983566'), ('const-22', u'INT_RIGHT_-1205984292'), (u'INT_OR_-1205988827', u'INT_XOR_-1205988815'), (u'INT_OR_-1205981427', u'INT_AND_-1205981378'), (u'INT_ADD_-1205975125', u'INT_MULT_-1205975023'), ('const-22', u'INT_RIGHT_-1205992130'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989321'), (u'INT_RIGHT_-1205986505', u'INT_OR_-1205986504'), (u'INT_MULT_-1205977122', u'INT_OR_-1205977125'), ('const-1024', u'INT_MULT_-1205984989'), (u'INT_ADD_-1205978763', u'INT_RIGHT_-1205978538'), (u'INT_OR_-1205993224', u'INT_ADD_-1205992870'), (u'INT_MULT_-1205976766', u'INT_OR_-1205976769'), (u'INDIRECT_-1205973872', u'COPY_-1205973927'), (u'INT_NEGATE_-1205981035', u'INT_OR_-1205980942'), (u'INT_ADD_-1205987449', u'INT_MULT_-1205987145'), (u'INT_NEGATE_-1205985216', u'INT_OR_-1205985150'), (u'INT_ADD_-1205989905', u'INT_MULT_-1205989582'), (u'INT_ADD_-1205983501', u'INT_NEGATE_-1205983387'), (u'INT_ADD_-1205983776', u'INT_MULT_-1205983138'), (u'INT_NEGATE_-1205983471', u'INT_OR_-1205983063'), (u'INT_OR_-1205985174', u'INT_ADD_-1205984552'), (u'INT_OR_-1205975074', u'INT_ADD_-1205975077'), ('const-1024', u'INT_MULT_-1205982498'), (u'INT_ADD_-1205981059', u'INT_OR_-1205980942'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205982473'), (u'INT_MULT_-1205988105', u'INT_OR_-1205988108'), (u'INT_ADD_-1205978947', u'INT_RIGHT_-1205978913'), (u'INT_XOR_-1205979766', u'INT_AND_-1205979713'), ('const-1024', u'INT_MULT_-1205981874'), (u'INT_XOR_-1205987392', u'INT_AND_-1205987343'), (u'INT_OR_-1205992161', u'INT_NEGATE_-1205992144'), (u'INT_MULT_-1205983495', u'INT_OR_-1205983498'), (u'INT_OR_-1205979639', u'INT_XOR_-1205979531'), (u'INT_MULT_-1205987401', u'INT_OR_-1205987404'), (u'INT_XOR_-1205980480', u'INT_AND_-1205980417'), (u'INT_ADD_-1205980527', u'INT_MULT_-1205980489'), (u'INT_ADD_-1205983517', u'INT_NEGATE_-1205983471'), (u'INT_XOR_-1205987814', u'INT_ADD_-1205987793'), (u'INT_NEGATE_-1205993208', u'INT_OR_-1205993047'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205975867'), (u'INT_ADD_-1205982594', u'INT_XOR_-1205982151'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205990428'), (u'INT_ADD_-1205991783', u'INT_OR_-1205990718'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205979964'), (u'CALL_-1205993328', u'INDIRECT_-1205980554'), (u'INT_AND_-1205987181', u'INT_XOR_-1205987162'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989096'), (u'INT_XOR_-1205988561', u'INT_ADD_-1205988546'), (u'INT_ADD_-1205989725', u'INT_ADD_-1205989715'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205980151'), (u'INT_ADD_-1205983918', u'INT_MULT_-1205983074'), (u'INT_ADD_-1205983004', u'INT_MULT_-1205982930'), (u'INT_NEGATE_-1205979043', u'INT_OR_-1205977695'), (u'INT_OR_-1205987100', u'INT_ADD_-1205987103'), (u'INT_ADD_-1205990923', u'INT_RIGHT_-1205990883'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980330'), (u'INT_RIGHT_-1205976323', u'INT_OR_-1205976322'), (u'INDIRECT_-1205980527', u'MULTIEQUAL_-1205980542'), (u'INT_MULT_-1205992612', u'INT_OR_-1205992615'), (u'INT_OR_-1205976448', u'INT_XOR_-1205976404'), (u'INT_ADD_-1205990829', u'INT_RIGHT_-1205990795'), ('tmp_312', u'CBRANCH_-1205993294'), (u'INT_OR_-1205987446', u'INT_ADD_-1205987449'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987324'), (u'INT_ADD_-1205976974', u'INT_ADD_-1205976948'), (u'INT_ADD_-1205985475', u'INT_ADD_-1205985465'), (u'INT_OR_-1205984513', u'INT_ADD_-1205984516'), (u'INT_ADD_-1205983735', u'INT_ADD_-1205983533'), (u'INT_OR_-1205977709', u'INT_ADD_-1205977268'), (u'INT_AND_-1205987839', u'INT_XOR_-1205987814'), (u'INT_OR_-1205983498', u'INT_ADD_-1205983501'), (u'INT_OR_-1205977213', u'INT_ADD_-1205977216'), ('const-1024', u'INT_MULT_-1205990101'), (u'INT_AND_-1205987895', u'INT_XOR_-1205987866'), (u'INT_OR_-1205987404', u'INT_ADD_-1205987019'), ('const-22', u'INT_RIGHT_-1205986082'), (u'INT_OR_-1205990882', u'INT_ADD_-1205990885'), (u'INT_ADD_-1205989400', u'INT_XOR_-1205989033'), (u'INT_OR_-1205978912', u'INT_ADD_-1205978915'), (u'INT_ADD_-1205976597', u'INT_RIGHT_-1205976579'), ('tmp_38895', u'MULTIEQUAL_-1205980746'), (u'INT_NOTEQUAL_-1205993313', u'CBRANCH_-1205993294'), ('const-2048', u'INT_MULT_-1205974715'), (u'INT_ADD_-1205984238', u'INT_RIGHT_-1205984220'), ('const-23', u'INT_RIGHT_-1205992868'), ('const-32', u'INT_MULT_-1205976319'), (u'INT_OR_-1205984291', u'INT_ADD_-1205983776'), ('const-1024', u'INT_MULT_-1205975435'), (u'INT_OR_-1205992853', u'INT_XOR_-1205992809'), ('const-1024', u'INT_MULT_-1205987233'), (u'INT_ADD_-1205977536', u'INT_MULT_-1205977514'), (u'INT_ADD_-1205983186', u'INT_NEGATE_-1205982970'), (u'INT_ADD_-1205985443', u'INT_MULT_-1205984890'), (u'STORE_-1205974538', u'INDIRECT_-1205973942'), (u'INT_ADD_-1205977046', u'INT_MULT_-1205977024'), (u'INT_ADD_-1205986225', u'INT_RIGHT_-1205986098'), ('const-1024', u'INT_MULT_-1205993068'), (u'INT_OR_-1205992831', u'INT_ADD_-1205992412'), (u'INT_ADD_-1205980495', u'INT_XOR_-1205980177'), (u'INT_RIGHT_-1205978085', u'INT_OR_-1205978084'), (u'INT_LEFT_-1205991696', u'INT_OR_-1205991696'), (u'INT_LEFT_-1205991890', u'INT_OR_-1205991890'), (u'INT_XOR_-1205987610', u'INT_AND_-1205987541'), (u'INT_MULT_-1205984917', u'INT_OR_-1205984920'), ('const-22', u'INT_RIGHT_-1205991149'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986692'), ('const-1024', u'INT_MULT_-1205981744'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205978380'), (u'INT_ADD_-1205981510', u'INT_MULT_-1205981456'), (u'INT_OR_-1205989696', u'INT_ADD_-1205989210'), ('const-22', u'INT_RIGHT_-1205982634'), ('const-4', u'PTRADD_-1205973679'), (u'INT_MULT_-1205991113', u'INT_OR_-1205991116'), (u'INT_ADD_-1205978103', u'INT_ADD_-1205978010'), (u'INT_RIGHT_-1205985853', u'INT_OR_-1205985852'), (u'INT_RIGHT_-1205980634', u'INT_OR_-1205980633'), ('const-512', u'INT_MULT_-1205989544'), (u'INT_OR_-1205986097', u'INT_ADD_-1205986100'), (u'INT_ADD_-1205990313', u'INT_AND_-1205990277'), (u'INT_OR_-1205981747', u'INT_AND_-1205981692'), ('const-18', u'INT_RIGHT_-1205991605'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205986893'), (u'INT_XOR_-1205975482', u'INT_XOR_-1205975462'), (u'INT_OR_-1205987800', u'INT_ADD_-1205987803'), (u'INT_ADD_-1205987255', u'INT_RIGHT_-1205986933'), (u'INT_XOR_-1205976092', u'INT_ADD_-1205976067'), (u'INT_ADD_-1205991381', u'INT_RIGHT_-1205991351'), (u'INT_OR_-1205978744', u'INT_ADD_-1205978463'), (u'INT_NEGATE_-1205982848', u'INT_OR_-1205982456'), (u'INT_OR_-1205976306', u'INT_XOR_-1205976258'), (u'PTRADD_-1205973679', u'STORE_-1205974544'), (u'INT_ADD_-1205993090', u'INT_MULT_-1205993068'), (u'INT_ADD_-1205982936', u'INT_MULT_-1205982268'), (u'INT_ADD_-1205989803', u'INT_RIGHT_-1205989775'), (u'INT_ADD_-1205992370', u'INT_XOR_-1205992335'), (u'INT_XOR_-1205977397', u'INT_ADD_-1205977366'), (u'INT_ADD_-1205982616', u'INT_RIGHT_-1205982592'), (u'LOAD_-1205992207', u'INT_LEFT_-1205991696'), (u'INT_OR_-1205985201', u'INT_ADD_-1205985204'), (u'INT_OR_-1205976672', u'INT_ADD_-1205976419'), ('const-2048', u'INT_MULT_-1205991777'), (u'INT_ADD_-1205992824', u'INT_ADD_-1205992804'), (u'INT_RIGHT_-1205991061', u'INT_OR_-1205991060'), (u'INT_MULT_-1205982630', u'INT_OR_-1205982633'), ('const-2400959708', u'INT_ADD_-1205980385'), (u'INT_ADD_-1205976860', u'INT_RIGHT_-1205976842'), (u'INT_ADD_-1205975051', u'INT_ADD_-1205974979'), (u'INT_ADD_-1205985769', u'INT_MULT_-1205985747'), (u'INT_OR_-1205978289', u'INT_ADD_-1205978292'), (u'CALL_-1205993328', u'INDIRECT_-1205980560'), (u'INT_XOR_-1205980657', u'INT_ADD_-1205980652'), (u'INT_ADD_-1205985753', u'INT_RIGHT_-1205985175'), (u'INT_XOR_-1205977573', u'INT_ADD_-1205977536'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205987557'), (u'INT_NEGATE_-1205977444', u'INT_OR_-1205977297'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986755'), (u'INT_ADD_-1205982780', u'INT_OR_-1205982476'), (u'INT_ADD_-1205983918', u'INT_RIGHT_-1205983078'), (u'INT_MULT_-1205978600', u'INT_OR_-1205978603'), (u'INT_ADD_-1205993028', u'INT_ADD_-1205993002'), (u'INT_ADD_-1205986325', u'INT_MULT_-1205985605'), (u'INT_ADD_-1205976932', u'INT_XOR_-1205976881'), ('const-22', u'INT_RIGHT_-1205976017'), (u'INT_ADD_-1205986371', u'INT_ADD_-1205986361'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979505'), (u'INT_RIGHT_-1205990961', u'INT_OR_-1205990960'), (u'INT_OR_-1205991440', u'INT_ADD_-1205991443'), (u'INT_OR_-1205986731', u'INT_ADD_-1205986734'), (u'INT_OR_-1205975650', u'INT_ADD_-1205975653'), (u'INT_ADD_-1205990518', u'INT_RIGHT_-1205990456'), ('const-16384', u'INT_MULT_-1205976179'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977510'), (u'INT_OR_-1205979607', u'INT_ADD_-1205979610'), ('const-1024', u'INT_MULT_-1205980766'), (u'INT_NEGATE_-1205984856', u'INT_OR_-1205984413'), (u'INT_OR_-1205988521', u'INT_ADD_-1205987965'), (u'STORE_-1205974616', u'INDIRECT_-1205973932'), (u'INT_XOR_-1205981363', u'INT_ADD_-1205981358'), ('const-18', u'INT_RIGHT_-1205979560'), (u'INT_RIGHT_-1205991149', u'INT_OR_-1205991148'), ('const-1024', u'INT_MULT_-1205976890'), (u'INT_ADD_-1205984076', u'INT_MULT_-1205984054'), (u'INT_OR_-1205991350', u'INT_ADD_-1205991353'), (u'INT_OR_-1205990742', u'INT_ADD_-1205990361'), (u'INT_XOR_-1205977283', u'INT_ADD_-1205977242'), ('const-22', u'INT_RIGHT_-1205992538'), (u'INT_OR_-1205988521', u'INT_ADD_-1205988001'), (u'STORE_-1205974550', u'INDIRECT_-1205973952'), (u'INT_ADD_-1205992298', u'INT_MULT_-1205992276'), ('const-128', u'INT_MULT_-1205988856'), (u'INDIRECT_-1205980524', u'MULTIEQUAL_-1205980539'), (u'INT_ADD_-1205980610', u'INT_ADD_-1205980527'), (u'INT_ADD_-1205989064', u'INT_RIGHT_-1205988708'), (u'INT_ADD_-1205977682', u'INT_ADD_-1205977656'), (u'INT_ADD_-1205990458', u'INT_RIGHT_-1205989334'), (u'INT_AND_-1205986183', u'INT_XOR_-1205986148'), (u'INT_ADD_-1205977432', u'INT_MULT_-1205977370'), (u'INT_OR_-1205976306', u'INT_ADD_-1205976003'), (u'INT_NEGATE_-1205985007', u'INT_OR_-1205984723'), (u'INT_ADD_-1205977520', u'INT_XOR_-1205977469'), (u'INT_MULT_-1205986229', u'INT_OR_-1205986232'), (u'INT_AND_-1205987505', u'INT_XOR_-1205987476'), (u'INT_MULT_-1205990833', u'INT_OR_-1205990836'), (u'INT_ADD_-1205991353', u'INT_MULT_-1205991223'), ('const-27', u'INT_RIGHT_-1205977430'), (u'INT_OR_-1205990104', u'INT_XOR_-1205990086'), (u'INT_OR_-1205990904', u'INT_ADD_-1205990699'), (u'INT_ADD_-1205984923', u'INT_RIGHT_-1205984292'), (u'INT_XOR_-1205975384', u'INT_ADD_-1205975379'), (u'INT_XOR_-1205978800', u'INT_ADD_-1205978795'), (u'INT_ADD_-1205990797', u'INT_XOR_-1205990756'), (u'INT_ADD_-1205974556', u'STORE_-1205974526'), (u'INT_ADD_-1205979153', u'INT_RIGHT_-1205979119'), (u'INT_OR_-1205987236', u'INT_ADD_-1205986967'), (u'INT_OR_-1205975292', u'INT_ADD_-1205974817'), (u'INT_ADD_-1205988269', u'INT_RIGHT_-1205988251'), (u'INT_OR_-1205975604', u'INT_XOR_-1205975560'), ('const-18', u'INT_RIGHT_-1205975729'), (u'INT_ADD_-1205992850', u'INT_ADD_-1205992824'), (u'INT_MULT_-1205976575', u'INT_OR_-1205976578'), (u'INT_ADD_-1205990402', u'INT_ADD_-1205990335'), (u'INT_ADD_-1205991877', u'INT_ADD_-1205991731'), (u'INT_ADD_-1205979913', u'INT_RIGHT_-1205979805'), (u'INT_OR_-1205975438', u'INT_ADD_-1205975165'), (u'STORE_-1205974670', u'INDIRECT_-1205973970'), (u'INT_XOR_-1205981673', u'INT_ADD_-1205981662'), ('const-32', u'INT_MULT_-1205979875'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205988199'), (u'INT_MULT_-1205977706', u'INT_OR_-1205977709'), (u'INT_XOR_-1205981719', u'INT_AND_-1205981692'), (u'INT_XOR_-1205982448', u'INT_ADD_-1205982413'), (u'INT_OR_-1205979836', u'INT_ADD_-1205979245'), (u'INT_OR_-1205990742', u'INT_XOR_-1205990674'), (u'INT_ADD_-1205990335', u'INT_RIGHT_-1205990311'), (u'INT_RIGHT_-1205975729', u'INT_OR_-1205975728'), (u'INT_XOR_-1205976809', u'INT_ADD_-1205976804'), ('const-76', u'PTRSUB_-1205980048'), ('const-128', u'INT_MULT_-1205989394'), (u'INDIRECT_-1205980569', u'MULTIEQUAL_-1205980584'), ('const-512', u'INT_MULT_-1205980630'), ('const-26', u'INT_RIGHT_-1205984058'), (u'INT_RIGHT_-1205982956', u'INT_OR_-1205982955'), (u'INT_ADD_-1205982616', u'INT_MULT_-1205982588'), (u'INT_ADD_-1205982108', u'INT_RIGHT_-1205981748'), (u'INT_ADD_-1205979015', u'INT_AND_-1205978983'), (u'INT_ADD_-1205977128', u'INT_RIGHT_-1205977100'), (u'STORE_-1205974670', u'INDIRECT_-1205974045'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205981252'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205990428'), (u'INT_RIGHT_-1205986582', u'INT_OR_-1205986581'), ('const-20', u'INT_RIGHT_-1205976115'), (u'INDIRECT_-1205973864', u'COPY_-1205973922'), (u'INT_ADD_-1205988602', u'INT_MULT_-1205988570'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987610'), (u'INT_OR_-1205987622', u'INT_ADD_-1205987177'), (u'INT_MULT_-1205979009', u'INT_OR_-1205979012'), (u'INT_ADD_-1205991459', u'INT_MULT_-1205991437'), (u'INT_ADD_-1205984060', u'INT_MULT_-1205983369'), (u'INT_OR_-1205989585', u'INT_XOR_-1205989453'), ('const-24', u'INT_RIGHT_-1205984220'), ('const-18', u'INT_RIGHT_-1205981796'), (u'INT_OR_-1205990904', u'INT_ADD_-1205990627'), (u'INT_NEGATE_-1205992790', u'INT_OR_-1205992689'), (u'INT_ADD_-1205992386', u'INT_RIGHT_-1205992368'), (u'INT_ADD_-1205984222', u'INT_RIGHT_-1205983315'), (u'INT_ADD_-1205976035', u'INT_XOR_-1205975202'), (u'INT_ADD_-1205980345', u'INT_RIGHT_-1205980291'), (u'STORE_-1205974544', u'INDIRECT_-1205973977'), (u'INT_OR_-1205980956', u'INT_ADD_-1205980495'), (u'INT_OR_-1205976987', u'INT_XOR_-1205976881'), (u'INT_MULT_-1205975055', u'INT_OR_-1205975058'), (u'LOAD_-1205992173', u'INT_XOR_-1205992085'), (u'INT_MULT_-1205986319', u'INT_OR_-1205986322'), (u'INT_ADD_-1205992778', u'INT_RIGHT_-1205992760'), (u'INT_RIGHT_-1205984220', u'INT_OR_-1205984219'), ('const-64', u'INT_MULT_-1205979115'), (u'INT_NEGATE_-1205986483', u'INT_OR_-1205986057'), (u'INT_ADD_-1205979414', u'INT_RIGHT_-1205979369'), (u'INT_ADD_-1205982796', u'INT_MULT_-1205982774'), (u'INT_OR_-1205982271', u'INT_ADD_-1205981840'), (u'INT_ADD_-1205976185', u'INT_RIGHT_-1205975235'), (u'INT_OR_-1205987852', u'INT_ADD_-1205986554'), ('const-1024', u'INT_MULT_-1205982054'), (u'INT_OR_-1205992129', u'INT_ADD_-1205990611'), (u'INT_RIGHT_-1205975517', u'INT_OR_-1205975516'), ('const-22', u'INT_RIGHT_-1205981878'), (u'INT_RIGHT_-1205976894', u'INT_OR_-1205976893'), (u'INT_MULT_-1205979875', u'INT_OR_-1205979878'), (u'PTRSUB_-1205980442', u'PTRADD_-1205980409'), (u'INT_ADD_-1205975731', u'INT_RIGHT_-1205975605'), (u'INT_XOR_-1205975014', u'INT_XOR_-1205974994'), (u'INT_ADD_-1205984516', u'INT_OR_-1205984115'), ('tmp_34209', u'PTRSUB_-1205980335'), ('const-22', u'INT_RIGHT_-1205988708'), ('const-1024', u'INT_MULT_-1205975747'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205976393'), ('const-0', u'PTRSUB_-1205973660'), ('const-22', u'INT_RIGHT_-1205975329'), (u'INT_MULT_-1205981792', u'INT_OR_-1205981795'), (u'INT_OR_-1205975672', u'INT_ADD_-1205975497'), (u'INDIRECT_-1205980698', u'INT_ADD_-1205982354'), (u'INT_MULT_-1205991709', u'INT_OR_-1205991712'), (u'INT_ADD_-1205986544', u'INT_MULT_-1205986501'), ('const-1024', u'INT_MULT_-1205978534'), (u'INT_ADD_-1205983355', u'INT_RIGHT_-1205983337'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205980579'), (u'INT_ADD_-1205991731', u'INT_MULT_-1205991677'), (u'INT_ADD_-1205990448', u'INT_ADD_-1205990382'), (u'INT_ADD_-1205977770', u'INT_MULT_-1205977706'), (u'INT_OR_-1205975968', u'INT_ADD_-1205974582'), ('const-1836072691', u'INT_ADD_-1205983655'), (u'INT_MULT_-1205977370', u'INT_OR_-1205977373'), (u'INT_OR_-1205976000', u'INT_ADD_-1205976003'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205979632'), (u'INT_ADD_-1205985721', u'INT_MULT_-1205984989'), ('tmp_38858', u'MULTIEQUAL_-1205980548'), (u'INT_RIGHT_-1205983337', u'INT_OR_-1205983336'), (u'INT_MULT_-1205977478', u'INT_OR_-1205977481'), ('const-20', u'INT_RIGHT_-1205978290'), (u'INT_OR_-1205989045', u'INT_AND_-1205988970'), (u'INT_ADD_-1205984720', u'INT_MULT_-1205984698'), (u'INT_MULT_-1205990452', u'INT_OR_-1205990455'), (u'INT_OR_-1205978434', u'INT_ADD_-1205977959'), (u'INT_OR_-1205981323', u'INT_ADD_-1205981326'), (u'INT_ADD_-1205987757', u'INT_ADD_-1205987679'), (u'INT_ADD_-1205975379', u'INT_MULT_-1205975357'), (u'INT_ADD_-1205986341', u'INT_MULT_-1205986319'), (u'INT_OR_-1205979517', u'INT_ADD_-1205978103'), (u'INT_OR_-1205991578', u'INT_ADD_-1205991581'), (u'INT_NEGATE_-1205993060', u'INT_OR_-1205992853'), (u'INT_RIGHT_-1205986808', u'INT_OR_-1205986807'), (u'INT_OR_-1205985718', u'INT_ADD_-1205985721'), ('const-21', u'INT_RIGHT_-1205979805'), ('const-26', u'INT_RIGHT_-1205986005'), (u'INT_XOR_-1205979178', u'INT_ADD_-1205979163'), (u'INT_OR_-1205989810', u'INT_ADD_-1205989158'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981211'), (u'INT_ADD_-1205978606', u'INT_XOR_-1205978488'), (u'CALL_-1205993328', u'INDIRECT_-1205980539'), (u'INT_XOR_-1205988331', u'INT_ADD_-1205988326'), ('const-256', u'INT_MULT_-1205984216'), (u'INT_ADD_-1205982796', u'INT_RIGHT_-1205982778'), ('const-64', u'INT_MULT_-1205984054'), (u'INT_ADD_-1205993134', u'INT_ADD_-1205993106'), (u'INT_XOR_-1205987970', u'INT_AND_-1205987895'), (u'STORE_-1205974616', u'INDIRECT_-1205973992'), ('const-4', u'PTRADD_-1205973669'), (u'INT_ADD_-1205990659', u'INT_RIGHT_-1205990609'), ('tmp_34209', u'PTRSUB_-1205980398'), (u'INT_RIGHT_-1205979608', u'INT_OR_-1205979607'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205976922'), (u'INT_MULT_-1205975747', u'INT_OR_-1205975750'), (u'INT_RIGHT_-1205992162', u'INT_OR_-1205992161'), (u'INT_XOR_-1205983019', u'INT_ADD_-1205982994'), (u'INT_ADD_-1205985230', u'INT_MULT_-1205985198'), (u'INT_OR_-1205977517', u'INT_ADD_-1205977520'), (u'INT_MULT_-1205977040', u'INT_OR_-1205977043'), (u'INT_OR_-1205979054', u'INT_ADD_-1205977500'), (u'INT_ADD_-1205990361', u'INT_XOR_-1205990298'), (u'INT_OR_-1205982933', u'INT_ADD_-1205982936'), (u'INT_ADD_-1205982423', u'INT_MULT_-1205982358'), (u'STORE_-1205974526', u'INDIRECT_-1205973932'), ('const-0', u'PTRSUB_-1205979998'), (u'INT_MULT_-1205989058', u'INT_OR_-1205989061'), (u'PTRSUB_-1205973704', u'PTRADD_-1205973684'), (u'INT_ADD_-1205982594', u'INT_XOR_-1205982259'), (u'INT_OR_-1205976540', u'INT_ADD_-1205976273'), (u'INT_ADD_-1205985657', u'INT_ADD_-1205985647'), (u'INT_RIGHT_-1205991441', u'INT_OR_-1205991440'), ('const-1024', u'INT_MULT_-1205981288'), (u'INT_ADD_-1205976185', u'INT_XOR_-1205976092'), (u'STORE_-1205974544', u'INDIRECT_-1205973872'), (u'INT_XOR_-1205979531', u'INT_AND_-1205979478'), (u'INT_RIGHT_-1205990609', u'INT_OR_-1205990608'), (u'INT_MULT_-1205984734', u'INT_OR_-1205984737'), (u'INT_RIGHT_-1205976449', u'INT_OR_-1205976448'), (u'STORE_-1205974544', u'INDIRECT_-1205973947'), (u'INT_ADD_-1205989096', u'INT_ADD_-1205989018'), (u'INT_OR_-1205988759', u'INT_ADD_-1205988179'), (u'STORE_-1205974664', u'INDIRECT_-1205974010'), (u'INT_MULT_-1205990739', u'INT_OR_-1205990742'), (u'INT_MULT_-1205977174', u'INT_OR_-1205977177'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205975399'), (u'INT_OR_-1205989934', u'INT_ADD_-1205989550'), (u'INT_MULT_-1205976669', u'INT_OR_-1205976672'), (u'INT_OR_-1205989934', u'INT_ADD_-1205989468'), (u'INT_ADD_-1205985897', u'INT_ADD_-1205985887'), (u'INT_ADD_-1205992964', u'INT_OR_-1205992853'), (u'INT_OR_-1205983773', u'INT_ADD_-1205983776'), (u'INT_ADD_-1205991443', u'INT_RIGHT_-1205991305'), (u'INT_ADD_-1205991417', u'INT_ADD_-1205991381'), (u'INT_XOR_-1205988737', u'INT_ADD_-1205988674'), (u'INT_OR_-1205974880', u'INT_XOR_-1205974852'), (u'INT_ADD_-1205984923', u'INT_MULT_-1205984288'), (u'INT_ADD_-1205975633', u'INT_ADD_-1205975597'), (u'PTRSUB_-1205973655', u'PTRSUB_-1205973698'), (u'INT_ADD_-1205981546', u'INT_ADD_-1205981510'), (u'INT_OR_-1205980163', u'INT_ADD_-1205979610'), (u'STORE_-1205974544', u'INDIRECT_-1205973902'), (u'INT_ADD_-1205979663', u'INT_RIGHT_-1205979560'), (u'INT_RIGHT_-1205986732', u'INT_OR_-1205986731'), (u'INT_ADD_-1205977154', u'INT_MULT_-1205977122'), ('const-22', u'INT_RIGHT_-1205977028'), (u'LOAD_-1205993205', u'INT_ADD_-1205993134'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205992556'), (u'INT_MULT_-1205979514', u'INT_OR_-1205979517'), (u'INT_OR_-1205978434', u'INT_ADD_-1205978087'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980657'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205989529'), (u'INT_ADD_-1205991443', u'INT_XOR_-1205991338'), (u'INT_XOR_-1205990475', u'INT_XOR_-1205990433'), ('const-1024', u'INT_MULT_-1205987641'), (u'INT_ADD_-1205977046', u'INT_RIGHT_-1205977028'), ('const-4096', u'INT_MULT_-1205976926'), (u'INT_RIGHT_-1205982272', u'INT_OR_-1205982271'), (u'INT_RIGHT_-1205990197', u'INT_OR_-1205990196'), (u'INT_ADD_-1205988546', u'INT_RIGHT_-1205988410'), (u'INT_ADD_-1205978400', u'INT_XOR_-1205978303'), (u'INT_ADD_-1205976051', u'INT_MULT_-1205975997'), (u'INT_MULT_-1205991223', u'INT_OR_-1205991226'), ('const-23', u'INT_RIGHT_-1205977638'), (u'INT_OR_-1205986081', u'INT_ADD_-1205985721'), ('const-1024', u'INT_MULT_-1205990979'), (u'INT_ADD_-1205989715', u'INT_ADD_-1205989652'), (u'INT_OR_-1205980189', u'INT_ADD_-1205980192'), ('const-8192', u'INT_MULT_-1205987561'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989529'), (u'INT_NEGATE_-1205976758', u'INT_OR_-1205976142'), (u'INT_ADD_-1205981798', u'INT_RIGHT_-1205981428'), ('const-19', u'INT_RIGHT_-1205982330'), ('const-25', u'INT_RIGHT_-1205987101'), (u'INT_RIGHT_-1205981324', u'INT_OR_-1205981323'), (u'INT_MULT_-1205987995', u'INT_OR_-1205987998'), ('const-22', u'INT_RIGHT_-1205974692'), (u'INT_OR_-1205982501', u'INT_ADD_-1205982108'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205978051'), (u'INT_OR_-1205976841', u'INT_ADD_-1205976844'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205981825'), (u'INT_ADD_-1205978087', u'INT_MULT_-1205976537'), ('const-4', u'PTRADD_-1205993242'), (u'INT_MULT_-1205987443', u'INT_OR_-1205987446'), (u'INT_RIGHT_-1205980535', u'INT_OR_-1205980534'), (u'INT_AND_-1205980104', u'INT_XOR_-1205980085'), (u'INT_XOR_-1205978051', u'INT_AND_-1205978040'), ('const-256', u'INT_MULT_-1205975569'), (u'INT_ADD_-1205991119', u'INT_RIGHT_-1205990983'), (u'INT_ADD_-1205985591', u'INT_MULT_-1205985336'), (u'INT_ADD_-1205985443', u'INT_OR_-1205985283'), (u'INT_OR_-1205992867', u'INT_ADD_-1205992870'), (u'STORE_-1205974532', u'INDIRECT_-1205973952'), (u'INT_OR_-1205993005', u'INT_XOR_-1205992923'), (u'INT_ADD_-1205975847', u'INT_MULT_-1205975803'), ('const-1548603684', u'INT_ADD_-1205986371'), ('const-22', u'INT_RIGHT_-1205990213'), (u'INT_ADD_-1205984096', u'INT_ADD_-1205984076'), (u'STORE_-1205974538', u'INDIRECT_-1205973927'), ('const-1859775393', u'INT_ADD_-1205983832'), (u'INT_XOR_-1205988210', u'INT_AND_-1205988183'), (u'INT_OR_-1205974944', u'INT_ADD_-1205974947'), (u'INT_NEGATE_-1205983579', u'INT_OR_-1205983236'), (u'INT_XOR_-1205989259', u'INT_ADD_-1205989226'), (u'INT_ADD_-1205991213', u'INT_RIGHT_-1205991195'), (u'INT_ADD_-1205986325', u'INT_NEGATE_-1205985957'), (u'INT_OR_-1205981877', u'INT_AND_-1205981844'), (u'INT_ADD_-1205979913', u'INT_MULT_-1205979801'), (u'INT_RIGHT_-1205979391', u'INT_OR_-1205979390'), (u'INT_XOR_-1205983228', u'INT_ADD_-1205983213'), (u'INT_RIGHT_-1205982330', u'INT_OR_-1205982329'), ('const-22', u'INT_RIGHT_-1205977909'), (u'INT_XOR_-1205990684', u'INT_ADD_-1205990659'), (u'PTRSUB_-1205973723', u'PTRSUB_-1205973769'), (u'INT_ADD_-1205975363', u'INT_XOR_-1205975150'), (u'INT_ADD_-1205986507', u'INT_MULT_-1205985849'), (u'INT_ADD_-1205974969', u'INT_RIGHT_-1205974945'), (u'INT_ADD_-1205974721', u'STORE_-1205974544'), (u'INT_OR_-1205980226', u'INT_XOR_-1205980177'), (u'INT_AND_-1205988678', u'INT_XOR_-1205988627'), (u'INT_OR_-1205982245', u'INT_XOR_-1205982197'), (u'INT_NEGATE_-1205984198', u'INT_OR_-1205983815'), (u'INT_ADD_-1205982018', u'INT_ADD_-1205981998'), (u'INT_OR_-1205976286', u'INT_XOR_-1205976242'), ('const-1024', u'INT_MULT_-1205975965'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205986790'), ('const-512', u'INT_MULT_-1205987797'), (u'INT_ADD_-1205976804', u'INT_RIGHT_-1205976786'), (u'INT_OR_-1205992759', u'INT_ADD_-1205992350'), (u'INT_OR_-1205982633', u'INT_ADD_-1205982124'), (u'STORE_-1205974670', u'INDIRECT_-1205974015'), ('const-1024', u'INT_MULT_-1205989582'), (u'STORE_-1205974532', u'INDIRECT_-1205973982'), (u'INT_OR_-1205992265', u'INT_XOR_-1205992247'), (u'INT_OR_-1205980163', u'INT_AND_-1205980104'), (u'INT_MULT_-1205982118', u'INT_OR_-1205982121'), (u'INT_ADD_-1205975711', u'INT_ADD_-1205975691'), ('const-2053994217', u'INT_ADD_-1205979494'), ('const-2400959708', u'INT_ADD_-1205980688'), (u'INT_ADD_-1205982354', u'INT_ADD_-1205982322'), (u'INT_OR_-1205990608', u'INT_ADD_-1205990611'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987970'), (u'INT_AND_-1205982206', u'INT_XOR_-1205982151'), (u'INT_OR_-1205981579', u'INT_ADD_-1205981226'), (u'INT_RIGHT_-1205979013', u'INT_OR_-1205979012'), (u'INT_ADD_-1205984704', u'INT_MULT_-1205983890'), (u'INT_ADD_-1205975379', u'INT_RIGHT_-1205975361'), ('const-1024', u'INT_MULT_-1205977370'), (u'INT_NEGATE_-1205990815', u'INT_OR_-1205990718'), ('const-8192', u'INT_MULT_-1205986319'), (u'INT_ADD_-1205990335', u'INT_MULT_-1205990307'), (u'INT_ADD_-1205989875', u'INT_ADD_-1205989839'), (u'PTRSUB_-1205980458', u'PTRADD_-1205980423'), (u'INT_OR_-1205987148', u'INT_ADD_-1205986770'), (u'INT_ADD_-1205990003', u'INT_MULT_-1205989807'), (u'INT_ADD_-1205979121', u'INT_MULT_-1205979051'), (u'INT_MULT_-1205980614', u'INT_OR_-1205980617'), (u'STORE_-1205974544', u'INDIRECT_-1205974007'), (u'INT_RIGHT_-1205978398', u'INT_OR_-1205978397'), (u'INT_OR_-1205986322', u'INT_ADD_-1205986325'), ('const-17', u'INT_RIGHT_-1205985202'), ('const-22', u'INT_RIGHT_-1205991563'), ('const-1024', u'INT_MULT_-1205978060'), (u'INT_ADD_-1205988852', u'INT_ADD_-1205988674'), (u'INT_ADD_-1205984796', u'INT_ADD_-1205984786'), (u'INT_XOR_-1205991756', u'INT_ADD_-1205991731'), ('const-1024', u'INT_MULT_-1205986078'), (u'INT_MULT_-1205989330', u'INT_OR_-1205989333'), (u'INT_ADD_-1205989416', u'INT_MULT_-1205989394'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205975259'), (u'INT_ADD_-1205978689', u'INT_ADD_-1205978669'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205991877'), ('const-512', u'INT_MULT_-1205978600'), ('const-22', u'INT_RIGHT_-1205985308'), (u'INT_ADD_-1205985721', u'INT_NEGATE_-1205985633'), (u'INT_MULT_-1205978014', u'INT_OR_-1205978017'), (u'INT_ADD_-1205992370', u'INT_RIGHT_-1205992322'), (u'INT_ADD_-1205976237', u'INT_RIGHT_-1205976183'), (u'INT_ADD_-1205982413', u'INT_MULT_-1205982326'), (u'INT_RIGHT_-1205986125', u'INT_OR_-1205986124'), ('const-22', u'INT_RIGHT_-1205981292'), (u'INT_ADD_-1205976217', u'INT_ADD_-1205976159'), (u'INT_XOR_-1205976628', u'INT_AND_-1205976617'), (u'INT_XOR_-1205988284', u'INT_ADD_-1205988269'), (u'INT_ADD_-1205983501', u'INT_MULT_-1205982820'), (u'INT_OR_-1205983141', u'INT_ADD_-1205982520'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205985505'), (u'INT_ADD_-1205981662', u'INT_RIGHT_-1205981644'), (u'INT_OR_-1205986807', u'INT_ADD_-1205986361'), (u'INT_ADD_-1205977510', u'INT_ADD_-1205977500'), (u'INT_ADD_-1205991683', u'INT_XOR_-1205991628'), (u'INT_RIGHT_-1205986608', u'INT_OR_-1205986607'), ('const-2400959708', u'INT_ADD_-1205981414'), (u'CALL_-1205993328', u'INDIRECT_-1205980536'), (u'INT_ADD_-1205975497', u'INT_XOR_-1205975404'), (u'INT_ADD_-1205992226', u'INT_MULT_-1205992204'), (u'INT_XOR_-1205984081', u'INT_ADD_-1205984076'), ('const-1024', u'INT_MULT_-1205977905'), (u'INT_AND_-1205990163', u'INT_XOR_-1205990144'), (u'INT_XOR_-1205976608', u'INT_ADD_-1205976597'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205975311'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205984562'), (u'INT_ADD_-1205978155', u'INT_ADD_-1205978113'), (u'INT_MULT_-1205977853', u'INT_OR_-1205977856'), (u'INT_OR_-1205982476', u'INT_XOR_-1205982448'), ('const-1024', u'INT_MULT_-1205977024'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205980146'), (u'INT_OR_-1205988457', u'INT_ADD_-1205988111'), (u'INT_OR_-1205991562', u'INT_ADD_-1205989274'), (u'INT_OR_-1205985736', u'INT_XOR_-1205985596'), (u'INT_OR_-1205993071', u'INT_ADD_-1205992664'), ('const-25', u'INT_RIGHT_-1205985340'), (u'INT_XOR_-1205993175', u'INT_ADD_-1205993106'), (u'STORE_-1205974526', u'INDIRECT_-1205973977'), (u'INT_XOR_-1205987004', u'INT_ADD_-1205986999'), (u'INT_OR_-1205976769', u'INT_NEGATE_-1205976758'), (u'INT_ADD_-1205976347', u'INT_ADD_-1205976283'), ('const-128', u'INT_MULT_-1205992204'), (u'STORE_-1205974526', u'INDIRECT_-1205973902'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976922'), (u'INT_MULT_-1205977426', u'INT_OR_-1205977429'), (u'INT_OR_-1205975058', u'INT_ADD_-1205974797'), (u'INT_OR_-1205985852', u'INT_ADD_-1205985369'), (u'INT_MULT_-1205980186', u'INT_OR_-1205980189'), (u'INT_ADD_-1205977927', u'INT_MULT_-1205976445'), (u'INT_OR_-1205984992', u'INT_ADD_-1205984400'), (u'INT_RIGHT_-1205981580', u'INT_OR_-1205981579'), ('const-1024', u'INT_MULT_-1205989330'), (u'INT_OR_-1205990104', u'INT_ADD_-1205989839'), ('const-22', u'INT_RIGHT_-1205977622'), (u'INT_OR_-1205990196', u'INT_ADD_-1205990199'), (u'INT_XOR_-1205988935', u'INT_ADD_-1205988910'), (u'MULTIEQUAL_-1205981172', u'PTRADD_-1205993242'), (u'INT_AND_-1205979723', u'INT_XOR_-1205979684'), (u'INT_ADD_-1205993090', u'INT_XOR_-1205993033'), ('const-1024', u'INT_MULT_-1205976537'), (u'INT_OR_-1205991712', u'INT_NEGATE_-1205991639'), (u'INT_MULT_-1205978757', u'INT_OR_-1205978760'), (u'INT_ADD_-1205974979', u'INT_RIGHT_-1205974909'), ('const-21', u'INT_RIGHT_-1205986505'), (u'INT_XOR_-1205977896', u'INT_AND_-1205977869'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205982530'), (u'INT_RIGHT_-1205985719', u'INT_OR_-1205985718'), (u'INT_OR_-1205984920', u'INT_ADD_-1205984923'), (u'INT_ADD_-1205991443', u'INT_XOR_-1205991402'), (u'INT_RIGHT_-1205982824', u'INT_OR_-1205982823'), ('const-22', u'INT_RIGHT_-1205992162'), (u'INT_ADD_-1205982332', u'INT_OR_-1205982231'), (u'INT_ADD_-1205986054', u'INT_ADD_-1205986034'), (u'INT_OR_-1205976869', u'INT_XOR_-1205976809'), (u'INT_ADD_-1205991663', u'INT_ADD_-1205991597'), (u'INT_ADD_-1205975653', u'INT_XOR_-1205975560'), (u'INT_AND_-1205988980', u'INT_XOR_-1205988925'), (u'INT_MULT_-1205974877', u'INT_OR_-1205974880'), (u'INT_ADD_-1205984652', u'INT_MULT_-1205984022'), ('const-64', u'INT_MULT_-1205974747'), (u'INT_ADD_-1205986554', u'INT_ADD_-1205986544'), (u'INT_RIGHT_-1205976842', u'INT_OR_-1205976841'), (u'INT_ADD_-1205975009', u'INT_ADD_-1205974969'), (u'INDIRECT_-1205973954', u'COPY_-1205974012'), (u'INT_ADD_-1205975217', u'INT_ADD_-1205975197'), (u'INT_OR_-1205976016', u'INT_ADD_-1205975789'), (u'INT_ADD_-1205981814', u'INT_RIGHT_-1205981796'), (u'INT_XOR_-1205980360', u'INT_ADD_-1205980345'), ('const-22', u'INT_RIGHT_-1205984492'), ('const-7', u'PTRADD_-1205973669'), ('const-417', u'LOAD_-1205992081'), (u'INT_RIGHT_-1205988760', u'INT_OR_-1205988759'), ('const-26', u'INT_RIGHT_-1205990121'), (u'INT_ADD_-1205983186', u'INT_MULT_-1205982498'), ('const-26', u'INT_RIGHT_-1205975417'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986795'), (u'INT_ADD_-1205979393', u'INT_XOR_-1205979000'), (u'INT_MULT_-1205980160', u'INT_OR_-1205980163'), (u'INT_OR_-1205981877', u'INT_ADD_-1205981546'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205975555'), (u'INT_RIGHT_-1205988522', u'INT_OR_-1205988521'), (u'INT_ADD_-1205988033', u'INT_MULT_-1205987995'), (u'INT_OR_-1205976448', u'INT_ADD_-1205976087'), (u'INT_RIGHT_-1205984650', u'INT_OR_-1205984649'), ('const-16384', u'INT_MULT_-1205981792'), ('const-22', u'INT_RIGHT_-1205979518'), (u'INT_ADD_-1205984704', u'INT_RIGHT_-1205983894'), (u'INT_ADD_-1205990699', u'INT_MULT_-1205990241'), (u'INT_ADD_-1205988326', u'INT_RIGHT_-1205988308'), (u'INT_ADD_-1205983517', u'INT_OR_-1205983236'), (u'INT_RIGHT_-1205984292', u'INT_OR_-1205984291'), (u'INT_ADD_-1205975269', u'INT_MULT_-1205975159'), (u'INT_ADD_-1205990139', u'INT_MULT_-1205990117'), (u'INT_OR_-1205991530', u'INT_XOR_-1205991506'), (u'INT_RIGHT_-1205982592', u'INT_OR_-1205982591'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981399'), (u'INT_ADD_-1205977770', u'INT_XOR_-1205977667'), ('const-1024', u'INT_MULT_-1205992158'), (u'INT_ADD_-1205988001', u'INT_XOR_-1205987736'), (u'INT_ADD_-1205987177', u'INT_ADD_-1205987135'), (u'CALL_-1205974449', u'INDIRECT_-1205973849'), (u'INT_ADD_-1205991353', u'INT_XOR_-1205991260'), (u'INT_ADD_-1205979562', u'INT_MULT_-1205979025'), (u'INT_ADD_-1205983501', u'INT_RIGHT_-1205982824'), (u'INT_NEGATE_-1205975915', u'INT_OR_-1205974866'), (u'INT_MULT_-1205985833', u'INT_OR_-1205985836'), (u'INT_OR_-1205984177', u'INT_ADD_-1205983918'), (u'INT_ADD_-1205975909', u'INT_MULT_-1205975881'), (u'LOAD_-1205993274', u'INT_LEFT_-1205993224'), (u'INT_ADD_-1205992870', u'INT_OR_-1205992735'), (u'INT_ADD_-1205980080', u'INT_ADD_-1205980054'), (u'INT_OR_-1205975932', u'INT_ADD_-1205975731'), (u'INT_XOR_-1205977469', u'INT_ADD_-1205977458'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986692'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205992050'), (u'INT_OR_-1205990960', u'INT_ADD_-1205990963'), (u'INDIRECT_-1205980683', u'INT_ADD_-1205980146'), (u'INT_RIGHT_-1205986301', u'INT_OR_-1205986300'), (u'INT_ADD_-1205978795', u'INT_MULT_-1205978757'), (u'INT_ADD_-1205980245', u'INT_ADD_-1205980219'), (u'INT_ADD_-1205990382', u'INT_RIGHT_-1205990359'), (u'INT_OR_-1205986452', u'INT_ADD_-1205985887'), (u'INT_NEGATE_-1205985633', u'INT_OR_-1205985283'), ('const-22', u'INT_RIGHT_-1205977178'), (u'INT_ADD_-1205992964', u'INT_MULT_-1205992932'), (u'INT_RIGHT_-1205980291', u'INT_OR_-1205980290'), (u'INT_MULT_-1205991777', u'INT_OR_-1205991780'), (u'INT_AND_-1205981692', u'INT_XOR_-1205981673'), ('tmp_38894', u'MULTIEQUAL_-1205980731'), (u'INT_ADD_-1205984704', u'INT_NEGATE_-1205984670'), (u'INT_ADD_-1205978113', u'INT_RIGHT_-1205978085'), (u'INT_MULT_-1205985747', u'INT_OR_-1205985750'), (u'MULTIEQUAL_-1205981173', u'CALL_-1205993328'), ('const-8192', u'INT_MULT_-1205983770'), (u'INT_ADD_-1205980897', u'INT_ADD_-1205980877'), (u'INT_RIGHT_-1205984738', u'INT_OR_-1205984737'), (u'INT_OR_-1205990525', u'INT_ADD_-1205990273'), (u'INT_RIGHT_-1205982934', u'INT_OR_-1205982933'), (u'COPY_-1205980514', u'MULTIEQUAL_-1205981173'), (u'INT_RIGHT_-1205984894', u'INT_OR_-1205984893'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205985300'), (u'INT_MULT_-1205983138', u'INT_OR_-1205983141'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205989096'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981673'), (u'INT_OR_-1205993161', u'INT_ADD_-1205992706'), (u'INT_XOR_-1205977844', u'INT_ADD_-1205977792'), (u'INT_ADD_-1205977232', u'INT_ADD_-1205977206'), (u'INT_OR_-1205983314', u'INT_ADD_-1205982658'), ('const-2048', u'INT_MULT_-1205987995'), ('const-1024', u'INT_MULT_-1205978312'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205982872'), (u'INT_ADD_-1205990199', u'INT_RIGHT_-1205990033'), (u'INT_OR_-1205988707', u'INT_XOR_-1205988617'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205990933'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992422'), (u'INT_OR_-1205984025', u'INT_ADD_-1205983501'), (u'INT_ADD_-1205987567', u'INT_NEGATE_-1205986633'), (u'INT_OR_-1205982751', u'INT_ADD_-1205982364'), (u'STORE_-1205974670', u'INDIRECT_-1205974000'), (u'INT_OR_-1205976672', u'INT_XOR_-1205976608'), ('const-18', u'INT_RIGHT_-1205985441'), ('const-16384', u'INT_MULT_-1205983912'), ('const-19', u'INT_RIGHT_-1205989208'), (u'STORE_-1205974670', u'INDIRECT_-1205974075'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976533'), (u'INT_ADD_-1205986127', u'INT_OR_-1205985802'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205977844'), (u'INT_RIGHT_-1205974909', u'INT_OR_-1205974908'), (u'INT_OR_-1205980492', u'INT_ADD_-1205980495'), (u'INT_OR_-1205979028', u'INT_ADD_-1205978763'), (u'INT_XOR_-1205989437', u'INT_ADD_-1205989426'), (u'INT_OR_-1205989113', u'INT_ADD_-1205988652'), ('const-128', u'INT_MULT_-1205990484'), (u'INT_OR_-1205981291', u'INT_ADD_-1205980672'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992716'), (u'INDIRECT_-1205980521', u'INT_EQUAL_-1205974552'), (u'INT_OR_-1205992661', u'INT_ADD_-1205992664'), (u'STORE_-1205974526', u'INDIRECT_-1205973872'), (u'INT_RIGHT_-1205987999', u'INT_OR_-1205987998'), (u'INT_ADD_-1205981646', u'INT_MULT_-1205981288'), (u'LOAD_-1205974647', u'INT_EQUAL_-1205974552'), (u'PTRSUB_-1205979959', u'PTRSUB_-1205980008'), (u'INT_ADD_-1205978566', u'INT_ADD_-1205978530'), ('const-4', u'PTRADD_-1205973684'), (u'INT_OR_-1205983141', u'INT_ADD_-1205982594'), (u'INT_OR_-1205981579', u'INT_AND_-1205981530'), (u'INT_ADD_-1205987319', u'INT_MULT_-1205987249'), ('const-2048', u'INT_MULT_-1205991035'), ('const-22', u'INT_RIGHT_-1205978435'), (u'INDIRECT_-1205980563', u'MULTIEQUAL_-1205980578'), (u'INT_NEGATE_-1205986633', u'INT_OR_-1205986567'), (u'INT_RIGHT_-1205993162', u'INT_OR_-1205993161'), ('const-26', u'INT_RIGHT_-1205977214'), (u'INT_ADD_-1205974737', u'STORE_-1205974616'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986795'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205993028'), (u'INT_OR_-1205976166', u'INT_ADD_-1205975867'), (u'INT_ADD_-1205985987', u'INT_ADD_-1205985779'), (u'INT_MULT_-1205981168', u'INT_OR_-1205981171'), (u'PTRADD_-1205973684', u'STORE_-1205974550'), (u'INT_ADD_-1205987287', u'INT_MULT_-1205986078'), ('const-1024', u'INT_MULT_-1205979333'), (u'INT_ADD_-1205988111', u'INT_RIGHT_-1205987405'), (u'INT_OR_-1205988307', u'INT_ADD_-1205988310'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988210'), (u'STORE_-1205974532', u'INDIRECT_-1205973892'), (u'INT_ADD_-1205990382', u'INT_MULT_-1205990355'), (u'INT_OR_-1205979028', u'INT_ADD_-1205978669'), ('const-22', u'INT_RIGHT_-1205984738'), (u'INT_OR_-1205980450', u'INT_ADD_-1205979881'), (u'INT_RIGHT_-1205977518', u'INT_OR_-1205977517'), (u'INT_OR_-1205975516', u'INT_XOR_-1205975482'), ('const-1024', u'INT_MULT_-1205975929'), (u'STORE_-1205974538', u'INDIRECT_-1205973987'), ('tmp_38870', u'MULTIEQUAL_-1205980584'), (u'LOAD_-1205993258', u'INT_RIGHT_-1205993162'), ('const-10', u'INT_LEFT_-1205991890'), (u'INT_ADD_-1205976367', u'INT_OR_-1205976142'), ('const-24', u'INT_RIGHT_-1205993088'), ('const-19', u'INT_RIGHT_-1205989903'), (u'INT_XOR_-1205989023', u'INT_AND_-1205988970'), ('const-21', u'INT_RIGHT_-1205974719'), (u'INT_ADD_-1205987767', u'INT_XOR_-1205987526'), ('const-22', u'INT_RIGHT_-1205992936'), (u'INT_OR_-1205978744', u'INT_ADD_-1205978503'), ('const-22', u'INT_RIGHT_-1205989046'), (u'INT_MULT_-1205980953', u'INT_OR_-1205980956'), (u'INT_OR_-1205990904', u'INT_XOR_-1205990870'), (u'INT_XOR_-1205991804', u'INT_XOR_-1205991756'), ('const-1024', u'INT_MULT_-1205975819'), ('const-22', u'INT_RIGHT_-1205991697'), (u'INT_OR_-1205989774', u'INT_ADD_-1205989777'), (u'INT_OR_-1205992537', u'INT_ADD_-1205992015'), (u'CALL_-1205974449', u'INDIRECT_-1205973732'), (u'INT_OR_-1205982955', u'INT_ADD_-1205982958'), (u'INT_XOR_-1205979918', u'INT_ADD_-1205979913'), (u'LOAD_-1205993137', u'INT_ADD_-1205993090'), (u'INT_MULT_-1205980016', u'INT_OR_-1205980019'), (u'INT_ADD_-1205977640', u'INT_XOR_-1205977573'), (u'INT_OR_-1205986581', u'INT_XOR_-1205986559'), (u'INT_RIGHT_-1205979518', u'INT_OR_-1205979517'), (u'INT_MULT_-1205976445', u'INT_OR_-1205976448'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205987783'), (u'INT_MULT_-1205977096', u'INT_OR_-1205977099'), (u'INT_ADD_-1205979393', u'INT_RIGHT_-1205978897'), (u'INT_MULT_-1205992126', u'INT_OR_-1205992129'), (u'PTRSUB_-1205973774', u'STORE_-1205974676'), ('const-32', u'INT_MULT_-1205983180'), ('const-8192', u'INT_MULT_-1205982326'), (u'INT_AND_-1205990277', u'INT_XOR_-1205990258'), (u'INT_OR_-1205982456', u'INT_XOR_-1205982438'), (u'INT_ADD_-1205992282', u'INT_RIGHT_-1205992162'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205989294'), (u'INT_RIGHT_-1205990311', u'INT_OR_-1205990310'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992850'), (u'INT_OR_-1205986081', u'INT_ADD_-1205985475'), (u'INT_MULT_-1205990193', u'INT_OR_-1205990196'), (u'INT_MULT_-1205992864', u'INT_OR_-1205992867'), (u'INT_OR_-1205981747', u'INT_ADD_-1205981394'), (u'INT_MULT_-1205975669', u'INT_OR_-1205975672'), (u'INT_MULT_-1205980447', u'INT_OR_-1205980450'), (u'INT_XOR_-1205975274', u'INT_ADD_-1205975269'), (u'PTRADD_-1205979981', u'LOAD_-1205992173'), (u'STORE_-1205974676', u'INDIRECT_-1205974005'), (u'INT_OR_-1205978625', u'INT_ADD_-1205978400'), ('const-27', u'INT_RIGHT_-1205977925'), (u'INDIRECT_-1205980743', u'MULTIEQUAL_-1205980746'), (u'INT_ADD_-1205986667', u'INT_ADD_-1205986647'), (u'INT_RIGHT_-1205989062', u'INT_OR_-1205989061'), (u'INT_OR_-1205976166', u'INT_ADD_-1205975887'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988445'), (u'INT_ADD_-1205982780', u'INT_MULT_-1205982385'), (u'INT_ADD_-1205974947', u'INT_XOR_-1205974832'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205988627'), (u'INT_XOR_-1205990433', u'INT_ADD_-1205990382'), ('const-1024', u'INT_MULT_-1205988219'), ('const-32', u'INT_MULT_-1205976838'), (u'INT_XOR_-1205990948', u'INT_XOR_-1205990938'), (u'INT_ADD_-1205990237', u'INT_MULT_-1205990193'), (u'INT_ADD_-1205984060', u'INT_RIGHT_-1205983373'), (u'INT_ADD_-1205986999', u'INT_MULT_-1205986961'), (u'INT_MULT_-1205978312', u'INT_OR_-1205978315'), (u'INT_OR_-1205989207', u'INT_ADD_-1205989210'), ('const-19', u'INT_RIGHT_-1205986323'), (u'INT_ADD_-1205976844', u'INT_XOR_-1205976809'), (u'INT_ADD_-1205991197', u'INT_XOR_-1205991172'), (u'INT_ADD_-1205975887', u'INT_RIGHT_-1205975751'), (u'INT_ADD_-1205975769', u'INT_RIGHT_-1205975729'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205974937'), ('const-8192', u'INT_MULT_-1205977040'), ('const-23', u'INT_RIGHT_-1205985751'), (u'INT_AND_-1205989849', u'INT_XOR_-1205989824'), ('const-0', u'PTRSUB_-1205980364'), (u'INT_AND_-1205987541', u'INT_XOR_-1205987516'), (u'INT_MULT_-1205988882', u'INT_OR_-1205988885'), ('const-22', u'INT_RIGHT_-1205982752'), (u'INT_ADD_-1205982166', u'INT_MULT_-1205982118'), (u'PTRADD_-1205979936', u'LOAD_-1205992081'), ('const-512', u'INT_MULT_-1205977634'), (u'INT_MULT_-1205990101', u'INT_OR_-1205990104'), (u'INT_ADD_-1205990313', u'INT_RIGHT_-1205990105'), (u'INT_NEGATE_-1205976748', u'INT_OR_-1205976506'), ('const-1024', u'INT_MULT_-1205990209'), (u'INT_ADD_-1205976185', u'INT_MULT_-1205975231'), ('const-17', u'INT_RIGHT_-1205988410'), (u'INT_XOR_-1205984537', u'INT_ADD_-1205984532'), ('const-22', u'INT_RIGHT_-1205991531'), (u'INT_XOR_-1205980970', u'INT_AND_-1205980907'), (u'INT_ADD_-1205976581', u'INT_RIGHT_-1205976307'), (u'INT_OR_-1205982057', u'INT_ADD_-1205981688'), (u'INDIRECT_-1205973894', u'COPY_-1205973952'), (u'INT_MULT_-1205990791', u'INT_OR_-1205990794'), (u'INT_ADD_-1205989426', u'INT_MULT_-1205989362'), (u'INT_MULT_-1205987619', u'INT_OR_-1205987622'), (u'INT_ADD_-1205982958', u'INT_MULT_-1205982242'), (u'INT_MULT_-1205978741', u'INT_OR_-1205978744'), (u'INT_ADD_-1205985443', u'INT_NEGATE_-1205985043'), ('const-0', u'PTRSUB_-1205980398'), (u'INT_XOR_-1205987700', u'INT_ADD_-1205987679'), ('const-21', u'INT_RIGHT_-1205991961'), (u'INT_OR_-1205992465', u'INT_ADD_-1205991867'), ('const-1024', u'INT_MULT_-1205983138'), (u'INT_ADD_-1205974582', u'STORE_-1205974538'), (u'INT_RIGHT_-1205977638', u'INT_OR_-1205977637'), (u'INT_OR_-1205989239', u'INT_ADD_-1205988852'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205984430'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205988199'), (u'INT_ADD_-1205976948', u'INT_MULT_-1205976926'), (u'INT_ADD_-1205979393', u'INT_AND_-1205979229'), (u'INT_RIGHT_-1205976001', u'INT_OR_-1205976000'), ('const-256', u'INT_MULT_-1205989677'), (u'INT_RIGHT_-1205987285', u'INT_OR_-1205987284'), (u'INT_ADD_-1205982958', u'INT_NEGATE_-1205982838'), (u'INT_ADD_-1205975597', u'INT_RIGHT_-1205975573'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205986173'), (u'INT_OR_-1205977481', u'INT_ADD_-1205977128'), ('const-21', u'INT_RIGHT_-1205977338'), (u'STORE_-1205974550', u'INDIRECT_-1205973982'), ('const-27', u'INT_RIGHT_-1205983184'), (u'INT_OR_-1205991466', u'INT_ADD_-1205991275'), (u'INT_OR_-1205981643', u'INT_ADD_-1205981646'), (u'INT_RIGHT_-1205990883', u'INT_OR_-1205990882'), (u'INT_MULT_-1205987979', u'INT_OR_-1205987982'), (u'INT_OR_-1205982809', u'INT_XOR_-1205982801'), (u'INT_MULT_-1205976319', u'INT_OR_-1205976322'), (u'INT_XOR_-1205989663', u'INT_ADD_-1205989652'), (u'INT_ADD_-1205986853', u'INT_RIGHT_-1205986835'), (u'INT_OR_-1205976032', u'INT_ADD_-1205976035'), ('const-24', u'INT_RIGHT_-1205989681'), (u'INT_ADD_-1205983533', u'INT_MULT_-1205983511'), (u'INT_ADD_-1205981662', u'INT_MULT_-1205981640'), (u'INT_AND_-1205977869', u'INT_XOR_-1205977844'), ('const-1024', u'INT_MULT_-1205991559'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205986858'), (u'INT_ADD_-1205992422', u'INT_ADD_-1205992412'), (u'INDIRECT_-1205980728', u'INT_ADD_-1205988279'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981567'), (u'INT_ADD_-1205986734', u'INT_RIGHT_-1205986233'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205990448'), (u'INT_XOR_-1205975774', u'INT_ADD_-1205975769'), ('tmp_34209', u'PTRSUB_-1205973728'), (u'INT_ADD_-1205993090', u'INT_OR_-1205993005'), (u'INT_RIGHT_-1205992868', u'INT_OR_-1205992867'), (u'INT_RIGHT_-1205986705', u'INT_OR_-1205986704'), (u'INT_OR_-1205977125', u'INT_ADD_-1205977128'), ('const-1024', u'INT_MULT_-1205974877'), (u'INT_RIGHT_-1205984058', u'INT_OR_-1205984057'), (u'INT_RIGHT_-1205985308', u'INT_OR_-1205985307'), (u'INT_OR_-1205989333', u'INT_ADD_-1205988642'), (u'INT_OR_-1205984585', u'INT_ADD_-1205984060'), (u'INT_ADD_-1205977656', u'INT_MULT_-1205977634'), (u'INT_ADD_-1205985147', u'INT_ADD_-1205985121'), (u'INT_OR_-1205993047', u'INT_XOR_-1205993033'), (u'INT_ADD_-1205990559', u'INT_ADD_-1205990518'), ('const-16384', u'INT_MULT_-1205981456'), (u'INT_ADD_-1205991623', u'INT_MULT_-1205991601'), ('const-1024', u'INT_MULT_-1205979514'), (u'INT_OR_-1205991890', u'INT_ADD_-1205991491'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205991011'), (u'INT_XOR_-1205979776', u'INT_AND_-1205979723'), (u'INT_OR_-1205979336', u'INT_XOR_-1205979276'), (u'INT_ADD_-1205975887', u'INT_XOR_-1205975852'), ('const-1024', u'INT_MULT_-1205989110'), (u'INT_ADD_-1205986853', u'INT_MULT_-1205986831'), ('const-2', u'PTRADD_-1205980018'), (u'INT_OR_-1205985822', u'INT_XOR_-1205985784'), ('const-22', u'INT_RIGHT_-1205978018'), (u'INT_AND_-1205989278', u'INT_XOR_-1205989259'), (u'INT_XOR_-1205990756', u'INT_ADD_-1205990735'), ('const-1859775393', u'INT_ADD_-1205985379'), (u'INT_RIGHT_-1205981460', u'INT_OR_-1205981459'), (u'INT_ADD_-1205976051', u'INT_RIGHT_-1205976001'), (u'INT_ADD_-1205991297', u'INT_MULT_-1205991269'), (u'INT_RIGHT_-1205974554', u'INT_OR_-1205974553'), (u'INT_XOR_-1205986755', u'INT_ADD_-1205986750'), (u'INT_ADD_-1205976367', u'INT_XOR_-1205976242'), (u'STORE_-1205974550', u'INDIRECT_-1205973922'), (u'INT_ADD_-1205976367', u'INT_MULT_-1205976195'), (u'INT_ADD_-1205984652', u'INT_NEGATE_-1205984322'), (u'INT_OR_-1205989333', u'INT_ADD_-1205988888'), (u'INT_ADD_-1205980100', u'INT_MULT_-1205979984'), (u'INT_RIGHT_-1205990343', u'INT_OR_-1205990342'), (u'STORE_-1205974526', u'INDIRECT_-1205973962'), ('const-22', u'INT_RIGHT_-1205976770'), ('const-21', u'INT_RIGHT_-1205989775'), (u'INT_OR_-1205987924', u'INT_XOR_-1205987886'), (u'INT_ADD_-1205988950', u'INT_ADD_-1205988910'), (u'INT_OR_-1205985566', u'INT_ADD_-1205985031'), (u'INDIRECT_-1205980698', u'INT_ADD_-1205981049'), (u'INT_ADD_-1205990081', u'INT_ADD_-1205990061'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977422'), ('const-17', u'INT_RIGHT_-1205977518'), (u'INT_RIGHT_-1205981748', u'INT_OR_-1205981747'), ('const-2400959708', u'INT_ADD_-1205981252'), ('const-0', u'PTRSUB_-1205980335'), (u'INT_ADD_-1205976133', u'INT_RIGHT_-1205976115'), (u'LOAD_-1205992251', u'INT_XOR_-1205992111'), ('const-32', u'INT_MULT_-1205980835'), ('const-22', u'INT_RIGHT_-1205990343'), ('const-76', u'PTRSUB_-1205973704'), (u'INT_RIGHT_-1205992208', u'INT_OR_-1205992207'), (u'INT_RIGHT_-1205991531', u'INT_OR_-1205991530'), (u'INT_MULT_-1205990241', u'INT_OR_-1205990244'), ('const-4', u'PTRADD_-1205980423'), (u'INT_ADD_-1205978763', u'INT_AND_-1205978673'), ('const-16384', u'INT_MULT_-1205984362'), (u'INT_XOR_-1205991104', u'INT_XOR_-1205991094'), (u'INT_RIGHT_-1205987149', u'INT_OR_-1205987148'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205984796'), ('const-4096', u'INT_MULT_-1205976111'), (u'STORE_-1205974532', u'INDIRECT_-1205973937'), (u'INT_OR_-1205981459', u'INT_ADD_-1205981462'), (u'INT_MULT_-1205985320', u'INT_OR_-1205985323'), ('const-2053994217', u'INT_ADD_-1205978197'), ('const-8192', u'INT_MULT_-1205986094'), (u'INT_XOR_-1205979419', u'INT_ADD_-1205979414'), ('tmp_34209', u'PTRSUB_-1205973733'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205981860'), (u'INT_ADD_-1205986610', u'INT_RIGHT_-1205986582'), (u'INT_ADD_-1205977520', u'INT_MULT_-1205977478'), (u'INT_OR_-1205976733', u'INT_ADD_-1205976035'), (u'INT_ADD_-1205992484', u'INT_XOR_-1205992427'), (u'INT_ADD_-1205991459', u'INT_RIGHT_-1205991441'), (u'INT_ADD_-1205983176', u'INT_ADD_-1205983166'), (u'INT_ADD_-1205986544', u'INT_RIGHT_-1205986505'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205984106'), ('const-22', u'INT_RIGHT_-1205981428'), (u'STORE_-1205974682', u'INDIRECT_-1205973995'), (u'INT_RIGHT_-1205977857', u'INT_OR_-1205977856'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205991915'), ('const-22', u'INT_RIGHT_-1205979055'), (u'INT_OR_-1205979288', u'INT_ADD_-1205977927'), (u'INT_XOR_-1205990870', u'INT_XOR_-1205990860'), (u'INT_XOR_-1205976492', u'INT_ADD_-1205976467'), ('const-8192', u'INT_MULT_-1205992658'), (u'INT_MULT_-1205976537', u'INT_OR_-1205976540'), (u'INT_ADD_-1205975259', u'INT_ADD_-1205975217'), (u'INT_ADD_-1205978292', u'INT_AND_-1205978255'), (u'INT_RIGHT_-1205975293', u'INT_OR_-1205975292'), ('const-2400959708', u'INT_ADD_-1205981556'), (u'INT_ADD_-1205992298', u'INT_RIGHT_-1205992280'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205987365'), (u'INT_MULT_-1205992828', u'INT_OR_-1205992831'), ('const-22', u'INT_RIGHT_-1205980957'), (u'INT_MULT_-1205990209', u'INT_OR_-1205990212'), (u'INT_OR_-1205982823', u'INT_XOR_-1205982801'), (u'INT_RIGHT_-1205990033', u'INT_OR_-1205990032'), (u'INT_OR_-1205987924', u'INT_XOR_-1205987814'), (u'INT_ADD_-1205976185', u'INT_OR_-1205975220'), (u'INT_ADD_-1205990490', u'INT_XOR_-1205989880'), (u'INT_ADD_-1205988546', u'INT_MULT_-1205988406'), (u'INT_XOR_-1205987866', u'INT_ADD_-1205987835'), (u'INT_ADD_-1205985031', u'INT_MULT_-1205984488'), (u'INT_OR_-1205990982', u'INT_ADD_-1205990771'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980725'), (u'INT_ADD_-1205985105', u'INT_NEGATE_-1205984772'), ('const-22', u'INT_RIGHT_-1205991389'), (u'INT_RIGHT_-1205975573', u'INT_OR_-1205975572'), (u'INT_ADD_-1205991925', u'INT_MULT_-1205991835'), (u'INT_ADD_-1205989478', u'INT_ADD_-1205989426'), (u'INT_ADD_-1205975789', u'INT_ADD_-1205975769'), (u'INT_OR_-1205992831', u'INT_ADD_-1205992484'), (u'INT_XOR_-1205980725', u'INT_AND_-1205980698'), (u'INT_ADD_-1205991751', u'INT_ADD_-1205991741'), ('const-76', u'PTRSUB_-1205979962'), (u'INT_OR_-1205990212', u'INT_ADD_-1205990003'), ('const-1024', u'INT_MULT_-1205975601'), (u'INT_ADD_-1205980636', u'INT_RIGHT_-1205979789'), (u'INT_ADD_-1205991119', u'INT_MULT_-1205990979'), (u'INT_ADD_-1205978010', u'INT_MULT_-1205977921'), ('const-32', u'INT_MULT_-1205991347'), (u'INT_RIGHT_-1205975027', u'INT_OR_-1205975026'), ('const-4096', u'INT_MULT_-1205986961'), (u'INT_ADD_-1205979871', u'INT_ADD_-1205979673'), (u'INT_XOR_-1205979266', u'INT_AND_-1205979197'), (u'INT_ADD_-1205989210', u'INT_MULT_-1205988454'), (u'INT_XOR_-1205982197', u'INT_ADD_-1205982166'), (u'INT_OR_-1205974866', u'INT_XOR_-1205974842'), (u'INT_ADD_-1205977562', u'INT_ADD_-1205977536'), (u'INT_ADD_-1205982124', u'INT_MULT_-1205980614'), (u'INT_OR_-1205980019', u'INT_ADD_-1205979562'), (u'INT_OR_-1205986964', u'INT_ADD_-1205986967'), (u'INT_ADD_-1205989572', u'INT_ADD_-1205989478'), (u'INT_OR_-1205980942', u'INT_XOR_-1205980918'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205988694'), (u'INT_ADD_-1205989400', u'INT_RIGHT_-1205988828'), (u'INT_OR_-1205978500', u'INT_ADD_-1205978503'), (u'INT_OR_-1205989333', u'INT_AND_-1205989278'), (u'INT_ADD_-1205977927', u'INT_RIGHT_-1205976449'), (u'INT_OR_-1205978537', u'INT_ADD_-1205978292'), (u'INT_ADD_-1205984876', u'INT_ADD_-1205984720'), ('tmp_34209', u'PTRSUB_-1205979914'), (u'INT_ADD_-1205983044', u'INT_ADD_-1205983034'), (u'INT_OR_-1205991780', u'INT_ADD_-1205991783'), (u'PTRSUB_-1205973660', u'PTRSUB_-1205973704'), (u'INT_MULT_-1205984216', u'INT_OR_-1205984219'), (u'INT_RIGHT_-1205992962', u'INT_OR_-1205992961'), (u'INT_ADD_-1205987803', u'INT_MULT_-1205987233'), ('const-18', u'INT_RIGHT_-1205991681'), ('const-22', u'INT_RIGHT_-1205988223'), (u'INT_OR_-1205992321', u'INT_ADD_-1205991741'), ('const-4294967252', u'PTRSUB_-1205980508'), ('const-22', u'INT_RIGHT_-1205988522'), (u'INT_MULT_-1205990901', u'INT_OR_-1205990904'), (u'INT_ADD_-1205981106', u'INT_ADD_-1205981086'), (u'INT_OR_-1205992935', u'INT_ADD_-1205992510'), (u'INT_OR_-1205985323', u'INT_XOR_-1205985245'), (u'INT_ADD_-1205976860', u'INT_MULT_-1205976838'), (u'INT_ADD_-1205976824', u'INT_ADD_-1205976804'), ('const-4096', u'INT_MULT_-1205990452'), (u'INT_OR_-1205977591', u'INT_XOR_-1205977573'), (u'INT_ADD_-1205986361', u'INT_ADD_-1205986341'), (u'INT_OR_-1205984893', u'INT_XOR_-1205984751'), (u'INT_RIGHT_-1205986933', u'INT_OR_-1205986932'), (u'INT_XOR_-1205991026', u'INT_XOR_-1205991016'), (u'INT_RIGHT_-1205979029', u'INT_OR_-1205979028'), ('const-25', u'INT_RIGHT_-1205986835'), (u'INT_RIGHT_-1205991305', u'INT_OR_-1205991304'), (u'INT_RIGHT_-1205975651', u'INT_OR_-1205975650'), (u'INT_ADD_-1205988279', u'INT_ADD_-1205988179'), ('tmp_34209', u'PTRSUB_-1205979985'), (u'INT_ADD_-1205987501', u'INT_RIGHT_-1205987447'), (u'INT_OR_-1205982777', u'INT_ADD_-1205982780'), (u'INT_OR_-1205979639', u'INT_XOR_-1205979449'), (u'INT_AND_-1205980907', u'INT_XOR_-1205980852'), (u'INT_XOR_-1205984954', u'INT_ADD_-1205984939'), (u'INT_ADD_-1205986100', u'INT_NEGATE_-1205985967'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205990569'), ('const-76', u'PTRSUB_-1205980442'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205976665'), ('const-4', u'PTRADD_-1205973755'), (u'INT_RIGHT_-1205980451', u'INT_OR_-1205980450'), (u'INT_ADD_-1205992386', u'INT_MULT_-1205992364'), ('const-18', u'INT_RIGHT_-1205979391'), (u'INT_ADD_-1205981174', u'INT_RIGHT_-1205980451'), (u'INT_RIGHT_-1205992776', u'INT_OR_-1205992775'), (u'INT_MULT_-1205990879', u'INT_OR_-1205990882'), (u'INT_NEGATE_-1205975349', u'INT_OR_-1205975220'), ('const-64', u'INT_MULT_-1205975647'), ('const-32768', u'INT_MULT_-1205986604'), (u'INT_ADD_-1205977927', u'INT_XOR_-1205977896'), (u'INT_AND_-1205978673', u'INT_XOR_-1205978654'), (u'INT_OR_-1205978315', u'INT_ADD_-1205976643'), (u'INT_ADD_-1205986507', u'INT_NEGATE_-1205986483'), (u'INT_OR_-1205991226', u'INT_ADD_-1205991011'), (u'INT_OR_-1205982388', u'INT_ADD_-1205982176'), (u'INT_OR_-1205989934', u'INT_XOR_-1205989824'), (u'INDIRECT_-1205980683', u'INT_ADD_-1205979632'), ('const-1548603684', u'INT_ADD_-1205989294'), (u'INT_MULT_-1205976730', u'INT_OR_-1205976733'), (u'INT_MULT_-1205991575', u'INT_OR_-1205991578'), (u'INT_XOR_-1205991182', u'INT_XOR_-1205991172'), ('const-1024', u'INT_MULT_-1205986449'), (u'INT_ADD_-1205978947', u'INT_MULT_-1205978909'), (u'INT_OR_-1205988827', u'INT_ADD_-1205988346'), (u'INT_ADD_-1205982594', u'INT_MULT_-1205982054'), (u'INT_XOR_-1205992335', u'INT_ADD_-1205992298'), ('const-1', u'PTRADD_-1205993242'), (u'INT_OR_-1205987644', u'INT_ADD_-1205986507'), (u'INT_XOR_-1205983548', u'INT_ADD_-1205983543'), ('const-1024', u'INT_MULT_-1205974688'), (u'INT_ADD_-1205977216', u'INT_RIGHT_-1205977178'), (u'INT_MULT_-1205982498', u'INT_OR_-1205982501'), (u'INT_LEFT_-1205993161', u'INT_OR_-1205993161'), (u'INT_ADD_-1205981798', u'INT_MULT_-1205981424'), (u'INT_ADD_-1205982780', u'INT_NEGATE_-1205982766'), ('const-1024', u'INT_MULT_-1205986929'), (u'INT_RIGHT_-1205979805', u'INT_OR_-1205979804'), (u'INT_ADD_-1205979371', u'INT_MULT_-1205977905'), (u'INT_OR_-1205982388', u'INT_XOR_-1205981091'), ('const-23', u'INT_RIGHT_-1205976001'), ('const-0', u'PTRSUB_-1205973645'), (u'INT_AND_-1205981530', u'INT_XOR_-1205981515'), ('const-1024', u'INT_MULT_-1205978893'), (u'INT_ADD_-1205980293', u'INT_RIGHT_-1205979837'), ('const-22', u'INT_RIGHT_-1205990983'), (u'INT_ADD_-1205990885', u'INT_XOR_-1205990860'), (u'LOAD_-1205993280', u'INT_ADD_-1205992964'), (u'INT_AND_-1205988586', u'INT_XOR_-1205988561'), (u'INT_OR_-1205978397', u'INT_ADD_-1205978400'), (u'INT_OR_-1205986232', u'INT_ADD_-1205985753'), ('const-2048', u'INT_MULT_-1205977334'), (u'INT_MULT_-1205991601', u'INT_OR_-1205991604'), (u'INT_RIGHT_-1205978538', u'INT_OR_-1205978537'), (u'INT_RIGHT_-1205987925', u'INT_OR_-1205987924'), (u'INT_MULT_-1205990355', u'INT_OR_-1205990358'), (u'INT_OR_-1205977856', u'INT_ADD_-1205977859'), (u'INT_XOR_-1205986408', u'INT_AND_-1205986381'), ('const-23', u'INT_RIGHT_-1205991117'), (u'INT_OR_-1205977099', u'INT_ADD_-1205976788'), (u'INT_MULT_-1205975929', u'INT_OR_-1205975932'), (u'INT_RIGHT_-1205976115', u'INT_OR_-1205976114'), (u'INT_XOR_-1205976378', u'INT_ADD_-1205976357'), (u'INT_MULT_-1205980835', u'INT_OR_-1205980838'), (u'INT_ADD_-1205977500', u'INT_ADD_-1205977458'), ('const-22', u'INT_RIGHT_-1205987623'), (u'INT_ADD_-1205986074', u'INT_ADD_-1205986054'), (u'INT_ADD_-1205984390', u'INT_RIGHT_-1205984366'), (u'INT_OR_-1205990032', u'INT_ADD_-1205989715'), (u'INT_ADD_-1205974927', u'INT_ADD_-1205974807'), ('const-32768', u'INT_MULT_-1205988406'), (u'INT_ADD_-1205983517', u'INT_MULT_-1205982748'), (u'INT_ADD_-1205978463', u'INT_ADD_-1205978421'), (u'PTRSUB_-1205980048', u'PTRADD_-1205980018'), (u'INT_ADD_-1205990313', u'INT_MULT_-1205990101'), (u'INT_ADD_-1205985769', u'INT_RIGHT_-1205985751'), (u'INT_OR_-1205984737', u'INT_XOR_-1205984689'), (u'INT_RIGHT_-1205989811', u'INT_OR_-1205989810'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979419'), (u'INT_OR_-1205991712', u'INT_ADD_-1205989478'), (u'PTRADD_-1205980418', u'LOAD_-1205993274'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205991751'), (u'INT_MULT_-1205977210', u'INT_OR_-1205977213'), (u'INT_ADD_-1205989777', u'INT_RIGHT_-1205989240'), (u'INT_OR_-1205985802', u'INT_XOR_-1205985794'), (u'INT_ADD_-1205980309', u'INT_MULT_-1205980186'), (u'INT_OR_-1205979517', u'INT_ADD_-1205979121'), (u'INT_OR_-1205977908', u'INT_ADD_-1205977640'), (u'INT_ADD_-1205992360', u'INT_ADD_-1205992350'), (u'CALL_-1205993328', u'INDIRECT_-1205980542'), (u'INT_XOR_-1205987162', u'INT_ADD_-1205987135'), (u'INT_ADD_-1205977268', u'INT_ADD_-1205977242'), (u'INT_NEGATE_-1205991639', u'INT_OR_-1205990572'), (u'INT_OR_-1205990310', u'INT_ADD_-1205990313'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205982668'), (u'PTRADD_-1205980018', u'LOAD_-1205992251'), (u'INDIRECT_-1205973924', u'COPY_-1205973982'), ('const-1024', u'INT_MULT_-1205984582'), ('const-1859775393', u'INT_ADD_-1205983253'), ('const-512', u'INT_MULT_-1205992958'), (u'INT_ADD_-1205978606', u'INT_AND_-1205978570'), ('const-25', u'INT_RIGHT_-1205981057'), ('const-512', u'INT_MULT_-1205990355'), (u'INT_ADD_-1205987287', u'INT_RIGHT_-1205986082'), (u'INT_RIGHT_-1205975163', u'INT_OR_-1205975162'), ('const-17', u'INT_RIGHT_-1205992564'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205987072'), (u'INT_ADD_-1205988127', u'INT_MULT_-1205988105'), (u'INT_RIGHT_-1205979640', u'INT_OR_-1205979639'), (u'INT_OR_-1205974718', u'INT_ADD_-1205974721'), (u'INT_XOR_-1205977077', u'INT_ADD_-1205977072'), (u'INDIRECT_-1205980533', u'MULTIEQUAL_-1205980548'), (u'PTRSUB_-1205980034', u'LOAD_-1205992219'), (u'INT_OR_-1205988707', u'INT_ADD_-1205988310'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205976087'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205976533'), (u'INT_OR_-1205980290', u'INT_ADD_-1205980293'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205988279'), (u'CALL_-1205993328', u'INDIRECT_-1205980698'), (u'INT_ADD_-1205984516', u'INT_NEGATE_-1205984208'), (u'INT_MULT_-1205987641', u'INT_OR_-1205987644'), (u'INT_OR_-1205985174', u'INT_XOR_-1205985126'), (u'INT_ADD_-1205975125', u'INT_RIGHT_-1205975027'), (u'INT_ADD_-1205986127', u'INT_RIGHT_-1205985308'), ('const-1024', u'INT_MULT_-1205988704'), (u'INT_ADD_-1205976533', u'INT_ADD_-1205976477'), (u'INT_ADD_-1205983533', u'INT_RIGHT_-1205983515'), (u'INT_OR_-1205987404', u'INT_ADD_-1205987103'), (u'INT_MULT_-1205990693', u'INT_OR_-1205990696'), ('const-76', u'PTRSUB_-1205973730'), (u'INT_ADD_-1205985031', u'INT_RIGHT_-1205984492'), (u'INT_ADD_-1205989294', u'INT_ADD_-1205989274'), (u'INT_ADD_-1205987835', u'INT_RIGHT_-1205987801'), (u'INT_ADD_-1205979881', u'INT_RIGHT_-1205979289'), (u'INT_ADD_-1205984684', u'INT_RIGHT_-1205984650'), (u'INT_XOR_-1205991328', u'INT_ADD_-1205991297'), (u'COPY_-1205974516', u'RETURN_-1205974452'), (u'INT_ADD_-1205981978', u'INT_RIGHT_-1205981950'), (u'INT_OR_-1205975360', u'INT_ADD_-1205975363'), (u'INT_OR_-1205983616', u'INT_XOR_-1205983558'), (u'INT_RIGHT_-1205991961', u'INT_OR_-1205991960'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205987970'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205989437'), (u'INT_ADD_-1205976067', u'INT_MULT_-1205976029'), (u'INT_RIGHT_-1205975361', u'INT_OR_-1205975360'), (u'INT_OR_-1205979788', u'INT_AND_-1205979723'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205988434'), ('const-17', u'INT_RIGHT_-1205984702'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976834'), (u'INT_OR_-1205980769', u'INT_ADD_-1205980192'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205981708'), (u'INT_MULT_-1205988856', u'INT_OR_-1205988859'), ('const-22', u'INT_RIGHT_-1205980618'), ('const-23', u'INT_RIGHT_-1205978398'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205977232'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980725'), (u'INT_OR_-1205984025', u'INT_ADD_-1205983401'), (u'INT_MULT_-1205979833', u'INT_OR_-1205979836'), (u'STORE_-1205974682', u'INDIRECT_-1205974010'), ('const-1548603684', u'INT_ADD_-1205988434'), (u'INT_ADD_-1205986127', u'INT_MULT_-1205985304'), (u'INT_XOR_-1205976482', u'INT_ADD_-1205976435'), (u'INT_MULT_-1205989677', u'INT_OR_-1205989680'), (u'INT_ADD_-1205981394', u'INT_ADD_-1205981358'), (u'INT_OR_-1205991604', u'INT_ADD_-1205991607'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205982259'), (u'INT_ADD_-1205987319', u'INT_RIGHT_-1205987253'), (u'INT_ADD_-1205992906', u'INT_ADD_-1205992896'), ('const-17', u'INT_RIGHT_-1205989062'), ('const-22', u'INT_RIGHT_-1205977374'), (u'INT_ADD_-1205992664', u'INT_MULT_-1205992612'), (u'INT_ADD_-1205981840', u'INT_ADD_-1205981814'), (u'INT_MULT_-1205976361', u'INT_OR_-1205976364'), (u'INT_MULT_-1205979785', u'INT_OR_-1205979788'), (u'INT_ADD_-1205992210', u'INT_XOR_-1205992000'), (u'INT_MULT_-1205986961', u'INT_OR_-1205986964'), (u'INT_OR_-1205980163', u'INT_ADD_-1205979444'), (u'INT_OR_-1205982501', u'INT_ADD_-1205981998'), (u'INT_RIGHT_-1205988223', u'INT_OR_-1205988222'), (u'INT_ADD_-1205983034', u'INT_ADD_-1205982994'), (u'INT_OR_-1205980617', u'INT_XOR_-1205980548'), (u'INT_ADD_-1205991119', u'INT_XOR_-1205991094'), (u'INT_ADD_-1205984368', u'INT_RIGHT_-1205983617'), (u'INT_RIGHT_-1205988458', u'INT_OR_-1205988457'), (u'INT_XOR_-1205991094', u'INT_ADD_-1205991079'), (u'INT_ADD_-1205980495', u'INT_MULT_-1205980016'), (u'INDIRECT_-1205980683', u'INT_ADD_-1205977818'), (u'INT_ADD_-1205988862', u'INT_XOR_-1205988617'), (u'INT_OR_-1205977481', u'INT_ADD_-1205977092'), (u'INT_OR_-1205986504', u'INT_ADD_-1205986507'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205977278'), (u'INT_OR_-1205988222', u'INT_AND_-1205988183'), ('const-1024', u'INT_MULT_-1205980953'), (u'INT_ADD_-1205981174', u'INT_MULT_-1205980447'), ('const-32768', u'INT_MULT_-1205985198'), (u'INT_MULT_-1205991677', u'INT_OR_-1205991680'), (u'CALL_-1205993328', u'INDIRECT_-1205980530'), ('const-32768', u'INT_MULT_-1205989058'), (u'INT_AND_-1205978819', u'INT_XOR_-1205978800'), ('const-25', u'INT_RIGHT_-1205988574'), (u'INT_MULT_-1205983597', u'INT_OR_-1205983600'), (u'INT_ADD_-1205976325', u'INT_XOR_-1205976102'), (u'INT_ADD_-1205990179', u'INT_ADD_-1205990159'), (u'INT_RIGHT_-1205979337', u'INT_OR_-1205979336'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205983253'), (u'INT_OR_-1205976540', u'INT_XOR_-1205976518'), (u'INT_AND_-1205989492', u'INT_XOR_-1205989453'), (u'INT_OR_-1205993161', u'INT_NEGATE_-1205993140'), (u'INT_MULT_-1205980287', u'INT_OR_-1205980290'), (u'INT_OR_-1205982271', u'INT_AND_-1205982206'), (u'INT_RIGHT_-1205989775', u'INT_OR_-1205989774'), (u'INT_OR_-1205977621', u'INT_ADD_-1205977216'), (u'INT_ADD_-1205991197', u'INT_MULT_-1205991057'), (u'INT_ADD_-1205990699', u'INT_RIGHT_-1205990245'), (u'INT_XOR_-1205978345', u'INT_ADD_-1205978334'), (u'INT_OR_-1205975932', u'INT_XOR_-1205975872'), (u'INT_ADD_-1205979163', u'INT_RIGHT_-1205979013'), (u'STORE_-1205974550', u'INDIRECT_-1205973967'), ('const-76', u'PTRSUB_-1205980034'), ('const-17', u'INT_RIGHT_-1205975163'), (u'INT_OR_-1205988134', u'INT_XOR_-1205988064'), (u'INT_XOR_-1205985245', u'INT_ADD_-1205985240'), (u'INT_RIGHT_-1205982058', u'INT_OR_-1205982057'), (u'INT_OR_-1205978537', u'INT_XOR_-1205978448'), (u'INT_ADD_-1205993106', u'INT_MULT_-1205993084'), (u'STORE_-1205974682', u'INDIRECT_-1205974070'), ('const-6', u'PTRADD_-1205973679'), (u'INT_MULT_-1205979365', u'INT_OR_-1205979368'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980970'), (u'INT_ADD_-1205979434', u'INT_MULT_-1205979387'), ('const-1024', u'INT_MULT_-1205983597'), (u'INT_ADD_-1205975653', u'INT_XOR_-1205975618'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205980579'), (u'INT_ADD_-1205993090', u'INT_RIGHT_-1205993072'), ('const-76', u'PTRSUB_-1205980458'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205992850'), (u'INT_ADD_-1205990361', u'INT_XOR_-1205989860'), (u'INT_RIGHT_-1205983617', u'INT_OR_-1205983616'), (u'INT_OR_-1205982361', u'INT_ADD_-1205982364'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988747'), (u'INT_ADD_-1205978606', u'INT_RIGHT_-1205978435'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205991167'), (u'INT_RIGHT_-1205991351', u'INT_OR_-1205991350'), (u'INT_ADD_-1205990490', u'INT_XOR_-1205990433'), (u'INT_OR_-1205984177', u'INT_ADD_-1205983645'), ('const-1024', u'INT_MULT_-1205979025'), (u'INT_ADD_-1205976467', u'INT_RIGHT_-1205976365'), (u'INT_ADD_-1205981860', u'INT_ADD_-1205981840'), (u'INT_ADD_-1205990123', u'INT_RIGHT_-1205989935'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205984278'), ('const-22', u'INT_RIGHT_-1205976167'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205991417'), (u'INT_ADD_-1205975029', u'INT_XOR_-1205974994'), (u'PTRSUB_-1205973728', u'PTRSUB_-1205973774'), (u'INT_ADD_-1205990003', u'INT_AND_-1205989967'), (u'INT_OR_-1205981747', u'INT_ADD_-1205981462'), (u'INT_OR_-1205976198', u'INT_ADD_-1205974911'), (u'INT_OR_-1205977337', u'INT_ADD_-1205977340'), ('const-1024', u'INT_MULT_-1205977318'), ('const-4096', u'INT_MULT_-1205978286'), (u'INT_RIGHT_-1205975605', u'INT_OR_-1205975604'), (u'INT_ADD_-1205980867', u'INT_RIGHT_-1205980839'), (u'PTRSUB_-1205973769', u'STORE_-1205974670'), (u'INT_ADD_-1205975077', u'INT_RIGHT_-1205974692'), ('const-22', u'INT_RIGHT_-1205983315'), (u'INT_ADD_-1205977046', u'INT_OR_-1205976987'), ('const-17', u'INT_RIGHT_-1205977857'), (u'INT_NEGATE_-1205985967', u'INT_OR_-1205985822'), (u'INT_RIGHT_-1205988135', u'INT_OR_-1205988134'), (u'INT_RIGHT_-1205978626', u'INT_OR_-1205978625'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205983411'), (u'INT_ADD_-1205989777', u'INT_AND_-1205989735'), (u'INT_ADD_-1205990797', u'INT_XOR_-1205990674'), (u'INT_ADD_-1205979562', u'INT_AND_-1205979478'), ('const-22', u'INT_RIGHT_-1205986301'), (u'INT_ADD_-1205985270', u'INT_ADD_-1205985230'), (u'INT_OR_-1205992161', u'INT_ADD_-1205990669'), (u'INT_ADD_-1205979562', u'INT_XOR_-1205979276'), (u'INT_ADD_-1205991197', u'INT_RIGHT_-1205991061'), (u'INT_OR_-1205980956', u'INT_XOR_-1205980918'), (u'INT_AND_-1205987725', u'INT_XOR_-1205987700'), (u'INT_ADD_-1205976435', u'INT_RIGHT_-1205976417'), (u'INT_RIGHT_-1205983315', u'INT_OR_-1205983314'), (u'INT_NEGATE_-1205992594', u'INT_OR_-1205992441'), (u'INT_MULT_-1205986728', u'INT_OR_-1205986731'), (u'INT_ADD_-1205976117', u'INT_RIGHT_-1205975933'), (u'INT_ADD_-1205985204', u'INT_RIGHT_-1205984586'), (u'STORE_-1205974664', u'INDIRECT_-1205973980'), (u'LOAD_-1205993205', u'INT_ADD_-1205974674'), ('const-128', u'INT_MULT_-1205982588'), ('const-1024', u'INT_MULT_-1205992612'), ('const-64', u'INT_MULT_-1205975413'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205985897'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205975009'), (u'STORE_-1205974616', u'INDIRECT_-1205974022'), (u'INT_RIGHT_-1205979119', u'INT_OR_-1205979118'), ('const-23', u'INT_RIGHT_-1205978604'), (u'INT_OR_-1205978744', u'INT_XOR_-1205978716'), ('const-64', u'INT_MULT_-1205990693'), (u'INT_ADD_-1205984076', u'INT_RIGHT_-1205984058'), (u'INT_ADD_-1205977640', u'INT_MULT_-1205977618'), ('const-128', u'INT_MULT_-1205985715'), (u'INT_OR_-1205980617', u'INT_XOR_-1205980584'), (u'INT_MULT_-1205984989', u'INT_OR_-1205984992'), (u'INT_ADD_-1205981358', u'INT_RIGHT_-1205981324'), ('const-4', u'PTRADD_-1205980018'), (u'INT_RIGHT_-1205991389', u'INT_OR_-1205991388'), (u'LOAD_-1205992081', u'INT_ADD_-1205991877'), (u'INT_ADD_-1205975961', u'INT_ADD_-1205975909'), (u'INT_ADD_-1205988310', u'INT_XOR_-1205987886'), (u'INT_ADD_-1205980636', u'INT_MULT_-1205979785'), (u'INT_MULT_-1205981424', u'INT_OR_-1205981427'), (u'INT_ADD_-1205990123', u'INT_AND_-1205990065'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205989983'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205981279'), (u'INT_XOR_-1205975150', u'INT_XOR_-1205975130'), ('const-5', u'PTRADD_-1205973742'), (u'INT_RIGHT_-1205976183', u'INT_OR_-1205976182'), ('const-1859775393', u'INT_ADD_-1205985505'), (u'INT_RIGHT_-1205992662', u'INT_OR_-1205992661'), ('const-64', u'INT_MULT_-1205990307'), (u'INT_XOR_-1205989890', u'INT_AND_-1205989849'), (u'INT_ADD_-1205991963', u'INT_XOR_-1205991756'), (u'INT_MULT_-1205985563', u'INT_OR_-1205985566'), (u'INT_ADD_-1205989905', u'INT_XOR_-1205989762'), ('const-22', u'INT_RIGHT_-1205974554'), (u'INT_EQUAL_-1205974552', u'CBRANCH_-1205974502'), (u'INT_OR_-1205990358', u'INT_ADD_-1205990361'), (u'STORE_-1205974664', u'INDIRECT_-1205974055'), ('const-1836072691', u'INT_ADD_-1205985897'), (u'INT_ADD_-1205977891', u'INT_RIGHT_-1205977857'), ('const-22', u'INT_RIGHT_-1205977752'), (u'STORE_-1205974676', u'INDIRECT_-1205974035'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992030'), (u'STORE_-1205974616', u'INDIRECT_-1205974007'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986652'), ('const-22', u'INT_RIGHT_-1205991891'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205979903'), (u'INT_RIGHT_-1205979055', u'INT_OR_-1205979054'), (u'INT_RIGHT_-1205981950', u'INT_OR_-1205981949'), (u'INT_ADD_-1205977118', u'INT_ADD_-1205977092'), (u'INT_MULT_-1205988570', u'INT_OR_-1205988573'), (u'INT_MULT_-1205975231', u'INT_OR_-1205975234'), (u'INT_ADD_-1205986100', u'INT_RIGHT_-1205985567'), (u'INT_NEGATE_-1205984322', u'INT_OR_-1205984115'), ('tmp_38893', u'MULTIEQUAL_-1205980716'), ('const-22', u'INT_RIGHT_-1205986808'), (u'INT_XOR_-1205986795', u'INT_AND_-1205986774'), (u'INT_MULT_-1205989236', u'INT_OR_-1205989239'), (u'INT_ADD_-1205974781', u'INT_MULT_-1205974715'), (u'INT_ADD_-1205993154', u'INT_ADD_-1205993134'), (u'INT_ADD_-1205981126', u'INT_ADD_-1205981106'), (u'INT_ADD_-1205992015', u'INT_ADD_-1205991941'), (u'INT_OR_-1205983600', u'INT_XOR_-1205983548'), ('const-2400959708', u'INT_ADD_-1205978123'), (u'INDIRECT_-1205973984', u'COPY_-1205974042'), ('const-22', u'INT_RIGHT_-1205987853'), (u'INT_ADD_-1205975909', u'INT_RIGHT_-1205975885'), ('const-22', u'INT_RIGHT_-1205987983'), (u'INT_ADD_-1205991079', u'INT_MULT_-1205991035'), (u'INT_ADD_-1205985779', u'INT_RIGHT_-1205985719'), ('const-1024', u'INT_MULT_-1205977618'), (u'INT_OR_-1205986704', u'INT_ADD_-1205986163'), (u'INT_ADD_-1205979153', u'INT_MULT_-1205979115'), (u'INT_MULT_-1205992318', u'INT_OR_-1205992321'), (u'INT_ADD_-1205983004', u'INT_RIGHT_-1205982934'), (u'INT_ADD_-1205991167', u'INT_ADD_-1205991141'), (u'INT_RIGHT_-1205977322', u'INT_OR_-1205977321'), ('const-20', u'INT_RIGHT_-1205988251'), (u'INDIRECT_-1205980698', u'INT_ADD_-1205982473'), ('const-32', u'INT_MULT_-1205980287'), ('const-22', u'INT_RIGHT_-1205992322'), (u'INT_ADD_-1205979807', u'INT_MULT_-1205979333'), (u'INT_OR_-1205977177', u'INT_ADD_-1205976824'), (u'INT_XOR_-1205979684', u'INT_ADD_-1205979673'), ('const-22', u'INT_RIGHT_-1205976734'), (u'INT_ADD_-1205981510', u'INT_RIGHT_-1205981460'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205981049'), ('tmp_38863', u'MULTIEQUAL_-1205980563'), (u'INT_ADD_-1205988346', u'INT_ADD_-1205988326'), ('const-22', u'INT_RIGHT_-1205982824'), (u'INT_OR_-1205984992', u'INT_ADD_-1205984704'), (u'INT_MULT_-1205981320', u'INT_OR_-1205981323'), ('const-23', u'INT_RIGHT_-1205985029'), ('const-1024', u'INT_MULT_-1205979833'), (u'INT_RIGHT_-1205992280', u'INT_OR_-1205992279'), (u'INT_ADD_-1205978292', u'INT_RIGHT_-1205976673'), (u'INT_ADD_-1205982473', u'INT_ADD_-1205982433'), (u'INT_MULT_-1205980798', u'INT_OR_-1205980801'), (u'INT_OR_-1205976198', u'INT_NEGATE_-1205975349'), ('const-256', u'INT_MULT_-1205991919'), ('const-10', u'INT_LEFT_-1205993224'), (u'INT_OR_-1205991148', u'INT_ADD_-1205990963'), (u'INT_ADD_-1205981086', u'INT_MULT_-1205981053'), (u'INT_OR_-1205978744', u'INT_XOR_-1205978654'), (u'INT_ADD_-1205980652', u'INT_MULT_-1205980630'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205978586'), (u'INT_ADD_-1205979494', u'INT_ADD_-1205979474'), ('const-22', u'INT_RIGHT_-1205988760'), (u'INT_OR_-1205992759', u'INT_NEGATE_-1205992748'), (u'INT_RIGHT_-1205977100', u'INT_OR_-1205977099'), (u'INT_AND_-1205986671', u'INT_XOR_-1205986652'), ('const-1024', u'INT_MULT_-1205992828'), (u'INT_XOR_-1205983360', u'INT_ADD_-1205983355'), (u'INT_RIGHT_-1205982362', u'INT_OR_-1205982361'), ('const-128', u'INT_MULT_-1205988570'), (u'INT_XOR_-1205974852', u'INT_XOR_-1205974832'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205975259'), ('const-64', u'INT_MULT_-1205990117'), (u'INT_OR_-1205981795', u'INT_ADD_-1205981798'), (u'INT_RIGHT_-1205977768', u'INT_OR_-1205977767'), ('const-512', u'INT_MULT_-1205991113'), (u'INT_ADD_-1205987783', u'INT_ADD_-1205987757'), (u'INT_ADD_-1205984368', u'INT_NEGATE_-1205984198'), ('const-22', u'INT_RIGHT_-1205978626'), (u'INT_ADD_-1205986477', u'INT_ADD_-1205986225'), (u'INT_MULT_-1205976413', u'INT_OR_-1205976416'), (u'INT_MULT_-1205980489', u'INT_OR_-1205980492'), (u'INT_OR_-1205986300', u'INT_ADD_-1205986007'), (u'INT_ADD_-1205979361', u'INT_ADD_-1205979245'), (u'INT_ADD_-1205977128', u'INT_OR_-1205977003'), (u'INT_MULT_-1205986001', u'INT_OR_-1205986004'), (u'INT_ADD_-1205992484', u'INT_RIGHT_-1205992466'), (u'INT_ADD_-1205989927', u'INT_RIGHT_-1205989903'), (u'INDIRECT_-1205980728', u'INT_ADD_-1205986687'), ('const-32768', u'INT_MULT_-1205988882'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205980385'), (u'INT_ADD_-1205981688', u'INT_ADD_-1205981662'), (u'INT_MULT_-1205987761', u'INT_OR_-1205987764'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205979776'), (u'PTRADD_-1205980488', u'COPY_-1205980481'), (u'INT_RIGHT_-1205990697', u'INT_OR_-1205990696'), (u'INT_MULT_-1205978286', u'INT_OR_-1205978289'), (u'INT_ADD_-1205976922', u'INT_ADD_-1205976912'), (u'INT_ADD_-1205978763', u'INT_MULT_-1205978534'), (u'PTRSUB_-1205980364', u'PTRSUB_-1205980416'), (u'INT_XOR_-1205990144', u'INT_ADD_-1205990139'), (u'INT_XOR_-1205976222', u'INT_ADD_-1205976133'), (u'INT_OR_-1205992615', u'INT_ADD_-1205992282'), (u'INT_OR_-1205976322', u'INT_ADD_-1205976325'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205975961'), (u'INT_RIGHT_-1205983373', u'INT_OR_-1205983372'), ('const-25', u'INT_RIGHT_-1205987765'), ('const-1024', u'INT_MULT_-1205982268'), (u'PTRSUB_-1205979985', u'PTRSUB_-1205980034'), (u'INDIRECT_-1205973849', u'COPY_-1205973907'), (u'INT_OR_-1205977767', u'INT_ADD_-1205977770'), (u'INT_ADD_-1205991741', u'INT_ADD_-1205991623'), (u'INT_ADD_-1205979414', u'INT_MULT_-1205979365'), (u'LOAD_-1205992251', u'INT_RIGHT_-1205991891'), (u'INT_ADD_-1205987557', u'INT_ADD_-1205987491'), ('const-256', u'INT_MULT_-1205988105'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205983964'), (u'INT_MULT_-1205992534', u'INT_OR_-1205992537'), (u'INT_OR_-1205989810', u'INT_XOR_-1205989762'), ('const-26', u'INT_RIGHT_-1205990311'), (u'INT_OR_-1205986232', u'INT_AND_-1205986183'), (u'INT_OR_-1205977621', u'INT_ADD_-1205977206'), ('const-27', u'INT_RIGHT_-1205978085'), (u'INT_MULT_-1205988406', u'INT_OR_-1205988409'), (u'INT_ADD_-1205987767', u'INT_MULT_-1205985833'), (u'INT_RIGHT_-1205986233', u'INT_OR_-1205986232'), (u'INT_ADD_-1205990199', u'INT_XOR_-1205990086'), (u'INT_OR_-1205975884', u'INT_ADD_-1205975887'), ('const-1024', u'INT_MULT_-1205992932'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981719'), ('const-1024', u'INT_MULT_-1205976669'), (u'MULTIEQUAL_-1205981173', u'PTRADD_-1205980488'), (u'INT_OR_-1205992481', u'INT_ADD_-1205992484'), (u'INT_ADD_-1205991925', u'INT_XOR_-1205991852'), (u'INT_MULT_-1205979285', u'INT_OR_-1205979288'), (u'INT_OR_-1205975822', u'INT_XOR_-1205975794'), (u'INT_ADD_-1205991581', u'INT_XOR_-1205991422'), (u'INT_OR_-1205992961', u'INT_ADD_-1205992964'), (u'INT_RIGHT_-1205989697', u'INT_OR_-1205989696'), (u'INDIRECT_-1205973947', u'COPY_-1205974002'), (u'INT_ADD_-1205981226', u'INT_ADD_-1205981206'), (u'INT_OR_-1205978063', u'INT_ADD_-1205977770'), (u'STORE_-1205974682', u'INDIRECT_-1205973950'), (u'INT_ADD_-1205987019', u'INT_ADD_-1205986999'), (u'INT_RIGHT_-1205985609', u'INT_OR_-1205985608'), (u'INT_OR_-1205990032', u'INT_XOR_-1205989988'), (u'INT_ADD_-1205989226', u'INT_MULT_-1205989204'), (u'INT_OR_-1205988827', u'INT_ADD_-1205988412'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205985997'), (u'INDIRECT_-1205973917', u'COPY_-1205973972'), (u'INT_ADD_-1205978915', u'INT_AND_-1205978819'), (u'INT_ADD_-1205983792', u'INT_MULT_-1205983770'), (u'INT_RIGHT_-1205978897', u'INT_OR_-1205978896'), (u'INT_OR_-1205975822', u'INT_ADD_-1205975633'), (u'INT_OR_-1205978017', u'INT_XOR_-1205977938'), (u'INT_OR_-1205983600', u'INT_ADD_-1205983339'), ('const-1024', u'INT_MULT_-1205988518'), (u'INT_ADD_-1205979562', u'INT_RIGHT_-1205979029'), ('const-16384', u'INT_MULT_-1205980186'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205988935'), (u'INT_ADD_-1205978421', u'INT_MULT_-1205978394'), ('const-22', u'INT_RIGHT_-1205990743'), (u'INT_RIGHT_-1205986082', u'INT_OR_-1205986081'), ('const-27', u'INT_RIGHT_-1205991351'), (u'INT_MULT_-1205990957', u'INT_OR_-1205990960'), (u'INT_ADD_-1205991275', u'INT_XOR_-1205991250'), (u'INT_ADD_-1205989550', u'INT_MULT_-1205989110'), (u'INT_MULT_-1205990522', u'INT_OR_-1205990525'), (u'INT_MULT_-1205991835', u'INT_OR_-1205991838'), (u'INT_NEGATE_-1205991545', u'INT_OR_-1205990411'), (u'PTRADD_-1205980488', u'INT_NOTEQUAL_-1205993313'), (u'INT_OR_-1205977621', u'INT_NEGATE_-1205977610'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205978031'), (u'INT_MULT_-1205981053', u'INT_OR_-1205981056'), ('const-4', u'PTRADD_-1205980488'), (u'INT_OR_-1205983893', u'INT_XOR_-1205983807'), (u'INT_ADD_-1205984939', u'INT_RIGHT_-1205984921'), (u'INT_MULT_-1205992756', u'INT_OR_-1205992759'), (u'INT_ADD_-1205990611', u'INT_RIGHT_-1205989697'), ('const-22', u'INT_RIGHT_-1205991305'), (u'INT_OR_-1205987982', u'INT_ADD_-1205987339'), (u'INDIRECT_-1205980698', u'INT_ADD_-1205985167'), (u'INT_ADD_-1205979964', u'INT_ADD_-1205979954'), (u'INT_OR_-1205976769', u'INT_ADD_-1205975051'), ('const-25', u'INT_RIGHT_-1205988860'), (u'INT_ADD_-1205982520', u'INT_ADD_-1205982423'), (u'INT_OR_-1205991562', u'INT_ADD_-1205989368'), (u'INT_ADD_-1205982594', u'INT_RIGHT_-1205982058'), (u'INDIRECT_-1205980683', u'MULTIEQUAL_-1205980686'), (u'INT_ADD_-1205987135', u'INT_MULT_-1205987097'), (u'INT_ADD_-1205990627', u'INT_ADD_-1205990589'), (u'INT_ADD_-1205985591', u'INT_RIGHT_-1205985340'), (u'INT_RIGHT_-1205988308', u'INT_OR_-1205988307'), (u'INT_OR_-1205977751', u'INT_ADD_-1205977432'), (u'INT_ADD_-1205982936', u'INT_RIGHT_-1205982272'), (u'INT_XOR_-1205976404', u'INT_XOR_-1205976378'), (u'INT_ADD_-1205986770', u'INT_ADD_-1205986750'), (u'INT_XOR_-1205980151', u'INT_AND_-1205980104'), (u'LOAD_-1205992173', u'INT_ADD_-1205991663'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205986497'), (u'INT_OR_-1205975728', u'INT_ADD_-1205975731'), (u'INT_MULT_-1205985437', u'INT_OR_-1205985440'), (u'INT_OR_-1205984737', u'INT_ADD_-1205984096'), (u'INT_OR_-1205988759', u'INT_AND_-1205988678'), (u'INT_MULT_-1205980223', u'INT_OR_-1205980226'), (u'INT_OR_-1205975822', u'INT_ADD_-1205975653'), ('const-16384', u'INT_MULT_-1205991601'), (u'PTRSUB_-1205973698', u'PTRADD_-1205973679'), (u'INT_OR_-1205976733', u'INT_ADD_-1205975217'), (u'INT_XOR_-1205989143', u'INT_ADD_-1205989106'), (u'INT_NEGATE_-1205992454', u'INT_OR_-1205992265'), (u'INT_OR_-1205989239', u'INT_ADD_-1205988862'), (u'INT_OR_-1205984759', u'INT_XOR_-1205984751'), (u'INT_ADD_-1205976283', u'INT_ADD_-1205976237'), ('const-32768', u'INT_MULT_-1205981320'), (u'INT_XOR_-1205977984', u'INT_AND_-1205977963'), (u'INT_XOR_-1205978551', u'INT_ADD_-1205978530'), ('tmp_38896', u'MULTIEQUAL_-1205980761'), ('const-128', u'INT_MULT_-1205987249'), (u'INT_MULT_-1205982385', u'INT_OR_-1205982388'), (u'STORE_-1205974682', u'INDIRECT_-1205974055'), (u'STORE_-1205974676', u'INDIRECT_-1205973945'), (u'INT_MULT_-1205990484', u'INT_OR_-1205990487'), (u'INT_OR_-1205986807', u'INT_AND_-1205986774'), (u'INT_ADD_-1205981952', u'INT_RIGHT_-1205981580'), (u'INT_OR_-1205977099', u'INT_ADD_-1205976477'), (u'INT_RIGHT_-1205991467', u'INT_OR_-1205991466'), (u'INT_ADD_-1205981326', u'INT_RIGHT_-1205980770'), (u'INT_ADD_-1205976932', u'INT_RIGHT_-1205976894'), (u'INT_ADD_-1205980841', u'INT_AND_-1205980563'), ('const-22', u'INT_RIGHT_-1205990033'), ('tmp_38859', u'MULTIEQUAL_-1205980551'), (u'INT_OR_-1205991060', u'INT_ADD_-1205990855'), (u'INT_ADD_-1205976467', u'INT_MULT_-1205976361'), (u'INT_ADD_-1205979015', u'INT_XOR_-1205978868'), (u'STORE_-1205974676', u'INDIRECT_-1205973990'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205984979'), (u'INT_NEGATE_-1205983387', u'INT_OR_-1205983053'), ('const-32768', u'INT_MULT_-1205977853'), (u'INT_ADD_-1205977927', u'INT_XOR_-1205976518'), (u'INT_RIGHT_-1205983774', u'INT_OR_-1205983773'), ('const-0', u'PTRSUB_-1205973685'), (u'INT_ADD_-1205977154', u'INT_RIGHT_-1205977126'), (u'INT_RIGHT_-1205988109', u'INT_OR_-1205988108'), (u'INT_ADD_-1205977979', u'INT_ADD_-1205977959'), ('tmp_34209', u'PTRSUB_-1205973640'), (u'INT_XOR_-1205985784', u'INT_ADD_-1205985779'), (u'INT_XOR_-1205991250', u'INT_ADD_-1205991213'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205975711'), (u'INT_RIGHT_-1205993072', u'INT_OR_-1205993071'), ('const-22', u'INT_RIGHT_-1205978538'), ('const-1024', u'INT_MULT_-1205983613'), (u'INT_ADD_-1205975575', u'INT_XOR_-1205975482'), ('const-256', u'INT_MULT_-1205976413'), (u'INT_ADD_-1205982594', u'INT_OR_-1205982456'), (u'INT_ADD_-1205979990', u'INT_AND_-1205979938'), (u'INT_ADD_-1205990123', u'INT_XOR_-1205989988'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205987911'), (u'INT_ADD_-1205988001', u'INT_RIGHT_-1205987645'), (u'INT_OR_-1205977709', u'INT_ADD_-1205977340'), (u'INT_OR_-1205990718', u'INT_XOR_-1205990684'), (u'INT_ADD_-1205992500', u'INT_RIGHT_-1205992482'), (u'INT_ADD_-1205981814', u'INT_MULT_-1205981792'), ('const-7', u'PTRADD_-1205980418'), (u'INT_OR_-1205986004', u'INT_ADD_-1205986007'), (u'INT_ADD_-1205986647', u'INT_RIGHT_-1205986608'), (u'INT_ADD_-1205982958', u'INT_OR_-1205982809'), (u'INT_MULT_-1205987797', u'INT_OR_-1205987800'), (u'INT_ADD_-1205989274', u'INT_ADD_-1205989226'), ('const-2053994217', u'INT_ADD_-1205979739'), (u'INT_MULT_-1205975569', u'INT_OR_-1205975572'), (u'INT_ADD_-1205978649', u'INT_MULT_-1205978600'), ('const-27', u'INT_RIGHT_-1205982362'), (u'INT_MULT_-1205975023', u'INT_OR_-1205975026'), (u'INT_OR_-1205990032', u'INT_XOR_-1205989948'), (u'INT_ADD_-1205976665', u'INT_ADD_-1205976643'), ('const-1024', u'INT_MULT_-1205992534'), (u'INT_ADD_-1205986007', u'INT_OR_-1205985822'), (u'INT_XOR_-1205975316', u'INT_XOR_-1205975274'), (u'INT_OR_-1205976893', u'INT_NEGATE_-1205976748'), (u'INT_MULT_-1205981576', u'INT_OR_-1205981579'), (u'INT_XOR_-1205981865', u'INT_AND_-1205981844'), (u'INT_OR_-1205990244', u'INT_ADD_-1205990199'), ('const-26', u'INT_RIGHT_-1205990697'), (u'INT_ADD_-1205989368', u'INT_MULT_-1205988756'), (u'INT_OR_-1205990212', u'INT_XOR_-1205990144'), (u'INT_RIGHT_-1205979879', u'INT_OR_-1205979878'), (u'INT_NEGATE_-1205985043', u'INT_OR_-1205984962'), (u'INT_OR_-1205992321', u'INT_ADD_-1205991783'), (u'INT_RIGHT_-1205975751', u'INT_OR_-1205975750'), (u'INT_ADD_-1205986507', u'INT_OR_-1205986286'), (u'INT_OR_-1205980450', u'INT_AND_-1205980369'), ('const-4096', u'INT_MULT_-1205975881'), (u'INT_OR_-1205988885', u'INT_ADD_-1205988888'), (u'INT_ADD_-1205983355', u'INT_MULT_-1205983333'), (u'INT_OR_-1205981056', u'INT_ADD_-1205981059'), (u'INT_OR_-1205990455', u'INT_ADD_-1205990458'), (u'INT_ADD_-1205988642', u'INT_ADD_-1205988602'), (u'INT_OR_-1205978017', u'INT_ADD_-1205976581'), (u'INT_ADD_-1205989757', u'INT_MULT_-1205989677'), ('const-2048', u'INT_MULT_-1205992772'), (u'INT_ADD_-1205979663', u'INT_MULT_-1205979556'), (u'INT_XOR_-1205977667', u'INT_ADD_-1205977656'), (u'INT_OR_-1205976785', u'INT_ADD_-1205976788'), (u'INT_ADD_-1205983776', u'INT_RIGHT_-1205983142'), (u'INT_ADD_-1205974947', u'INT_ADD_-1205974572'), ('const-4096', u'INT_MULT_-1205983495'), (u'PTRSUB_-1205979962', u'PTRADD_-1205979936'), (u'INT_OR_-1205977751', u'INT_ADD_-1205977392'), (u'INT_ADD_-1205976117', u'INT_XOR_-1205975982'), (u'INT_OR_-1205984025', u'INT_XOR_-1205983939'), (u'INT_MULT_-1205989899', u'INT_OR_-1205989902'), (u'INT_ADD_-1205991597', u'INT_RIGHT_-1205991579'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205986074'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205982186'), (u'INT_ADD_-1205988269', u'INT_MULT_-1205988247'), ('const-1836072691', u'INT_ADD_-1205983044'), ('const-1836072691', u'INT_ADD_-1205985657'), (u'INT_ADD_-1205978963', u'INT_ADD_-1205978947'), (u'INT_ADD_-1205986341', u'INT_RIGHT_-1205986323'), ('const-24', u'INT_RIGHT_-1205976417'), (u'STORE_-1205974616', u'INDIRECT_-1205973917'), (u'INT_ADD_-1205990963', u'INT_RIGHT_-1205990837'), (u'INT_RIGHT_-1205984993', u'INT_OR_-1205984992'), (u'INT_MULT_-1205974747', u'INT_OR_-1205974750'), (u'INT_ADD_-1205985379', u'INT_ADD_-1205985369'), (u'INT_OR_-1205986704', u'INT_AND_-1205986671'), (u'INT_OR_-1205977637', u'INT_ADD_-1205977640'), (u'INT_ADD_-1205976367', u'INT_RIGHT_-1205976199'), (u'INT_OR_-1205980534', u'INT_XOR_-1205980360'), (u'INT_ADD_-1205975653', u'INT_MULT_-1205975513'), (u'CALL_-1205993328', u'INDIRECT_-1205980668'), ('const-1024', u'INT_MULT_-1205985563'), (u'INT_NEGATE_-1205992748', u'INT_OR_-1205992581'), (u'INT_OR_-1205982633', u'INT_XOR_-1205982448'), (u'INT_OR_-1205979788', u'INT_ADD_-1205979371'), (u'INT_ADD_-1205984106', u'INT_ADD_-1205984096'), (u'INT_OR_-1205978063', u'INT_AND_-1205978040'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977118'), ('const-8', u'PTRADD_-1205980423'), (u'INT_ADD_-1205977640', u'INT_OR_-1205977545'), (u'INT_ADD_-1205977366', u'INT_RIGHT_-1205977338'), (u'INDIRECT_-1205973962', u'COPY_-1205974017'), (u'INT_OR_-1205984723', u'INT_XOR_-1205984689'), (u'INT_ADD_-1205983543', u'INT_RIGHT_-1205983499'), (u'INT_OR_-1205978625', u'INT_XOR_-1205978591'), (u'CALL_-1205993328', u'INDIRECT_-1205980551'), (u'INT_OR_-1205984571', u'INT_XOR_-1205984537'), (u'INT_ADD_-1205980100', u'INT_RIGHT_-1205979988'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980438'), (u'INT_MULT_-1205982268', u'INT_OR_-1205982271'), ('const-1024', u'INT_MULT_-1205980447'), ('const-2053994217', u'INT_ADD_-1205978689'), ('const-21', u'INT_RIGHT_-1205982106'), (u'INT_RIGHT_-1205977622', u'INT_OR_-1205977621'), (u'INT_XOR_-1205981567', u'INT_AND_-1205981530'), ('const-22', u'INT_RIGHT_-1205977322'), (u'INDIRECT_-1205980773', u'MULTIEQUAL_-1205980776'), ('const-128', u'INT_MULT_-1205986831'), ('const-32', u'INT_MULT_-1205974905'), ('const-20', u'INT_RIGHT_-1205975885'), (u'INT_OR_-1205990696', u'INT_ADD_-1205990699'), ('const-22', u'INT_RIGHT_-1205980227'), (u'INT_MULT_-1205984362', u'INT_OR_-1205984365'), (u'INT_ADD_-1205982530', u'INT_ADD_-1205982520'), (u'INT_OR_-1205975162', u'INT_ADD_-1205975165'), (u'STORE_-1205974682', u'INDIRECT_-1205974025'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205977979'), ('const-21', u'INT_RIGHT_-1205991039'), (u'INT_MULT_-1205987249', u'INT_OR_-1205987252'), (u'INT_RIGHT_-1205992936', u'INT_OR_-1205992935'), (u'INT_OR_-1205984413', u'INT_XOR_-1205984405'), (u'INT_XOR_-1205991648', u'INT_ADD_-1205991623'), (u'INT_OR_-1205988134', u'INT_XOR_-1205988096'), (u'INT_ADD_-1205988179', u'INT_ADD_-1205988127'), (u'INT_OR_-1205980019', u'INT_ADD_-1205979474'), (u'INT_ADD_-1205988694', u'INT_ADD_-1205988642'), ('const-17', u'INT_RIGHT_-1205990795'), (u'CALL_-1205993328', u'INDIRECT_-1205980566'), (u'INT_ADD_-1205977392', u'INT_ADD_-1205977366'), ('const-2400959708', u'INT_ADD_-1205981708'), (u'INT_OR_-1205983484', u'INT_XOR_-1205983360'), (u'INT_AND_-1205988360', u'INT_XOR_-1205988331'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992262'), ('const-24', u'INT_RIGHT_-1205975075'), (u'INT_OR_-1205992537', u'INT_ADD_-1205992210'), (u'INT_ADD_-1205979739', u'INT_ADD_-1205979709'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205987197'), (u'INT_ADD_-1205980841', u'INT_XOR_-1205980480'), (u'INT_OR_-1205990525', u'INT_ADD_-1205989683'), (u'INT_ADD_-1205983792', u'INT_RIGHT_-1205983774'), (u'INT_ADD_-1205980688', u'INT_ADD_-1205980672'), (u'INT_RIGHT_-1205985202', u'INT_OR_-1205985201'), ('const-4096', u'INT_MULT_-1205991437'), (u'INT_XOR_-1205992111', u'INT_XOR_-1205992085'), (u'PTRADD_-1205980355', u'LOAD_-1205993137'), (u'INT_ADD_-1205989777', u'INT_MULT_-1205989236'), (u'INT_ADD_-1205989683', u'INT_RIGHT_-1205989046'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987516'), (u'INT_OR_-1205991696', u'INT_XOR_-1205991668'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205984886'), (u'INT_ADD_-1205975887', u'INT_MULT_-1205975747'), (u'INT_ADD_-1205991963', u'INT_RIGHT_-1205991531'), (u'INT_RIGHT_-1205987853', u'INT_OR_-1205987852'), (u'INT_OR_-1205990212', u'INT_XOR_-1205990184'), (u'INT_MULT_-1205992204', u'INT_OR_-1205992207'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205991663'), (u'CALL_-1205974449', u'INDIRECT_-1205973924'), (u'LOAD_-1205992207', u'INT_XOR_-1205991804'), ('const-22', u'INT_RIGHT_-1205990837'), (u'INT_MULT_-1205991057', u'INT_OR_-1205991060'), (u'INT_ADD_-1205975363', u'INT_MULT_-1205975055'), (u'INT_ADD_-1205990589', u'INT_RIGHT_-1205990488'), (u'INT_ADD_-1205975311', u'INT_ADD_-1205975269'), ('const-22', u'INT_RIGHT_-1205981015'), (u'INT_ADD_-1205992242', u'INT_ADD_-1205992226'), (u'INT_ADD_-1205974572', u'STORE_-1205974532'), (u'STORE_-1205974544', u'INDIRECT_-1205973932'), (u'INT_ADD_-1205975363', u'INT_RIGHT_-1205975059'), (u'INT_ADD_-1205981206', u'INT_RIGHT_-1205981172'), ('const-0', u'PTRSUB_-1205980403'), (u'INT_ADD_-1205986143', u'INT_MULT_-1205986121'), ('const-1024', u'INT_MULT_-1205979051'), ('const-1024', u'INT_MULT_-1205975669'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992654'), (u'INT_OR_-1205975750', u'INT_XOR_-1205975716'), ('const-1024', u'INT_MULT_-1205985849'), (u'INT_ADD_-1205976912', u'INT_ADD_-1205976860'), ('const-4096', u'INT_MULT_-1205988646'), (u'INT_ADD_-1205986100', u'INT_OR_-1205986057'), (u'INT_OR_-1205979028', u'INT_XOR_-1205978968'), (u'INT_MULT_-1205975803', u'INT_OR_-1205975806'), (u'STORE_-1205974676', u'INDIRECT_-1205974080'), (u'INT_OR_-1205982751', u'INT_XOR_-1205982621'), (u'INT_ADD_-1205976159', u'INT_ADD_-1205976067'), (u'INT_ADD_-1205980652', u'INT_RIGHT_-1205980634'), ('const-1024', u'INT_MULT_-1205985833'), (u'INT_OR_-1205983372', u'INT_ADD_-1205982958'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205990715'), (u'INT_MULT_-1205978909', u'INT_OR_-1205978912'), (u'INT_OR_-1205983616', u'INT_ADD_-1205983166'), (u'INT_RIGHT_-1205982634', u'INT_OR_-1205982633'), ('const-1548603684', u'INT_ADD_-1205987197'), (u'INT_ADD_-1205991213', u'INT_MULT_-1205991191'), (u'INT_XOR_-1205990674', u'INT_XOR_-1205990638'), (u'INT_RIGHT_-1205975969', u'INT_OR_-1205975968'), (u'INT_ADD_-1205983213', u'INT_MULT_-1205983180'), ('const-76', u'PTRSUB_-1205973780'), (u'INT_NEGATE_-1205984772', u'INT_OR_-1205984571'), (u'INT_ADD_-1205986143', u'INT_RIGHT_-1205986125'), (u'INT_ADD_-1205978503', u'INT_MULT_-1205978312'), (u'PTRSUB_-1205980513', u'COPY_-1205980514'), ('const-417', u'LOAD_-1205974647'), (u'INT_ADD_-1205991683', u'INT_MULT_-1205991463'), (u'INT_ADD_-1205980877', u'INT_ADD_-1205980831'), (u'INT_ADD_-1205977216', u'INT_XOR_-1205977191'), (u'INT_OR_-1205985150', u'INT_XOR_-1205985126'), ('const-22', u'INT_RIGHT_-1205986933'), (u'INT_XOR_-1205980115', u'INT_ADD_-1205980100'), (u'INT_ADD_-1205985342', u'INT_RIGHT_-1205984738'), (u'INT_OR_-1205978017', u'INT_XOR_-1205977984'), ('const-22', u'INT_RIGHT_-1205976894'), (u'INDIRECT_-1205980728', u'INT_ADD_-1205986790'), (u'CALL_-1205993328', u'INDIRECT_-1205980524'), (u'INT_ADD_-1205976035', u'INT_OR_-1205975096'), (u'INDIRECT_-1205973902', u'COPY_-1205973957'), (u'INT_NEGATE_-1205985873', u'INT_OR_-1205985736'), (u'INT_ADD_-1205988412', u'INT_AND_-1205988360'), (u'INT_RIGHT_-1205977178', u'INT_OR_-1205977177'), (u'INT_RIGHT_-1205985103', u'INT_OR_-1205985102'), (u'INT_OR_-1205991466', u'INT_XOR_-1205991422'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205989793'), (u'LOAD_-1205992081', u'INT_ADD_-1205974592'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205986600'), (u'INT_ADD_-1205980192', u'INT_MULT_-1205979514'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205978841'), (u'INT_ADD_-1205988033', u'INT_RIGHT_-1205987999'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205981126'), (u'INT_OR_-1205977321', u'INT_ADD_-1205976912'), (u'INT_OR_-1205984365', u'INT_ADD_-1205984368'), (u'INT_MULT_-1205983613', u'INT_OR_-1205983616'), (u'STORE_-1205974676', u'INDIRECT_-1205974065'), ('const-2048', u'INT_MULT_-1205979801'), (u'INT_RIGHT_-1205974692', u'INT_OR_-1205974691'), (u'INT_AND_-1205989168', u'INT_XOR_-1205989143'), ('const-22', u'INT_RIGHT_-1205977100'), ('const-27', u'INT_RIGHT_-1205976323'), ('const-22', u'INT_RIGHT_-1205976673'), (u'INT_MULT_-1205986701', u'INT_OR_-1205986704'), (u'INT_OR_-1205975516', u'INT_ADD_-1205975311'), ('const-2048', u'INT_MULT_-1205986501'), (u'INT_AND_-1205979478', u'INT_XOR_-1205979449'), (u'INT_ADD_-1205985105', u'INT_OR_-1205984723'), (u'PTRSUB_-1205973780', u'PTRADD_-1205973755'), (u'INT_OR_-1205975328', u'INT_ADD_-1205975009'), (u'INT_OR_-1205983566', u'INT_XOR_-1205983548'), (u'INT_XOR_-1205980852', u'INT_ADD_-1205980831'), (u'INDIRECT_-1205980638', u'MULTIEQUAL_-1205980641'), (u'INT_ADD_-1205988888', u'INT_MULT_-1205988219'), (u'INT_ADD_-1205977128', u'INT_MULT_-1205977096'), (u'PTRSUB_-1205980416', u'PTRADD_-1205980384'), (u'INT_XOR_-1205980177', u'INT_AND_-1205980130'), (u'INT_OR_-1205982591', u'INT_ADD_-1205982594'), (u'INT_RIGHT_-1205977126', u'INT_OR_-1205977125'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205983044'), (u'INT_OR_-1205987284', u'INT_ADD_-1205987287'), (u'INT_OR_-1205975220', u'INT_XOR_-1205975202'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205980794'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205987783'), (u'INDIRECT_-1205980539', u'MULTIEQUAL_-1205980554'), (u'STORE_-1205974664', u'INDIRECT_-1205973950'), (u'INT_OR_-1205989397', u'INT_ADD_-1205989400'), ('const-22', u'INT_RIGHT_-1205986453'), (u'INT_OR_-1205978537', u'INT_XOR_-1205978488'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205979494'), (u'INT_ADD_-1205988920', u'INT_RIGHT_-1205988860'), ('tmp_34091', u'CBRANCH_-1205974502'), (u'INT_OR_-1205993071', u'INT_NEGATE_-1205993060'), (u'INT_OR_-1205974880', u'INT_ADD_-1205974592'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986408'), (u'INT_MULT_-1205977905', u'INT_OR_-1205977908'), (u'INT_ADD_-1205988001', u'INT_MULT_-1205987641'), (u'INT_MULT_-1205974688', u'INT_OR_-1205974691'), (u'STORE_-1205974616', u'INDIRECT_-1205973947'), ('const-27', u'INT_RIGHT_-1205974909'), (u'INT_OR_-1205976893', u'INT_ADD_-1205976159'), (u'INT_OR_-1205975096', u'INT_XOR_-1205974984'), (u'INT_XOR_-1205978654', u'INT_ADD_-1205978649'), (u'INT_MULT_-1205983890', u'INT_OR_-1205983893'), (u'INT_ADD_-1205984222', u'INT_MULT_-1205983311'), (u'INT_OR_-1205987982', u'INT_ADD_-1205987449'), (u'INT_ADD_-1205986034', u'INT_MULT_-1205986001'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205981983'), (u'INT_ADD_-1205981556', u'INT_ADD_-1205981546'), ('const-1548603684', u'INT_ADD_-1205987911'), (u'INT_ADD_-1205987255', u'INT_MULT_-1205986929'), (u'INT_ADD_-1205980804', u'INT_MULT_-1205980160'), (u'INT_MULT_-1205991347', u'INT_OR_-1205991350'), ('const-512', u'INT_MULT_-1205985025'), (u'INT_OR_-1205986581', u'INT_ADD_-1205986100'), ('const-24', u'INT_RIGHT_-1205991923'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205985167'), (u'INT_ADD_-1205976357', u'INT_MULT_-1205976319'), ('const-17', u'INT_RIGHT_-1205991579'), ('tmp_38868', u'MULTIEQUAL_-1205980578'), (u'INT_RIGHT_-1205984586', u'INT_OR_-1205984585'), (u'INT_OR_-1205980226', u'INT_XOR_-1205980115'), (u'INT_OR_-1205987644', u'INT_XOR_-1205987526'), ('const-21', u'INT_RIGHT_-1205985103'), (u'INT_ADD_-1205976804', u'INT_MULT_-1205976782'), (u'INT_OR_-1205987622', u'INT_AND_-1205987541'), (u'INT_OR_-1205991696', u'INT_ADD_-1205991443'), (u'INT_ADD_-1205985721', u'INT_OR_-1205985488'), (u'INT_ADD_-1205977640', u'INT_RIGHT_-1205977622'), (u'INT_ADD_-1205979673', u'INT_RIGHT_-1205979608'), (u'INT_ADD_-1205988169', u'INT_ADD_-1205988033'), (u'INT_NEGATE_-1205977310', u'INT_OR_-1205977163'), (u'INT_OR_-1205981291', u'INT_AND_-1205981236'), (u'INT_OR_-1205991890', u'INT_XOR_-1205991804'), (u'INT_AND_-1205978570', u'INT_XOR_-1205978551'), ('const-1024', u'INT_MULT_-1205991527'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976347'), (u'STORE_-1205974532', u'INDIRECT_-1205973997'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205983745'), ('const-0', u'RETURN_-1205974452'), (u'STORE_-1205974526', u'INDIRECT_-1205973947'), ('tmp_34209', u'PTRSUB_-1205979959'), ('const-1024', u'INT_MULT_-1205992756'), (u'INT_OR_-1205977027', u'INT_NEGATE_-1205977016'), (u'INT_XOR_-1205976959', u'INT_ADD_-1205976948'), ('const-64', u'INT_MULT_-1205986728'), ('const-417', u'LOAD_-1205993205'), (u'INT_OR_-1205981014', u'INT_AND_-1205980907'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205980688'), (u'INT_ADD_-1205986127', u'INT_NEGATE_-1205985873'), (u'INT_ADD_-1205977520', u'INT_OR_-1205977405'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205980852'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205980245'), (u'INT_ADD_-1205990361', u'INT_MULT_-1205990209'), (u'INT_ADD_-1205991623', u'INT_RIGHT_-1205991605'), (u'INT_ADD_-1205985342', u'INT_OR_-1205985273'), (u'INT_OR_-1205989113', u'INT_XOR_-1205988925'), (u'STORE_-1205974538', u'INDIRECT_-1205973912'), (u'INT_ADD_-1205986163', u'INT_ADD_-1205986143'), (u'INT_ADD_-1205974969', u'INT_MULT_-1205974941'), (u'INT_OR_-1205988859', u'INT_ADD_-1205988862'), (u'INT_OR_-1205989585', u'INT_ADD_-1205989018'), (u'INT_ADD_-1205990313', u'INT_XOR_-1205990184'), ('const-21', u'INT_RIGHT_-1205987447'), (u'INT_OR_-1205986232', u'INT_ADD_-1205985647'), (u'INT_XOR_-1205990860', u'INT_ADD_-1205990829'), (u'INT_ADD_-1205990003', u'INT_RIGHT_-1205989811'), (u'INT_MULT_-1205976303', u'INT_OR_-1205976306'), (u'INT_MULT_-1205991145', u'INT_OR_-1205991148'), (u'INT_ADD_-1205977818', u'INT_ADD_-1205977808'), (u'INT_ADD_-1205989064', u'INT_MULT_-1205988704'), (u'STORE_-1205974526', u'INDIRECT_-1205973917'), (u'INDIRECT_-1205980551', u'MULTIEQUAL_-1205980566'), ('const-22', u'INT_RIGHT_-1205983142'), (u'INT_OR_-1205989239', u'INT_XOR_-1205989195'), (u'INT_MULT_-1205992772', u'INT_OR_-1205992775'), (u'INT_ADD_-1205974817', u'INT_ADD_-1205974781'), (u'INT_XOR_-1205989948', u'INT_ADD_-1205989927'), (u'STORE_-1205974550', u'INDIRECT_-1205973892'), (u'INT_ADD_-1205992804', u'INT_MULT_-1205992772'), (u'INT_ADD_-1205985647', u'INT_ADD_-1205985591'), ('const-32768', u'INT_MULT_-1205977514'), (u'INT_RIGHT_-1205977710', u'INT_OR_-1205977709'), (u'INT_OR_-1205991530', u'INT_ADD_-1205991353'), (u'LOAD_-1205992251', u'INT_ADD_-1205974737'), (u'INT_XOR_-1205976242', u'INT_ADD_-1205976237'), (u'INT_NEGATE_-1205986530', u'INT_OR_-1205986286'), (u'INT_ADD_-1205982994', u'INT_RIGHT_-1205982956'), (u'INT_ADD_-1205977340', u'INT_XOR_-1205977283'), (u'INT_RIGHT_-1205976734', u'INT_OR_-1205976733'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979168'), (u'INT_OR_-1205992775', u'INT_ADD_-1205992778'), (u'INT_ADD_-1205987491', u'INT_ADD_-1205987439'), ('const-128', u'INT_MULT_-1205990193'), ('const-19', u'INT_RIGHT_-1205992662'), ('const-23', u'INT_RIGHT_-1205989366'), (u'INT_ADD_-1205989652', u'INT_MULT_-1205989544'), (u'INT_NEGATE_-1205977688', u'INT_OR_-1205977545'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205988043'), (u'INT_ADD_-1205983339', u'INT_NEGATE_-1205982980'), (u'INT_OR_-1205983815', u'INT_XOR_-1205983807'), ('const-1024', u'INT_MULT_-1205977748'), (u'INT_AND_-1205981844', u'INT_XOR_-1205981825'), (u'INT_OR_-1205982633', u'INT_ADD_-1205981106'), (u'INT_OR_-1205978315', u'INT_ADD_-1205977859'), (u'INT_ADD_-1205989550', u'INT_XOR_-1205989195'), (u'INT_OR_-1205978434', u'INT_XOR_-1205978345'), (u'INT_OR_-1205975328', u'INT_XOR_-1205975316'), (u'CALL_-1205993328', u'INDIRECT_-1205980557'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205974937'), (u'INT_OR_-1205980617', u'INT_ADD_-1205980293'), (u'INT_XOR_-1205975638', u'INT_XOR_-1205975618'), (u'INT_ADD_-1205984684', u'INT_MULT_-1205984646'), (u'INT_ADD_-1205987793', u'INT_MULT_-1205987761'), (u'INT_ADD_-1205991963', u'INT_MULT_-1205991527'), (u'INT_XOR_-1205989195', u'INT_AND_-1205989168'), (u'INT_ADD_-1205987365', u'INT_ADD_-1205987339'), (u'INT_RIGHT_-1205975495', u'INT_OR_-1205975494'), (u'INT_ADD_-1205977959', u'INT_ADD_-1205977891'), (u'INT_RIGHT_-1205989208', u'INT_OR_-1205989207'), (u'INT_ADD_-1205987339', u'INT_ADD_-1205987319'), (u'INT_MULT_-1205975357', u'INT_OR_-1205975360'), (u'INT_OR_-1205989113', u'INT_XOR_-1205989033'), (u'INT_ADD_-1205986750', u'INT_RIGHT_-1205986732'), (u'INT_OR_-1205978315', u'INT_XOR_-1205978214'), (u'INT_OR_-1205989902', u'INT_ADD_-1205989905'), ('tmp_38864', u'MULTIEQUAL_-1205980566'), ('tmp_34209', u'PTRSUB_-1205973650'), ('const-1024', u'INT_MULT_-1205981424'), (u'INT_OR_-1205986300', u'INT_XOR_-1205986262'), ('tmp_34209', u'PTRSUB_-1205979976'), (u'INT_OR_-1205988457', u'INT_ADD_-1205987881'), ('const-20', u'INT_RIGHT_-1205976786'), (u'INT_OR_-1205984701', u'INT_ADD_-1205984704'), (u'INT_OR_-1205992207', u'INT_ADD_-1205992210'), (u'INDIRECT_-1205980713', u'MULTIEQUAL_-1205980716'), (u'INT_RIGHT_-1205991579', u'INT_OR_-1205991578'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205988878'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205978197'), ('const-17', u'INT_RIGHT_-1205981644'), ('const-2053994217', u'INT_ADD_-1205979964'), (u'INT_ADD_-1205980192', u'INT_RIGHT_-1205979518'), (u'INT_ADD_-1205977128', u'INT_XOR_-1205977077'), (u'INT_MULT_-1205976926', u'INT_OR_-1205976929'), (u'INT_MULT_-1205976890', u'INT_OR_-1205976893'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205992262'), (u'INT_MULT_-1205977334', u'INT_OR_-1205977337'), (u'INT_RIGHT_-1205988828', u'INT_OR_-1205988827'), (u'INT_ADD_-1205984532', u'INT_RIGHT_-1205984514'), (u'INT_XOR_-1205981211', u'INT_ADD_-1205981206'), (u'INT_ADD_-1205984786', u'INT_ADD_-1205984684'), (u'STORE_-1205974616', u'INDIRECT_-1205973962'), (u'INT_OR_-1205991712', u'INT_ADD_-1205990313'), (u'INT_ADD_-1205978123', u'INT_ADD_-1205978103'), (u'INT_ADD_-1205991607', u'INT_XOR_-1205990684'), ('const-1', u'PTRADD_-1205980488'), (u'MULTIEQUAL_-1205981172', u'CALL_-1205993328'), (u'INT_OR_-1205982329', u'INT_ADD_-1205982332'), (u'INT_MULT_-1205986578', u'INT_OR_-1205986581'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205989875'), ('const-1024', u'INT_MULT_-1205977478'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205992422'), (u'INT_ADD_-1205990829', u'INT_MULT_-1205990791'), (u'INT_ADD_-1205988310', u'INT_AND_-1205988079'), (u'INT_ADD_-1205978483', u'INT_ADD_-1205978463'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205993154'), ('const-1024', u'INT_MULT_-1205982820'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981567'), (u'INT_ADD_-1205980054', u'INT_RIGHT_-1205979879'), (u'INT_MULT_-1205979556', u'INT_OR_-1205979559'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205992716'), ('const-1024', u'INT_MULT_-1205976445'), (u'INT_ADD_-1205978669', u'INT_ADD_-1205978649'), (u'INT_ADD_-1205990885', u'INT_RIGHT_-1205990743'), (u'INT_OR_-1205981579', u'INT_ADD_-1205981326'), (u'INT_OR_-1205980019', u'INT_XOR_-1205979975'), (u'INDIRECT_-1205980683', u'INT_ADD_-1205981860'), (u'STORE_-1205974670', u'INDIRECT_-1205974060'), (u'INT_ADD_-1205984400', u'INT_ADD_-1205984390'), (u'INT_NEGATE_-1205977352', u'INT_OR_-1205977251'), (u'INT_RIGHT_-1205992564', u'INT_OR_-1205992563'), (u'INT_XOR_-1205981091', u'INT_ADD_-1205981086'), ('const-16384', u'INT_MULT_-1205990605'), (u'INT_ADD_-1205987287', u'INT_NEGATE_-1205986530'), (u'INT_OR_-1205981291', u'INT_ADD_-1205980804'), (u'INT_RIGHT_-1205976673', u'INT_OR_-1205976672'), ('const-22', u'INT_RIGHT_-1205975969'), (u'INT_RIGHT_-1205990837', u'INT_OR_-1205990836'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988284'), (u'INT_XOR_-1205975852', u'INT_ADD_-1205975847'), ('const-22', u'INT_RIGHT_-1205990245'), (u'INDIRECT_-1205973857', u'COPY_-1205973912'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205985997'), (u'INT_RIGHT_-1205990743', u'INT_OR_-1205990742'), (u'INT_ADD_-1205980495', u'INT_AND_-1205980417'), ('const-22', u'INT_RIGHT_-1205975933'), (u'INT_OR_-1205988250', u'INT_ADD_-1205988253'), (u'INT_OR_-1205979639', u'INT_ADD_-1205978963'), (u'INT_ADD_-1205980804', u'INT_RIGHT_-1205980164'), ('const-417', u'STORE_-1205974544'), ('const-22', u'INT_RIGHT_-1205989697'), (u'INT_OR_-1205991922', u'INT_ADD_-1205991925'), (u'INT_MULT_-1205983333', u'INT_OR_-1205983336'), (u'INT_RIGHT_-1205977482', u'INT_OR_-1205977481'), ('const-8192', u'INT_MULT_-1205989204'), (u'INT_OR_-1205986300', u'INT_ADD_-1205985987'), (u'INT_ADD_-1205984430', u'INT_ADD_-1205984400'), (u'INT_XOR_-1205989519', u'INT_AND_-1205989492'), ('const-1548603684', u'INT_ADD_-1205989572'), (u'INT_ADD_-1205986967', u'INT_MULT_-1205986701'), (u'INT_XOR_-1205985596', u'INT_ADD_-1205985591'), (u'INT_OR_-1205977251', u'INT_XOR_-1205977191'), (u'INT_OR_-1205978625', u'INT_ADD_-1205978360'), (u'INT_XOR_-1205988627', u'INT_ADD_-1205988602'), (u'INT_ADD_-1205992964', u'INT_RIGHT_-1205992936'), (u'INT_ADD_-1205992262', u'INT_ADD_-1205992242'), (u'INT_AND_-1205978040', u'INT_XOR_-1205978031'), ('const-80', u'PTRSUB_-1205973769'), (u'INT_ADD_-1205991197', u'INT_XOR_-1205991104'), ('const-22', u'INT_RIGHT_-1205975605'), (u'INT_ADD_-1205992870', u'INT_RIGHT_-1205992832'), (u'INT_OR_-1205977751', u'INT_NEGATE_-1205977724'), (u'CALL_-1205993328', u'INDIRECT_-1205980683'), (u'INT_OR_-1205984893', u'INT_ADD_-1205984368'), ('const-27', u'INT_RIGHT_-1205979879'), (u'INT_OR_-1205978084', u'INT_ADD_-1205978087'), (u'INT_MULT_-1205985025', u'INT_OR_-1205985028'), ('const-22', u'INT_RIGHT_-1205979789'), ('const-1024', u'INT_MULT_-1205987619'), (u'INT_XOR_-1205991506', u'INT_XOR_-1205991496'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205987866'), (u'INT_ADD_-1205990293', u'INT_ADD_-1205990273'), (u'INT_RIGHT_-1205978761', u'INT_OR_-1205978760'), (u'INT_RIGHT_-1205980802', u'INT_OR_-1205980801'), (u'INT_ADD_-1205978197', u'INT_ADD_-1205978155'), (u'INT_XOR_-1205987886', u'INT_AND_-1205987839'), ('const-19', u'INT_RIGHT_-1205986098'), (u'INT_ADD_-1205978586', u'INT_ADD_-1205978566'), (u'INT_XOR_-1205990298', u'INT_AND_-1205990277'), (u'INT_OR_-1205980450', u'INT_ADD_-1205979871'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205979266'), ('tmp_38865', u'MULTIEQUAL_-1205980569'), (u'INT_ADD_-1205976357', u'INT_RIGHT_-1205976323'), ('const-19', u'INT_RIGHT_-1205975027'), ('const-26', u'INT_RIGHT_-1205984514'), (u'INT_ADD_-1205984516', u'INT_RIGHT_-1205983601'), (u'INT_ADD_-1205984222', u'INT_OR_-1205983815'), (u'INT_ADD_-1205988576', u'INT_MULT_-1205987979'), (u'INT_ADD_-1205977046', u'INT_XOR_-1205976959'), (u'INT_RIGHT_-1205977044', u'INT_OR_-1205977043'), (u'INT_RIGHT_-1205992616', u'INT_OR_-1205992615'), (u'INT_MULT_-1205986804', u'INT_OR_-1205986807'), ('const-32768', u'INT_MULT_-1205992478'), (u'INT_OR_-1205987236', u'INT_AND_-1205987181'), (u'INT_RIGHT_-1205976417', u'INT_OR_-1205976416'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205988356'), (u'INT_RIGHT_-1205990456', u'INT_OR_-1205990455'), (u'INT_AND_-1205981236', u'INT_XOR_-1205981211'), (u'INT_AND_-1205989735', u'INT_XOR_-1205989663'), (u'INT_ADD_-1205990199', u'INT_MULT_-1205990029'), (u'INT_ADD_-1205986999', u'INT_RIGHT_-1205986965'), (u'INT_ADD_-1205988652', u'INT_MULT_-1205988131'), (u'INT_ADD_-1205990025', u'INT_RIGHT_-1205990001'), ('const-0', u'PTRSUB_-1205973650'), ('const-1024', u'INT_MULT_-1205984488'), (u'INT_NEGATE_-1205977140', u'INT_OR_-1205977003'), ('const-1024', u'INT_MULT_-1205986701'), (u'INT_ADD_-1205983655', u'INT_ADD_-1205983645'), (u'INT_ADD_-1205977216', u'INT_MULT_-1205977174'), (u'INT_ADD_-1205992210', u'INT_OR_-1205991978'), (u'INT_XOR_-1205978031', u'INT_ADD_-1205978010'), ('const-1836072691', u'INT_ADD_-1205984796'), (u'INT_OR_-1205978896', u'INT_XOR_-1205978868'), (u'INT_MULT_-1205982102', u'INT_OR_-1205982105'), (u'INT_ADD_-1205982413', u'INT_RIGHT_-1205982330'), (u'INT_RIGHT_-1205980227', u'INT_OR_-1205980226'), (u'INT_ADD_-1205979903', u'INT_ADD_-1205979871'), (u'INT_ADD_-1205980831', u'INT_MULT_-1205980798'), ('const-64', u'INT_MULT_-1205984510'), (u'INT_ADD_-1205987501', u'INT_MULT_-1205987443'), ('const-4', u'PTRADD_-1205980355'), (u'INT_RIGHT_-1205985441', u'INT_OR_-1205985440'), (u'INT_OR_-1205977177', u'INT_ADD_-1205976844'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987162'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205975477'), (u'PTRSUB_-1205980008', u'PTRADD_-1205979981'), (u'INT_ADD_-1205974807', u'INT_RIGHT_-1205974751'), (u'INT_NEGATE_-1205985815', u'INT_OR_-1205985488'), (u'INT_OR_-1205985323', u'INT_ADD_-1205984923'), (u'INT_MULT_-1205989110', u'INT_OR_-1205989113'), (u'INT_ADD_-1205986007', u'INT_MULT_-1205985320'), ('const-1024', u'INT_MULT_-1205990833'), (u'INT_RIGHT_-1205983184', u'INT_OR_-1205983183'), ('const-1024', u'INT_MULT_-1205983890'), (u'INT_ADD_-1205979245', u'INT_ADD_-1205979163'), ('const-1024', u'INT_MULT_-1205988824'), (u'INT_NEGATE_-1205982980', u'INT_OR_-1205982809'), (u'INT_XOR_-1205981983', u'INT_ADD_-1205981978'), ('const-1024', u'INT_MULT_-1205978014'), ('const-22', u'INT_RIGHT_-1205981748'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205977510'), ('const-22', u'INT_RIGHT_-1205975517'), ('const-1024', u'INT_MULT_-1205984288'), (u'INT_OR_-1205990032', u'INT_ADD_-1205989777'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205974817'), (u'INT_ADD_-1205975029', u'INT_RIGHT_-1205974554'), (u'INT_ADD_-1205978530', u'INT_MULT_-1205978497'), ('tmp_34209', u'PTRSUB_-1205979998'), (u'INT_OR_-1205985440', u'INT_ADD_-1205985443'), ('const-4096', u'INT_MULT_-1205988247'), ('const-1024', u'INT_MULT_-1205991223'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205992954'), (u'INT_OR_-1205991272', u'INT_ADD_-1205991275'), (u'INT_OR_-1205985608', u'INT_ADD_-1205985204'), ('const-22', u'INT_RIGHT_-1205975439'), (u'INT_RIGHT_-1205975059', u'INT_OR_-1205975058'), ('const-23', u'INT_RIGHT_-1205990359'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979776'), (u'INT_OR_-1205992395', u'INT_XOR_-1205992335'), (u'INT_ADD_-1205978841', u'INT_ADD_-1205978815'), (u'INT_OR_-1205988827', u'INT_XOR_-1205988737'), (u'INT_MULT_-1205977024', u'INT_OR_-1205977027'), (u'INT_ADD_-1205977808', u'INT_ADD_-1205977792'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205976565'), ('tmp_38861', u'MULTIEQUAL_-1205980557'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205991323'), ('const-19', u'INT_RIGHT_-1205984921'), (u'INT_AND_-1205980130', u'INT_XOR_-1205980115'), (u'INT_XOR_-1205976518', u'INT_XOR_-1205976482'), (u'INT_OR_-1205990982', u'INT_XOR_-1205990948'), (u'INT_OR_-1205991148', u'INT_XOR_-1205991104'), (u'INT_MULT_-1205989582', u'INT_OR_-1205989585'), (u'INT_ADD_-1205983745', u'INT_ADD_-1205983735'), (u'INT_RIGHT_-1205986323', u'INT_OR_-1205986322'), (u'INT_ADD_-1205975731', u'INT_MULT_-1205975601'), ('const-256', u'INT_MULT_-1205980798'), (u'INT_RIGHT_-1205980164', u'INT_OR_-1205980163'), (u'INT_OR_-1205978315', u'INT_XOR_-1205978303'), (u'CALL_-1205974449', u'INDIRECT_-1205973969'), (u'INT_ADD_-1205979015', u'INT_RIGHT_-1205978745'), (u'INT_MULT_-1205975965', u'INT_OR_-1205975968'), (u'INT_OR_-1205980226', u'INT_ADD_-1205979709'), ('const-417', u'LOAD_-1205992219'), (u'INT_ADD_-1205991683', u'INT_RIGHT_-1205991467'), (u'INT_ADD_-1205983223', u'INT_ADD_-1205983213'), (u'INT_RIGHT_-1205974719', u'INT_OR_-1205974718'), (u'INT_OR_-1205986286', u'INT_XOR_-1205986262'), (u'INT_RIGHT_-1205978913', u'INT_OR_-1205978912'), (u'INT_ADD_-1205978334', u'INT_RIGHT_-1205978290'), ('const-417', u'STORE_-1205974526'), (u'INT_RIGHT_-1205992482', u'INT_OR_-1205992481'), (u'INT_ADD_-1205989106', u'INT_MULT_-1205989058'), ('const-64', u'INT_MULT_-1205983511'), (u'INT_ADD_-1205985167', u'INT_ADD_-1205985147'), (u'INT_ADD_-1205992870', u'INT_MULT_-1205992828'), (u'INT_ADD_-1205984886', u'INT_ADD_-1205984876'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986408'), (u'INT_ADD_-1205979807', u'INT_RIGHT_-1205979337'), ('const-64', u'INT_MULT_-1205977210'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205986600'), (u'LOAD_-1205993258', u'INT_LEFT_-1205993161'), (u'INT_OR_-1205988573', u'INT_ADD_-1205988576'), (u'INT_ADD_-1205991581', u'INT_MULT_-1205991385'), (u'INT_OR_-1205989061', u'INT_ADD_-1205989064'), (u'INT_MULT_-1205988646', u'INT_OR_-1205988649'), (u'INT_RIGHT_-1205983515', u'INT_OR_-1205983514'), ('const-0', u'PTRSUB_-1205973718'), ('tmp_38854', u'LOAD_-1205993413'), (u'INT_OR_-1205988108', u'INT_ADD_-1205988111'), (u'INT_ADD_-1205986873', u'INT_ADD_-1205986853'), (u'INT_ADD_-1205990771', u'INT_ADD_-1205990735'), (u'INT_NEGATE_-1205981964', u'INT_OR_-1205981109'), (u'INT_ADD_-1205990139', u'INT_RIGHT_-1205990121'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981279'), ('const-8192', u'INT_MULT_-1205990957'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205990771'), (u'INT_RIGHT_-1205975885', u'INT_OR_-1205975884'), (u'INT_MULT_-1205981288', u'INT_OR_-1205981291'), (u'INT_RIGHT_-1205977752', u'INT_OR_-1205977751'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205991089'), (u'INDIRECT_-1205973909', u'COPY_-1205973967'), (u'INT_OR_-1205982105', u'INT_ADD_-1205982108'), ('const-64', u'INT_MULT_-1205979604'), (u'INDIRECT_-1205980683', u'INT_ADD_-1205979903'), (u'INT_MULT_-1205982326', u'INT_OR_-1205982329'), ('const-22', u'INT_RIGHT_-1205991467'), (u'INT_OR_-1205984491', u'INT_ADD_-1205983802'), ('const-256', u'INT_MULT_-1205991269'), (u'INT_ADD_-1205976133', u'INT_MULT_-1205976111'), (u'INT_ADD_-1205991275', u'INT_XOR_-1205991182'), (u'INT_OR_-1205992161', u'INT_ADD_-1205991607'), ('const-1024', u'INT_MULT_-1205985171'), (u'INT_OR_-1205986452', u'INT_AND_-1205986381'), (u'INT_AND_-1205978983', u'INT_XOR_-1205978968'), ('const-22', u'INT_RIGHT_-1205989240'), (u'INT_ADD_-1205989683', u'INT_MULT_-1205989042'), (u'INT_RIGHT_-1205991039', u'INT_OR_-1205991038'), (u'INT_ADD_-1205991011', u'INT_ADD_-1205991001'), (u'INT_OR_-1205990120', u'INT_ADD_-1205990123'), (u'INT_ADD_-1205979990', u'INT_MULT_-1205979636'), (u'INT_ADD_-1205975457', u'INT_MULT_-1205975413'), ('const-22', u'INT_RIGHT_-1205989334'), (u'INT_OR_-1205979288', u'INT_ADD_-1205977808'), (u'INT_XOR_-1205975618', u'INT_ADD_-1205975597'), (u'INT_RIGHT_-1205986453', u'INT_OR_-1205986452'), (u'INT_ADD_-1205990963', u'INT_XOR_-1205990870'), (u'INT_ADD_-1205978530', u'INT_RIGHT_-1205978501'), (u'INT_OR_-1205981427', u'INT_ADD_-1205980877'), (u'INT_OR_-1205992279', u'INT_ADD_-1205992282'), (u'PTRADD_-1205980423', u'LOAD_-1205993280'), (u'INT_MULT_-1205982242', u'INT_OR_-1205982245'), (u'INT_OR_-1205990411', u'INT_XOR_-1205990387'), ('const-2053994217', u'INT_ADD_-1205979073'), (u'INT_ADD_-1205985779', u'INT_MULT_-1205985715'), (u'INT_ADD_-1205975477', u'INT_ADD_-1205975457'), ('const-22', u'INT_RIGHT_-1205976199'), (u'INT_MULT_-1205992478', u'INT_OR_-1205992481'), ('const-4294967188', u'PTRSUB_-1205980513'), ('const-0', u'PTRSUB_-1205973728'), (u'INT_OR_-1205982725', u'INT_XOR_-1205982621'), (u'INT_ADD_-1205982124', u'INT_OR_-1205981109'), (u'INT_OR_-1205979054', u'INT_ADD_-1205977520'), (u'STORE_-1205974616', u'INDIRECT_-1205973977'), (u'INT_ADD_-1205992226', u'INT_RIGHT_-1205992208'), ('const-417', u'LOAD_-1205992251'), (u'INT_ADD_-1205983918', u'INT_NEGATE_-1205983631'), (u'INT_OR_-1205983893', u'INT_ADD_-1205983223'), (u'INT_ADD_-1205975575', u'INT_RIGHT_-1205975439'), (u'INT_ADD_-1205985204', u'INT_MULT_-1205984582'), ('const-22', u'INT_RIGHT_-1205990905'), ('const-64', u'INT_MULT_-1205978757'), (u'INT_RIGHT_-1205979988', u'INT_OR_-1205979987'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205988747'), (u'INT_ADD_-1205988434', u'INT_ADD_-1205988376'), ('const-1024', u'INT_MULT_-1205986229'), (u'INT_ADD_-1205991783', u'INT_XOR_-1205991648'), ('const-1024', u'INT_MULT_-1205977174'), (u'INT_ADD_-1205976067', u'INT_RIGHT_-1205976033'), (u'INT_ADD_-1205988253', u'INT_MULT_-1205987619'), (u'INT_MULT_-1205986831', u'INT_OR_-1205986834'), ('const-22', u'INT_RIGHT_-1205981580'), (u'INT_ADD_-1205982958', u'INT_RIGHT_-1205982246'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205976347'), (u'INT_ADD_-1205986497', u'INT_ADD_-1205986477'), ('const-25', u'INT_RIGHT_-1205990488'), (u'INT_MULT_-1205979387', u'INT_OR_-1205979390'), (u'INT_MULT_-1205978081', u'INT_OR_-1205978084'), (u'INT_OR_-1205987236', u'INT_ADD_-1205986873'), (u'INT_XOR_-1205992000', u'INT_ADD_-1205991941'), (u'INT_MULT_-1205990339', u'INT_OR_-1205990342'), (u'INT_ADD_-1205979444', u'INT_ADD_-1205979414'), (u'INT_MULT_-1205976838', u'INT_OR_-1205976841'), (u'INT_OR_-1205974691', u'INT_ADD_-1205974694'), (u'INT_ADD_-1205983776', u'INT_OR_-1205983586'), (u'INT_RIGHT_-1205978501', u'INT_OR_-1205978500'), (u'INT_ADD_-1205975165', u'INT_XOR_-1205975014'), (u'INT_XOR_-1205986194', u'INT_AND_-1205986183'), ('const-1024', u'INT_MULT_-1205978741'), (u'INT_ADD_-1205978113', u'INT_MULT_-1205978081'), ('const-24', u'INT_RIGHT_-1205976579'), ('const-22', u'INT_RIGHT_-1205983894'), (u'INT_RIGHT_-1205989366', u'INT_OR_-1205989365'), (u'INT_OR_-1205983063', u'INT_XOR_-1205983009'), (u'INT_RIGHT_-1205983078', u'INT_OR_-1205983077'), (u'INT_OR_-1205979012', u'INT_ADD_-1205979015'), (u'INT_MULT_-1205978394', u'INT_OR_-1205978397'), ('const-22', u'INT_RIGHT_-1205982502'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992556'), (u'INT_XOR_-1205978488', u'INT_AND_-1205978467'), (u'INT_MULT_-1205975819', u'INT_OR_-1205975822'), (u'INT_ADD_-1205981646', u'INT_RIGHT_-1205981292'), (u'INT_MULT_-1205980630', u'INT_OR_-1205980633'), (u'INT_ADD_-1205991941', u'INT_MULT_-1205991919'), (u'STORE_-1205974538', u'INDIRECT_-1205973897'), (u'INT_XOR_-1205993033', u'INT_ADD_-1205992980'), (u'INT_ADD_-1205975165', u'INT_MULT_-1205974877'), ('const-4', u'PTRADD_-1205980384'), (u'INT_OR_-1205978017', u'INT_ADD_-1205976565'), (u'INT_XOR_-1205990938', u'INT_ADD_-1205990923'), (u'INT_ADD_-1205977242', u'INT_MULT_-1205977210'), (u'INT_RIGHT_-1205975439', u'INT_OR_-1205975438'), (u'INT_XOR_-1205989824', u'INT_ADD_-1205989803'), ('const-22', u'INT_RIGHT_-1205986705'), (u'INT_ADD_-1205978400', u'INT_MULT_-1205978014'), (u'INT_OR_-1205988759', u'INT_ADD_-1205988253'), (u'INT_ADD_-1205979673', u'INT_MULT_-1205979604'), (u'INT_OR_-1205978603', u'INT_ADD_-1205978606'), ('const-22', u'INT_RIGHT_-1205982058'), ('const-22', u'INT_RIGHT_-1205975673'), ('const-22', u'INT_RIGHT_-1205980770'), (u'INT_XOR_-1205975716', u'INT_XOR_-1205975696'), (u'INT_ADD_-1205982166', u'INT_RIGHT_-1205982122'), (u'INT_XOR_-1205989988', u'INT_AND_-1205989967'), (u'INT_RIGHT_-1205978018', u'INT_OR_-1205978017'), ('const-3', u'PTRADD_-1205979981'), (u'INT_MULT_-1205984698', u'INT_OR_-1205984701'), ('const-22', u'INT_RIGHT_-1205984178'), ('const-4', u'PTRADD_-1205973684'), (u'INT_ADD_-1205984552', u'INT_ADD_-1205984532'), (u'INT_OR_-1205984219', u'INT_ADD_-1205984222'), ('const-1024', u'INT_MULT_-1205986578'), (u'COPY_-1205980481', u'MULTIEQUAL_-1205981173'), (u'INT_ADD_-1205976435', u'INT_MULT_-1205976413'), (u'INT_ADD_-1205987767', u'INT_AND_-1205987725'), (u'INT_RIGHT_-1205988251', u'INT_OR_-1205988250'), ('const-22', u'INT_RIGHT_-1205984993'), (u'INT_MULT_-1205984054', u'INT_OR_-1205984057'), (u'INT_OR_-1205989680', u'INT_ADD_-1205989683'), (u'INT_XOR_-1205975696', u'INT_ADD_-1205975691'), (u'INT_ADD_-1205984562', u'INT_ADD_-1205984552'), ('const-1024', u'INT_MULT_-1205975231'), (u'INT_RIGHT_-1205984514', u'INT_OR_-1205984513'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205980794'), (u'INT_OR_-1205978434', u'INT_XOR_-1205978385'), (u'INT_RIGHT_-1205991563', u'INT_OR_-1205991562'), (u'INT_OR_-1205977373', u'INT_ADD_-1205976974'), (u'INT_OR_-1205990212', u'INT_ADD_-1205989963'), ('const-1024', u'INT_MULT_-1205976730'), (u'INT_MULT_-1205982774', u'INT_OR_-1205982777'), (u'INT_OR_-1205990244', u'INT_XOR_-1205989880'), (u'INT_ADD_-1205991925', u'INT_RIGHT_-1205991839'), (u'INT_MULT_-1205976195', u'INT_OR_-1205976198'), (u'INT_AND_-1205981378', u'INT_XOR_-1205981363'), ('const-22', u'INT_RIGHT_-1205982246'), (u'INT_ADD_-1205990361', u'INT_RIGHT_-1205990213'), (u'INT_MULT_-1205981874', u'INT_OR_-1205981877'), (u'INT_XOR_-1205992247', u'INT_ADD_-1205992226'), (u'INT_RIGHT_-1205987101', u'INT_OR_-1205987100'), (u'INT_XOR_-1205975130', u'INT_ADD_-1205975125'), (u'INDIRECT_-1205980548', u'INT_ADD_-1205990293'), (u'INT_OR_-1205979390', u'INT_ADD_-1205979393'), (u'INT_OR_-1205990000', u'INT_ADD_-1205990003'), (u'INT_MULT_-1205985336', u'INT_OR_-1205985339'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987072'), (u'INT_OR_-1205982057', u'INT_AND_-1205982002'), ('const-22', u'INT_RIGHT_-1205991839'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205989023'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987392'), (u'INT_RIGHT_-1205976770', u'INT_OR_-1205976769'), (u'INDIRECT_-1205973887', u'COPY_-1205973942'), ('const-22', u'INT_RIGHT_-1205988458'), (u'INT_ADD_-1205991041', u'INT_XOR_-1205990948'), (u'INT_OR_-1205979118', u'INT_ADD_-1205979121'), (u'INT_ADD_-1205992566', u'INT_RIGHT_-1205992538'), (u'INT_RIGHT_-1205982752', u'INT_OR_-1205982751'), (u'INT_RIGHT_-1205976167', u'INT_OR_-1205976166'), ('tmp_38854', u'MULTIEQUAL_-1205980776'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205990387'), ('const-10', u'INT_LEFT_-1205993161'), (u'INT_ADD_-1205988043', u'INT_ADD_-1205987965'), (u'INT_ADD_-1205986325', u'INT_RIGHT_-1205985609'), (u'INT_ADD_-1205986007', u'INT_NEGATE_-1205985815'), (u'CALL_-1205993328', u'INDIRECT_-1205980527'), (u'STORE_-1205974544', u'INDIRECT_-1205973992'), ('const-22', u'INT_RIGHT_-1205979837'), (u'INDIRECT_-1205980530', u'MULTIEQUAL_-1205980545'), (u'INT_MULT_-1205986501', u'INT_OR_-1205986504'), (u'CALL_-1205974449', u'INDIRECT_-1205973879'), (u'INT_ADD_-1205992706', u'INT_ADD_-1205992680'), (u'INT_OR_-1205976016', u'INT_XOR_-1205975982'), (u'INT_MULT_-1205989042', u'INT_OR_-1205989045'), (u'INT_RIGHT_-1205977028', u'INT_OR_-1205977027'), (u'INT_OR_-1205975438', u'INT_ADD_-1205975145'), (u'PTRSUB_-1205973645', u'PTRSUB_-1205973686'), ('const-1548603684', u'INT_ADD_-1205987599'), (u'INT_ADD_-1205976844', u'INT_OR_-1205976506'), (u'INT_ADD_-1205990589', u'INT_MULT_-1205990484'), (u'INT_RIGHT_-1205983601', u'INT_OR_-1205983600'), (u'INT_OR_-1205979878', u'INT_ADD_-1205979881'), (u'INT_ADD_-1205977891', u'INT_MULT_-1205977853'), ('const-23', u'INT_RIGHT_-1205989548'), (u'STORE_-1205974532', u'INDIRECT_-1205973907'), (u'INT_ADD_-1205990490', u'INT_RIGHT_-1205990343'), (u'INT_XOR_-1205978448', u'INT_ADD_-1205978421'), (u'INT_OR_-1205991304', u'INT_ADD_-1205991089'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205985379'), (u'INT_OR_-1205978896', u'INT_XOR_-1205978800'), ('const-1024', u'INT_MULT_-1205983369'), ('const-8192', u'INT_MULT_-1205983333'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205985657'), (u'INT_ADD_-1205985230', u'INT_RIGHT_-1205985202'), ('const-1859775393', u'INT_ADD_-1205984979'), (u'INT_ADD_-1205986687', u'INT_ADD_-1205986667'), (u'INT_RIGHT_-1205987405', u'INT_OR_-1205987404'), (u'INT_MULT_-1205985849', u'INT_OR_-1205985852'), (u'INT_ADD_-1205991323', u'INT_ADD_-1205991297'), (u'INT_ADD_-1205987287', u'INT_OR_-1205986567'), (u'INT_NEGATE_-1205982766', u'INT_OR_-1205982231'), (u'INDIRECT_-1205980557', u'INT_ADD_-1205980897'), ('const-1024', u'INT_MULT_-1205991709'), (u'INT_ADD_-1205986734', u'INT_MULT_-1205986229'), (u'INT_RIGHT_-1205987237', u'INT_OR_-1205987236'), (u'INT_ADD_-1205982994', u'INT_MULT_-1205982952'), (u'INT_OR_-1205979054', u'INT_NEGATE_-1205979043'), (u'INT_OR_-1205978760', u'INT_ADD_-1205978763'), ('const-22', u'INT_RIGHT_-1205976541'), (u'INT_ADD_-1205989927', u'INT_MULT_-1205989899'), (u'INT_ADD_-1205979709', u'INT_ADD_-1205979663'), (u'INT_ADD_-1205985342', u'INT_MULT_-1205984734'), ('const-1024', u'INT_MULT_-1205992462'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205990293'), (u'INT_ADD_-1205980841', u'INT_MULT_-1205980223'), ('const-20', u'INT_RIGHT_-1205988650'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205976984'), (u'INT_NEGATE_-1205977724', u'INT_OR_-1205977591'), (u'INT_OR_-1205992759', u'INT_ADD_-1205992370'), (u'INT_OR_-1205982245', u'INT_ADD_-1205981059'), (u'INT_ADD_-1205981252', u'INT_ADD_-1205981226'), (u'INT_ADD_-1205983339', u'INT_RIGHT_-1205982634'), (u'INT_MULT_-1205977921', u'INT_OR_-1205977924'), (u'INT_ADD_-1205989400', u'INT_MULT_-1205988824'), (u'PTRADD_-1205973709', u'STORE_-1205974616'), (u'INT_ADD_-1205991731', u'INT_RIGHT_-1205991681'), (u'INT_ADD_-1205990518', u'INT_MULT_-1205990452'), ('const-1024', u'INT_MULT_-1205984890'), ('const-19', u'INT_RIGHT_-1205990961'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205992030'), (u'INT_RIGHT_-1205985175', u'INT_OR_-1205985174'), (u'INT_ADD_-1205977520', u'INT_RIGHT_-1205977482'), (u'INT_MULT_-1205981011', u'INT_OR_-1205981014'), (u'INT_RIGHT_-1205991891', u'INT_OR_-1205991890'), ('const-27', u'INT_RIGHT_-1205975361'), (u'INT_OR_-1205982501', u'INT_XOR_-1205982438'), (u'INT_ADD_-1205991683', u'INT_XOR_-1205991506'), ('const-4096', u'INT_MULT_-1205981946'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205993028'), (u'INT_ADD_-1205988862', u'INT_RIGHT_-1205988522'), ('const-32', u'INT_MULT_-1205978081'), ('tmp_34209', u'PTRSUB_-1205973660'), (u'INT_OR_-1205990742', u'INT_ADD_-1205989793'), (u'INT_OR_-1205987644', u'INT_XOR_-1205987476'), (u'INT_MULT_-1205989394', u'INT_OR_-1205989397'), ('const-2', u'PTRADD_-1205973709'), (u'INT_RIGHT_-1205981644', u'INT_OR_-1205981643'), ('const-1024', u'INT_MULT_-1205977706'), (u'INT_ADD_-1205988412', u'INT_MULT_-1205987921'), (u'INT_OR_-1205983183', u'INT_ADD_-1205983186'), (u'INDIRECT_-1205973992', u'COPY_-1205974047'), ('const-0', u'PTRSUB_-1205980389'), ('const-2400959708', u'INT_ADD_-1205979213'), (u'INT_OR_-1205986704', u'INT_ADD_-1205986325'), ('const-76', u'PTRSUB_-1205980386'), (u'INT_OR_-1205983915', u'INT_ADD_-1205983918'), (u'INT_MULT_-1205987561', u'INT_OR_-1205987564'), (u'INT_OR_-1205979368', u'INT_ADD_-1205979371'), (u'LOAD_-1205993280', u'INT_ADD_-1205992906'), (u'INDIRECT_-1205980554', u'INT_ADD_-1205988356'), ('tmp_38855', u'MULTIEQUAL_-1205980539'), (u'INT_ADD_-1205991041', u'INT_MULT_-1205990901'), ('const-1024', u'INT_MULT_-1205982242'), (u'INT_ADD_-1205978815', u'INT_ADD_-1205978795'), (u'INT_ADD_-1205977859', u'INT_RIGHT_-1205977752'), (u'INT_ADD_-1205989468', u'INT_ADD_-1205989416'), (u'INT_ADD_-1205982936', u'INT_NEGATE_-1205982848'), ('const-1836072691', u'INT_ADD_-1205984106'), (u'INT_ADD_-1205982108', u'INT_MULT_-1205981744'), ('const-32', u'INT_MULT_-1205975357'), ('tmp_38891', u'MULTIEQUAL_-1205980686'), (u'INT_ADD_-1205990123', u'INT_MULT_-1205989931'), (u'PTRSUB_-1205979998', u'PTRSUB_-1205980048'), (u'INT_OR_-1205975416', u'INT_ADD_-1205975419'), ('tmp_34209', u'PTRSUB_-1205980389'), ('const-256', u'INT_MULT_-1205989997'), (u'INT_RIGHT_-1205975235', u'INT_OR_-1205975234'), ('tmp_34210', u'MULTIEQUAL_-1205981172'), (u'INT_ADD_-1205977216', u'INT_OR_-1205977163'), (u'INT_RIGHT_-1205988708', u'INT_OR_-1205988707'), ('const-1024', u'INT_MULT_-1205988131'), (u'INDIRECT_-1205973969', u'COPY_-1205974027'), (u'INT_OR_-1205982245', u'INT_ADD_-1205980887'), ('const-1024', u'INT_MULT_-1205983074'), (u'INT_ADD_-1205983501', u'INT_OR_-1205983484'), ('const-4096', u'INT_MULT_-1205977764'), (u'INT_OR_-1205990836', u'INT_ADD_-1205990448'), (u'INT_MULT_-1205982952', u'INT_OR_-1205982955'), (u'INT_OR_-1205991388', u'INT_ADD_-1205991167'), (u'INT_MULT_-1205976013', u'INT_OR_-1205976016'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205980970'), (u'INT_ADD_-1205985753', u'INT_NEGATE_-1205985623'), (u'INT_XOR_-1205979276', u'INT_AND_-1205979229'), ('const-76', u'PTRSUB_-1205973774'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205990855'), (u'INT_OR_-1205992831', u'INT_NEGATE_-1205992790'), (u'INT_ADD_-1205983213', u'INT_RIGHT_-1205983184'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976217'), (u'INT_NEGATE_-1205985623', u'INT_OR_-1205985273'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981515'), (u'INT_OR_-1205991194', u'INT_ADD_-1205991197'), ('const-19', u'INT_RIGHT_-1205976365'), (u'INT_RIGHT_-1205989935', u'INT_OR_-1205989934'), (u'INT_ADD_-1205978795', u'INT_RIGHT_-1205978761'), ('const-1548603684', u'INT_ADD_-1205986173'), ('const-1024', u'INT_MULT_-1205988454'), (u'INT_MULT_-1205975513', u'INT_OR_-1205975516'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205989572'), ('const-1024', u'INT_MULT_-1205976163'), (u'INT_ADD_-1205977206', u'INT_ADD_-1205977154'), (u'INT_ADD_-1205975419', u'INT_MULT_-1205975289'), ('const-22', u'INT_RIGHT_-1205992616'), (u'INT_ADD_-1205991275', u'INT_MULT_-1205991145'), (u'INT_XOR_-1205974984', u'INT_ADD_-1205974979'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977738'), (u'INT_ADD_-1205992210', u'INT_MULT_-1205992126'), (u'INT_XOR_-1205983807', u'INT_ADD_-1205983792'), (u'INT_ADD_-1205975077', u'INT_XOR_-1205974984'), ('const-16384', u'INT_MULT_-1205990879'), (u'INT_RIGHT_-1205984702', u'INT_OR_-1205984701'), (u'INT_MULT_-1205984510', u'INT_OR_-1205984513'), ('const-4096', u'INT_MULT_-1205978497'), (u'INT_OR_-1205991226', u'INT_XOR_-1205991182'), ('const-1024', u'INT_MULT_-1205980160'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205977979'), (u'INT_OR_-1205977405', u'INT_XOR_-1205977397'), (u'INT_RIGHT_-1205975673', u'INT_OR_-1205975672'), (u'INT_AND_-1205979458', u'INT_XOR_-1205979419'), (u'INT_RIGHT_-1205980839', u'INT_OR_-1205980838'), (u'INT_ADD_-1205987965', u'INT_ADD_-1205987793'), (u'INT_MULT_-1205986297', u'INT_OR_-1205986300'), (u'INT_ADD_-1205992566', u'INT_MULT_-1205992534'), (u'INT_ADD_-1205991089', u'INT_ADD_-1205991079'), (u'INT_OR_-1205983336', u'INT_ADD_-1205983339'), ('const-22', u'INT_RIGHT_-1205985609'), (u'INT_XOR_-1205987324', u'INT_ADD_-1205987319'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205981556'), (u'INT_ADD_-1205976419', u'INT_RIGHT_-1205976167'), (u'STORE_-1205974664', u'INDIRECT_-1205974070'), (u'INT_ADD_-1205980794', u'INT_ADD_-1205980610'), ('const-2048', u'INT_MULT_-1205976029'), (u'INT_RIGHT_-1205978604', u'INT_OR_-1205978603'), (u'INT_OR_-1205976733', u'INT_NEGATE_-1205976716'), (u'INT_ADD_-1205978421', u'INT_RIGHT_-1205978398'), (u'INT_ADD_-1205981059', u'INT_XOR_-1205980584'), (u'INT_ADD_-1205979807', u'INT_AND_-1205979713'), (u'INT_NEGATE_-1205985957', u'INT_OR_-1205985802'), (u'INT_OR_-1205992321', u'INT_NEGATE_-1205992310'), (u'INT_XOR_-1205990387', u'INT_ADD_-1205990335'), (u'INT_MULT_-1205982930', u'INT_OR_-1205982933'), (u'INT_ADD_-1205990715', u'INT_ADD_-1205990669'), (u'INT_OR_-1205991530', u'INT_ADD_-1205991323'), ('const-1548603684', u'INT_ADD_-1205988694'), (u'INT_XOR_-1205986346', u'INT_ADD_-1205986341'), (u'INT_RIGHT_-1205981057', u'INT_OR_-1205981056'), (u'STORE_-1205974676', u'INDIRECT_-1205974020'), ('const-16384', u'INT_MULT_-1205979387'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986346'), (u'INT_ADD_-1205976788', u'INT_RIGHT_-1205976770'), (u'PTRSUB_-1205980452', u'PTRADD_-1205980418'), ('const-22', u'INT_RIGHT_-1205984894'), ('const-18', u'INT_RIGHT_-1205982778'), (u'INT_NEGATE_-1205977016', u'INT_OR_-1205976869'), (u'INT_MULT_-1205991463', u'INT_OR_-1205991466'), ('const-22', u'INT_RIGHT_-1205986582'), (u'INT_ADD_-1205975809', u'INT_XOR_-1205975716'), (u'INT_XOR_-1205976258', u'INT_XOR_-1205976222'), (u'INT_ADD_-1205987197', u'INT_ADD_-1205987177'), (u'INT_ADD_-1205990963', u'INT_MULT_-1205990833'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989184'), (u'INT_ADD_-1205990611', u'INT_OR_-1205990411'), (u'INT_RIGHT_-1205985340', u'INT_OR_-1205985339'), (u'INT_OR_-1205975292', u'INT_XOR_-1205975150'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205991751'), (u'INT_ADD_-1205990735', u'INT_MULT_-1205990693'), (u'INT_ADD_-1205993106', u'INT_RIGHT_-1205993088'), ('const-22', u'INT_RIGHT_-1205979029'), (u'INT_RIGHT_-1205976930', u'INT_OR_-1205976929'), (u'INT_XOR_-1205986904', u'INT_AND_-1205986877'), (u'INT_OR_-1205978896', u'INT_ADD_-1205978606'), ('const-22', u'INT_RIGHT_-1205983617'), (u'LOAD_-1205992251', u'INT_LEFT_-1205991890'), ('const-2048', u'INT_MULT_-1205974941'), (u'INT_OR_-1205993224', u'INT_ADD_-1205992824'), (u'INT_AND_-1205988788', u'INT_XOR_-1205988737'), (u'INT_XOR_-1205985794', u'INT_ADD_-1205985769'), (u'STORE_-1205974526', u'INDIRECT_-1205973992'), (u'INT_MULT_-1205974715', u'INT_OR_-1205974718'), (u'CALL_-1205993328', u'INDIRECT_-1205980713'), (u'INT_ADD_-1205985443', u'INT_RIGHT_-1205984894'), (u'INT_OR_-1205990982', u'INT_ADD_-1205990797'), (u'INT_XOR_-1205982259', u'INT_AND_-1205982206'), (u'STORE_-1205974682', u'INDIRECT_-1205974085'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205990627'), (u'INT_ADD_-1205984652', u'INT_RIGHT_-1205984026'), ('const-1548603684', u'INT_ADD_-1205987045'), (u'LOAD_-1205992207', u'INT_ADD_-1205974827'), (u'INT_ADD_-1205982124', u'INT_NEGATE_-1205981035'), ('const-24', u'INT_RIGHT_-1205979369'), (u'INT_OR_-1205990104', u'INT_XOR_-1205990046'), ('const-22', u'INT_RIGHT_-1205991713'), ('const-22', u'INT_RIGHT_-1205987925'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205983832'), (u'INT_RIGHT_-1205990105', u'INT_OR_-1205990104'), (u'INT_ADD_-1205987439', u'INT_MULT_-1205987281'), ('const-512', u'INT_MULT_-1205985747'), ('const-20', u'INT_RIGHT_-1205986965'), (u'INT_OR_-1205989045', u'INT_ADD_-1205988576'), (u'INDIRECT_-1205980713', u'INT_ADD_-1205983176'), (u'INT_ADD_-1205981206', u'INT_MULT_-1205981168'), (u'INT_RIGHT_-1205978745', u'INT_OR_-1205978744'), (u'INT_ADD_-1205975497', u'INT_RIGHT_-1205975329'), (u'INT_MULT_-1205987281', u'INT_OR_-1205987284'), (u'INT_ADD_-1205977432', u'INT_RIGHT_-1205977374'), ('const-1024', u'INT_MULT_-1205991057'), (u'INT_OR_-1205988707', u'INT_ADD_-1205988169'), (u'PTRSUB_-1205980398', u'PTRSUB_-1205980452'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205990081'), ('const-76', u'PTRSUB_-1205973686'), ('const-1548603684', u'INT_ADD_-1205987365'), (u'INT_RIGHT_-1205977374', u'INT_OR_-1205977373'), (u'INT_XOR_-1205989033', u'INT_AND_-1205988980'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988154'), (u'INT_MULT_-1205984174', u'INT_OR_-1205984177'), (u'INT_MULT_-1205981456', u'INT_OR_-1205981459'), (u'PTRSUB_-1205973718', u'PTRSUB_-1205973764'), ('const-1024', u'INT_MULT_-1205988756'), (u'INT_ADD_-1205991353', u'INT_XOR_-1205991328'), ('const-1024', u'INT_MULT_-1205991145'), (u'INT_ADD_-1205982140', u'INT_RIGHT_-1205982106'), (u'INT_ADD_-1205984060', u'INT_NEGATE_-1205983715'), (u'INT_XOR_-1205974842', u'INT_ADD_-1205974807'), (u'INT_MULT_-1205991301', u'INT_OR_-1205991304'), (u'INT_NEGATE_-1205984208', u'INT_OR_-1205984043'), (u'INT_XOR_-1205988445', u'INT_AND_-1205988390'), (u'INT_OR_-1205991838', u'INT_ADD_-1205990402'), (u'INT_RIGHT_-1205980020', u'INT_OR_-1205980019'), (u'INT_ADD_-1205976003', u'INT_MULT_-1205975819'), (u'INT_AND_-1205986877', u'INT_XOR_-1205986858'), ('const-1024', u'INT_MULT_-1205974550'), (u'INT_XOR_-1205992427', u'INT_ADD_-1205992386'), (u'INT_OR_-1205980801', u'INT_ADD_-1205980804'), (u'INT_MULT_-1205992276', u'INT_OR_-1205992279'), ('tmp_34209', u'PTRSUB_-1205980364'), (u'INT_MULT_-1205976782', u'INT_OR_-1205976785'), (u'INT_ADD_-1205976419', u'INT_MULT_-1205976163'), (u'INT_OR_-1205979559', u'INT_ADD_-1205979562'), (u'INT_ADD_-1205988412', u'INT_RIGHT_-1205987925'), ('const-4096', u'INT_MULT_-1205976782'), (u'INT_ADD_-1205991597', u'INT_MULT_-1205991575'), ('const-1859775393', u'INT_ADD_-1205984430'), ('const-20', u'INT_RIGHT_-1205982934'), ('const-32768', u'INT_MULT_-1205975159'), (u'INT_RIGHT_-1205978290', u'INT_OR_-1205978289'), (u'INT_XOR_-1205991402', u'INT_ADD_-1205991381'), (u'INT_ADD_-1205990963', u'INT_XOR_-1205990938'), (u'INT_ADD_-1205982423', u'INT_RIGHT_-1205982362'), (u'INT_ADD_-1205992654', u'INT_ADD_-1205992644'), ('const-19', u'INT_RIGHT_-1205983774'), (u'INT_OR_-1205991838', u'INT_ADD_-1205990458'), (u'INT_OR_-1205992615', u'INT_ADD_-1205992242'), ('const-1024', u'INT_MULT_-1205987401'), (u'INT_OR_-1205976198', u'INT_ADD_-1205974927'), (u'INT_AND_-1205988390', u'INT_XOR_-1205988284'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980151'), (u'INT_ADD_-1205992778', u'INT_OR_-1205992689'), ('const-256', u'INT_MULT_-1205977122'), (u'INT_OR_-1205990525', u'INT_XOR_-1205990475'), ('const-0', u'PTRSUB_-1205979914'), (u'INT_ADD_-1205986893', u'INT_ADD_-1205986873'), ('const-22', u'INT_RIGHT_-1205978064'), (u'INT_OR_-1205991304', u'INT_ADD_-1205991119'), (u'INT_ADD_-1205983166', u'INT_ADD_-1205983004'), (u'INT_ADD_-1205991867', u'INT_ADD_-1205991799'), (u'INT_NEGATE_-1205983631', u'INT_OR_-1205983484'), (u'INT_OR_-1205981427', u'INT_ADD_-1205981174'), ('const-256', u'INT_MULT_-1205984646'), (u'INT_RIGHT_-1205986965', u'INT_OR_-1205986964'), (u'INT_ADD_-1205980293', u'INT_XOR_-1205979975'), (u'INT_MULT_-1205986604', u'INT_OR_-1205986607'), (u'INT_ADD_-1205980867', u'INT_MULT_-1205980835'), (u'INT_ADD_-1205989905', u'INT_RIGHT_-1205989586'), ('const-19', u'INT_RIGHT_-1205987565'), ('const-22', u'INT_RIGHT_-1205975823'), (u'INT_ADD_-1205989210', u'INT_RIGHT_-1205988458'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205988612'), (u'INT_RIGHT_-1205977925', u'INT_OR_-1205977924'), (u'INT_ADD_-1205984222', u'INT_NEGATE_-1205983751'), (u'INT_ADD_-1205982332', u'INT_NEGATE_-1205981964'), (u'INT_NEGATE_-1205983751', u'INT_OR_-1205983586'), (u'INT_ADD_-1205987679', u'INT_MULT_-1205987561'), ('const-32768', u'INT_MULT_-1205981640'), (u'INT_OR_-1205990572', u'INT_XOR_-1205990539'), (u'INT_ADD_-1205975809', u'INT_MULT_-1205975669'), (u'INT_RIGHT_-1205986098', u'INT_OR_-1205986097'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989983'), (u'INT_XOR_-1205989453', u'INT_ADD_-1205989416'), (u'INT_OR_-1205977908', u'INT_ADD_-1205977562'), (u'INT_MULT_-1205975601', u'INT_OR_-1205975604'), (u'INT_ADD_-1205984720', u'INT_RIGHT_-1205984702'), (u'INT_OR_-1205987852', u'INT_XOR_-1205987700'), (u'INT_ADD_-1205992050', u'INT_ADD_-1205991995'), (u'INT_XOR_-1205979694', u'INT_ADD_-1205979663'), ('const-26', u'INT_RIGHT_-1205979119'), (u'INT_ADD_-1205982322', u'INT_ADD_-1205982166'), ('const-1024', u'INT_MULT_-1205976766'), ('const-1024', u'INT_MULT_-1205984174'), (u'INT_ADD_-1205975867', u'INT_ADD_-1205975847'), (u'INT_OR_-1205976672', u'INT_ADD_-1205976393'), ('const-1024', u'INT_MULT_-1205983311'), (u'INT_ADD_-1205988326', u'INT_MULT_-1205988304'), (u'INT_XOR_-1205987476', u'INT_ADD_-1205987439'), (u'INT_ADD_-1205976325', u'INT_RIGHT_-1205976017'), (u'INT_MULT_-1205992158', u'INT_OR_-1205992161'), (u'INT_OR_-1205983600', u'INT_ADD_-1205983034'), (u'STORE_-1205974526', u'INDIRECT_-1205973857'), ('const-8', u'PTRADD_-1205973664'), (u'INT_MULT_-1205991385', u'INT_OR_-1205991388'), (u'INDIRECT_-1205980536', u'MULTIEQUAL_-1205980551'), (u'INT_XOR_-1205980918', u'INT_ADD_-1205980867'), (u'INT_RIGHT_-1205989334', u'INT_OR_-1205989333'), (u'INT_ADD_-1205975145', u'INT_ADD_-1205975125'), ('const-76', u'PTRSUB_-1205980452'), (u'INT_AND_-1205989967', u'INT_XOR_-1205989948'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205977896'), (u'INT_ADD_-1205989839', u'INT_ADD_-1205989803'), (u'INT_OR_-1205990342', u'INT_XOR_-1205990258'), (u'INT_ADD_-1205981708', u'INT_ADD_-1205981688'), (u'CALL_-1205993328', u'INDIRECT_-1205980548'), (u'INT_ADD_-1205977092', u'INT_ADD_-1205977072'), (u'INT_MULT_-1205982748', u'INT_OR_-1205982751'), (u'INT_MULT_-1205986449', u'INT_OR_-1205986452'), (u'PTRSUB_-1205973680', u'PTRADD_-1205973664'), (u'INT_OR_-1205983893', u'INT_ADD_-1205983517'), (u'STORE_-1205974616', u'INDIRECT_-1205974037'), (u'INT_XOR_-1205992085', u'INT_ADD_-1205991995'), (u'LOAD_-1205993258', u'INT_OR_-1205993047'), ('const-22', u'INT_RIGHT_-1205986233'), (u'INT_ADD_-1205992566', u'INT_OR_-1205992441'), (u'INT_OR_-1205991466', u'INT_ADD_-1205991245'), (u'INT_OR_-1205982057', u'INT_ADD_-1205981798'), (u'INT_ADD_-1205991001', u'INT_RIGHT_-1205990961'), (u'INT_ADD_-1205992556', u'INT_ADD_-1205992510'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205981414'), (u'STORE_-1205974682', u'INDIRECT_-1205974040'), ('const-1024', u'INT_MULT_-1205991463'), (u'INT_OR_-1205976448', u'INT_ADD_-1205976117'), (u'INT_MULT_-1205989931', u'INT_OR_-1205989934'), (u'INT_ADD_-1205976788', u'INT_MULT_-1205976766'), (u'INT_ADD_-1205974937', u'INT_ADD_-1205974927'), (u'INT_OR_-1205991890', u'INT_ADD_-1205991581'), (u'INT_RIGHT_-1205992832', u'INT_OR_-1205992831'), (u'INT_ADD_-1205978334', u'INT_MULT_-1205978286'), (u'INT_ADD_-1205990061', u'INT_ADD_-1205990025'), (u'STORE_-1205974532', u'INDIRECT_-1205973922'), (u'INT_OR_-1205992689', u'INT_XOR_-1205992629'), ('const-64', u'INT_MULT_-1205986001'), ('const-8192', u'INT_MULT_-1205975491'), ('const-1548603684', u'INT_ADD_-1205986893'), (u'INT_RIGHT_-1205987447', u'INT_OR_-1205987446'), (u'INT_MULT_-1205978893', u'INT_OR_-1205978896'), (u'INT_ADD_-1205990458', u'INT_MULT_-1205989330'), (u'INT_ADD_-1205991925', u'INT_OR_-1205991824'), (u'INT_MULT_-1205980531', u'INT_OR_-1205980534'), (u'INT_OR_-1205986607', u'INT_ADD_-1205986610'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989725'), ('const-24', u'INT_RIGHT_-1205984650'), (u'LOAD_-1205993258', u'INT_XOR_-1205993175'), (u'INT_MULT_-1205981744', u'INT_OR_-1205981747'), ('const-76', u'PTRSUB_-1205973698'), ('const-17', u'INT_RIGHT_-1205992482'), ('const-22', u'INT_RIGHT_-1205983078'), (u'INT_ADD_-1205976932', u'INT_OR_-1205976869'), ('const-0', u'PTRSUB_-1205979985'), ('const-2048', u'INT_MULT_-1205991957'), (u'INT_MULT_-1205986121', u'INT_OR_-1205986124'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205981865'), (u'INT_OR_-1205977924', u'INT_ADD_-1205977927'), (u'INT_ADD_-1205986100', u'INT_MULT_-1205985563'), (u'INT_ADD_-1205980293', u'INT_AND_-1205980130'), (u'INT_OR_-1205975058', u'INT_XOR_-1205975014'), (u'INT_ADD_-1205992282', u'INT_MULT_-1205992158'), (u'INT_RIGHT_-1205983142', u'INT_OR_-1205983141'), (u'INT_ADD_-1205989550', u'INT_RIGHT_-1205989114'), (u'INT_MULT_-1205990029', u'INT_OR_-1205990032'), (u'INT_OR_-1205979987', u'INT_ADD_-1205979990'), (u'INT_MULT_-1205979051', u'INT_OR_-1205979054'), (u'INT_ADD_-1205990159', u'INT_ADD_-1205990139'), (u'INT_RIGHT_-1205974945', u'INT_OR_-1205974944'), (u'INT_ADD_-1205986507', u'INT_RIGHT_-1205985853'), (u'INT_OR_-1205978625', u'INT_XOR_-1205978551'), (u'INT_ADD_-1205977366', u'INT_MULT_-1205977334'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205975093'), (u'INT_AND_-1205979197', u'INT_XOR_-1205979168'), (u'INT_OR_-1205989547', u'INT_ADD_-1205989550'), ('const-1024', u'INT_MULT_-1205990241'), (u'INT_RIGHT_-1205993225', u'INT_OR_-1205993224'), ('tmp_34209', u'PTRSUB_-1205973655'), ('const-25', u'INT_RIGHT_-1205990197'), (u'LOAD_-1205993280', u'INT_NEGATE_-1205993245'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205989023'), (u'INT_OR_-1205984291', u'INT_XOR_-1205984243'), (u'INT_MULT_-1205984488', u'INT_OR_-1205984491'), (u'INT_OR_-1205979836', u'INT_ADD_-1205979393'), (u'INT_OR_-1205987148', u'INT_AND_-1205987023'), ('const-21', u'INT_RIGHT_-1205992776'), (u'PTRADD_-1205973742', u'STORE_-1205974664'), (u'INT_OR_-1205983053', u'INT_XOR_-1205983019'), (u'INT_OR_-1205985273', u'INT_XOR_-1205985255'), (u'INT_ADD_-1205989426', u'INT_RIGHT_-1205989366'), ('const-2048', u'INT_MULT_-1205985099'), (u'INT_AND_-1205988183', u'INT_XOR_-1205988154'), (u'INT_XOR_-1205990638', u'INT_ADD_-1205990589'), (u'INT_ADD_-1205992282', u'INT_XOR_-1205992247'), (u'INT_XOR_-1205982801', u'INT_ADD_-1205982796'), ('const-1024', u'INT_MULT_-1205989236'), ('const-1836072691', u'INT_ADD_-1205981126'), ('const-2400959708', u'INT_ADD_-1205982018'), ('const-22', u'INT_RIGHT_-1205974881'), (u'STORE_-1205974664', u'INDIRECT_-1205974040'), (u'INT_RIGHT_-1205990001', u'INT_OR_-1205990000'), ('const-24', u'INT_RIGHT_-1205990001'), ('const-22', u'INT_RIGHT_-1205990526'), ('const-4', u'PTRADD_-1205980409'), (u'INT_OR_-1205980617', u'INT_ADD_-1205980219'), (u'CALL_-1205974449', u'INDIRECT_-1205973939'), (u'INT_RIGHT_-1205985567', u'INT_OR_-1205985566'), (u'INT_ADD_-1205981978', u'INT_MULT_-1205981946'), (u'INT_AND_-1205978255', u'INT_XOR_-1205978214'), (u'INT_AND_-1205988079', u'INT_XOR_-1205988064'), (u'INT_XOR_-1205987516', u'INT_ADD_-1205987501'), (u'INT_ADD_-1205979807', u'INT_XOR_-1205979531'), (u'CALL_-1205974449', u'INDIRECT_-1205973864'), (u'INT_MULT_-1205975413', u'INT_OR_-1205975416'), (u'INDIRECT_-1205980638', u'COPY_-1205980495'), (u'INT_MULT_-1205978060', u'INT_OR_-1205978063'), (u'INT_XOR_-1205986652', u'INT_ADD_-1205986647'), (u'INT_ADD_-1205984979', u'INT_ADD_-1205984949'), (u'INT_MULT_-1205987233', u'INT_OR_-1205987236'), (u'INT_ADD_-1205975575', u'INT_XOR_-1205975540'), ('const-1024', u'INT_MULT_-1205989042'), (u'INT_XOR_-1205980438', u'INT_AND_-1205980369'), ('const-22', u'INT_RIGHT_-1205975235'), (u'INT_MULT_-1205986078', u'INT_OR_-1205986081'), ('const-22', u'INT_RIGHT_-1205982272'), (u'INT_MULT_-1205981946', u'INT_OR_-1205981949'), ('const-25', u'INT_RIGHT_-1205982592'), (u'INT_ADD_-1205978763', u'INT_XOR_-1205978591'), (u'INT_ADD_-1205984532', u'INT_MULT_-1205984510'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205991491'), (u'INT_ADD_-1205985997', u'INT_ADD_-1205985987'), ('const-16384', u'INT_MULT_-1205985437'), ('tmp_38867', u'MULTIEQUAL_-1205980575'), (u'INT_ADD_-1205988356', u'INT_ADD_-1205988346'), (u'INT_MULT_-1205992462', u'INT_OR_-1205992465'), (u'INT_ADD_-1205993002', u'INT_ADD_-1205992980'), (u'INT_MULT_-1205988756', u'INT_OR_-1205988759'), (u'INT_RIGHT_-1205985837', u'INT_OR_-1205985836'), (u'INT_MULT_-1205975289', u'INT_OR_-1205975292'), ('const-4', u'PTRADD_-1205973674'), (u'INT_MULT_-1205984646', u'INT_OR_-1205984649'), (u'INT_ADD_-1205980345', u'INT_MULT_-1205980287'), (u'INT_MULT_-1205979604', u'INT_OR_-1205979607'), (u'INT_ADD_-1205978503', u'INT_RIGHT_-1205978316'), (u'INT_ADD_-1205975077', u'INT_OR_-1205974866'), (u'INT_ADD_-1205982332', u'INT_MULT_-1205980953'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205977588'), (u'INT_ADD_-1205991581', u'INT_RIGHT_-1205991389'), (u'INT_RIGHT_-1205991195', u'INT_OR_-1205991194'), (u'INT_ADD_-1205982658', u'INT_ADD_-1205982616'), ('const-1024', u'INT_MULT_-1205990339'), (u'INT_OR_-1205985102', u'INT_ADD_-1205985105'), ('const-22', u'INT_RIGHT_-1205980164'), (u'INT_OR_-1205975672', u'INT_ADD_-1205975477'), (u'INT_OR_-1205975328', u'INT_ADD_-1205975029'), (u'INT_ADD_-1205975029', u'INT_XOR_-1205974852'), (u'INT_XOR_-1205984243', u'INT_ADD_-1205984238'), (u'INT_XOR_-1205991496', u'INT_ADD_-1205991459'), (u'INT_OR_-1205987852', u'INT_XOR_-1205987736'), (u'INT_OR_-1205991148', u'INT_ADD_-1205990933'), (u'INT_ADD_-1205988576', u'INT_RIGHT_-1205987983'), ('const-27', u'INT_RIGHT_-1205976842'), (u'INT_MULT_-1205987921', u'INT_OR_-1205987924'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986194'), (u'INT_RIGHT_-1205981428', u'INT_OR_-1205981427'), ('const-22', u'INT_RIGHT_-1205991061'), (u'LOAD_-1205992219', u'INT_ADD_-1205974684'), (u'INT_ADD_-1205981998', u'INT_ADD_-1205981978'), (u'INT_OR_-1205979517', u'INT_AND_-1205979458'), (u'INT_ADD_-1205981358', u'INT_MULT_-1205981320'), (u'INT_OR_-1205987852', u'INT_ADD_-1205987287'), ('tmp_34209', u'PTRSUB_-1205973685'), (u'INT_ADD_-1205977792', u'INT_MULT_-1205977764'), (u'INT_OR_-1205982751', u'INT_ADD_-1205980610'), ('const-32', u'INT_MULT_-1205977921'), (u'STORE_-1205974532', u'INDIRECT_-1205973877'), (u'INT_OR_-1205976769', u'INT_ADD_-1205975077'), (u'INT_XOR_-1205984689', u'INT_ADD_-1205984684'), (u'INT_OR_-1205991978', u'INT_XOR_-1205991852'), ('const-20', u'INT_RIGHT_-1205977768'), (u'INT_OR_-1205977373', u'INT_NEGATE_-1205977352'), (u'INT_RIGHT_-1205980190', u'INT_OR_-1205980189'), (u'INT_ADD_-1205977340', u'INT_RIGHT_-1205977322'), ('const-21', u'INT_RIGHT_-1205974945'), (u'INT_RIGHT_-1205991117', u'INT_OR_-1205991116'), (u'INT_ADD_-1205992716', u'INT_ADD_-1205992706'), ('const-27', u'INT_RIGHT_-1205980291'), (u'STORE_-1205974550', u'INDIRECT_-1205973907'), (u'PTRSUB_-1205973640', u'PTRSUB_-1205973680'), (u'INT_ADD_-1205982124', u'INT_RIGHT_-1205980618'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205987045'), ('const-512', u'INT_MULT_-1205975997'), (u'INT_MULT_-1205982820', u'INT_OR_-1205982823'), (u'INT_MULT_-1205976163', u'INT_OR_-1205976166'), ('const-1024', u'INT_MULT_-1205981576'), (u'INT_MULT_-1205989544', u'INT_OR_-1205989547'), (u'INT_ADD_-1205977242', u'INT_RIGHT_-1205977214'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987610'), (u'INT_OR_-1205991838', u'INT_NEGATE_-1205990815'), ('const-512', u'INT_MULT_-1205992864'), (u'PTRSUB_-1205979976', u'PTRSUB_-1205980025'), (u'INT_ADD_-1205975809', u'INT_RIGHT_-1205975673'), (u'INT_MULT_-1205976111', u'INT_OR_-1205976114'), (u'INT_XOR_-1205987072', u'INT_AND_-1205987023'), (u'INDIRECT_-1205973879', u'COPY_-1205973937'), (u'INT_ADD_-1205975731', u'INT_XOR_-1205975638'), (u'INT_OR_-1205985323', u'INT_ADD_-1205984876'), ('const-417', u'STORE_-1205974664'), (u'INT_OR_-1205983236', u'INT_XOR_-1205983228'), (u'INT_ADD_-1205985121', u'INT_MULT_-1205985099'), (u'INT_MULT_-1205984890', u'INT_OR_-1205984893'), ('const-22', u'INT_RIGHT_-1205975059'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992954'), (u'INT_XOR_-1205990782', u'INT_XOR_-1205990756'), (u'INT_RIGHT_-1205980770', u'INT_OR_-1205980769'), (u'INT_RIGHT_-1205991781', u'INT_OR_-1205991780'), (u'CALL_-1205993328', u'INDIRECT_-1205980521'), ('const-21', u'INT_RIGHT_-1205987999'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205978380'), (u'INT_ADD_-1205974684', u'STORE_-1205974676'), (u'LOAD_-1205992173', u'INT_ADD_-1205974694'), (u'INT_NEGATE_-1205975183', u'INT_OR_-1205975096'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981363'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205977588'), (u'INT_RIGHT_-1205984921', u'INT_OR_-1205984920'), (u'INT_ADD_-1205978503', u'INT_AND_-1205978467'), (u'INT_AND_-1205979713', u'INT_XOR_-1205979694'), (u'INT_RIGHT_-1205979560', u'INT_OR_-1205979559'), (u'INT_MULT_-1205992958', u'INT_OR_-1205992961'), (u'INT_MULT_-1205983912', u'INT_OR_-1205983915'), (u'INT_OR_-1205990836', u'INT_ADD_-1205990490'), (u'INT_MULT_-1205988131', u'INT_OR_-1205988134'), (u'INT_XOR_-1205986039', u'INT_ADD_-1205986034'), ('const-1024', u'INT_MULT_-1205987979'), ('const-4', u'PTRADD_-1205973709'), ('const-18', u'INT_RIGHT_-1205990609'), (u'INT_OR_-1205974750', u'INT_ADD_-1205974753'), (u'INT_ADD_-1205990885', u'INT_MULT_-1205990739'), (u'INT_XOR_-1205975202', u'INT_ADD_-1205975197'), (u'INT_ADD_-1205984278', u'INT_ADD_-1205984258'), (u'STORE_-1205974670', u'INDIRECT_-1205973985'), (u'INT_ADD_-1205974753', u'STORE_-1205974670'), ('tmp_34209', u'PTRSUB_-1205973718'), (u'INT_ADD_-1205991443', u'INT_MULT_-1205991301'), ('const-1024', u'INT_MULT_-1205989931'), ('const-22', u'INT_RIGHT_-1205982389'), ('const-1859775393', u'INT_ADD_-1205984278'), (u'INT_RIGHT_-1205991697', u'INT_OR_-1205991696'), (u'INT_MULT_-1205988518', u'INT_OR_-1205988521'), (u'INDIRECT_-1205980521', u'MULTIEQUAL_-1205980536'), (u'INT_MULT_-1205978534', u'INT_OR_-1205978537'), (u'INT_MULT_-1205983180', u'INT_OR_-1205983183'), (u'INT_OR_-1205983314', u'INT_ADD_-1205982936'), ('const-1024', u'INT_MULT_-1205990901'), (u'INT_ADD_-1205988910', u'INT_RIGHT_-1205988886'), ('const-21', u'INT_RIGHT_-1205976033'), (u'PTRSUB_-1205973730', u'PTRADD_-1205973709'), ('const-4', u'PTRADD_-1205979936'), (u'INT_XOR_-1205987526', u'INT_AND_-1205987505'), (u'INDIRECT_-1205980533', u'INT_ADD_-1205978689'), (u'INT_ADD_-1205992980', u'INT_RIGHT_-1205992962'), (u'INT_XOR_-1205990184', u'INT_AND_-1205990163'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205979739'), (u'LOAD_-1205992081', u'INT_ADD_-1205991963'), (u'INT_ADD_-1205983543', u'INT_MULT_-1205983495'), ('const-1024', u'INT_MULT_-1205979636'), (u'INT_MULT_-1205975325', u'INT_OR_-1205975328'), (u'INT_ADD_-1205985300', u'INT_ADD_-1205985270'), (u'INT_ADD_-1205976581', u'INT_XOR_-1205976482'), (u'INT_NEGATE_-1205992526', u'INT_OR_-1205992395'), (u'INT_OR_-1205989934', u'INT_XOR_-1205989890'), (u'INT_ADD_-1205989550', u'INT_AND_-1205989492'), (u'INT_ADD_-1205976237', u'INT_MULT_-1205976179'), (u'INT_ADD_-1205986750', u'INT_MULT_-1205986728'), (u'INT_ADD_-1205975847', u'INT_RIGHT_-1205975807'), (u'INT_AND_-1205978364', u'INT_XOR_-1205978345'), ('const-1024', u'INT_MULT_-1205986297'), ('const-128', u'INT_MULT_-1205991191'), (u'INT_ADD_-1205990735', u'INT_RIGHT_-1205990697'), ('const-5', u'PTRADD_-1205980384'), (u'INT_OR_-1205988134', u'INT_ADD_-1205987757'), (u'INDIRECT_-1205980557', u'MULTIEQUAL_-1205980572'), (u'INT_RIGHT_-1205979369', u'INT_OR_-1205979368'), (u'INT_ADD_-1205985031', u'INT_OR_-1205984962'), (u'INT_ADD_-1205989400', u'INT_AND_-1205989168'), (u'INT_ADD_-1205977458', u'INT_RIGHT_-1205977430'), (u'INT_ADD_-1205985204', u'INT_NEGATE_-1205985007'), ('const-8192', u'INT_MULT_-1205975023'), ('const-22', u'INT_RIGHT_-1205980451'), (u'INT_OR_-1205979836', u'INT_XOR_-1205979694'), (u'INT_ADD_-1205985342', u'INT_NEGATE_-1205985216'), (u'INT_ADD_-1205991607', u'INT_OR_-1205990572'), ('const-1024', u'INT_MULT_-1205981011'), (u'INT_ADD_-1205986173', u'INT_ADD_-1205986163'), (u'INT_ADD_-1205975691', u'INT_MULT_-1205975647'), ('const-256', u'INT_MULT_-1205993084'), (u'INT_OR_-1205986932', u'INT_AND_-1205986877'), (u'INT_ADD_-1205988199', u'INT_ADD_-1205988169'), (u'INT_ADD_-1205990273', u'INT_ADD_-1205990237'), (u'INT_MULT_-1205975725', u'INT_OR_-1205975728'), (u'STORE_-1205974538', u'INDIRECT_-1205973957'), (u'INDIRECT_-1205980548', u'MULTIEQUAL_-1205980563'), (u'INT_RIGHT_-1205981172', u'INT_OR_-1205981171'), (u'INT_XOR_-1205988617', u'INT_AND_-1205988586'), ('const-23', u'INT_RIGHT_-1205992962'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205989488'), (u'INDIRECT_-1205980728', u'MULTIEQUAL_-1205980731'), (u'INT_MULT_-1205988704', u'INT_OR_-1205988707'), ('const-1024', u'INT_MULT_-1205975289'), (u'INT_OR_-1205984962', u'INT_XOR_-1205984954'), (u'INT_ADD_-1205980433', u'INT_ADD_-1205980345'), ('const-24', u'INT_RIGHT_-1205991273'), ('tmp_38890', u'MULTIEQUAL_-1205980671'), (u'INT_XOR_-1205992515', u'INT_ADD_-1205992500'), (u'INT_RIGHT_-1205989586', u'INT_OR_-1205989585'), (u'INT_RIGHT_-1205987645', u'INT_OR_-1205987644'), (u'INT_ADD_-1205987793', u'INT_RIGHT_-1205987765'), (u'INT_OR_-1205989810', u'INT_ADD_-1205989400'), (u'INT_XOR_-1205979975', u'INT_AND_-1205979938'), (u'INT_ADD_-1205975093', u'INT_ADD_-1205975051'), (u'INT_ADD_-1205975077', u'INT_MULT_-1205974688'), ('const-1024', u'INT_MULT_-1205992318'), (u'INT_MULT_-1205989997', u'INT_OR_-1205990000'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205976217'), (u'INT_ADD_-1205983964', u'INT_ADD_-1205983954'), (u'INT_ADD_-1205976419', u'INT_XOR_-1205976258'), (u'INT_OR_-1205991060', u'INT_XOR_-1205991026'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205989321'), ('const-22', u'INT_RIGHT_-1205992466'), (u'INT_OR_-1205987924', u'INT_ADD_-1205987491'), ('const-20', u'INT_RIGHT_-1205990456'), (u'INT_ADD_-1205980887', u'INT_ADD_-1205980867'), ('const-21', u'INT_RIGHT_-1205991781'), (u'PTRSUB_-1205973764', u'PTRADD_-1205973742'), ('const-32', u'INT_MULT_-1205975803'), (u'INT_OR_-1205977043', u'INT_ADD_-1205977046'), (u'INT_ADD_-1205991381', u'INT_MULT_-1205991347'), (u'INT_XOR_-1205979000', u'INT_AND_-1205978983'), (u'LOAD_-1205993274', u'INT_ADD_-1205974572'), (u'INT_OR_-1205993087', u'INT_ADD_-1205993090'), (u'INT_ADD_-1205982332', u'INT_RIGHT_-1205980957'), ('const-24', u'INT_RIGHT_-1205979988'), (u'STORE_-1205974616', u'INDIRECT_-1205973902'), (u'INT_ADD_-1205975597', u'INT_MULT_-1205975569'), (u'INT_AND_-1205980369', u'INT_XOR_-1205980330'), ('const-22', u'INT_RIGHT_-1205977710'), (u'INT_ADD_-1205992566', u'INT_XOR_-1205992515'), ('const-1024', u'INT_MULT_-1205991301'), ('const-417', u'LOAD_-1205993413'), (u'INT_OR_-1205993224', u'INT_NEGATE_-1205993208'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205992360'), (u'INT_XOR_-1205991422', u'INT_XOR_-1205991402'), (u'INT_RIGHT_-1205985751', u'INT_OR_-1205985750'), ('const-512', u'INT_MULT_-1205978394'), (u'INT_MULT_-1205976029', u'INT_OR_-1205976032'), ('const-4096', u'INT_MULT_-1205982930'), (u'INT_ADD_-1205977432', u'INT_XOR_-1205977397'), ('const-22', u'INT_RIGHT_-1205975751'), (u'INT_OR_-1205976306', u'INT_ADD_-1205975961'), (u'INT_RIGHT_-1205975807', u'INT_OR_-1205975806'), (u'INT_OR_-1205979788', u'INT_ADD_-1205979193'), (u'INT_AND_-1205990065', u'INT_XOR_-1205990046'), (u'INDIRECT_-1205980653', u'INT_ADD_-1205978483'), (u'INT_AND_-1205979229', u'INT_XOR_-1205979178'), (u'CALL_-1205993328', u'INDIRECT_-1205980773'), ('const-18', u'INT_RIGHT_-1205980190'), (u'INT_ADD_-1205978087', u'INT_RIGHT_-1205976541'), (u'INT_MULT_-1205991957', u'INT_OR_-1205991960'), (u'INT_ADD_-1205992980', u'INT_MULT_-1205992958'), (u'INT_XOR_-1205974994', u'INT_ADD_-1205974969'), (u'INT_OR_-1205975604', u'INT_ADD_-1205975419'), (u'CALL_-1205974449', u'INDIRECT_-1205973984'), ('const-22', u'INT_RIGHT_-1205985853'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205978123'), (u'INT_ADD_-1205978010', u'INT_RIGHT_-1205977925'), (u'INT_OR_-1205986807', u'INT_ADD_-1205986610'), ('const-417', u'LOAD_-1205993258'), (u'INT_ADD_-1205989226', u'INT_RIGHT_-1205989208'), (u'INT_RIGHT_-1205977214', u'INT_OR_-1205977213'), ('const-1024', u'INT_MULT_-1205979285'), (u'LOAD_-1205992219', u'INT_ADD_-1205992050'), (u'INT_ADD_-1205985204', u'INT_OR_-1205985150'), (u'INT_XOR_-1205991338', u'INT_XOR_-1205991328'), (u'INT_ADD_-1205990428', u'INT_ADD_-1205990402'), (u'INT_ADD_-1205983253', u'INT_ADD_-1205983223'), (u'STORE_-1205974538', u'INDIRECT_-1205973972'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205986904'), (u'INT_RIGHT_-1205976365', u'INT_OR_-1205976364'), (u'INT_OR_-1205980534', u'INT_ADD_-1205979990'), (u'INT_XOR_-1205974832', u'INT_ADD_-1205974781'), (u'INT_ADD_-1205976844', u'INT_MULT_-1205976730'), (u'INT_OR_-1205990836', u'INT_XOR_-1205990782'), ('const-22', u'INT_RIGHT_-1205987237'), ('const-1024', u'INT_MULT_-1205985320'), (u'INT_MULT_-1205985198', u'INT_OR_-1205985201'), ('const-22', u'INT_RIGHT_-1205993225'), (u'INT_OR_-1205983141', u'INT_XOR_-1205983009'), (u'INT_MULT_-1205974550', u'INT_OR_-1205974553'), (u'INT_MULT_-1205988219', u'INT_OR_-1205988222'), (u'INT_OR_-1205992615', u'INT_NEGATE_-1205992594'), ('const-25', u'INT_RIGHT_-1205985719'), (u'INT_ADD_-1205975419', u'INT_XOR_-1205975316'), (u'INT_OR_-1205992465', u'INT_NEGATE_-1205992454'), (u'INT_ADD_-1205992500', u'INT_MULT_-1205992478'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205976984'), ('const-32', u'INT_MULT_-1205982952'), (u'INT_RIGHT_-1205980957', u'INT_OR_-1205980956'), ('const-32768', u'INT_MULT_-1205992560'), (u'INT_OR_-1205977003', u'INT_XOR_-1205976959'), (u'INT_MULT_-1205984288', u'INT_OR_-1205984291'), (u'INT_XOR_-1205991260', u'INT_XOR_-1205991250'), ('const-512', u'INT_MULT_-1205981168'), (u'INT_ADD_-1205977278', u'INT_ADD_-1205977268'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205976273'), ('const-417', u'LOAD_-1205992173'), (u'INT_ADD_-1205990699', u'INT_XOR_-1205990638'), (u'INT_ADD_-1205988556', u'INT_ADD_-1205988546'), ('const-0', u'PTRSUB_-1205979976'), (u'INT_OR_-1205975516', u'INT_ADD_-1205975363'), (u'PTRSUB_-1205980386', u'PTRADD_-1205980355'), (u'INT_ADD_-1205990699', u'INT_XOR_-1205990475'), (u'INT_OR_-1205977481', u'INT_NEGATE_-1205977444'), (u'INT_MULT_-1205977634', u'INT_OR_-1205977637'), (u'INT_XOR_-1205984405', u'INT_ADD_-1205984390'), (u'INT_ADD_-1205983411', u'INT_ADD_-1205983401'), (u'CALL_-1205974449', u'INDIRECT_-1205973954'), ('const-22', u'INT_RIGHT_-1205979337'), (u'INT_OR_-1205983616', u'INT_ADD_-1205983186'), (u'INT_AND_-1205989502', u'INT_XOR_-1205989437'), (u'INT_MULT_-1205986094', u'INT_OR_-1205986097'), ('const-22', u'INT_RIGHT_-1205984026'), (u'INT_XOR_-1205981279', u'INT_AND_-1205981236'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205989488'), (u'INT_ADD_-1205975809', u'INT_XOR_-1205975774'), ('const-2400959708', u'INT_ADD_-1205982186'), (u'INT_ADD_-1205979193', u'INT_ADD_-1205979153'), (u'INT_OR_-1205986932', u'INT_ADD_-1205986667'), (u'INT_OR_-1205985836', u'INT_XOR_-1205985794'), (u'INT_NEGATE_-1205982970', u'INT_OR_-1205982725'), ('const-76', u'PTRSUB_-1205973680'), (u'INT_OR_-1205984057', u'INT_ADD_-1205984060'), (u'INT_MULT_-1205977318', u'INT_OR_-1205977321'), (u'INT_ADD_-1205992664', u'INT_XOR_-1205992629'), (u'INT_MULT_-1205985715', u'INT_OR_-1205985718'), ('const-22', u'INT_RIGHT_-1205983373'), (u'INT_MULT_-1205992658', u'INT_OR_-1205992661'), (u'INT_MULT_-1205986929', u'INT_OR_-1205986932'), (u'INT_ADD_-1205977340', u'INT_MULT_-1205977318'), ('const-26', u'INT_RIGHT_-1205986732'), (u'INDIRECT_-1205980668', u'INT_ADD_-1205975093'), (u'INT_XOR_-1205991016', u'INT_ADD_-1205991001'), (u'INT_OR_-1205992441', u'INT_XOR_-1205992427'), ('const-1024', u'INT_MULT_-1205980223'), (u'INT_XOR_-1205977191', u'INT_ADD_-1205977154'), (u'INT_ADD_-1205990003', u'INT_XOR_-1205989890'), (u'STORE_-1205974550', u'INDIRECT_-1205973877'), (u'INT_OR_-1205977297', u'INT_XOR_-1205977283'), (u'INT_ADD_-1205983776', u'INT_NEGATE_-1205983579'), (u'INT_OR_-1205975234', u'INT_NEGATE_-1205975183'), (u'INT_ADD_-1205985240', u'INT_RIGHT_-1205985029'), (u'INT_ADD_-1205976834', u'INT_ADD_-1205976824'), (u'INT_ADD_-1205977738', u'INT_ADD_-1205977682'), (u'INT_ADD_-1205988127', u'INT_RIGHT_-1205988109'), (u'INT_ADD_-1205983517', u'INT_RIGHT_-1205982752'), (u'INT_ADD_-1205976035', u'INT_RIGHT_-1205975969'), (u'PTRSUB_-1205980025', u'LOAD_-1205992207'), ('const-25', u'INT_RIGHT_-1205992208'), (u'INT_ADD_-1205976003', u'INT_RIGHT_-1205975823'), ('const-10', u'INT_LEFT_-1205991696'), (u'INT_ADD_-1205989757', u'INT_RIGHT_-1205989681'), (u'INT_RIGHT_-1205987983', u'INT_OR_-1205987982'), (u'INT_XOR_-1205983939', u'INT_ADD_-1205983934'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205992654'), ('const-32', u'INT_MULT_-1205982358'), (u'INT_ADD_-1205990669', u'INT_ADD_-1205990659'), (u'INT_ADD_-1205976419', u'INT_XOR_-1205976378'), (u'INT_ADD_-1205986610', u'INT_MULT_-1205986578'), (u'INT_RIGHT_-1205980618', u'INT_OR_-1205980617'), (u'INT_XOR_-1205992809', u'INT_ADD_-1205992804'), (u'INT_ADD_-1205991607', u'INT_RIGHT_-1205991563'), (u'INT_RIGHT_-1205991923', u'INT_OR_-1205991922'), (u'INT_OR_-1205979639', u'INT_ADD_-1205979015'), (u'INT_ADD_-1205990237', u'INT_RIGHT_-1205990197'), ('const-1024', u'INT_MULT_-1205989693'), (u'INT_ADD_-1205985105', u'INT_RIGHT_-1205984178'), (u'INT_ADD_-1205982364', u'INT_MULT_-1205981874'), ('const-17', u'INT_RIGHT_-1205981324'), (u'INT_OR_-1205975604', u'INT_ADD_-1205975399'), ('const-2048', u'INT_MULT_-1205987443'), (u'INT_RIGHT_-1205988886', u'INT_OR_-1205988885'), (u'INT_MULT_-1205983311', u'INT_OR_-1205983314'), (u'INDIRECT_-1205980551', u'INT_ADD_-1205991245'), ('const-17', u'INT_RIGHT_-1205988886'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205988043'), ('const-32768', u'INT_MULT_-1205980489'), ('const-417', u'STORE_-1205974616'), (u'INT_OR_-1205984261', u'INT_XOR_-1205984243'), (u'INT_OR_-1205983077', u'INT_ADD_-1205982780'), (u'INT_MULT_-1205975997', u'INT_OR_-1205976000'), (u'INT_ADD_-1205983186', u'INT_OR_-1205983063'), (u'INT_ADD_-1205992412', u'INT_ADD_-1205992386'), ('const-23', u'INT_RIGHT_-1205988308'), (u'INT_XOR_-1205987224', u'INT_AND_-1205987181'), (u'INT_NEGATE_-1205977058', u'INT_OR_-1205976987'), (u'INT_XOR_-1205975540', u'INT_ADD_-1205975535'), ('const-1859775393', u'INT_ADD_-1205982668'), (u'STORE_-1205974670', u'INDIRECT_-1205973955'), (u'INT_ADD_-1205977458', u'INT_MULT_-1205977426'), (u'INT_AND_-1205978467', u'INT_XOR_-1205978448'), (u'INT_ADD_-1205983339', u'INT_OR_-1205983053'), (u'INT_ADD_-1205992644', u'INT_ADD_-1205992608'), (u'INT_RIGHT_-1205981292', u'INT_OR_-1205981291'), ('const-1024', u'INT_MULT_-1205979785'), (u'INT_RIGHT_-1205993088', u'INT_OR_-1205993087'), (u'INT_RIGHT_-1205983499', u'INT_OR_-1205983498'), (u'INT_ADD_-1205977536', u'INT_RIGHT_-1205977518'), (u'INT_ADD_-1205988310', u'INT_MULT_-1205987849'), (u'INDIRECT_-1205980743', u'INT_ADD_-1205990179'), ('const-4', u'PTRADD_-1205980418'), (u'INT_ADD_-1205991119', u'INT_XOR_-1205991026'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205993154'), (u'INT_RIGHT_-1205979789', u'INT_OR_-1205979788'), (u'INT_ADD_-1205981414', u'INT_ADD_-1205981394'), (u'INT_ADD_-1205987835', u'INT_MULT_-1205987797'), (u'INT_RIGHT_-1205978435', u'INT_OR_-1205978434'), (u'INT_OR_-1205977099', u'INT_NEGATE_-1205977058'), (u'INT_RIGHT_-1205977909', u'INT_OR_-1205977908'), ('tmp_38860', u'MULTIEQUAL_-1205980554'), (u'INT_ADD_-1205987599', u'INT_ADD_-1205987589'), (u'INT_ADD_-1205976325', u'INT_MULT_-1205976013'), (u'INT_RIGHT_-1205988574', u'INT_OR_-1205988573'), ('const-17', u'INT_RIGHT_-1205980493'), ('tmp_38869', u'MULTIEQUAL_-1205980581'), (u'LOAD_-1205993274', u'INT_RIGHT_-1205993225'), (u'INT_OR_-1205985852', u'INT_ADD_-1205985443'), (u'INT_OR_-1205991060', u'INT_ADD_-1205990885'), (u'INT_OR_-1205987764', u'INT_ADD_-1205987767'), (u'INT_XOR_-1205988154', u'INT_ADD_-1205988127'), (u'INT_MULT_-1205989771', u'INT_OR_-1205989774'), (u'INT_MULT_-1205982358', u'INT_OR_-1205982361'), (u'INT_OR_-1205977163', u'INT_XOR_-1205977077'), (u'INT_XOR_-1205988381', u'INT_AND_-1205988360'), (u'INT_ADD_-1205987589', u'INT_ADD_-1205987501'), ('const-22', u'INT_RIGHT_-1205987149'), ('const-1024', u'INT_MULT_-1205976195'), (u'INT_ADD_-1205980054', u'INT_MULT_-1205979875'), ('const-256', u'INT_MULT_-1205976575'), (u'INDIRECT_-1205980554', u'MULTIEQUAL_-1205980569'), ('const-18', u'INT_RIGHT_-1205983916'), (u'INT_MULT_-1205974941', u'INT_OR_-1205974944'), ('const-9', u'PTRADD_-1205973674'), (u'INT_ADD_-1205989064', u'INT_XOR_-1205988815'), ('const-512', u'INT_MULT_-1205988304'), (u'INT_RIGHT_-1205992368', u'INT_OR_-1205992367'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989259'), (u'INT_ADD_-1205988888', u'INT_RIGHT_-1205988223'), (u'INT_XOR_-1205992923', u'INT_ADD_-1205992896'), (u'INT_ADD_-1205988920', u'INT_MULT_-1205988856'), (u'INT_ADD_-1205976643', u'INT_ADD_-1205976597'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205975145'), (u'INT_MULT_-1205979333', u'INT_OR_-1205979336'), (u'INT_MULT_-1205976179', u'INT_OR_-1205976182'), (u'INT_ADD_-1205988602', u'INT_RIGHT_-1205988574'), (u'COPY_-1205980495', u'LOAD_-1205974647'), ('const-17', u'INT_RIGHT_-1205986608'), ('const-16384', u'INT_MULT_-1205978909'), (u'INT_OR_-1205977429', u'INT_ADD_-1205977432'), ('const-1024', u'INT_MULT_-1205986804'), (u'INT_RIGHT_-1205991839', u'INT_OR_-1205991838'), ('const-8192', u'INT_MULT_-1205984917'), (u'INT_OR_-1205987644', u'INT_ADD_-1205986477'), (u'INT_MULT_-1205982054', u'INT_OR_-1205982057'), (u'STORE_-1205974550', u'INDIRECT_-1205974012'), (u'INT_ADD_-1205980146', u'INT_ADD_-1205980080'), (u'INT_OR_-1205989810', u'INT_XOR_-1205989663'), (u'INT_ADD_-1205987567', u'INT_AND_-1205987505'), (u'INT_ADD_-1205985505', u'INT_ADD_-1205985475'), (u'INT_NEGATE_-1205992310', u'INT_OR_-1205992093'), ('const-417', u'LOAD_-1205993280'), (u'INT_RIGHT_-1205976307', u'INT_OR_-1205976306'), (u'INT_XOR_-1205975462', u'INT_ADD_-1205975457'), (u'INT_OR_-1205975026', u'INT_ADD_-1205975029'), (u'INT_RIGHT_-1205982122', u'INT_OR_-1205982121'), (u'INT_RIGHT_-1205976579', u'INT_OR_-1205976578'), (u'INT_RIGHT_-1205974751', u'INT_OR_-1205974750'), (u'INT_OR_-1205976893', u'INT_ADD_-1205976185'), (u'INT_OR_-1205985307', u'INT_ADD_-1205985105'), ('const-26', u'INT_RIGHT_-1205979608'), (u'INDIRECT_-1205980527', u'INT_ADD_-1205976665'), (u'INT_ADD_-1205985465', u'INT_MULT_-1205985437'), (u'INT_XOR_-1205975404', u'INT_XOR_-1205975384'), (u'INT_ADD_-1205988960', u'INT_ADD_-1205988950'), (u'INT_ADD_-1205976273', u'INT_ADD_-1205976133'), (u'INT_OR_-1205990794', u'INT_ADD_-1205990797'), ('const-4', u'PTRADD_-1205979936'), ('const-22', u'INT_RIGHT_-1205979289'), (u'INT_OR_-1205983372', u'INT_XOR_-1205983360'), (u'INT_OR_-1205980534', u'INT_XOR_-1205980480'), (u'INT_XOR_-1205988925', u'INT_ADD_-1205988920'), (u'INT_RIGHT_-1205990245', u'INT_OR_-1205990244'), (u'INT_ADD_-1205991141', u'INT_MULT_-1205991113'), (u'INT_ADD_-1205974911', u'INT_ADD_-1205974737'), (u'INDIRECT_-1205980758', u'MULTIEQUAL_-1205980761'), (u'INT_XOR_-1205975946', u'INT_ADD_-1205975909'), (u'INT_ADD_-1205984060', u'INT_OR_-1205984043'), ('const-1024', u'INT_MULT_-1205975513'), (u'INT_OR_-1205986057', u'INT_XOR_-1205986039'), (u'INT_RIGHT_-1205979289', u'INT_OR_-1205979288'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980438'), (u'INT_ADD_-1205989488', u'INT_ADD_-1205989468'), ('const-20', u'INT_RIGHT_-1205983499'), (u'INT_RIGHT_-1205977338', u'INT_OR_-1205977337'), (u'INT_OR_-1205989585', u'INT_XOR_-1205989519'), (u'INT_ADD_-1205991995', u'INT_MULT_-1205991957'), (u'INT_OR_-1205987982', u'INT_AND_-1205987895'), (u'INT_MULT_-1205984022', u'INT_OR_-1205984025'), (u'INT_ADD_-1205978292', u'INT_MULT_-1205976669'), (u'INT_AND_-1205979938', u'INT_XOR_-1205979918'), (u'INT_ADD_-1205977859', u'INT_AND_-1205976617'), (u'INT_ADD_-1205980579', u'INT_ADD_-1205980433'), (u'INT_ADD_-1205976844', u'INT_RIGHT_-1205976734'), ('const-23', u'INT_RIGHT_-1205980634'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988445'), (u'INT_XOR_-1205991668', u'INT_XOR_-1205991628'), (u'INT_ADD_-1205988412', u'INT_XOR_-1205988096'), (u'INT_OR_-1205991038', u'INT_ADD_-1205991041'), (u'INT_OR_-1205980838', u'INT_ADD_-1205980841'), (u'INT_ADD_-1205992608', u'INT_RIGHT_-1205992564'), (u'INDIRECT_-1205980545', u'INT_ADD_-1205991915'), (u'PTRADD_-1205973669', u'STORE_-1205974532'), ('const-9', u'PTRADD_-1205980355'), (u'INT_XOR_-1205979168', u'INT_ADD_-1205979153'), (u'INT_OR_-1205992367', u'INT_ADD_-1205992370'), (u'INT_ADD_-1205988862', u'INT_MULT_-1205988518'), ('tmp_34209', u'PTRSUB_-1205973645'), (u'INT_ADD_-1205992210', u'INT_RIGHT_-1205992130'), (u'INT_OR_-1205976142', u'INT_XOR_-1205976092'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986904'), (u'INT_RIGHT_-1205975329', u'INT_OR_-1205975328'), (u'INT_MULT_-1205979636', u'INT_OR_-1205979639'), ('const-0', u'PTRSUB_-1205973723'), (u'INT_RIGHT_-1205981796', u'INT_OR_-1205981795'), (u'INT_ADD_-1205977340', u'INT_OR_-1205977251'), (u'INT_ADD_-1205984516', u'INT_MULT_-1205983597'), ('const-1836072691', u'INT_ADD_-1205984562'), (u'INT_ADD_-1205990885', u'INT_XOR_-1205990782'), ('const-26', u'INT_RIGHT_-1205983515'), (u'INT_ADD_-1205992870', u'INT_XOR_-1205992809'), (u'INT_ADD_-1205986647', u'INT_MULT_-1205986604'), (u'INT_ADD_-1205991941', u'INT_RIGHT_-1205991923'), ('const-27', u'INT_RIGHT_-1205975807'), ('const-417', u'STORE_-1205974682'), (u'INT_RIGHT_-1205992760', u'INT_OR_-1205992759'), ('const-23', u'INT_RIGHT_-1205981172'), (u'INT_OR_-1205976416', u'INT_ADD_-1205976419'), (u'INT_OR_-1205982231', u'INT_XOR_-1205982197'), (u'INT_AND_-1205980698', u'INT_XOR_-1205980657'), (u'INT_ADD_-1205976325', u'INT_XOR_-1205976222'), (u'INT_XOR_-1205978968', u'INT_ADD_-1205978947'), (u'INT_ADD_-1205977072', u'INT_RIGHT_-1205977044'), ('const-22', u'INT_RIGHT_-1205983601'), ('const-1024', u'INT_MULT_-1205976013'), (u'INT_ADD_-1205987679', u'INT_RIGHT_-1205987565'), (u'INT_MULT_-1205978622', u'INT_OR_-1205978625'), (u'INT_ADD_-1205984652', u'INT_OR_-1205984571'), (u'INT_ADD_-1205991245', u'INT_ADD_-1205991213'), (u'INT_ADD_-1205975197', u'INT_MULT_-1205975071'), (u'INT_XOR_-1205992721', u'INT_ADD_-1205992680'), (u'INT_ADD_-1205980841', u'INT_RIGHT_-1205980227'), (u'INT_ADD_-1205986600', u'INT_ADD_-1205986554'), (u'INT_ADD_-1205991581', u'INT_XOR_-1205991496'), ('const-128', u'INT_MULT_-1205981053'), (u'INT_OR_-1205977027', u'INT_ADD_-1205976367'), (u'INT_OR_-1205975234', u'INT_ADD_-1205974684'), (u'INT_OR_-1205988649', u'INT_ADD_-1205988652'), (u'INT_XOR_-1205978868', u'INT_AND_-1205978819'), ('const-18', u'INT_RIGHT_-1205984366'), (u'INT_NEGATE_-1205984670', u'INT_OR_-1205984261'), ('const-2048', u'INT_MULT_-1205989771'), (u'INT_AND_-1205988970', u'INT_XOR_-1205988935'), (u'INT_MULT_-1205984582', u'INT_OR_-1205984585'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205982045'), (u'INT_MULT_-1205990117', u'INT_OR_-1205990120'), (u'INT_ADD_-1205984923', u'INT_OR_-1205984759'), (u'INT_OR_-1205984043', u'INT_XOR_-1205983939'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205987599'), ('const-1024', u'INT_MULT_-1205982630'), (u'INT_ADD_-1205977072', u'INT_MULT_-1205977040'), ('const-4', u'PTRADD_-1205973664'), (u'INT_ADD_-1205979881', u'INT_MULT_-1205979285'), ('const-22', u'INT_RIGHT_-1205985324'), (u'INT_ADD_-1205987567', u'INT_MULT_-1205986297'), ('const-32768', u'INT_MULT_-1205984698'), (u'INT_ADD_-1205980309', u'INT_RIGHT_-1205980190'), (u'INT_OR_-1205987252', u'INT_ADD_-1205987255'), (u'INT_OR_-1205987622', u'INT_ADD_-1205987255'), (u'INT_MULT_-1205982588', u'INT_OR_-1205982591'), (u'INT_ADD_-1205979163', u'INT_MULT_-1205979009'), (u'INT_OR_-1205991304', u'INT_XOR_-1205991260'), (u'INT_OR_-1205977177', u'INT_NEGATE_-1205977140'), (u'INT_OR_-1205976114', u'INT_ADD_-1205976117'), (u'PTRSUB_-1205980403', u'PTRSUB_-1205980458'), (u'INT_OR_-1205977027', u'INT_ADD_-1205976283'), (u'INT_OR_-1205990244', u'INT_ADD_-1205990159'), (u'INT_MULT_-1205987145', u'INT_OR_-1205987148'), (u'INT_ADD_-1205985721', u'INT_RIGHT_-1205984993'), (u'STORE_-1205974538', u'INDIRECT_-1205974002'), ('tmp_38892', u'MULTIEQUAL_-1205980701'), (u'INT_ADD_-1205992778', u'INT_MULT_-1205992756'), (u'INT_MULT_-1205991269', u'INT_OR_-1205991272'), (u'INT_XOR_-1205990086', u'INT_AND_-1205990065'), (u'INT_RIGHT_-1205976033', u'INT_OR_-1205976032'), (u'INT_ADD_-1205990797', u'INT_MULT_-1205990522'), (u'INT_OR_-1205991680', u'INT_ADD_-1205991683'), (u'INT_MULT_-1205988247', u'INT_OR_-1205988250'), (u'INT_ADD_-1205978380', u'INT_ADD_-1205978360'), (u'INT_XOR_-1205985480', u'INT_ADD_-1205985465'), (u'INT_ADD_-1205975197', u'INT_RIGHT_-1205975075'), (u'INT_ADD_-1205988910', u'INT_MULT_-1205988882'), (u'INT_ADD_-1205992954', u'INT_ADD_-1205992906'), (u'INT_ADD_-1205975165', u'INT_XOR_-1205975130'), (u'INT_ADD_-1205992484', u'INT_OR_-1205992395'), (u'INT_OR_-1205986124', u'INT_ADD_-1205986127'), (u'INT_ADD_-1205975691', u'INT_RIGHT_-1205975651'), (u'STORE_-1205974550', u'INDIRECT_-1205973937'), (u'INDIRECT_-1205980566', u'INT_ADD_-1205986371'), ('const-1024', u'INT_MULT_-1205980016'), (u'INT_OR_-1205975058', u'INT_ADD_-1205974674'), (u'INT_ADD_-1205974674', u'STORE_-1205974664'), (u'INT_LEFT_-1205993224', u'INT_OR_-1205993224'), (u'INT_ADD_-1205976932', u'INT_MULT_-1205976890'), (u'INT_ADD_-1205990569', u'INT_ADD_-1205990559'), (u'INT_ADD_-1205983934', u'INT_MULT_-1205983912'), ('const-22', u'INT_RIGHT_-1205989811'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981865'), (u'INDIRECT_-1205980758', u'INT_ADD_-1205990569'), (u'INT_OR_-1205979336', u'INT_XOR_-1205979178'), (u'INT_OR_-1205977321', u'INT_NEGATE_-1205977310'), (u'INT_ADD_-1205978400', u'INT_RIGHT_-1205978018'), (u'STORE_-1205974676', u'INDIRECT_-1205973975'), ('const-19', u'INT_RIGHT_-1205982122'), ('const-24', u'INT_RIGHT_-1205977126'), (u'INT_OR_-1205987404', u'INT_AND_-1205987343'), (u'INT_ADD_-1205989184', u'INT_ADD_-1205989158'), (u'INDIRECT_-1205980542', u'INT_ADD_-1205977422'), ('const-1024', u'INT_MULT_-1205980614'), (u'INT_ADD_-1205976581', u'INT_XOR_-1205976404'), (u'INT_MULT_-1205990605', u'INT_OR_-1205990608'), ('const-1859775393', u'INT_ADD_-1205982530'), (u'INT_OR_-1205992581', u'INT_XOR_-1205992515'), ('const-22', u'INT_RIGHT_-1205991227'), (u'INT_OR_-1205990342', u'INT_ADD_-1205990123'), (u'INT_MULT_-1205991437', u'INT_OR_-1205991440'), (u'INT_ADD_-1205990797', u'INT_RIGHT_-1205990526'), (u'INT_OR_-1205992935', u'INT_ADD_-1205992566'), (u'INT_OR_-1205987998', u'INT_ADD_-1205988001'), (u'INT_ADD_-1205976788', u'INT_OR_-1205976286'), (u'LOAD_-1205992173', u'INT_ADD_-1205991683'), ('const-22', u'INT_RIGHT_-1205988135'), (u'INT_RIGHT_-1205987623', u'INT_OR_-1205987622'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987004'), (u'INT_ADD_-1205983832', u'INT_ADD_-1205983802'), (u'INT_ADD_-1205989793', u'INT_ADD_-1205989757'), (u'INDIRECT_-1205980524', u'INT_ADD_-1205979361'), ('const-32', u'INT_MULT_-1205992364'), (u'CALL_-1205993328', u'INDIRECT_-1205980743'), (u'INT_OR_-1205988521', u'INT_XOR_-1205988331'), (u'INT_XOR_-1205978303', u'INT_AND_-1205978255'), (u'INT_ADD_-1205980219', u'INT_ADD_-1205980100'), (u'INT_OR_-1205975672', u'INT_XOR_-1205975638'), (u'INT_ADD_-1205989777', u'INT_XOR_-1205989519'), ('const-19', u'INT_RIGHT_-1205975495'), (u'INDIRECT_-1205980563', u'INT_ADD_-1205977118'), (u'INT_OR_-1205974553', u'INT_ADD_-1205974556'), ('const-22', u'INT_RIGHT_-1205989586'), ('const-22', u'INT_RIGHT_-1205978316'), (u'STORE_-1205974670', u'INDIRECT_-1205973940'), (u'INT_MULT_-1205989807', u'INT_OR_-1205989810'), ('tmp_38889', u'MULTIEQUAL_-1205980656'), (u'INT_ADD_-1205989368', u'INT_RIGHT_-1205988760'), (u'INT_ADD_-1205976948', u'INT_RIGHT_-1205976930'), (u'STORE_-1205974532', u'INDIRECT_-1205973967'), (u'INT_ADD_-1205978087', u'INT_AND_-1205977963'), (u'INDIRECT_-1205980539', u'INT_ADD_-1205990715'), ('const-22', u'INT_RIGHT_-1205976307'), (u'INT_OR_-1205980769', u'INT_AND_-1205980698'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979266'), (u'INT_ADD_-1205976035', u'INT_MULT_-1205975965'), (u'INT_ADD_-1205979121', u'INT_RIGHT_-1205979055'), (u'INT_RIGHT_-1205977430', u'INT_OR_-1205977429'), ('const-22', u'INT_RIGHT_-1205980020'), (u'INT_ADD_-1205977859', u'INT_MULT_-1205977748'), (u'INT_OR_-1205976016', u'INT_ADD_-1205975809'), (u'INT_ADD_-1205981462', u'INT_RIGHT_-1205981015'), (u'INDIRECT_-1205973939', u'COPY_-1205973997'), (u'INT_ADD_-1205984238', u'INT_MULT_-1205984216'), (u'INT_ADD_-1205975769', u'INT_MULT_-1205975725'), (u'INT_ADD_-1205979015', u'INT_MULT_-1205978741'), (u'INT_ADD_-1205987767', u'INT_RIGHT_-1205985837'), (u'INT_RIGHT_-1205991605', u'INT_OR_-1205991604'), (u'INT_ADD_-1205987135', u'INT_RIGHT_-1205987101'), (u'STORE_-1205974550', u'INDIRECT_-1205973997'), (u'INT_OR_-1205986581', u'INT_ADD_-1205986054'), ('const-1024', u'INT_MULT_-1205990739'), ('const-26', u'INT_RIGHT_-1205978761'), (u'INT_ADD_-1205991141', u'INT_RIGHT_-1205991117'), ('const-1024', u'INT_MULT_-1205987145'), (u'INT_MULT_-1205989693', u'INT_OR_-1205989696'), (u'INT_MULT_-1205991559', u'INT_OR_-1205991562'), (u'INT_ADD_-1205984704', u'INT_OR_-1205984413'), (u'INT_OR_-1205988134', u'INT_ADD_-1205987767'), (u'INDIRECT_-1205980560', u'INT_ADD_-1205988960'), (u'INT_OR_-1205985174', u'INT_ADD_-1205984652'), (u'INT_ADD_-1205977859', u'INT_OR_-1205977695'), (u'INT_OR_-1205992935', u'INT_NEGATE_-1205992882'), ('const-1548603684', u'INT_ADD_-1205988960'), (u'INT_ADD_-1205984368', u'INT_OR_-1205984261'), (u'INT_OR_-1205985307', u'INT_XOR_-1205985255'), ('const-2048', u'INT_MULT_-1205982102'), (u'INT_OR_-1205991116', u'INT_ADD_-1205991119'), (u'INT_XOR_-1205989762', u'INT_AND_-1205989735'), ('const-24', u'INT_RIGHT_-1205980802'), (u'INT_OR_-1205985852', u'INT_XOR_-1205985784'), (u'INT_ADD_-1205981059', u'INT_MULT_-1205980531'), ('const-19', u'INT_RIGHT_-1205977044'), (u'INT_OR_-1205981014', u'INT_ADD_-1205980355'), (u'INT_ADD_-1205984368', u'INT_MULT_-1205983613'), (u'INT_ADD_-1205991607', u'INT_MULT_-1205991559'), (u'INT_ADD_-1205992964', u'INT_XOR_-1205992923'), (u'INT_OR_-1205990342', u'INT_XOR_-1205990298'), (u'INT_AND_-1205977963', u'INT_XOR_-1205977938'), (u'INT_RIGHT_-1205991227', u'INT_OR_-1205991226'), (u'INT_MULT_-1205981640', u'INT_OR_-1205981643'), (u'INT_AND_-1205980563', u'INT_XOR_-1205980548'), (u'INT_OR_-1205979288', u'INT_AND_-1205979197'), ('const-128', u'INT_MULT_-1205987097'), (u'INDIRECT_-1205980569', u'INT_ADD_-1205982354'), (u'INT_OR_-1205975572', u'INT_ADD_-1205975575'), ('const-1024', u'INT_MULT_-1205991385'), (u'INT_ADD_-1205979954', u'INT_ADD_-1205979913'), (u'PTRADD_-1205980384', u'LOAD_-1205993205'), ('const-32768', u'INT_MULT_-1205990791'), (u'LOAD_-1205993258', u'INT_ADD_-1205974797'), (u'INT_OR_-1205985028', u'INT_ADD_-1205985031'), ('const-16384', u'INT_MULT_-1205982774'), (u'INT_ADD_-1205975653', u'INT_RIGHT_-1205975517'), ('const-417', u'STORE_-1205974532'), (u'INT_ADD_-1205977588', u'INT_ADD_-1205977562'), (u'INT_ADD_-1205976984', u'INT_ADD_-1205976974'), ('const-1836072691', u'INT_ADD_-1205983964'), (u'INT_RIGHT_-1205990905', u'INT_OR_-1205990904'), (u'INT_ADD_-1205986790', u'INT_ADD_-1205986770'), (u'INT_OR_-1205984737', u'INT_ADD_-1205984516'), ('const-16384', u'INT_MULT_-1205979556'), (u'INT_MULT_-1205990307', u'INT_OR_-1205990310'), (u'INT_RIGHT_-1205982502', u'INT_OR_-1205982501'), (u'INT_ADD_-1205992484', u'INT_MULT_-1205992462'), (u'INDIRECT_-1205980530', u'INT_ADD_-1205990081'), (u'INDIRECT_-1205980536', u'INT_ADD_-1205983655'), (u'INT_OR_-1205988222', u'INT_ADD_-1205987589'), (u'INT_MULT_-1205979801', u'INT_OR_-1205979804'), (u'INT_OR_-1205976506', u'INT_XOR_-1205976492'), ('const-1836072691', u'INT_ADD_-1205983411'), (u'INT_MULT_-1205990979', u'INT_OR_-1205990982'), (u'INT_ADD_-1205990659', u'INT_MULT_-1205990605'), (u'INT_ADD_-1205989416', u'INT_RIGHT_-1205989398'), (u'INT_AND_-1205976617', u'INT_XOR_-1205976608'), (u'STORE_-1205974682', u'INDIRECT_-1205973965'), (u'STORE_-1205974664', u'INDIRECT_-1205973995'), (u'INT_OR_-1205977545', u'INT_XOR_-1205977469'), (u'PTRADD_-1205980409', u'LOAD_-1205993258'), ('const-4096', u'INT_MULT_-1205987281'), (u'INT_ADD_-1205980293', u'INT_MULT_-1205979833')]
|
[(u'INT_XOR_-1205986559', u'INT_ADD_-1205986544'), (u'INT_NOTEQUAL_-1205973304', u'CBRANCH_-1205973285'), (u'INT_ADD_-1205980527', u'INT_RIGHT_-1205980493'), (u'INT_ADD_-1205981059', u'INT_RIGHT_-1205980535'), ('const-417', u'STORE_-1205972655'), (u'INT_XOR_-1205990046', u'INT_ADD_-1205990025'), (u'INT_OR_-1205985750', u'INT_ADD_-1205985753'), (u'INT_OR_-1205988409', u'INT_ADD_-1205988412'), ('const-1', u'INT_ADD_-1205973805'), (u'STORE_-1205974532', u'INDIRECT_-1205971279'), (u'INT_ADD_-1205979632', u'INT_ADD_-1205979444'), (u'MULTIEQUAL_-1205972233', u'PTRADD_-1205967985'), ('const-1024', u'INT_MULT_-1205977478'), ('const-1024', u'INT_MULT_-1205989236'), (u'SUBPIECE_-1205968393', u'MULTIEQUAL_-1205972249'), (u'CALL_-1205973026', u'INDIRECT_-1205968382'), (u'CALL_-1205972994', u'INDIRECT_-1205968654'), (u'CALL_-1205972510', u'INDIRECT_-1205968465'), (u'INDIRECT_-1205970318', u'MULTIEQUAL_-1205969781'), (u'INDIRECT_-1205970685', u'MULTIEQUAL_-1205970584'), ('const-20', u'INT_RIGHT_-1205978501'), (u'INT_OR_-1205989365', u'INT_ADD_-1205989368'), ('const-2048', u'INT_MULT_-1205977334'), (u'INT_OR_-1205984992', u'INT_XOR_-1205984954'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971224'), (u'INT_ADD_-1205992370', u'INT_OR_-1205992265'), (u'INT_XOR_-1205980548', u'INT_ADD_-1205980527'), ('const-8192', u'INT_MULT_-1205992658'), ('const-0', u'COPY_-1205973277'), (u'INDIRECT_-1205969766', u'MULTIEQUAL_-1205969229'), (u'CALL_-1205972994', u'INDIRECT_-1205968314'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967639'), (u'INT_OR_-1205987564', u'INT_ADD_-1205987567'), (u'INDIRECT_-1205969549', u'MULTIEQUAL_-1205969458'), (u'INDIRECT_-1205970237', u'MULTIEQUAL_-1205970163'), ('const-22', u'INT_RIGHT_-1205976449'), (u'INT_RIGHT_-1205987253', u'INT_OR_-1205987252'), (u'INT_OR_-1205982823', u'INT_ADD_-1205982322'), (u'STORE_-1205974532', u'INDIRECT_-1205969991'), (u'STORE_-1205974161', u'INDIRECT_-1205970701'), (u'INT_ADD_-1205983645', u'INT_ADD_-1205983543'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968281'), (u'STORE_-1205974550', u'INDIRECT_-1205971386'), (u'INDIRECT_-1205970923', u'MULTIEQUAL_-1205970836'), (u'INDIRECT_-1205970226', u'MULTIEQUAL_-1205969689'), (u'INDIRECT_-1205970448', u'MULTIEQUAL_-1205969732'), (u'STORE_-1205974538', u'INDIRECT_-1205969812'), (u'INT_XOR_-1205986858', u'INT_ADD_-1205986853'), (u'INT_OR_-1205988707', u'INT_XOR_-1205988561'), (u'INT_ADD_-1205982140', u'INT_MULT_-1205982102'), (u'CALL_-1205993328', u'INDIRECT_-1205976777'), (u'INDIRECT_-1205975409', u'COPY_-1205975183'), (u'STORE_-1205973597', u'INDIRECT_-1205969394'), ('const-1024', u'INT_MULT_-1205987145'), (u'INT_ADD_-1205987439', u'INT_RIGHT_-1205987285'), (u'STORE_-1205973604', u'INDIRECT_-1205969767'), (u'STORE_-1205973590', u'INDIRECT_-1205970125'), ('const-19', u'INT_RIGHT_-1205983337'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987392'), (u'CALL_-1205973395', u'INDIRECT_-1205968824'), (u'INT_ADD_-1205991799', u'INT_MULT_-1205991777'), ('const-1024', u'INT_MULT_-1205989042'), (u'INDIRECT_-1205970482', u'MULTIEQUAL_-1205970432'), (u'INT_RIGHT_-1205982106', u'INT_OR_-1205982105'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969380'), (u'STORE_-1205974161', u'INDIRECT_-1205969689'), (u'INDIRECT_-1205971512', u'MULTIEQUAL_-1205971462'), (u'INT_OR_-1205982388', u'INT_ADD_-1205980841'), (u'INDIRECT_-1205970584', u'MULTIEQUAL_-1205970531'), (u'INT_MULT_-1205978497', u'INT_OR_-1205978500'), (u'LOAD_-1205992207', u'INT_XOR_-1205992111'), (u'INDIRECT_-1205970908', u'COPY_-1205968404'), (u'STORE_-1205974152', u'INDIRECT_-1205971155'), (u'INDIRECT_-1205970446', u'COPY_-1205970503'), (u'INT_OR_-1205986834', u'INT_ADD_-1205986837'), (u'INT_ADD_-1205986007', u'INT_RIGHT_-1205985324'), (u'INT_ADD_-1205979393', u'INT_MULT_-1205978893'), (u'STORE_-1205972729', u'INDIRECT_-1205968925'), (u'INT_AND_-1205982002', u'INT_XOR_-1205981983'), (u'STORE_-1205973763', u'INDIRECT_-1205971393'), (u'INT_ADD_-1205992664', u'INT_OR_-1205992581'), (u'INT_MULT_-1205988454', u'INT_OR_-1205988457'), (u'INT_OR_-1205986452', u'INT_ADD_-1205986127'), (u'STORE_-1205973555', u'INDIRECT_-1205971206'), (u'INT_NOTEQUAL_-1205972726', u'CBRANCH_-1205972717'), (u'INT_ADD_-1205989963', u'INT_ADD_-1205989927'), ('const-22', u'INT_RIGHT_-1205985175'), (u'CALL_-1205973026', u'INDIRECT_-1205968705'), (u'INT_ADD_-1205978292', u'INT_XOR_-1205977984'), (u'STORE_-1205972768', u'INDIRECT_-1205970696'), (u'CALL_-1205972994', u'INDIRECT_-1205968399'), (u'INT_RIGHT_-1205990359', u'INT_OR_-1205990358'), (u'CALL_-1205973026', u'INDIRECT_-1205970848'), (u'INT_OR_-1205981877', u'INT_ADD_-1205981646'), (u'STORE_-1205974682', u'INDIRECT_-1205971091'), (u'STORE_-1205972757', u'INDIRECT_-1205969767'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968828'), (u'INDIRECT_-1205970739', u'MULTIEQUAL_-1205970652'), (u'INDIRECT_-1205969296', u'MULTIEQUAL_-1205969243'), (u'CAST_-1205967881', u'STORE_-1205973438'), (u'INT_AND_-1205986381', u'INT_XOR_-1205986346'), (u'INT_ADD_-1205991353', u'INT_RIGHT_-1205991227'), (u'INT_ADD_-1205975887', u'INT_XOR_-1205975794'), ('const-1', u'INT_ADD_-1205973709'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970266'), (u'INT_OR_-1205993161', u'INT_ADD_-1205992778'), (u'INT_XOR_-1205992629', u'INT_ADD_-1205992608'), (u'INDIRECT_-1205969982', u'MULTIEQUAL_-1205969887'), (u'INDIRECT_-1205969663', u'MULTIEQUAL_-1205969613'), (u'INT_ADD_-1205991297', u'INT_RIGHT_-1205991273'), (u'INT_ADD_-1205986225', u'INT_MULT_-1205986094'), (u'INT_ADD_-1205987881', u'INT_ADD_-1205987835'), ('const-26', u'INT_RIGHT_-1205979013'), (u'INT_ADD_-1205975363', u'INT_XOR_-1205975274'), (u'INDIRECT_-1205971095', u'MULTIEQUAL_-1205968176'), (u'INT_RIGHT_-1205990983', u'INT_OR_-1205990982'), (u'STORE_-1205972643', u'INDIRECT_-1205968690'), (u'STORE_-1205974152', u'INDIRECT_-1205969499'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205988210'), (u'STORE_-1205972655', u'INDIRECT_-1205970724'), (u'INT_ADD_-1205991799', u'INT_RIGHT_-1205991781'), (u'INT_XOR_-1205980085', u'INT_ADD_-1205980054'), ('const-22', u'INT_RIGHT_-1205988828'), ('const-22', u'INT_RIGHT_-1205978897'), (u'INT_NEGATE_-1205992882', u'INT_OR_-1205992735'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967575'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969748'), ('const-1836072691', u'INT_ADD_-1205981126'), ('const-22', u'INT_RIGHT_-1205985567'), (u'INDIRECT_-1205968927', u'MULTIEQUAL_-1205968942'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969337'), (u'INT_MULT_-1205987097', u'INT_OR_-1205987100'), (u'STORE_-1205973445', u'INDIRECT_-1205971439'), (u'CALL_-1205972994', u'INDIRECT_-1205969175'), ('const-128', u'INT_MULT_-1205985715'), (u'STORE_-1205973583', u'INDIRECT_-1205969568'), (u'INT_ADD_-1205985240', u'INT_MULT_-1205985025'), (u'STORE_-1205974532', u'INDIRECT_-1205969623'), (u'CAST_-1205975000', u'LOAD_-1205993205'), ('const-20', u'INT_RIGHT_-1205991441'), (u'INT_ADD_-1205990611', u'INT_XOR_-1205990539'), ('const-2400959708', u'INT_ADD_-1205979213'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205982045'), (u'INT_OR_-1205986081', u'INT_XOR_-1205986039'), (u'CALL_-1205973319', u'INDIRECT_-1205971145'), (u'INT_OR_-1205982121', u'INT_ADD_-1205982124'), (u'COPY_-1205967652', u'STORE_-1205972643'), (u'STORE_-1205972530', u'INDIRECT_-1205969240'), (u'STORE_-1205972655', u'INDIRECT_-1205970172'), (u'INDIRECT_-1205971938', u'CALLIND_-1205972613'), ('const-16', u'COPY_-1205974303'), (u'INT_RIGHT_-1205983894', u'INT_OR_-1205983893'), (u'INT_OR_-1205982823', u'INT_ADD_-1205982332'), (u'STORE_-1205972789', u'INDIRECT_-1205970713'), (u'INT_RIGHT_-1205989681', u'INT_OR_-1205989680'), (u'CALL_-1205972510', u'INDIRECT_-1205968329'), (u'INDIRECT_-1205969104', u'COPY_-1205969160'), ('const-5', u'PTRADD_-1205973530'), (u'STORE_-1205972571', u'INDIRECT_-1205969024'), (u'INT_ADD_-1205978915', u'INT_RIGHT_-1205978626'), (u'INDIRECT_-1205970492', u'MULTIEQUAL_-1205970439'), (u'INDIRECT_-1205971094', u'MULTIEQUAL_-1205971083'), (u'INDIRECT_-1205969839', u'MULTIEQUAL_-1205968163'), ('const-2053994217', u'INT_ADD_-1205978841'), (u'INT_OR_-1205977908', u'INT_AND_-1205977869'), (u'STORE_-1205972782', u'INDIRECT_-1205969982'), (u'INT_ADD_-1205986325', u'INT_XOR_-1205986194'), (u'INDIRECT_-1205970400', u'MULTIEQUAL_-1205970347'), (u'INT_ADD_-1205991079', u'INT_RIGHT_-1205991039'), (u'INT_NEGATE_-1205992144', u'INT_OR_-1205991978'), (u'INT_ADD_-1205974827', u'INT_ADD_-1205974753'), (u'STORE_-1205972757', u'INDIRECT_-1205970319'), ('const-417', u'STORE_-1205972729'), (u'INT_ADD_-1205988652', u'INT_RIGHT_-1205988135'), ('const-0', u'STORE_-1205973739'), ('const-1', u'PTRADD_-1205973551'), (u'INT_XOR_-1205976881', u'INT_ADD_-1205976860'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970322'), (u'STORE_-1205972789', u'INDIRECT_-1205969149'), (u'INDIRECT_-1205969668', u'MULTIEQUAL_-1205969642'), (u'INDIRECT_-1205969430', u'MULTIEQUAL_-1205969335'), (u'INT_RIGHT_-1205988860', u'INT_OR_-1205988859'), (u'INDIRECT_-1205970908', u'MULTIEQUAL_-1205970400'), (u'INT_RIGHT_-1205991681', u'INT_OR_-1205991680'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205989793'), ('const-1', u'PTRADD_-1205973567'), ('const-24', u'INT_RIGHT_-1205988109'), (u'STORE_-1205974676', u'INDIRECT_-1205970074'), (u'INT_ADD_-1205989652', u'INT_RIGHT_-1205989548'), (u'INT_OR_-1205977695', u'INT_XOR_-1205977667'), (u'INDIRECT_-1205969274', u'MULTIEQUAL_-1205969230'), ('const-1024', u'INT_MULT_-1205982498'), (u'INT_ADD_-1205989905', u'INT_AND_-1205989849'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205984278'), (u'CALL_-1205972582', u'INDIRECT_-1205968102'), (u'INT_ADD_-1205985753', u'INT_OR_-1205985736'), (u'INT_OR_-1205976364', u'INT_ADD_-1205976367'), (u'INT_ADD_-1205980385', u'INT_ADD_-1205980355'), (u'INDIRECT_-1205968569', u'MULTIEQUAL_-1205968557'), (u'INDIRECT_-1205968569', u'MULTIEQUAL_-1205968557'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992954'), ('const-1024', u'INT_MULT_-1205975289'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970920'), ('const-0', u'STORE_-1205973763'), (u'CALL_-1205972973', u'INDIRECT_-1205970722'), (u'STORE_-1205973445', u'INDIRECT_-1205969323'), (u'INT_ADD_-1205988612', u'INT_ADD_-1205988556'), (u'SUBPIECE_-1205968394', u'LOAD_-1205974285'), (u'STORE_-1205973534', u'INDIRECT_-1205970369'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968185'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968075'), (u'INT_ADD_-1205978503', u'INT_XOR_-1205978385'), (u'INT_ADD_-1205988652', u'INT_XOR_-1205988381'), (u'STORE_-1205974616', u'INDIRECT_-1205970123'), (u'INT_ADD_-1205984258', u'INT_ADD_-1205984238'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974511'), ('const-22', u'INT_RIGHT_-1205993162'), ('const-22', u'INT_RIGHT_-1205993072'), (u'INT_OR_-1205977373', u'INT_ADD_-1205977046'), ('tmp_55354', u'MULTIEQUAL_-1205975665'), (u'INDIRECT_-1205968773', u'MULTIEQUAL_-1205968755'), (u'INDIRECT_-1205977973', u'MULTIEQUAL_-1205977899'), (u'STORE_-1205973452', u'INDIRECT_-1205970248'), (u'INT_OR_-1205991696', u'INT_ADD_-1205991417'), (u'CALL_-1205972994', u'INDIRECT_-1205969267'), (u'LOAD_-1205993274', u'INT_OR_-1205993195'), (u'INDIRECT_-1205971000', u'MULTIEQUAL_-1205970492'), (u'INT_ADD_-1205992203', u'CAST_-1205974621'), (u'INT_XOR_-1205987736', u'INT_AND_-1205987725'), (u'STORE_-1205972724', u'INDIRECT_-1205969225'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205990081'), ('const-2400959708', u'INT_ADD_-1205981708'), (u'INDIRECT_-1205977329', u'MULTIEQUAL_-1205977255'), (u'CALL_-1205993328', u'INDIRECT_-1205977329'), (u'INT_ADD_-1205991001', u'INT_MULT_-1205990957'), ('const-22', u'INT_RIGHT_-1205987645'), (u'CALL_-1205972510', u'INDIRECT_-1205968720'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967580'), (u'INT_ADD_-1205975399', u'INT_ADD_-1205975379'), (u'INT_MULT_-1205975071', u'INT_OR_-1205975074'), (u'INT_RIGHT_-1205974881', u'INT_OR_-1205974880'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970910'), (u'INDIRECT_-1205969028', u'MULTIEQUAL_-1205968404'), (u'INT_XOR_-1205982438', u'INT_ADD_-1205982423'), (u'MULTIEQUAL_-1205972465', u'STORE_-1205973695'), (u'MULTIEQUAL_-1205969090', u'COPY_-1205969225'), (u'INT_ADD_-1205986837', u'INT_RIGHT_-1205986453'), (u'INT_ADD_-1205989064', u'INT_AND_-1205988980'), (u'INT_ADD_-1205975457', u'INT_RIGHT_-1205975417'), (u'INT_OR_-1205977321', u'INT_ADD_-1205976932'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205982530'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205975555'), (u'STORE_-1205973787', u'INDIRECT_-1205970206'), (u'INDIRECT_-1205977697', u'MULTIEQUAL_-1205977623'), (u'INT_OR_-1205989113', u'INT_ADD_-1205988556'), (u'INDIRECT_-1205970998', u'COPY_-1205971055'), (u'INT_OR_-1205985608', u'INT_XOR_-1205985596'), (u'INDIRECT_-1205969747', u'MULTIEQUAL_-1205968162'), (u'INT_XOR_-1205988747', u'INT_AND_-1205988678'), (u'INT_MULT_-1205983369', u'INT_OR_-1205983372'), (u'STORE_-1205974129', u'INDIRECT_-1205971330'), (u'STORE_-1205972713', u'INDIRECT_-1205971028'), (u'INT_ADD_-1205992778', u'INT_XOR_-1205992721'), ('const-22', u'INT_RIGHT_-1205992832'), (u'STORE_-1205973634', u'INDIRECT_-1205970977'), (u'CALL_-1205973395', u'INDIRECT_-1205970626'), (u'INT_EQUAL_-1205974380', u'MULTIEQUAL_-1205971870'), (u'INT_ADD_-1205990199', u'INT_AND_-1205990163'), (u'INT_ADD_-1205988376', u'INT_ADD_-1205988269'), ('const-1024', u'INT_MULT_-1205981576'), ('const-26', u'INT_RIGHT_-1205974751'), (u'INT_ADD_-1205990025', u'INT_MULT_-1205989997'), (u'STORE_-1205972724', u'INDIRECT_-1205969869'), ('const-1836072691', u'INT_ADD_-1205983411'), ('const-1024', u'INT_MULT_-1205976890'), (u'MULTIEQUAL_-1205972439', u'INT_ADD_-1205973757'), (u'INT_RIGHT_-1205980493', u'INT_OR_-1205980492'), (u'CALL_-1205973395', u'INDIRECT_-1205969706'), (u'INT_ADD_-1205983954', u'INT_ADD_-1205983934'), (u'INT_RIGHT_-1205985029', u'INT_OR_-1205985028'), (u'INT_ADD_-1205984923', u'INT_NEGATE_-1205984856'), (u'INDIRECT_-1205968737', u'MULTIEQUAL_-1205969208'), (u'COPY_-1205968332', u'MULTIEQUAL_-1205969123'), (u'STORE_-1205973431', u'INDIRECT_-1205969957'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205974937'), ('const-417', u'STORE_-1205973424'), (u'STORE_-1205972561', u'INDIRECT_-1205969254'), (u'COPY_-1205967704', u'STORE_-1205972729'), (u'INT_ADD_-1205982433', u'INT_ADD_-1205982413'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969196'), (u'INT_ADD_-1205977770', u'INT_RIGHT_-1205977710'), (u'INT_OR_-1205992093', u'INT_XOR_-1205992000'), (u'INT_ADD_-1205977432', u'INT_OR_-1205977297'), (u'INDIRECT_-1205969890', u'MULTIEQUAL_-1205969795'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986148'), (u'INT_MULT_-1205988824', u'INT_OR_-1205988827'), (u'INT_ADD_-1205988878', u'INT_ADD_-1205988852'), (u'INT_RIGHT_-1205976017', u'INT_OR_-1205976016'), (u'STORE_-1205974550', u'INDIRECT_-1205970834'), (u'CAST_-1205967661', u'STORE_-1205972552'), (u'MULTIEQUAL_-1205970952', u'COPY_-1205971066'), (u'COPY_-1205968344', u'MULTIEQUAL_-1205968642'), ('const-32768', u'INT_MULT_-1205981320'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205983176'), (u'STORE_-1205972561', u'INDIRECT_-1205968978'), (u'STORE_-1205973739', u'INDIRECT_-1205970280'), (u'STORE_-1205972662', u'INDIRECT_-1205970821'), (u'INT_OR_-1205975438', u'INT_XOR_-1205975404'), (u'STORE_-1205974550', u'INDIRECT_-1205969730'), (u'INT_ADD_-1205984939', u'INT_MULT_-1205984917'), (u'INT_MULT_-1205992364', u'INT_OR_-1205992367'), ('const-25', u'INT_RIGHT_-1205989398'), (u'INT_ADD_-1205976597', u'INT_MULT_-1205976575'), (u'INT_ADD_-1205976565', u'INT_ADD_-1205976435'), (u'INT_ADD_-1205978400', u'INT_AND_-1205978364'), (u'INDIRECT_-1205969655', u'MULTIEQUAL_-1205968161'), ('const-64', u'INT_MULT_-1205979604'), (u'INT_XOR_-1205976072', u'INT_ADD_-1205976051'), (u'INT_MULT_-1205985171', u'INT_OR_-1205985174'), ('const-1859775393', u'INT_ADD_-1205982668'), (u'INT_OR_-1205987148', u'INT_ADD_-1205986837'), (u'INT_OR_-1205976672', u'INT_XOR_-1205976628'), (u'INDIRECT_-1205968382', u'MULTIEQUAL_-1205968370'), (u'INDIRECT_-1205968382', u'MULTIEQUAL_-1205968370'), (u'CALL_-1205972582', u'INDIRECT_-1205970837'), (u'STORE_-1205972571', u'INDIRECT_-1205970772'), (u'INT_OR_-1205992537', u'INT_NEGATE_-1205992526'), (u'INT_ADD_-1205992350', u'INT_ADD_-1205992298'), (u'STORE_-1205973763', u'INDIRECT_-1205971485'), (u'STORE_-1205972608', u'INDIRECT_-1205969643'), (u'INT_RIGHT_-1205985324', u'INT_OR_-1205985323'), (u'INT_RIGHT_-1205992130', u'INT_OR_-1205992129'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205984979'), (u'INT_ADD_-1205975575', u'INT_MULT_-1205975435'), (u'INT_ADD_-1205981049', u'INT_ADD_-1205980887'), (u'CALL_-1205972973', u'INDIRECT_-1205968882'), ('const-1024', u'INT_MULT_-1205984174'), (u'INT_RIGHT_-1205975075', u'INT_OR_-1205975074'), (u'INT_ADD_-1205991491', u'INT_ADD_-1205991459'), (u'INT_RIGHT_-1205992538', u'INT_OR_-1205992537'), (u'STORE_-1205972782', u'INDIRECT_-1205969338'), (u'INT_MULT_-1205993084', u'INT_OR_-1205993087'), (u'STORE_-1205974550', u'INDIRECT_-1205969822'), (u'INT_RIGHT_-1205990213', u'INT_OR_-1205990212'), (u'INT_OR_-1205993195', u'INT_XOR_-1205993175'), (u'STORE_-1205973835', u'INDIRECT_-1205969672'), (u'STORE_-1205972637', u'INDIRECT_-1205970525'), (u'MULTIEQUAL_-1205972430', u'INT_ADD_-1205973733'), (u'INT_OR_-1205989045', u'INT_ADD_-1205988376'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970484'), (u'INT_RIGHT_-1205982778', u'INT_OR_-1205982777'), (u'INT_MULT_-1205975491', u'INT_OR_-1205975494'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968959'), (u'INT_ADD_-1205982668', u'INT_ADD_-1205982658'), (u'INDIRECT_-1205971411', u'MULTIEQUAL_-1205971361'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969752'), ('const-417', u'STORE_-1205973417'), (u'STORE_-1205972757', u'INDIRECT_-1205970043'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971352'), (u'INT_OR_-1205974908', u'INT_ADD_-1205974911'), (u'STORE_-1205974664', u'INDIRECT_-1205971628'), (u'INT_ADD_-1205975535', u'INT_MULT_-1205975491'), (u'INT_ADD_-1205988111', u'INT_MULT_-1205987401'), (u'INT_ADD_-1205979474', u'INT_ADD_-1205979434'), (u'INT_MULT_-1205991191', u'INT_OR_-1205991194'), ('const-256', u'INT_MULT_-1205988105'), (u'INT_MULT_-1205979025', u'INT_OR_-1205979028'), (u'INT_ADD_-1205976003', u'INT_XOR_-1205975872'), (u'INT_OR_-1205984115', u'INT_XOR_-1205984081'), (u'INT_ADD_-1205976087', u'INT_ADD_-1205976051'), (u'INDIRECT_-1205969147', u'MULTIEQUAL_-1205968714'), (u'INDIRECT_-1205969976', u'MULTIEQUAL_-1205969965'), (u'INT_OR_-1205985488', u'INT_XOR_-1205985480'), (u'INDIRECT_-1205969489', u'MULTIEQUAL_-1205969429'), (u'CALL_-1205993328', u'INDIRECT_-1205977973'), (u'INT_OR_-1205988521', u'INT_XOR_-1205988381'), (u'LOAD_-1205992207', u'INT_RIGHT_-1205991697'), (u'INT_OR_-1205979336', u'INT_ADD_-1205978915'), (u'MULTIEQUAL_-1205969123', u'MULTIEQUAL_-1205968930'), (u'INT_ADD_-1205978915', u'INT_XOR_-1205978716'), (u'INT_XOR_-1205989529', u'INT_AND_-1205989502'), (u'INT_OR_-1205985283', u'INT_XOR_-1205985245'), (u'INT_XOR_-1205989880', u'INT_XOR_-1205989860'), (u'INT_ADD_-1205974807', u'INT_MULT_-1205974747'), (u'STORE_-1205973695', u'INDIRECT_-1205970267'), (u'CALL_-1205972973', u'INDIRECT_-1205969158'), (u'INT_XOR_-1205982151', u'INT_ADD_-1205982140'), (u'INT_RIGHT_-1205990488', u'INT_OR_-1205990487'), (u'STORE_-1205972724', u'INDIRECT_-1205971065'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972421'), (u'INT_MULT_-1205979115', u'INT_OR_-1205979118'), ('const-417', u'LOAD_-1205992219'), ('const-1024', u'INT_MULT_-1205986929'), (u'INT_OR_-1205984291', u'INT_ADD_-1205983735'), (u'STORE_-1205973431', u'INDIRECT_-1205970693'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205979361'), (u'INT_ADD_-1205987567', u'INT_RIGHT_-1205986301'), (u'INT_RIGHT_-1205983916', u'INT_OR_-1205983915'), (u'INT_ADD_-1205974979', u'INT_MULT_-1205974905'), (u'MULTIEQUAL_-1205968168', u'MULTIEQUAL_-1205970304'), (u'STORE_-1205973583', u'INDIRECT_-1205969844'), (u'STORE_-1205972768', u'INDIRECT_-1205969132'), (u'INT_ADD_-1205987911', u'INT_ADD_-1205987881'), (u'INT_MULT_-1205985304', u'INT_OR_-1205985307'), (u'STORE_-1205972571', u'INDIRECT_-1205970496'), (u'INT_ADD_-1205984949', u'INT_ADD_-1205984939'), (u'STORE_-1205973576', u'INDIRECT_-1205971403'), (u'STORE_-1205973410', u'INDIRECT_-1205969942'), (u'INT_ADD_-1205979610', u'INT_MULT_-1205978060'), (u'INDIRECT_-1205971613', u'MULTIEQUAL_-1205971564'), (u'INT_XOR_-1205990258', u'INT_ADD_-1205990237'), (u'INT_OR_-1205975968', u'INT_NEGATE_-1205975915'), (u'PTRADD_-1205973679', u'MULTIEQUAL_-1205972465'), (u'INT_OR_-1205976578', u'INT_ADD_-1205976581'), ('const-1024', u'INT_MULT_-1205976303'), (u'STORE_-1205972608', u'INDIRECT_-1205969183'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968319'), (u'INT_ADD_-1205992664', u'INT_RIGHT_-1205992616'), (u'INT_XOR_-1205986148', u'INT_ADD_-1205986143'), (u'INT_ADD_-1205991783', u'INT_MULT_-1205991709'), (u'INDIRECT_-1205969275', u'MULTIEQUAL_-1205969243'), ('const-4', u'CALL_-1205973319'), (u'INT_MULT_-1205977748', u'INT_OR_-1205977751'), (u'CALL_-1205972510', u'INDIRECT_-1205968533'), (u'CALL_-1205973026', u'INDIRECT_-1205970664'), (u'INDIRECT_-1205970041', u'MULTIEQUAL_-1205969940'), (u'INT_XOR_-1205977938', u'INT_ADD_-1205977891'), (u'STORE_-1205973576', u'INDIRECT_-1205971311'), (u'CALL_-1205972582', u'INDIRECT_-1205968408'), (u'INDIRECT_-1205968397', u'MULTIEQUAL_-1205968868'), (u'COPY_-1205974435', u'MULTIEQUAL_-1205968710'), (u'INT_ADD_-1205975029', u'INT_MULT_-1205974550'), (u'STORE_-1205972561', u'INDIRECT_-1205969898'), (u'INT_ADD_-1205990490', u'INT_MULT_-1205990339'), (u'INT_OR_-1205976540', u'INT_ADD_-1205976325'), (u'INDIRECT_-1205971463', u'MULTIEQUAL_-1205968180'), (u'STORE_-1205974532', u'INDIRECT_-1205971831'), (u'INT_RIGHT_-1205968024', u'SUBPIECE_-1205973365'), (u'INT_NEGATE_-1205976716', u'INT_OR_-1205976286'), (u'STORE_-1205973424', u'INDIRECT_-1205969492'), (u'CALL_-1205972973', u'INDIRECT_-1205968450'), (u'PTRADD_-1205973635', u'COPY_-1205968098'), (u'CALL_-1205973319', u'INDIRECT_-1205968876'), (u'STORE_-1205972655', u'INDIRECT_-1205970540'), (u'INT_OR_-1205983077', u'INT_XOR_-1205983019'), (u'INT_OR_-1205975750', u'INT_ADD_-1205975575'), (u'STORE_-1205972757', u'INDIRECT_-1205970503'), ('tmp_55405', u'MULTIEQUAL_-1205977899'), (u'STORE_-1205973431', u'INDIRECT_-1205969497'), (u'CALL_-1205993328', u'INDIRECT_-1205977789'), (u'STORE_-1205974670', u'INDIRECT_-1205969701'), (u'STORE_-1205974526', u'INDIRECT_-1205971458'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205980897'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969604'), (u'INDIRECT_-1205970258', u'MULTIEQUAL_-1205970163'), (u'INT_RIGHT_-1205990526', u'INT_OR_-1205990525'), (u'MULTIEQUAL_-1205970470', u'COPY_-1205970605'), (u'INT_ADD_-1205985753', u'INT_MULT_-1205985171'), ('const-8192', u'INT_MULT_-1205989204'), (u'INDIRECT_-1205976157', u'MULTIEQUAL_-1205976158'), (u'STORE_-1205974152', u'INDIRECT_-1205969867'), (u'STORE_-1205973787', u'INDIRECT_-1205971126'), (u'INT_OR_-1205989696', u'INT_ADD_-1205988950'), ('const-22', u'INT_RIGHT_-1205975293'), (u'STORE_-1205973590', u'INDIRECT_-1205969849'), (u'INDIRECT_-1205968706', u'MULTIEQUAL_-1205968721'), (u'INT_ADD_-1205987449', u'INT_RIGHT_-1205987149'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968187'), (u'INT_OR_-1205976182', u'INT_ADD_-1205976185'), (u'INDIRECT_-1205969028', u'MULTIEQUAL_-1205968709'), (u'STORE_-1205972782', u'INDIRECT_-1205968970'), (u'INT_OR_-1205984491', u'INT_ADD_-1205984222'), (u'INT_OR_-1205981171', u'INT_ADD_-1205981174'), (u'MULTIEQUAL_-1205969112', u'COPY_-1205969226'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968641'), (u'STORE_-1205973590', u'INDIRECT_-1205969389'), (u'INDIRECT_-1205970864', u'MULTIEQUAL_-1205970838'), (u'INT_XOR_-1205983009', u'INT_ADD_-1205983004'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205991491'), (u'INT_OR_-1205981014', u'INT_ADD_-1205980636'), (u'INDIRECT_-1205968552', u'MULTIEQUAL_-1205968534'), (u'INDIRECT_-1205971644', u'MULTIEQUAL_-1205970945'), (u'INDIRECT_-1205970074', u'MULTIEQUAL_-1205969981'), (u'INT_MULT_-1205985605', u'INT_OR_-1205985608'), (u'STORE_-1205972729', u'INDIRECT_-1205970397'), (u'INT_OR_-1205987924', u'INT_ADD_-1205987567'), (u'INT_MULT_-1205992560', u'INT_OR_-1205992563'), (u'STORE_-1205972782', u'INDIRECT_-1205971086'), (u'INT_NEGATE_-1205982838', u'INT_OR_-1205982476'), ('const-4', u'PTRADD_-1205967590'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205967995'), (u'INT_ADD_-1205976788', u'INT_XOR_-1205976492'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981399'), ('const-92', u'INT_ADD_-1205992065'), (u'INT_ADD_-1205985105', u'INT_MULT_-1205984174'), (u'INT_OR_-1205985836', u'INT_ADD_-1205985342'), (u'CALL_-1205974449', u'INDIRECT_-1205971368'), ('const-4', u'PTRADD_-1205967665'), (u'INT_ADD_-1205987103', u'INT_MULT_-1205986804'), (u'STORE_-1205972782', u'INDIRECT_-1205969798'), (u'INT_NOTEQUAL_-1205973698', u'CBRANCH_-1205973688'), (u'CALL_-1205973395', u'INDIRECT_-1205969246'), (u'STORE_-1205972768', u'INDIRECT_-1205969592'), ('const-0', u'CALL_-1205974449'), (u'INT_ADD_-1205992030', u'INT_ADD_-1205992015'), (u'INDIRECT_-1205968314', u'MULTIEQUAL_-1205968302'), (u'INDIRECT_-1205968314', u'MULTIEQUAL_-1205968302'), (u'INDIRECT_-1205970654', u'MULTIEQUAL_-1205970610'), ('const-2400959708', u'INT_ADD_-1205981556'), (u'INDIRECT_-1205969760', u'MULTIEQUAL_-1205969734'), (u'INT_ADD_-1205991915', u'INT_ADD_-1205991867'), (u'INDIRECT_-1205968536', u'MULTIEQUAL_-1205968510'), (u'INT_OR_-1205985608', u'INT_ADD_-1205985147'), (u'CALL_-1205973319', u'INDIRECT_-1205968910'), (u'STORE_-1205974159', u'INDIRECT_-1205971252'), (u'STORE_-1205974129', u'INDIRECT_-1205970870'), (u'LOAD_-1205973565', u'MULTIEQUAL_-1205972301'), (u'INT_ADD_-1205980672', u'INT_ADD_-1205980652'), (u'CALL_-1205973026', u'INDIRECT_-1205969652'), (u'INDIRECT_-1205971036', u'COPY_-1205971092'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977422'), (u'INDIRECT_-1205970280', u'MULTIEQUAL_-1205970230'), (u'CALL_-1205972973', u'INDIRECT_-1205968467'), (u'INT_ADD_-1205985369', u'INT_ADD_-1205985240'), (u'CALL_-1205973319', u'INDIRECT_-1205970961'), (u'INT_AND_-1205987343', u'INT_XOR_-1205987324'), (u'STORE_-1205972670', u'INDIRECT_-1205969999'), (u'INT_ADD_-1205976393', u'INT_ADD_-1205976357'), ('tmp_40666', u'PTRSUB_-1205975200'), (u'INDIRECT_-1205969620', u'MULTIEQUAL_-1205968921'), (u'INT_OR_-1205992129', u'INT_ADD_-1205990559'), (u'INT_XOR_-1205982621', u'INT_ADD_-1205982616'), (u'INT_ADD_-1205974649', u'CAST_-1205968354'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969494'), (u'INDIRECT_-1205971144', u'MULTIEQUAL_-1205971094'), ('const-1024', u'INT_MULT_-1205988756'), (u'INT_ADD_-1205986034', u'INT_RIGHT_-1205986005'), (u'INT_ADD_-1205985887', u'INT_ADD_-1205985769'), (u'INT_OR_-1205979836', u'INT_XOR_-1205979766'), (u'CALL_-1205973395', u'INDIRECT_-1205970442'), (u'INT_ADD_-1205992680', u'INT_RIGHT_-1205992662'), (u'STORE_-1205973410', u'INDIRECT_-1205971322'), (u'STORE_-1205972757', u'INDIRECT_-1205969215'), (u'INT_ADD_-1205985121', u'INT_RIGHT_-1205985103'), (u'INT_ADD_-1205987045', u'INT_ADD_-1205987019'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969714'), (u'INDIRECT_-1205969198', u'MULTIEQUAL_-1205968574'), (u'INDIRECT_-1205969333', u'COPY_-1205967704'), (u'INT_OR_-1205993071', u'INT_ADD_-1205992644'), (u'STORE_-1205974152', u'INDIRECT_-1205970327'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205986497'), (u'STORE_-1205972608', u'INDIRECT_-1205970379'), ('const-32768', u'INT_MULT_-1205990791'), (u'INT_AND_-1205987023', u'INT_XOR_-1205987004'), (u'INT_ADD_-1205983401', u'INT_ADD_-1205983355'), (u'INDIRECT_-1205969896', u'MULTIEQUAL_-1205969180'), (u'CALL_-1205972994', u'INDIRECT_-1205967991'), ('const-1836072691', u'INT_ADD_-1205983044'), (u'INT_RIGHT_-1205978064', u'INT_OR_-1205978063'), ('const-417', u'STORE_-1205972643'), (u'INDIRECT_-1205969409', u'MULTIEQUAL_-1205969335'), (u'INDIRECT_-1205970224', u'MULTIEQUAL_-1205970174'), (u'INT_ADD_-1205978087', u'INT_XOR_-1205976628'), (u'STORE_-1205974670', u'INDIRECT_-1205970621'), (u'INT_ADD_-1205974592', u'STORE_-1205974550'), (u'CALL_-1205972510', u'INDIRECT_-1205970771'), (u'STORE_-1205972768', u'INDIRECT_-1205970880'), (u'STORE_-1205974676', u'INDIRECT_-1205969706'), ('tmp_37711', u'CBRANCH_-1205972659'), (u'STORE_-1205973555', u'INDIRECT_-1205970654'), (u'INT_ADD_-1205982780', u'INT_RIGHT_-1205982389'), (u'INT_ADD_-1205977656', u'INT_RIGHT_-1205977638'), (u'LOAD_-1205993274', u'COPY_-1205968326'), (u'INT_OR_-1205985566', u'INT_ADD_-1205984949'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205981708'), ('const-1024', u'INT_MULT_-1205985171'), (u'INDIRECT_-1205970778', u'MULTIEQUAL_-1205970241'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970708'), (u'INT_OR_-1205980226', u'INT_ADD_-1205979807'), (u'COPY_-1205967763', u'STORE_-1205972768'), (u'INDIRECT_-1205969369', u'MULTIEQUAL_-1205969319'), (u'INT_ADD_-1205975419', u'INT_RIGHT_-1205975293'), ('const-20', u'PTRADD_-1205967665'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969788'), (u'STORE_-1205972662', u'INDIRECT_-1205970177'), (u'STORE_-1205972608', u'INDIRECT_-1205968999'), (u'CALL_-1205993328', u'INDIRECT_-1205978249'), ('const-1024', u'INT_MULT_-1205990739'), ('const-27', u'INT_RIGHT_-1205980839'), (u'INT_ADD_-1205981952', u'INT_MULT_-1205981576'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205984886'), (u'INDIRECT_-1205969240', u'MULTIEQUAL_-1205969229'), (u'INT_XOR_-1205979449', u'INT_ADD_-1205979434'), (u'INT_MULT_-1205975647', u'INT_OR_-1205975650'), (u'CALL_-1205973319', u'INDIRECT_-1205968502'), (u'STORE_-1205972664', u'INDIRECT_-1205969626'), (u'STORE_-1205973410', u'INDIRECT_-1205969114'), (u'INT_NEGATE_-1205985017', u'INT_OR_-1205984759'), (u'STORE_-1205974159', u'INDIRECT_-1205971160'), (u'INT_ADD_-1205979371', u'INT_RIGHT_-1205977909'), (u'INT_XOR_-1205975794', u'INT_XOR_-1205975774'), (u'STORE_-1205974676', u'INDIRECT_-1205970534'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974529'), (u'STORE_-1205972729', u'INDIRECT_-1205968741'), (u'INT_ADD_-1205988001', u'INT_AND_-1205987839'), (u'STORE_-1205974676', u'INDIRECT_-1205970350'), ('const-20', u'INT_RIGHT_-1205987285'), ('const-16384', u'INT_MULT_-1205982774'), ('const-0', u'STORE_-1205973859'), (u'INT_OR_-1205985307', u'INT_ADD_-1205984786'), (u'INT_ADD_-1205989158', u'INT_ADD_-1205989106'), (u'INT_OR_-1205992129', u'INT_NEGATE_-1205992036'), (u'STORE_-1205973859', u'INDIRECT_-1205971337'), (u'STORE_-1205973739', u'INDIRECT_-1205969820'), (u'INT_OR_-1205979028', u'INT_XOR_-1205979000'), (u'INT_ADD_-1205991041', u'INT_RIGHT_-1205990905'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969840'), (u'STORE_-1205973424', u'INDIRECT_-1205970688'), (u'INT_RIGHT_-1205992322', u'INT_OR_-1205992321'), (u'INT_ADD_-1205975497', u'INT_XOR_-1205975462'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968920'), (u'STORE_-1205974676', u'INDIRECT_-1205969982'), ('const-25', u'INT_RIGHT_-1205991195'), ('const-21', u'INT_RIGHT_-1205986125'), (u'STORE_-1205973597', u'INDIRECT_-1205970038'), (u'INT_OR_-1205980956', u'INT_ADD_-1205980433'), (u'INT_ADD_-1205980355', u'INT_ADD_-1205980309'), (u'STORE_-1205973534', u'INDIRECT_-1205969357'), (u'INT_ADD_-1205992370', u'INT_MULT_-1205992318'), (u'CALL_-1205972510', u'INDIRECT_-1205968363'), (u'STORE_-1205974538', u'INDIRECT_-1205970364'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968608'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968608'), (u'INT_ADD_-1205972710', u'CAST_-1205967733'), (u'STORE_-1205972840', u'INDIRECT_-1205969727'), (u'STORE_-1205973739', u'INDIRECT_-1205971568'), (u'INDIRECT_-1205968586', u'MULTIEQUAL_-1205968568'), ('const-22', u'INT_RIGHT_-1205984292'), ('const-417', u'LOAD_-1205993274'), (u'STORE_-1205974616', u'INDIRECT_-1205971227'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969438'), (u'INT_ADD_-1205975125', u'INT_MULT_-1205975023'), (u'STORE_-1205974670', u'INDIRECT_-1205969793'), (u'INT_RIGHT_-1205986505', u'INT_OR_-1205986504'), (u'INT_MULT_-1205977122', u'INT_OR_-1205977125'), (u'INT_ADD_-1205978763', u'INT_RIGHT_-1205978538'), (u'INDIRECT_-1205975511', u'MULTIEQUAL_-1205975512'), (u'INDIRECT_-1205970816', u'MULTIEQUAL_-1205970100'), (u'CALL_-1205974449', u'INDIRECT_-1205970724'), (u'STORE_-1205972649', u'INDIRECT_-1205970443'), (u'STORE_-1205973431', u'INDIRECT_-1205970417'), (u'STORE_-1205974152', u'INDIRECT_-1205970511'), (u'PTRADD_-1205967990', u'PIECE_-1205967981'), (u'STORE_-1205973452', u'INDIRECT_-1205969420'), (u'STORE_-1205974159', u'INDIRECT_-1205969964'), (u'COPY_-1205968338', u'MULTIEQUAL_-1205968833'), (u'MULTIEQUAL_-1205970676', u'COPY_-1205970790'), (u'INT_NEGATE_-1205981035', u'INT_OR_-1205980942'), (u'INDIRECT_-1205970955', u'MULTIEQUAL_-1205971351'), (u'INT_ADD_-1205987449', u'INT_MULT_-1205987145'), (u'INT_ADD_-1205983501', u'INT_NEGATE_-1205983387'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968134'), (u'INT_ADD_-1205983776', u'INT_MULT_-1205983138'), (u'INDIRECT_-1205968587', u'MULTIEQUAL_-1205968561'), (u'INT_NEGATE_-1205983471', u'INT_OR_-1205983063'), (u'STORE_-1205974664', u'INDIRECT_-1205969880'), (u'INT_OR_-1205985174', u'INT_ADD_-1205984552'), (u'INT_ADD_-1205981059', u'INT_OR_-1205980942'), (u'INT_MULT_-1205988105', u'INT_OR_-1205988108'), (u'INT_ADD_-1205978947', u'INT_RIGHT_-1205978913'), (u'INT_XOR_-1205979766', u'INT_AND_-1205979713'), (u'STORE_-1205973576', u'INDIRECT_-1205970759'), (u'INT_MULT_-1205983495', u'INT_OR_-1205983498'), (u'INT_XOR_-1205987392', u'INT_AND_-1205987343'), (u'INT_XOR_-1205980480', u'INT_AND_-1205980417'), (u'MULTIEQUAL_-1205968902', u'MULTIEQUAL_-1205968709'), (u'STORE_-1205974526', u'INDIRECT_-1205969986'), (u'INT_XOR_-1205987814', u'INT_ADD_-1205987793'), ('const-1024', u'INT_MULT_-1205990339'), ('tmp_55397', u'MULTIEQUAL_-1205977163'), (u'INT_NEGATE_-1205993208', u'INT_OR_-1205993047'), (u'INT_ADD_-1205991783', u'INT_OR_-1205990718'), (u'INDIRECT_-1205969664', u'MULTIEQUAL_-1205969611'), (u'STORE_-1205974152', u'INDIRECT_-1205970051'), (u'INT_XOR_-1205988561', u'INT_ADD_-1205988546'), (u'STORE_-1205973424', u'INDIRECT_-1205970412'), (u'INT_ADD_-1205989725', u'INT_ADD_-1205989715'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205980151'), (u'COPY_-1205974303', u'MULTIEQUAL_-1205972302'), (u'CALL_-1205973395', u'INDIRECT_-1205968671'), (u'MULTIEQUAL_-1205972007', u'CALL_-1205972582'), (u'INT_ADD_-1205983004', u'INT_MULT_-1205982930'), ('const-0', u'STORE_-1205972664'), ('const-128', u'INT_MULT_-1205987249'), (u'STORE_-1205972768', u'INDIRECT_-1205969960'), (u'INT_OR_-1205987100', u'INT_ADD_-1205987103'), (u'STORE_-1205972789', u'INDIRECT_-1205970345'), (u'INT_ADD_-1205990923', u'INT_RIGHT_-1205990883'), (u'STORE_-1205973452', u'INDIRECT_-1205970984'), (u'STORE_-1205974664', u'INDIRECT_-1205970892'), (u'STORE_-1205974526', u'INDIRECT_-1205970538'), (u'INT_OR_-1205976448', u'INT_XOR_-1205976404'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987324'), (u'INT_ADD_-1205990829', u'INT_RIGHT_-1205990795'), ('const-4', u'PTRADD_-1205967630'), (u'STORE_-1205972552', u'INDIRECT_-1205970997'), (u'INT_OR_-1205984513', u'INT_ADD_-1205984516'), (u'CALL_-1205974449', u'INDIRECT_-1205969804'), (u'INT_OR_-1205977709', u'INT_ADD_-1205977268'), (u'INT_ADD_-1205983735', u'INT_ADD_-1205983533'), (u'CALL_-1205972582', u'INDIRECT_-1205969917'), (u'INT_OR_-1205977213', u'INT_ADD_-1205977216'), (u'INT_AND_-1205987895', u'INT_XOR_-1205987866'), (u'INT_OR_-1205987404', u'INT_ADD_-1205987019'), ('const-22', u'INT_RIGHT_-1205986082'), (u'STORE_-1205973811', u'INDIRECT_-1205971595'), (u'INT_OR_-1205978912', u'INT_ADD_-1205978915'), (u'INT_NOTEQUAL_-1205993313', u'CBRANCH_-1205993294'), (u'INDIRECT_-1205969593', u'MULTIEQUAL_-1205969519'), (u'INT_ADD_-1205984238', u'INT_RIGHT_-1205984220'), ('const-23', u'INT_RIGHT_-1205992868'), (u'STORE_-1205974159', u'INDIRECT_-1205970516'), (u'INDIRECT_-1205971568', u'MULTIEQUAL_-1205971518'), (u'INDIRECT_-1205969305', u'MULTIEQUAL_-1205969245'), (u'INT_ADD_-1205977536', u'INT_MULT_-1205977514'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205980688'), (u'INT_ADD_-1205985443', u'INT_MULT_-1205984890'), (u'STORE_-1205973627', u'INDIRECT_-1205970972'), (u'INDIRECT_-1205970759', u'MULTIEQUAL_-1205968173'), (u'INT_ADD_-1205977046', u'INT_MULT_-1205977024'), (u'INDIRECT_-1205969623', u'MULTIEQUAL_-1205968160'), (u'INT_OR_-1205992831', u'INT_ADD_-1205992412'), (u'INT_RIGHT_-1205978085', u'INT_OR_-1205978084'), (u'INT_LEFT_-1205991696', u'INT_OR_-1205991696'), ('const-1', u'PTRADD_-1205973544'), (u'INDIRECT_-1205971270', u'MULTIEQUAL_-1205971175'), (u'CALL_-1205993328', u'INDIRECT_-1205975647'), ('const-22', u'INT_RIGHT_-1205991149'), ('tmp_36784', u'CBRANCH_-1205972851'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205976922'), (u'STORE_-1205972664', u'INDIRECT_-1205969258'), (u'CALL_-1205973319', u'INDIRECT_-1205968961'), (u'INT_MULT_-1205991113', u'INT_OR_-1205991116'), (u'INT_ADD_-1205990313', u'INT_AND_-1205990277'), ('const-417', u'STORE_-1205973555'), (u'STORE_-1205973534', u'INDIRECT_-1205969633'), (u'INT_OR_-1205981747', u'INT_AND_-1205981692'), ('const-1024', u'INT_MULT_-1205975965'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968319'), ('const-18', u'INT_RIGHT_-1205991605'), (u'INT_OR_-1205987800', u'INT_ADD_-1205987803'), (u'INT_XOR_-1205976092', u'INT_ADD_-1205976067'), (u'INDIRECT_-1205971604', u'MULTIEQUAL_-1205971554'), (u'INT_ADD_-1205991381', u'INT_RIGHT_-1205991351'), (u'INT_OR_-1205976306', u'INT_XOR_-1205976258'), (u'INT_ADD_-1205982936', u'INT_MULT_-1205982268'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974649'), (u'STORE_-1205972643', u'INDIRECT_-1205969886'), (u'INT_ADD_-1205989803', u'INT_RIGHT_-1205989775'), (u'INDIRECT_-1205969528', u'MULTIEQUAL_-1205969020'), ('const-512', u'INT_MULT_-1205989362'), (u'INT_XOR_-1205977397', u'INT_ADD_-1205977366'), (u'STORE_-1205972649', u'INDIRECT_-1205969339'), (u'INT_ADD_-1205992235', u'CAST_-1205974634'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968891'), (u'MULTIEQUAL_-1205969174', u'MULTIEQUAL_-1205968981'), (u'CALL_-1205973026', u'INDIRECT_-1205968008'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205986600'), (u'INDIRECT_-1205978065', u'INT_ADD_-1205980146'), (u'INT_RIGHT_-1205991061', u'INT_OR_-1205991060'), (u'INT_MULT_-1205982630', u'INT_OR_-1205982633'), (u'INT_ADD_-1205976860', u'INT_RIGHT_-1205976842'), (u'INDIRECT_-1205970311', u'MULTIEQUAL_-1205970707'), (u'INT_ADD_-1205975051', u'INT_ADD_-1205974979'), ('const-16', u'INT_RIGHT_-1205973465'), (u'INT_ADD_-1205985769', u'INT_MULT_-1205985747'), (u'STORE_-1205972735', u'INDIRECT_-1205970218'), (u'INT_ADD_-1205985753', u'INT_RIGHT_-1205985175'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986755'), (u'INT_ADD_-1205983918', u'INT_RIGHT_-1205983078'), (u'INDIRECT_-1205969562', u'MULTIEQUAL_-1205969512'), (u'CALL_-1205973319', u'INDIRECT_-1205969121'), (u'INT_ADD_-1205986325', u'INT_MULT_-1205985605'), (u'INT_ADD_-1205976932', u'INT_XOR_-1205976881'), ('const-22', u'INT_RIGHT_-1205976017'), (u'STORE_-1205974526', u'INDIRECT_-1205971090'), (u'INDIRECT_-1205971874', u'CAST_-1205967573'), (u'INT_RIGHT_-1205990961', u'INT_OR_-1205990960'), (u'INT_OR_-1205986731', u'INT_ADD_-1205986734'), ('const-32', u'INT_MULT_-1205980287'), (u'STORE_-1205974526', u'INDIRECT_-1205970722'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972439'), (u'INT_OR_-1205975650', u'INT_ADD_-1205975653'), (u'STORE_-1205972757', u'INDIRECT_-1205968755'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969613'), (u'STORE_-1205972643', u'INDIRECT_-1205969702'), (u'CALL_-1205974449', u'INDIRECT_-1205969130'), (u'INT_OR_-1205979607', u'INT_ADD_-1205979610'), (u'INT_ADD_-1205974667', u'CAST_-1205968369'), (u'INDIRECT_-1205970009', u'MULTIEQUAL_-1205969918'), (u'INT_NEGATE_-1205984856', u'INT_OR_-1205984413'), (u'INT_OR_-1205988521', u'INT_ADD_-1205987965'), (u'STORE_-1205972655', u'INDIRECT_-1205968700'), (u'CALL_-1205974449', u'CAST_-1205968255'), ('tmp_36540', u'CBRANCH_-1205972969'), (u'INT_XOR_-1205981363', u'INT_ADD_-1205981358'), ('const-18', u'INT_RIGHT_-1205979560'), ('const-1024', u'INT_MULT_-1205991527'), (u'STORE_-1205973438', u'INDIRECT_-1205970422'), (u'INT_ADD_-1205984076', u'INT_MULT_-1205984054'), (u'INT_AND_-1205974049', u'INT_EQUAL_-1205974061'), (u'INT_XOR_-1205977283', u'INT_ADD_-1205977242'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205975789'), (u'COPY_-1205968356', u'MULTIEQUAL_-1205968693'), ('const-22', u'INT_RIGHT_-1205992538'), (u'INT_OR_-1205988521', u'INT_ADD_-1205988001'), (u'COPY_-1205968356', u'MULTIEQUAL_-1205969191'), (u'INT_ADD_-1205992298', u'INT_MULT_-1205992276'), ('const-417', u'STORE_-1205973452'), (u'CALL_-1205972973', u'INDIRECT_-1205969618'), (u'STORE_-1205972561', u'INDIRECT_-1205969438'), (u'INT_ADD_-1205977682', u'INT_ADD_-1205977656'), (u'INT_ADD_-1205974511', u'CAST_-1205968276'), (u'STORE_-1205974159', u'INDIRECT_-1205969780'), ('const-16384', u'INT_MULT_-1205981456'), (u'MULTIEQUAL_-1205969204', u'COPY_-1205969318'), (u'STORE_-1205973431', u'INDIRECT_-1205971337'), (u'INT_OR_-1205976306', u'INT_ADD_-1205976003'), (u'INT_ADD_-1205977432', u'INT_MULT_-1205977370'), ('const-417', u'STORE_-1205972840'), ('const-1', u'INT_ADD_-1205973829'), (u'CALL_-1205973395', u'INDIRECT_-1205968705'), (u'INT_MULT_-1205986229', u'INT_OR_-1205986232'), (u'INDIRECT_-1205969011', u'MULTIEQUAL_-1205968578'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969472'), (u'INT_MULT_-1205990833', u'INT_OR_-1205990836'), (u'INT_ADD_-1205991353', u'INT_MULT_-1205991223'), (u'STORE_-1205972782', u'INDIRECT_-1205969522'), ('const-27', u'INT_RIGHT_-1205977430'), ('const-1024', u'INT_MULT_-1205986229'), (u'INDIRECT_-1205968637', u'MULTIEQUAL_-1205968625'), (u'INDIRECT_-1205968637', u'MULTIEQUAL_-1205968625'), (u'INT_OR_-1205990904', u'INT_ADD_-1205990699'), (u'INT_ADD_-1205984923', u'INT_RIGHT_-1205984292'), (u'INT_XOR_-1205975384', u'INT_ADD_-1205975379'), (u'INDIRECT_-1205969727', u'MULTIEQUAL_-1205969640'), (u'INDIRECT_-1205970080', u'MULTIEQUAL_-1205969381'), (u'INDIRECT_-1205968516', u'MULTIEQUAL_-1205968987'), (u'INT_XOR_-1205978800', u'INT_ADD_-1205978795'), (u'STORE_-1205974682', u'INDIRECT_-1205969803'), ('const-1024', u'INT_MULT_-1205978014'), (u'INT_NOTEQUAL_-1205974009', u'CBRANCH_-1205974007'), (u'INT_ADD_-1205974556', u'STORE_-1205974526'), (u'STORE_-1205973739', u'INDIRECT_-1205969728'), (u'STORE_-1205972637', u'INDIRECT_-1205969329'), (u'INDIRECT_-1205969826', u'MULTIEQUAL_-1205969782'), (u'INT_ADD_-1205979153', u'INT_RIGHT_-1205979119'), (u'INT_ADD_-1205988269', u'INT_RIGHT_-1205988251'), (u'INDIRECT_-1205968808', u'MULTIEQUAL_-1205968823'), ('const-18', u'INT_RIGHT_-1205975729'), (u'INT_ADD_-1205990402', u'INT_ADD_-1205990335'), (u'INDIRECT_-1205975426', u'MULTIEQUAL_-1205975427'), (u'CALL_-1205972582', u'INDIRECT_-1205970745'), ('const-0', u'INT_EQUAL_-1205974061'), (u'STORE_-1205972637', u'INDIRECT_-1205969605'), (u'INDIRECT_-1205971124', u'MULTIEQUAL_-1205971037'), (u'INT_ADD_-1205979913', u'INT_RIGHT_-1205979805'), ('const-16384', u'INT_MULT_-1205979556'), (u'INDIRECT_-1205968974', u'CALL_-1205972582'), (u'INT_XOR_-1205981673', u'INT_ADD_-1205981662'), (u'STORE_-1205972670', u'INDIRECT_-1205970091'), ('const-0', u'SUBPIECE_-1205968393'), (u'STORE_-1205972649', u'INDIRECT_-1205970811'), (u'CAST_-1205968107', u'MULTIEQUAL_-1205972447'), (u'INDIRECT_-1205968757', u'MULTIEQUAL_-1205968731'), (u'STORE_-1205974152', u'INDIRECT_-1205971063'), (u'INT_XOR_-1205981719', u'INT_AND_-1205981692'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205975009'), (u'STORE_-1205974670', u'INDIRECT_-1205971081'), (u'COPY_-1205968356', u'MULTIEQUAL_-1205968998'), (u'INT_XOR_-1205982448', u'INT_ADD_-1205982413'), (u'MULTIEQUAL_-1205970838', u'COPY_-1205970973'), (u'INT_OR_-1205990742', u'INT_XOR_-1205990674'), (u'STORE_-1205972655', u'INDIRECT_-1205971000'), (u'CALL_-1205972994', u'INDIRECT_-1205969083'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970073'), (u'STORE_-1205974670', u'INDIRECT_-1205970437'), (u'COPY_-1205974435', u'MULTIEQUAL_-1205968901'), (u'INT_XOR_-1205976809', u'INT_ADD_-1205976804'), (u'INDIRECT_-1205969766', u'MULTIEQUAL_-1205969695'), (u'INDIRECT_-1205969734', u'MULTIEQUAL_-1205969690'), ('const-1024', u'INT_MULT_-1205979285'), (u'CALL_-1205973026', u'INDIRECT_-1205971908'), (u'INT_ADD_-1205982616', u'INT_MULT_-1205982588'), (u'STORE_-1205972643', u'INDIRECT_-1205970438'), (u'INT_ADD_-1205982108', u'INT_RIGHT_-1205981748'), (u'INT_ADD_-1205979015', u'INT_AND_-1205978983'), (u'INDIRECT_-1205970676', u'MULTIEQUAL_-1205970623'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968202'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205985505'), ('const-20', u'INT_RIGHT_-1205976115'), (u'INDIRECT_-1205969130', u'MULTIEQUAL_-1205968489'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987610'), (u'CALL_-1205972510', u'INDIRECT_-1205968686'), (u'INT_OR_-1205987622', u'INT_ADD_-1205987177'), (u'INT_MULT_-1205979009', u'INT_OR_-1205979012'), ('const-10', u'INT_LEFT_-1205993224'), ('const-56', u'INT_NOTEQUAL_-1205974162'), (u'INT_ADD_-1205991459', u'INT_MULT_-1205991437'), (u'INT_ADD_-1205984060', u'INT_MULT_-1205983369'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989184'), (u'STORE_-1205973555', u'INDIRECT_-1205971298'), (u'CALL_-1205973319', u'INDIRECT_-1205969857'), (u'STORE_-1205972649', u'INDIRECT_-1205969063'), (u'INT_OR_-1205990904', u'INT_ADD_-1205990627'), (u'INT_ADD_-1205984222', u'INT_RIGHT_-1205983315'), (u'INDIRECT_-1205969277', u'MULTIEQUAL_-1205969227'), (u'INT_MULT_-1205975055', u'INT_OR_-1205975058'), (u'CALL_-1205972994', u'INDIRECT_-1205968899'), (u'INT_MULT_-1205986319', u'INT_OR_-1205986322'), (u'MULTIEQUAL_-1205969756', u'COPY_-1205969870'), (u'INT_ADD_-1205992778', u'INT_RIGHT_-1205992760'), (u'INT_RIGHT_-1205984220', u'INT_OR_-1205984219'), ('const-32', u'INT_MULT_-1205992364'), (u'INT_NEGATE_-1205986483', u'INT_OR_-1205986057'), (u'INDIRECT_-1205969100', u'MULTIEQUAL_-1205969013'), (u'CALL_-1205973395', u'INDIRECT_-1205968960'), (u'MULTIEQUAL_-1205967781', u'COPY_-1205967715'), ('const-2048', u'INT_MULT_-1205976029'), (u'INT_ADD_-1205976185', u'INT_RIGHT_-1205975235'), (u'INT_OR_-1205992129', u'INT_ADD_-1205990611'), (u'STORE_-1205972724', u'INDIRECT_-1205970329'), (u'INT_RIGHT_-1205975517', u'INT_OR_-1205975516'), ('const-22', u'INT_RIGHT_-1205981878'), (u'INT_RIGHT_-1205976894', u'INT_OR_-1205976893'), (u'INT_MULT_-1205979875', u'INT_OR_-1205979878'), (u'INT_ADD_-1205975731', u'INT_RIGHT_-1205975605'), (u'INDIRECT_-1205970410', u'MULTIEQUAL_-1205970339'), ('const-1024', u'INT_MULT_-1205979636'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205984796'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968336'), ('const-22', u'INT_RIGHT_-1205975329'), (u'LOAD_-1205974338', u'INT_MULT_-1205974227'), (u'INT_OR_-1205975672', u'INT_ADD_-1205975497'), (u'STORE_-1205973763', u'INDIRECT_-1205970105'), (u'CALL_-1205973395', u'INDIRECT_-1205968909'), (u'STORE_-1205972789', u'INDIRECT_-1205970897'), (u'INT_MULT_-1205991709', u'INT_OR_-1205991712'), ('tmp_34459', u'CBRANCH_-1205974307'), (u'INT_ADD_-1205983355', u'INT_RIGHT_-1205983337'), (u'INT_ADD_-1205991731', u'INT_MULT_-1205991677'), (u'INT_ADD_-1205990448', u'INT_ADD_-1205990382'), (u'INDIRECT_-1205970040', u'MULTIEQUAL_-1205969990'), (u'INT_MULT_-1205977370', u'INT_OR_-1205977373'), (u'CALL_-1205973026', u'INDIRECT_-1205971032'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205971639'), (u'INDIRECT_-1205970206', u'MULTIEQUAL_-1205970156'), (u'INT_RIGHT_-1205983337', u'INT_OR_-1205983336'), ('const-20', u'INT_RIGHT_-1205978290'), (u'STORE_-1205974538', u'INDIRECT_-1205970824'), (u'INDIRECT_-1205970410', u'MULTIEQUAL_-1205969873'), ('const-2048', u'INT_MULT_-1205974941'), (u'INT_MULT_-1205990452', u'INT_OR_-1205990455'), (u'STORE_-1205972552', u'INDIRECT_-1205971181'), (u'INT_OR_-1205981323', u'INT_ADD_-1205981326'), (u'STORE_-1205972662', u'INDIRECT_-1205969533'), (u'INT_ADD_-1205987757', u'INT_ADD_-1205987679'), (u'INT_ADD_-1205986341', u'INT_MULT_-1205986319'), (u'INT_OR_-1205979517', u'INT_ADD_-1205978103'), (u'INT_RIGHT_-1205986808', u'INT_OR_-1205986807'), (u'INT_NEGATE_-1205993060', u'INT_OR_-1205992853'), ('const-21', u'INT_RIGHT_-1205979805'), ('const-104', u'INT_ADD_-1205993258'), (u'INT_XOR_-1205979178', u'INT_ADD_-1205979163'), (u'INDIRECT_-1205968736', u'COPY_-1205968792'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205982473'), ('const-417', u'LOAD_-1205992251'), (u'STORE_-1205974159', u'INDIRECT_-1205969596'), (u'INDIRECT_-1205971023', u'MULTIEQUAL_-1205970991'), (u'STORE_-1205974682', u'INDIRECT_-1205970723'), ('const-18', u'PTRADD_-1205967995'), (u'INT_ADD_-1205982796', u'INT_RIGHT_-1205982778'), ('const-8192', u'INT_MULT_-1205987561'), (u'INT_ADD_-1205993134', u'INT_ADD_-1205993106'), (u'INDIRECT_-1205970226', u'MULTIEQUAL_-1205969966'), (u'INT_XOR_-1205987970', u'INT_AND_-1205987895'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205970984'), (u'STORE_-1205972655', u'INDIRECT_-1205970908'), (u'INT_ADD_-1205990659', u'INT_RIGHT_-1205990609'), (u'STORE_-1205973417', u'INDIRECT_-1205970499'), (u'INT_RIGHT_-1205979608', u'INT_OR_-1205979607'), ('const-84', u'INT_ADD_-1205992235'), (u'INT_MULT_-1205975747', u'INT_OR_-1205975750'), (u'INT_OR_-1205982933', u'INT_ADD_-1205982936'), ('const-1024', u'INT_MULT_-1205981011'), (u'INT_ADD_-1205982423', u'INT_MULT_-1205982358'), (u'INDIRECT_-1205969198', u'MULTIEQUAL_-1205968879'), (u'COPY_-1205972898', u'MULTIEQUAL_-1205972061'), (u'INT_ADD_-1205985657', u'INT_ADD_-1205985647'), (u'INT_RIGHT_-1205991441', u'INT_OR_-1205991440'), (u'INT_ADD_-1205976185', u'INT_XOR_-1205976092'), (u'INT_RIGHT_-1205990609', u'INT_OR_-1205990608'), (u'CALL_-1205972973', u'INDIRECT_-1205971090'), (u'INT_MULT_-1205984734', u'INT_OR_-1205984737'), (u'STORE_-1205972608', u'INDIRECT_-1205970195'), (u'INT_ADD_-1205989096', u'INT_ADD_-1205989018'), (u'INT_OR_-1205988759', u'INT_ADD_-1205988179'), (u'INT_OR_-1205989934', u'INT_ADD_-1205989550'), (u'STORE_-1205974538', u'INDIRECT_-1205971100'), (u'MULTIEQUAL_-1205968165', u'MULTIEQUAL_-1205970028'), (u'STORE_-1205972571', u'INDIRECT_-1205970956'), (u'INT_MULT_-1205976669', u'INT_OR_-1205976672'), (u'STORE_-1205974538', u'INDIRECT_-1205969720'), (u'INDIRECT_-1205978341', u'MULTIEQUAL_-1205978267'), (u'INT_ADD_-1205992964', u'INT_OR_-1205992853'), (u'INT_ADD_-1205991417', u'INT_ADD_-1205991381'), (u'STORE_-1205972729', u'INDIRECT_-1205970213'), (u'INDIRECT_-1205968637', u'MULTIEQUAL_-1205968619'), (u'INT_ADD_-1205975633', u'INT_ADD_-1205975597'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970764'), (u'INDIRECT_-1205970169', u'MULTIEQUAL_-1205970163'), (u'INT_ADD_-1205981546', u'INT_ADD_-1205981510'), (u'STORE_-1205972649', u'INDIRECT_-1205970351'), (u'INDIRECT_-1205968669', u'MULTIEQUAL_-1205969140'), (u'INT_ADD_-1205979663', u'INT_RIGHT_-1205979560'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971472'), (u'INT_ADD_-1205977154', u'INT_MULT_-1205977122'), (u'INDIRECT_-1205968910', u'MULTIEQUAL_-1205968925'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205975633'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967665'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205977979'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205989096'), (u'STORE_-1205974159', u'INDIRECT_-1205970884'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980657'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205989529'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205973909'), (u'INT_XOR_-1205990475', u'INT_XOR_-1205990433'), (u'INT_RIGHT_-1205990197', u'INT_OR_-1205990196'), ('const-1024', u'INT_MULT_-1205974688'), ('const-1024', u'INT_MULT_-1205992462'), (u'INT_NOTEQUAL_-1205972668', u'CBRANCH_-1205972659'), (u'INT_MULT_-1205991223', u'INT_OR_-1205991226'), (u'STORE_-1205972561', u'INDIRECT_-1205969990'), (u'INDIRECT_-1205968688', u'MULTIEQUAL_-1205968670'), (u'INT_ADD_-1205989715', u'INT_ADD_-1205989652'), ('const-1', u'PTRADD_-1205973703'), (u'INDIRECT_-1205969164', u'MULTIEQUAL_-1205969038'), (u'INT_OR_-1205980189', u'INT_ADD_-1205980192'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989529'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968287'), (u'STORE_-1205974682', u'INDIRECT_-1205969619'), ('const-25', u'INT_RIGHT_-1205987101'), (u'INDIRECT_-1205971000', u'MULTIEQUAL_-1205970284'), (u'COPY_-1205968404', u'LOAD_-1205973260'), (u'LOAD_-1205974338', u'INT_NOTEQUAL_-1205972668'), (u'CALL_-1205972973', u'INDIRECT_-1205968416'), (u'STORE_-1205974159', u'INDIRECT_-1205970240'), ('tmp_55388', u'MULTIEQUAL_-1205976335'), ('const-22', u'INT_RIGHT_-1205974692'), (u'STORE_-1205973859', u'INDIRECT_-1205970509'), (u'CALL_-1205972973', u'INDIRECT_-1205968620'), (u'STORE_-1205973576', u'INDIRECT_-1205969379'), (u'INT_AND_-1205980104', u'INT_XOR_-1205980085'), (u'INT_RIGHT_-1205980535', u'INT_OR_-1205980534'), (u'STORE_-1205974526', u'INDIRECT_-1205970906'), (u'INT_ADD_-1205991119', u'INT_RIGHT_-1205990983'), (u'INT_ADD_-1205985443', u'INT_OR_-1205985283'), (u'INDIRECT_-1205976869', u'MULTIEQUAL_-1205976795'), (u'INT_OR_-1205992867', u'INT_ADD_-1205992870'), (u'STORE_-1205972768', u'INDIRECT_-1205970328'), (u'INDIRECT_-1205969985', u'MULTIEQUAL_-1205969979'), (u'INT_ADD_-1205975847', u'INT_MULT_-1205975803'), (u'STORE_-1205974159', u'INDIRECT_-1205971344'), (u'STORE_-1205974544', u'INDIRECT_-1205969541'), (u'PTRADD_-1205973567', u'STORE_-1205973627'), (u'INT_ADD_-1205984096', u'INT_ADD_-1205984076'), (u'INDIRECT_-1205971393', u'MULTIEQUAL_-1205971343'), (u'INT_OR_-1205974944', u'INT_ADD_-1205974947'), ('tmp_35654', u'CBRANCH_-1205973688'), (u'INT_ADD_-1205986325', u'INT_NEGATE_-1205985957'), (u'CALL_-1205972582', u'INDIRECT_-1205967628'), (u'INT_OR_-1205981877', u'INT_AND_-1205981844'), (u'INT_RIGHT_-1205979391', u'INT_OR_-1205979390'), ('const-22', u'INT_RIGHT_-1205977909'), (u'CALL_-1205972510', u'INDIRECT_-1205968499'), (u'STORE_-1205972666', u'INDIRECT_-1205969296'), (u'INDIRECT_-1205971238', u'MULTIEQUAL_-1205970701'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969411'), (u'STORE_-1205972655', u'INDIRECT_-1205970632'), (u'STORE_-1205974682', u'INDIRECT_-1205970263'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969384'), (u'INT_ADD_-1205974969', u'INT_RIGHT_-1205974945'), (u'STORE_-1205974670', u'INDIRECT_-1205969977'), ('const-16384', u'INT_MULT_-1205984362'), (u'INT_OR_-1205980226', u'INT_XOR_-1205980177'), (u'INT_AND_-1205988678', u'INT_XOR_-1205988627'), (u'INT_OR_-1205982245', u'INT_XOR_-1205982197'), (u'INDIRECT_-1205969198', u'MULTIEQUAL_-1205968557'), (u'COPY_-1205968326', u'MULTIEQUAL_-1205968591'), (u'INT_NEGATE_-1205984198', u'INT_OR_-1205983815'), (u'INT_ADD_-1205982018', u'INT_ADD_-1205981998'), (u'INT_OR_-1205976286', u'INT_XOR_-1205976242'), (u'INT_ADD_-1205976804', u'INT_RIGHT_-1205976786'), (u'INDIRECT_-1205969246', u'MULTIEQUAL_-1205969153'), (u'INT_OR_-1205992759', u'INT_ADD_-1205992350'), (u'INT_EQUAL_-1205974349', u'CAST_-1205968213'), ('const-1', u'PTRADD_-1205968286'), ('const-10', u'INT_LEFT_-1205991696'), (u'INT_OR_-1205992265', u'INT_XOR_-1205992247'), (u'INT_OR_-1205980163', u'INT_AND_-1205980104'), (u'INDIRECT_-1205969164', u'MULTIEQUAL_-1205968845'), (u'STORE_-1205972789', u'INDIRECT_-1205969333'), (u'INT_MULT_-1205982118', u'INT_OR_-1205982121'), (u'INDIRECT_-1205968825', u'MULTIEQUAL_-1205968799'), ('const-1024', u'INT_MULT_-1205983311'), (u'STORE_-1205974526', u'INDIRECT_-1205970078'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205991245'), (u'INDIRECT_-1205969531', u'MULTIEQUAL_-1205968159'), (u'CALL_-1205973026', u'INDIRECT_-1205968484'), ('const-417', u'LOAD_-1205973565'), (u'INT_OR_-1205990608', u'INT_ADD_-1205990611'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205979073'), ('const-1024', u'INT_MULT_-1205990241'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969687'), (u'INT_OR_-1205981579', u'INT_ADD_-1205981226'), ('const-1024', u'INT_MULT_-1205981288'), (u'INT_AND_-1205982206', u'INT_XOR_-1205982151'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987970'), (u'INT_ADD_-1205984704', u'INT_MULT_-1205983890'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968070'), (u'INDIRECT_-1205969986', u'COPY_-1205970043'), (u'STORE_-1205974152', u'INDIRECT_-1205970879'), (u'INT_ADD_-1205990335', u'INT_MULT_-1205990307'), (u'INT_ADD_-1205989875', u'INT_ADD_-1205989839'), (u'INT_OR_-1205987148', u'INT_ADD_-1205986770'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969512'), (u'INT_ADD_-1205974207', u'INT_LESS_-1205974111'), (u'INT_ADD_-1205990003', u'INT_MULT_-1205989807'), ('const-112', u'INT_ADD_-1205993121'), (u'STORE_-1205974129', u'INDIRECT_-1205971146'), (u'CALL_-1205972510', u'INDIRECT_-1205968635'), (u'INT_OR_-1205986322', u'INT_ADD_-1205986325'), ('const-17', u'INT_RIGHT_-1205985202'), (u'STORE_-1205973445', u'INDIRECT_-1205970887'), ('const-22', u'INT_RIGHT_-1205991563'), (u'INT_ADD_-1205988852', u'INT_ADD_-1205988674'), (u'INT_ADD_-1205984796', u'INT_ADD_-1205984786'), (u'STORE_-1205974682', u'INDIRECT_-1205970539'), (u'INT_XOR_-1205991756', u'INT_ADD_-1205991731'), (u'STORE_-1205973452', u'INDIRECT_-1205970524'), (u'INT_ADD_-1205989416', u'INT_MULT_-1205989394'), (u'INDIRECT_-1205970594', u'MULTIEQUAL_-1205970334'), (u'CALL_-1205974449', u'INDIRECT_-1205969011'), ('const-22', u'INT_RIGHT_-1205985308'), (u'STORE_-1205974161', u'INDIRECT_-1205971713'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970055'), (u'INDIRECT_-1205969940', u'MULTIEQUAL_-1205969887'), (u'INT_ADD_-1205976217', u'INT_ADD_-1205976159'), (u'STORE_-1205973739', u'INDIRECT_-1205970372'), (u'STORE_-1205974676', u'INDIRECT_-1205971086'), (u'STORE_-1205973627', u'INDIRECT_-1205969960'), (u'INT_XOR_-1205988284', u'INT_ADD_-1205988269'), ('const-10', u'INT_ADD_-1205967921'), (u'INDIRECT_-1205970377', u'MULTIEQUAL_-1205970286'), (u'STORE_-1205974664', u'INDIRECT_-1205971168'), (u'STORE_-1205972608', u'INDIRECT_-1205970287'), ('const-128', u'INT_MULT_-1205992204'), (u'INT_ADD_-1205977510', u'INT_ADD_-1205977500'), (u'INT_OR_-1205986807', u'INT_ADD_-1205986361'), (u'INT_ADD_-1205991683', u'INT_XOR_-1205991628'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205988043'), (u'STORE_-1205974544', u'INDIRECT_-1205971289'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971343'), (u'INT_ADD_-1205992226', u'INT_MULT_-1205992204'), (u'STORE_-1205972637', u'INDIRECT_-1205970249'), (u'STORE_-1205974526', u'INDIRECT_-1205971826'), (u'STORE_-1205973604', u'INDIRECT_-1205970595'), (u'INT_AND_-1205990163', u'INT_XOR_-1205990144'), (u'INDIRECT_-1205978157', u'INT_ADD_-1205982354'), (u'INT_XOR_-1205976608', u'INT_ADD_-1205976597'), (u'INDIRECT_-1205969802', u'COPY_-1205969859'), (u'INT_ADD_-1205978155', u'INT_ADD_-1205978113'), ('const-64', u'INT_MULT_-1205975413'), (u'INT_MULT_-1205977853', u'INT_OR_-1205977856'), (u'INT_OR_-1205982476', u'INT_XOR_-1205982448'), (u'INDIRECT_-1205969008', u'MULTIEQUAL_-1205968921'), (u'INDIRECT_-1205969083', u'MULTIEQUAL_-1205968996'), (u'COPY_-1205968240', u'MULTIEQUAL_-1205972474'), (u'MULTIEQUAL_-1205968970', u'MULTIEQUAL_-1205968777'), (u'STORE_-1205972530', u'INDIRECT_-1205970988'), (u'INT_OR_-1205988457', u'INT_ADD_-1205988111'), (u'STORE_-1205972768', u'INDIRECT_-1205969408'), (u'INT_OR_-1205985736', u'INT_XOR_-1205985596'), (u'INT_OR_-1205993071', u'INT_ADD_-1205992664'), (u'CALL_-1205974449', u'INDIRECT_-1205968943'), (u'INDIRECT_-1205968994', u'MULTIEQUAL_-1205968868'), ('const-25', u'INT_RIGHT_-1205985340'), (u'STORE_-1205972649', u'INDIRECT_-1205970627'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205987599'), (u'INT_OR_-1205976769', u'INT_NEGATE_-1205976758'), (u'CALL_-1205972973', u'INDIRECT_-1205969802'), ('const-1024', u'INT_MULT_-1205976766'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970064'), (u'INDIRECT_-1205970778', u'MULTIEQUAL_-1205970518'), ('const-1024', u'INT_MULT_-1205980160'), (u'CALL_-1205974449', u'INDIRECT_-1205969028'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970856'), (u'STORE_-1205973438', u'INDIRECT_-1205969134'), (u'STORE_-1205974532', u'INDIRECT_-1205971371'), (u'STORE_-1205974532', u'INDIRECT_-1205969715'), (u'SUBPIECE_-1205968394', u'PIECE_-1205968390'), (u'INDIRECT_-1205971090', u'COPY_-1205971147'), (u'STORE_-1205974550', u'INDIRECT_-1205970466'), (u'STORE_-1205973431', u'INDIRECT_-1205970049'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968967'), (u'INT_OR_-1205990196', u'INT_ADD_-1205990199'), (u'STORE_-1205973763', u'INDIRECT_-1205971301'), (u'INT_XOR_-1205988935', u'INT_ADD_-1205988910'), (u'STORE_-1205973634', u'INDIRECT_-1205969229'), (u'INT_AND_-1205979723', u'INT_XOR_-1205979684'), (u'COPY_-1205968338', u'MULTIEQUAL_-1205969140'), ('const-1024', u'INT_MULT_-1205985563'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969816'), (u'INT_MULT_-1205978757', u'INT_OR_-1205978760'), (u'INT_ADD_-1205974979', u'INT_RIGHT_-1205974909'), (u'INT_XOR_-1205977896', u'INT_AND_-1205977869'), (u'INT_RIGHT_-1205985719', u'INT_OR_-1205985718'), (u'STORE_-1205973787', u'INDIRECT_-1205969654'), ('const-417', u'LOAD_-1205973362'), (u'INT_ADD_-1205982332', u'INT_OR_-1205982231'), (u'STORE_-1205972768', u'INDIRECT_-1205969500'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971058'), (u'INT_ADD_-1205975653', u'INT_XOR_-1205975560'), (u'INT_ADD_-1205991663', u'INT_ADD_-1205991597'), (u'PTRADD_-1205973727', u'MULTIEQUAL_-1205972483'), (u'INT_AND_-1205988980', u'INT_XOR_-1205988925'), (u'STORE_-1205973445', u'INDIRECT_-1205970151'), (u'STORE_-1205973555', u'INDIRECT_-1205970010'), (u'STORE_-1205973438', u'INDIRECT_-1205969962'), (u'CALL_-1205973026', u'INDIRECT_-1205968297'), (u'CALL_-1205973319', u'INDIRECT_-1205968893'), (u'INDIRECT_-1205970648', u'MULTIEQUAL_-1205970598'), (u'INDIRECT_-1205970042', u'MULTIEQUAL_-1205969971'), (u'INT_ADD_-1205984652', u'INT_MULT_-1205984022'), (u'STORE_-1205973452', u'INDIRECT_-1205970800'), (u'STORE_-1205972724', u'INDIRECT_-1205970237'), ('const-1024', u'INT_MULT_-1205980953'), (u'INT_ADD_-1205973709', u'MULTIEQUAL_-1205968184'), (u'INDIRECT_-1205971586', u'MULTIEQUAL_-1205971536'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205976347'), (u'INT_RIGHT_-1205976842', u'INT_OR_-1205976841'), ('tmp_55339', u'MULTIEQUAL_-1205978543'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976922'), ('const-16', u'INT_RIGHT_-1205968029'), (u'STORE_-1205974682', u'INDIRECT_-1205970447'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968406'), (u'CALL_-1205973319', u'INDIRECT_-1205968621'), ('const-22', u'INT_RIGHT_-1205984492'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969932'), (u'INT_RIGHT_-1205988760', u'INT_OR_-1205988759'), (u'INDIRECT_-1205970908', u'MULTIEQUAL_-1205970209'), ('const-26', u'INT_RIGHT_-1205975417'), (u'INDIRECT_-1205971146', u'MULTIEQUAL_-1205970609'), ('const-0', u'INT_NOTEQUAL_-1205972867'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986795'), (u'INT_MULT_-1205980160', u'INT_OR_-1205980163'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968302'), (u'INT_OR_-1205981877', u'INT_ADD_-1205981546'), (u'INT_ADD_-1205974523', u'CAST_-1205968286'), (u'INT_RIGHT_-1205988522', u'INT_OR_-1205988521'), (u'MULTIEQUAL_-1205969072', u'MULTIEQUAL_-1205968879'), (u'INT_RIGHT_-1205984650', u'INT_OR_-1205984649'), (u'CALL_-1205972510', u'INDIRECT_-1205970863'), (u'INT_NOTEQUAL_-1205972867', u'CBRANCH_-1205972851'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968576'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205986074'), (u'INT_ADD_-1205990139', u'INT_MULT_-1205990117'), (u'INDIRECT_-1205970626', u'MULTIEQUAL_-1205970533'), (u'INDIRECT_-1205970220', u'MULTIEQUAL_-1205970194'), (u'INT_RIGHT_-1205982592', u'INT_OR_-1205982591'), (u'INT_ADD_-1205977770', u'INT_XOR_-1205977667'), (u'INT_ADD_-1205988001', u'INT_XOR_-1205987736'), (u'INT_ADD_-1205987177', u'INT_ADD_-1205987135'), (u'INT_ADD_-1205979562', u'INT_MULT_-1205979025'), (u'INT_MULT_-1205985833', u'INT_OR_-1205985836'), (u'INT_ADD_-1205975909', u'INT_MULT_-1205975881'), (u'STORE_-1205972729', u'INDIRECT_-1205969937'), (u'INT_ADD_-1205992870', u'INT_OR_-1205992735'), (u'INT_OR_-1205975932', u'INT_ADD_-1205975731'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969200'), (u'SUBPIECE_-1205968394', u'CAST_-1205967864'), (u'STORE_-1205972643', u'INDIRECT_-1205969242'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205986074'), (u'STORE_-1205972768', u'INDIRECT_-1205970604'), (u'INDIRECT_-1205970776', u'MULTIEQUAL_-1205970726'), (u'INT_ADD_-1205978795', u'INT_MULT_-1205978757'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971334'), (u'STORE_-1205972643', u'INDIRECT_-1205970806'), (u'INT_ADD_-1205980245', u'INT_ADD_-1205980219'), (u'INT_ADD_-1205990382', u'INT_RIGHT_-1205990359'), (u'CAST_-1205968354', u'STORE_-1205974664'), (u'INT_ADD_-1205992964', u'INT_MULT_-1205992932'), ('const-417', u'STORE_-1205972561'), (u'INDIRECT_-1205970287', u'MULTIEQUAL_-1205970255'), (u'MULTIEQUAL_-1205979433', u'INT_ADD_-1205993288'), (u'INT_MULT_-1205991777', u'INT_OR_-1205991780'), (u'INDIRECT_-1205969148', u'MULTIEQUAL_-1205969137'), (u'INDIRECT_-1205968828', u'COPY_-1205968884'), (u'INT_ADD_-1205978113', u'INT_RIGHT_-1205978085'), (u'STORE_-1205974161', u'INDIRECT_-1205970425'), (u'CALL_-1205972510', u'INDIRECT_-1205968703'), (u'INT_OR_-1205990525', u'INT_ADD_-1205990273'), (u'INT_RIGHT_-1205982934', u'INT_OR_-1205982933'), (u'CALL_-1205972510', u'INDIRECT_-1205970035'), (u'INT_RIGHT_-1205984894', u'INT_OR_-1205984893'), (u'INT_MULT_-1205983138', u'INT_OR_-1205983141'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981673'), (u'INT_XOR_-1205977844', u'INT_ADD_-1205977792'), (u'INT_ADD_-1205977232', u'INT_ADD_-1205977206'), (u'INT_OR_-1205983314', u'INT_ADD_-1205982658'), ('tmp_55340', u'MULTIEQUAL_-1205975427'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205993028'), (u'STORE_-1205973604', u'INDIRECT_-1205970871'), (u'INT_OR_-1205988707', u'INT_XOR_-1205988617'), (u'INT_ADD_-1205987567', u'INT_NEGATE_-1205986633'), ('tmp_40678', u'COPY_-1205975154'), (u'STORE_-1205972552', u'INDIRECT_-1205969065'), ('const-18', u'INT_RIGHT_-1205985441'), (u'PTRADD_-1205975175', u'COPY_-1205975166'), (u'STORE_-1205973695', u'INDIRECT_-1205969623'), (u'INT_ADD_-1205986127', u'INT_OR_-1205985802'), (u'INT_RIGHT_-1205974909', u'INT_OR_-1205974908'), (u'INDIRECT_-1205969109', u'COPY_-1205967666'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971260'), (u'CALL_-1205973026', u'INDIRECT_-1205968671'), (u'CALL_-1205972582', u'INDIRECT_-1205968561'), (u'INT_OR_-1205989113', u'INT_ADD_-1205988652'), (u'INT_OR_-1205981291', u'INT_ADD_-1205980672'), (u'CALL_-1205972973', u'INDIRECT_-1205968974'), ('const-1024', u'INT_MULT_-1205975055'), (u'MULTIEQUAL_-1205969106', u'MULTIEQUAL_-1205968913'), (u'STORE_-1205974670', u'INDIRECT_-1205970069'), (u'STORE_-1205972608', u'INDIRECT_-1205970931'), (u'INT_OR_-1205992661', u'INT_ADD_-1205992664'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205978380'), (u'INT_RIGHT_-1205987999', u'INT_OR_-1205987998'), (u'INDIRECT_-1205970102', u'MULTIEQUAL_-1205970058'), (u'CALL_-1205993328', u'INDIRECT_-1205975596'), (u'INT_OR_-1205981579', u'INT_AND_-1205981530'), (u'INT_OR_-1205983141', u'INT_ADD_-1205982594'), ('const-22', u'INT_RIGHT_-1205978435'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205988434'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969288'), (u'CALL_-1205973395', u'INDIRECT_-1205969890'), (u'MULTIEQUAL_-1205968906', u'COPY_-1205969041'), (u'MULTIEQUAL_-1205968167', u'MULTIEQUAL_-1205970212'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986795'), (u'INT_MULT_-1205981168', u'INT_OR_-1205981171'), (u'CALL_-1205973395', u'INDIRECT_-1205971270'), (u'INT_ADD_-1205987287', u'INT_MULT_-1205986078'), (u'CALL_-1205972994', u'INDIRECT_-1205971015'), (u'MULTIEQUAL_-1205972214', u'MULTIEQUAL_-1205972024'), (u'STORE_-1205972789', u'INDIRECT_-1205969701'), (u'STORE_-1205972789', u'INDIRECT_-1205970805'), (u'INT_ADD_-1205990382', u'INT_MULT_-1205990355'), (u'INT_OR_-1205979028', u'INT_ADD_-1205978669'), (u'INT_OR_-1205980450', u'INT_ADD_-1205979881'), (u'CAST_-1205967863', u'STORE_-1205973417'), (u'INT_RIGHT_-1205977518', u'INT_OR_-1205977517'), (u'STORE_-1205973555', u'INDIRECT_-1205969458'), (u'STORE_-1205972735', u'INDIRECT_-1205970126'), (u'INDIRECT_-1205970905', u'MULTIEQUAL_-1205970899'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970699'), (u'LOAD_-1205993258', u'INT_RIGHT_-1205993162'), (u'INT_ADD_-1205976367', u'INT_OR_-1205976142'), (u'CALL_-1205972510', u'INDIRECT_-1205970955'), (u'MULTIEQUAL_-1205972492', u'STORE_-1205973787'), ('const-19', u'INT_RIGHT_-1205989903'), ('const-24', u'INT_RIGHT_-1205993088'), ('const-21', u'INT_RIGHT_-1205974719'), (u'STORE_-1205973424', u'INDIRECT_-1205971424'), ('const-22', u'INT_RIGHT_-1205989046'), (u'INT_MULT_-1205980953', u'INT_OR_-1205980956'), (u'STORE_-1205974544', u'INDIRECT_-1205969909'), (u'INT_XOR_-1205991804', u'INT_XOR_-1205991756'), (u'INDIRECT_-1205970470', u'MULTIEQUAL_-1205970426'), (u'INT_OR_-1205982955', u'INT_ADD_-1205982958'), ('const-512', u'INT_MULT_-1205981168'), (u'INT_XOR_-1205979918', u'INT_ADD_-1205979913'), (u'STORE_-1205973438', u'INDIRECT_-1205970882'), (u'CALL_-1205974449', u'MULTIEQUAL_-1205967970'), (u'INT_ADD_-1205977640', u'INT_XOR_-1205977573'), (u'STORE_-1205972713', u'INDIRECT_-1205968820'), (u'INT_OR_-1205986581', u'INT_XOR_-1205986559'), (u'INDIRECT_-1205969113', u'MULTIEQUAL_-1205968987'), (u'STORE_-1205973424', u'INDIRECT_-1205971240'), (u'INT_MULT_-1205977096', u'INT_OR_-1205977099'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970024'), (u'INT_MULT_-1205992126', u'INT_OR_-1205992129'), (u'STORE_-1205973445', u'INDIRECT_-1205971255'), ('const-15', u'CALLOTHER_-1205972575'), ('tmp_55404', u'MULTIEQUAL_-1205977807'), (u'INT_OR_-1205982456', u'INT_XOR_-1205982438'), (u'INT_ADD_-1205992282', u'INT_RIGHT_-1205992162'), (u'INDIRECT_-1205968859', u'MULTIEQUAL_-1205968874'), (u'INT_RIGHT_-1205990311', u'INT_OR_-1205990310'), (u'STORE_-1205973424', u'INDIRECT_-1205969860'), (u'STORE_-1205972530', u'INDIRECT_-1205969424'), (u'INDIRECT_-1205970933', u'MULTIEQUAL_-1205970883'), (u'INT_MULT_-1205980447', u'INT_OR_-1205980450'), (u'STORE_-1205973424', u'INDIRECT_-1205970780'), (u'STORE_-1205972724', u'INDIRECT_-1205969961'), ('tmp_40676', u'MULTIEQUAL_-1205979433'), ('const-256', u'INT_MULT_-1205993084'), (u'INT_OR_-1205978625', u'INT_ADD_-1205978400'), (u'STORE_-1205972643', u'INDIRECT_-1205968782'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968236'), (u'STORE_-1205973410', u'INDIRECT_-1205970126'), (u'STORE_-1205973438', u'INDIRECT_-1205970238'), (u'INT_RIGHT_-1205989062', u'INT_OR_-1205989061'), (u'INT_OR_-1205976166', u'INT_ADD_-1205975887'), (u'STORE_-1205974670', u'INDIRECT_-1205971449'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988445'), (u'INT_ADD_-1205974947', u'INT_XOR_-1205974832'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205988627'), (u'STORE_-1205974161', u'INDIRECT_-1205969597'), ('const-2048', u'INT_MULT_-1205986501'), (u'INT_XOR_-1205990433', u'INT_ADD_-1205990382'), (u'STORE_-1205973431', u'INDIRECT_-1205970325'), (u'INT_ADD_-1205990237', u'INT_MULT_-1205990193'), (u'INT_ADD_-1205984060', u'INT_RIGHT_-1205983373'), (u'INT_ADD_-1205986999', u'INT_MULT_-1205986961'), (u'INT_OR_-1205989207', u'INT_ADD_-1205989210'), (u'CALL_-1205972582', u'INDIRECT_-1205967813'), (u'INDIRECT_-1205971238', u'MULTIEQUAL_-1205970978'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968353'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967648'), (u'CALL_-1205972582', u'INDIRECT_-1205968136'), (u'INT_ADD_-1205976844', u'INT_XOR_-1205976809'), ('const-417', u'STORE_-1205972637'), ('const-417', u'STORE_-1205973576'), (u'INT_ADD_-1205975769', u'INT_RIGHT_-1205975729'), ('const-1', u'PTRADD_-1205973799'), (u'INT_AND_-1205989849', u'INT_XOR_-1205989824'), (u'INT_AND_-1205987541', u'INT_XOR_-1205987516'), ('const-512', u'INT_MULT_-1205978394'), ('tmp_35039', u'CBRANCH_-1205974007'), (u'MULTIEQUAL_-1205968158', u'MULTIEQUAL_-1205969384'), ('tmp_34827', u'CBRANCH_-1205974115'), (u'STORE_-1205973590', u'INDIRECT_-1205969665'), (u'INT_ADD_-1205990313', u'INT_RIGHT_-1205990105'), (u'INT_NEGATE_-1205976748', u'INT_OR_-1205976506'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971159'), (u'PTRADD_-1205968276', u'CALL_-1205973395'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205983745'), ('tmp_55348', u'MULTIEQUAL_-1205975563'), (u'INT_ADD_-1205976185', u'INT_MULT_-1205975231'), (u'INT_XOR_-1205984537', u'INT_ADD_-1205984532'), ('const-17', u'INT_RIGHT_-1205988410'), (u'CALL_-1205972994', u'INDIRECT_-1205969727'), (u'INT_XOR_-1205980970', u'INT_AND_-1205980907'), (u'INT_ADD_-1205976581', u'INT_RIGHT_-1205976307'), ('const-8', u'INT_RIGHT_-1205968024'), (u'STORE_-1205972664', u'INDIRECT_-1205969718'), (u'STORE_-1205973438', u'INDIRECT_-1205970974'), (u'INT_OR_-1205982057', u'INT_ADD_-1205981688'), (u'INT_ADD_-1205989426', u'INT_MULT_-1205989362'), (u'INT_MULT_-1205987619', u'INT_OR_-1205987622'), (u'INT_MULT_-1205978741', u'INT_OR_-1205978744'), (u'STORE_-1205973576', u'INDIRECT_-1205969839'), (u'COPY_-1205975183', u'MULTIEQUAL_-1205972214'), (u'INT_ADD_-1205985443', u'INT_NEGATE_-1205985043'), (u'INDIRECT_-1205969012', u'COPY_-1205969068'), (u'STORE_-1205973431', u'INDIRECT_-1205969773'), ('const-21', u'INT_RIGHT_-1205991961'), (u'STORE_-1205972664', u'INDIRECT_-1205969074'), (u'INDIRECT_-1205971828', u'MULTIEQUAL_-1205971129'), (u'INT_ADD_-1205974582', u'STORE_-1205974538'), (u'INDIRECT_-1205969112', u'MULTIEQUAL_-1205969059'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968253'), (u'INDIRECT_-1205969368', u'MULTIEQUAL_-1205968727'), (u'CALL_-1205972510', u'INDIRECT_-1205968346'), (u'CALL_-1205993328', u'INDIRECT_-1205978157'), (u'INT_ADD_-1205976948', u'INT_MULT_-1205976926'), (u'INDIRECT_-1205971368', u'MULTIEQUAL_-1205970652'), (u'INDIRECT_-1205970128', u'MULTIEQUAL_-1205970102'), (u'MULTIEQUAL_-1205969824', u'CALL_-1205972973'), (u'CALL_-1205972582', u'INDIRECT_-1205969641'), ('const-8192', u'INT_MULT_-1205982118'), (u'INT_ADD_-1205979393', u'INT_AND_-1205979229'), (u'INDIRECT_-1205971828', u'MULTIEQUAL_-1205971112'), ('const-4096', u'INT_MULT_-1205976111'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205989983'), (u'STORE_-1205974616', u'INDIRECT_-1205971411'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968320'), (u'INT_RIGHT_-1205976001', u'INT_OR_-1205976000'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969530'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971500'), (u'INT_ADD_-1205993288', u'MULTIEQUAL_-1205979433'), ('const-1024', u'INT_MULT_-1205990101'), ('const-1024', u'INT_MULT_-1205976013'), (u'INT_OR_-1205977481', u'INT_ADD_-1205977128'), (u'STORE_-1205973634', u'INDIRECT_-1205970885'), (u'CALL_-1205974449', u'INDIRECT_-1205970264'), ('const-27', u'INT_RIGHT_-1205983184'), (u'CALL_-1205972994', u'INDIRECT_-1205969819'), (u'INT_OR_-1205981643', u'INT_ADD_-1205981646'), (u'CALL_-1205972510', u'INDIRECT_-1205968516'), (u'INT_ADD_-1205983533', u'INT_MULT_-1205983511'), ('const-1024', u'INT_MULT_-1205982385'), ('const-32768', u'INT_MULT_-1205988882'), (u'INT_ADD_-1205992422', u'INT_ADD_-1205992412'), (u'INT_ADD_-1205974592', u'PIECE_-1205968390'), (u'INT_ADD_-1205986734', u'INT_RIGHT_-1205986233'), (u'INT_ADD_-1205993090', u'INT_OR_-1205993005'), (u'INT_RIGHT_-1205992868', u'INT_OR_-1205992867'), (u'INT_RIGHT_-1205986705', u'INT_OR_-1205986704'), (u'INT_RIGHT_-1205984058', u'INT_OR_-1205984057'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971196'), (u'INT_RIGHT_-1205985308', u'INT_OR_-1205985307'), (u'INT_OR_-1205989333', u'INT_ADD_-1205988642'), (u'STORE_-1205973811', u'INDIRECT_-1205969847'), (u'CALL_-1205973319', u'INDIRECT_-1205968774'), (u'INDIRECT_-1205970442', u'MULTIEQUAL_-1205970349'), ('const-1024', u'INT_MULT_-1205991709'), (u'COPY_-1205968344', u'MULTIEQUAL_-1205968964'), (u'STORE_-1205973583', u'INDIRECT_-1205969660'), (u'STORE_-1205974152', u'INDIRECT_-1205971247'), (u'INT_OR_-1205993047', u'INT_XOR_-1205993033'), (u'INT_ADD_-1205990559', u'INT_ADD_-1205990518'), (u'CALL_-1205973395', u'INDIRECT_-1205970902'), (u'INT_ADD_-1205991623', u'INT_MULT_-1205991601'), (u'INT_ADD_-1205967942', u'INT_ADD_-1205972826'), (u'INDIRECT_-1205971114', u'MULTIEQUAL_-1205971070'), (u'INT_OR_-1205991890', u'INT_ADD_-1205991491'), (u'INDIRECT_-1205969685', u'MULTIEQUAL_-1205969611'), (u'STORE_-1205972637', u'INDIRECT_-1205970065'), ('const-69', u'INT_ADD_-1205973410'), (u'CALL_-1205972510', u'INDIRECT_-1205968601'), (u'INDIRECT_-1205970686', u'MULTIEQUAL_-1205970149'), (u'INDIRECT_-1205968484', u'MULTIEQUAL_-1205968472'), (u'INDIRECT_-1205968484', u'MULTIEQUAL_-1205968472'), (u'STORE_-1205973417', u'INDIRECT_-1205970315'), (u'INT_OR_-1205985822', u'INT_XOR_-1205985784'), ('const-22', u'INT_RIGHT_-1205978018'), (u'STORE_-1205972670', u'INDIRECT_-1205969355'), (u'CALL_-1205972582', u'INDIRECT_-1205969825'), (u'INT_ADD_-1205976051', u'INT_RIGHT_-1205976001'), (u'STORE_-1205973438', u'INDIRECT_-1205969410'), (u'INT_ADD_-1205976367', u'INT_MULT_-1205976195'), (u'INT_ADD_-1205980100', u'INT_MULT_-1205979984'), (u'CALL_-1205974449', u'INDIRECT_-1205968977'), (u'INT_RIGHT_-1205990343', u'INT_OR_-1205990342'), (u'CALL_-1205973319', u'INDIRECT_-1205970685'), (u'STORE_-1205973739', u'INDIRECT_-1205969636'), (u'INDIRECT_-1205969154', u'MULTIEQUAL_-1205969061'), (u'CALL_-1205972973', u'INDIRECT_-1205969250'), (u'MULTIEQUAL_-1205972249', u'CALL_-1205973319'), (u'STORE_-1205974682', u'INDIRECT_-1205971459'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992716'), (u'INT_OR_-1205987924', u'INT_XOR_-1205987886'), (u'STORE_-1205973424', u'INDIRECT_-1205969308'), (u'INT_ADD_-1205988950', u'INT_ADD_-1205988910'), (u'INT_OR_-1205985566', u'INT_ADD_-1205985031'), (u'STORE_-1205974526', u'INDIRECT_-1205971182'), (u'STORE_-1205973811', u'INDIRECT_-1205969663'), (u'INT_ADD_-1205990081', u'INT_ADD_-1205990061'), (u'STORE_-1205972757', u'INDIRECT_-1205970871'), (u'STORE_-1205974129', u'INDIRECT_-1205971606'), (u'STORE_-1205974544', u'INDIRECT_-1205969725'), ('const-17', u'INT_RIGHT_-1205977518'), (u'SUBPIECE_-1205968394', u'CAST_-1205967756'), (u'INT_RIGHT_-1205981748', u'INT_OR_-1205981747'), (u'INDIRECT_-1205969543', u'MULTIEQUAL_-1205969456'), ('tmp_34352', u'CBRANCH_-1205974371'), (u'INDIRECT_-1205970816', u'MULTIEQUAL_-1205970308'), (u'CALL_-1205972973', u'INDIRECT_-1205969710'), (u'STORE_-1205972655', u'INDIRECT_-1205968976'), (u'STORE_-1205972552', u'INDIRECT_-1205969617'), (u'CALL_-1205974449', u'INDIRECT_-1205968926'), (u'INT_RIGHT_-1205992208', u'INT_OR_-1205992207'), (u'INT_MULT_-1205990241', u'INT_OR_-1205990244'), (u'INT_ADD_-1205978763', u'INT_AND_-1205978673'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968474'), (u'STORE_-1205973859', u'INDIRECT_-1205970417'), ('const-1024', u'INT_MULT_-1205976669'), (u'INT_MULT_-1205985320', u'INT_OR_-1205985323'), (u'STORE_-1205973811', u'INDIRECT_-1205970399'), (u'STORE_-1205974676', u'INDIRECT_-1205971914'), ('const-1024', u'INT_MULT_-1205977096'), (u'INDIRECT_-1205969949', u'MULTIEQUAL_-1205969889'), (u'CAST_-1205975025', u'LOAD_-1205993258'), (u'INT_ADD_-1205977520', u'INT_MULT_-1205977478'), (u'INT_ADD_-1205992484', u'INT_XOR_-1205992427'), (u'CALL_-1205973319', u'INDIRECT_-1205968213'), (u'INDIRECT_-1205971200', u'MULTIEQUAL_-1205971150'), (u'INT_ADD_-1205983176', u'INT_ADD_-1205983166'), (u'INT_ADD_-1205986544', u'INT_RIGHT_-1205986505'), ('const-73020', u'COPY_-1205972980'), (u'STORE_-1205972571', u'INDIRECT_-1205968748'), ('const-22', u'INT_RIGHT_-1205981428'), ('const-64', u'INT_MULT_-1205990693'), ('const-1836072691', u'INT_ADD_-1205985657'), (u'INT_RIGHT_-1205977857', u'INT_OR_-1205977856'), (u'INT_OR_-1205979288', u'INT_ADD_-1205977927'), ('const-1024', u'INT_MULT_-1205977905'), (u'CALL_-1205972973', u'INDIRECT_-1205969066'), (u'LOAD_-1205974338', u'INT_LESS_-1205974299'), (u'INT_XOR_-1205990870', u'INT_XOR_-1205990860'), (u'INDIRECT_-1205977789', u'COPY_-1205975193'), (u'INDIRECT_-1205970408', u'MULTIEQUAL_-1205970358'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205979361'), (u'INT_MULT_-1205976537', u'INT_OR_-1205976540'), (u'INT_RIGHT_-1205975293', u'INT_OR_-1205975292'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969264'), (u'STORE_-1205972664', u'INDIRECT_-1205968706'), (u'STORE_-1205972637', u'INDIRECT_-1205969145'), (u'CAST_-1205968359', u'STORE_-1205974670'), (u'INT_MULT_-1205992828', u'INT_OR_-1205992831'), (u'INT_OR_-1205982823', u'INT_XOR_-1205982801'), (u'STORE_-1205972768', u'INDIRECT_-1205969776'), (u'INT_OR_-1205987924', u'INT_XOR_-1205987814'), (u'INT_ADD_-1205976185', u'INT_OR_-1205975220'), (u'STORE_-1205973576', u'INDIRECT_-1205970483'), (u'STORE_-1205972840', u'INDIRECT_-1205970831'), (u'INT_XOR_-1205987866', u'INT_ADD_-1205987835'), (u'INT_ADD_-1205988546', u'INT_MULT_-1205988406'), (u'INT_ADD_-1205990490', u'INT_XOR_-1205989880'), (u'INT_OR_-1205990982', u'INT_ADD_-1205990771'), (u'STORE_-1205972664', u'INDIRECT_-1205968982'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980725'), (u'STORE_-1205973438', u'INDIRECT_-1205970146'), (u'INDIRECT_-1205971015', u'MULTIEQUAL_-1205970899'), (u'STORE_-1205973634', u'INDIRECT_-1205971253'), (u'CALL_-1205972973', u'INDIRECT_-1205968365'), (u'STORE_-1205974616', u'INDIRECT_-1205971135'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969227'), (u'INT_ADD_-1205991925', u'INT_MULT_-1205991835'), (u'INDIRECT_-1205971219', u'MULTIEQUAL_-1205968178'), (u'INT_ADD_-1205975789', u'INT_ADD_-1205975769'), (u'STORE_-1205973597', u'INDIRECT_-1205969670'), (u'INDIRECT_-1205969488', u'MULTIEQUAL_-1205969438'), (u'MULTIEQUAL_-1205970930', u'COPY_-1205971065'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969954'), (u'CALL_-1205972510', u'INDIRECT_-1205969115'), (u'STORE_-1205973787', u'INDIRECT_-1205969930'), (u'INT_OR_-1205990212', u'INT_ADD_-1205990003'), (u'INDIRECT_-1205969480', u'MULTIEQUAL_-1205969427'), (u'INT_ADD_-1205980636', u'INT_RIGHT_-1205979789'), (u'INDIRECT_-1205970105', u'MULTIEQUAL_-1205970055'), ('const-417', u'STORE_-1205973431'), (u'STORE_-1205972561', u'INDIRECT_-1205969346'), (u'INDIRECT_-1205969522', u'MULTIEQUAL_-1205969427'), (u'INT_RIGHT_-1205975027', u'INT_OR_-1205975026'), (u'CALL_-1205973026', u'INDIRECT_-1205968756'), (u'INDIRECT_-1205970870', u'MULTIEQUAL_-1205970799'), (u'INDIRECT_-1205970379', u'MULTIEQUAL_-1205970347'), (u'LOAD_-1205974338', u'INT_NOTEQUAL_-1205972726'), (u'INT_XOR_-1205979266', u'INT_AND_-1205979197'), (u'INDIRECT_-1205970924', u'MULTIEQUAL_-1205970874'), (u'PTRADD_-1205967612', u'STORE_-1205972713'), ('const-1024', u'INT_MULT_-1205985605'), (u'INT_ADD_-1205977562', u'INT_ADD_-1205977536'), (u'INT_ADD_-1205982124', u'INT_MULT_-1205980614'), (u'INT_OR_-1205980019', u'INT_ADD_-1205979562'), (u'INT_ADD_-1205973396', u'CAST_-1205967857'), ('const-4', u'PTRADD_-1205967995'), (u'INT_OR_-1205986964', u'INT_ADD_-1205986967'), (u'INDIRECT_-1205976317', u'MULTIEQUAL_-1205976243'), (u'INDIRECT_-1205968723', u'MULTIEQUAL_-1205968738'), (u'STORE_-1205972713', u'INDIRECT_-1205970384'), (u'INDIRECT_-1205970583', u'MULTIEQUAL_-1205970533'), (u'STORE_-1205973604', u'INDIRECT_-1205969215'), (u'PTRADD_-1205968024', u'CAST_-1205967881'), (u'STORE_-1205974682', u'INDIRECT_-1205970631'), (u'STORE_-1205973787', u'INDIRECT_-1205970758'), (u'STORE_-1205973634', u'INDIRECT_-1205969505'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968942'), (u'INDIRECT_-1205968519', u'MULTIEQUAL_-1205968534'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205983176'), (u'STORE_-1205973835', u'INDIRECT_-1205970776'), (u'STORE_-1205973534', u'INDIRECT_-1205971289'), (u'INT_ADD_-1205989400', u'INT_RIGHT_-1205988828'), (u'INT_OR_-1205978500', u'INT_ADD_-1205978503'), (u'INT_OR_-1205989333', u'INT_AND_-1205989278'), (u'INDIRECT_-1205970910', u'MULTIEQUAL_-1205970899'), (u'INT_OR_-1205978537', u'INT_ADD_-1205978292'), (u'STORE_-1205972713', u'INDIRECT_-1205968912'), (u'INT_ADD_-1205984876', u'INT_ADD_-1205984720'), (u'INT_ADD_-1205983044', u'INT_ADD_-1205983034'), (u'INDIRECT_-1205969735', u'MULTIEQUAL_-1205969703'), (u'INT_OR_-1205991780', u'INT_ADD_-1205991783'), (u'INDIRECT_-1205970537', u'MULTIEQUAL_-1205970531'), (u'LOAD_-1205993274', u'COPY_-1205968345'), (u'STORE_-1205972840', u'INDIRECT_-1205970003'), (u'CALL_-1205973319', u'INDIRECT_-1205970317'), (u'INT_MULT_-1205984216', u'INT_OR_-1205984219'), (u'STORE_-1205973859', u'INDIRECT_-1205969681'), (u'INT_ADD_-1205987803', u'INT_MULT_-1205987233'), ('const-18', u'INT_RIGHT_-1205991681'), ('const-22', u'INT_RIGHT_-1205988223'), ('const-32768', u'INT_MULT_-1205988406'), ('tmp_55389', u'MULTIEQUAL_-1205976427'), (u'INT_OR_-1205992321', u'INT_ADD_-1205991741'), ('const-22', u'INT_RIGHT_-1205988522'), (u'INT_MULT_-1205990901', u'INT_OR_-1205990904'), (u'INT_OR_-1205992935', u'INT_ADD_-1205992510'), ('const-1', u'PTRADD_-1205973775'), (u'INT_OR_-1205985323', u'INT_XOR_-1205985245'), (u'INT_OR_-1205977591', u'INT_XOR_-1205977573'), ('const-1024', u'INT_MULT_-1205991385'), (u'INT_ADD_-1205986361', u'INT_ADD_-1205986341'), (u'INT_OR_-1205984893', u'INT_XOR_-1205984751'), (u'INDIRECT_-1205971368', u'MULTIEQUAL_-1205970669'), (u'INDIRECT_-1205969857', u'MULTIEQUAL_-1205969797'), (u'INT_RIGHT_-1205986933', u'INT_OR_-1205986932'), (u'PTRADD_-1205967648', u'STORE_-1205972768'), (u'INT_XOR_-1205991026', u'INT_XOR_-1205991016'), (u'STORE_-1205974682', u'INDIRECT_-1205971275'), (u'INDIRECT_-1205971362', u'MULTIEQUAL_-1205971269'), ('const-25', u'INT_RIGHT_-1205986835'), (u'STORE_-1205974159', u'INDIRECT_-1205970792'), (u'INDIRECT_-1205971231', u'MULTIEQUAL_-1205971627'), (u'INT_RIGHT_-1205991305', u'INT_OR_-1205991304'), (u'INT_RIGHT_-1205975651', u'INT_OR_-1205975650'), (u'INT_ADD_-1205988279', u'INT_ADD_-1205988179'), (u'INT_OR_-1205982777', u'INT_ADD_-1205982780'), (u'CALL_-1205973395', u'INDIRECT_-1205970994'), ('const-3', u'INT_NOTEQUAL_-1205973959'), (u'INT_AND_-1205980907', u'INT_XOR_-1205980852'), (u'INT_XOR_-1205984954', u'INT_ADD_-1205984939'), (u'INDIRECT_-1205969654', u'MULTIEQUAL_-1205969604'), (u'INDIRECT_-1205970994', u'MULTIEQUAL_-1205970901'), (u'INT_RIGHT_-1205980451', u'INT_OR_-1205980450'), (u'INT_ADD_-1205992386', u'INT_MULT_-1205992364'), (u'INDIRECT_-1205968842', u'MULTIEQUAL_-1205968857'), (u'CALL_-1205972973', u'INDIRECT_-1205970170'), ('const-1024', u'INT_MULT_-1205992126'), (u'INT_ADD_-1205981174', u'INT_RIGHT_-1205980451'), (u'INT_RIGHT_-1205992776', u'INT_OR_-1205992775'), (u'CALL_-1205973319', u'INDIRECT_-1205968723'), (u'INT_NEGATE_-1205975349', u'INT_OR_-1205975220'), (u'STORE_-1205973583', u'INDIRECT_-1205970396'), ('const-4', u'INT_NOTEQUAL_-1205973934'), (u'INT_ADD_-1205986507', u'INT_NEGATE_-1205986483'), (u'INT_ADD_-1205974661', u'CAST_-1205968364'), (u'INT_OR_-1205982388', u'INT_ADD_-1205982176'), (u'INT_OR_-1205989934', u'INT_XOR_-1205989824'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970726'), (u'INT_MULT_-1205976730', u'INT_OR_-1205976733'), (u'INT_MULT_-1205991575', u'INT_OR_-1205991578'), (u'INT_ADD_-1205978947', u'INT_MULT_-1205978909'), (u'INT_ADD_-1205982594', u'INT_MULT_-1205982054'), (u'INDIRECT_-1205969674', u'MULTIEQUAL_-1205969603'), (u'INDIRECT_-1205969804', u'MULTIEQUAL_-1205969088'), ('const-1859775393', u'INT_ADD_-1205985505'), (u'INT_ADD_-1205981798', u'INT_MULT_-1205981424'), (u'STORE_-1205973634', u'INDIRECT_-1205971437'), (u'INT_ADD_-1205982780', u'INT_NEGATE_-1205982766'), (u'INT_RIGHT_-1205979805', u'INT_OR_-1205979804'), (u'INT_ADD_-1205979371', u'INT_MULT_-1205977905'), (u'INT_OR_-1205982388', u'INT_XOR_-1205981091'), ('const-23', u'INT_RIGHT_-1205976001'), (u'INT_AND_-1205981530', u'INT_XOR_-1205981515'), (u'INT_ADD_-1205980293', u'INT_RIGHT_-1205979837'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968219'), (u'STORE_-1205972571', u'INDIRECT_-1205970588'), (u'CALL_-1205973395', u'INDIRECT_-1205968977'), (u'LOAD_-1205993280', u'INT_ADD_-1205992964'), (u'INT_OR_-1205978397', u'INT_ADD_-1205978400'), (u'LOAD_-1205974338', u'INT_ADD_-1205967879'), (u'PTRADD_-1205967630', u'STORE_-1205972735'), (u'INT_RIGHT_-1205978538', u'INT_OR_-1205978537'), (u'INDIRECT_-1205976685', u'MULTIEQUAL_-1205976611'), (u'INT_XOR_-1205986408', u'INT_AND_-1205986381'), ('const-1859775393', u'INT_ADD_-1205983253'), (u'INDIRECT_-1205970951', u'MULTIEQUAL_-1205970901'), (u'CALL_-1205993328', u'INDIRECT_-1205975579'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989875'), (u'INT_MULT_-1205975929', u'INT_OR_-1205975932'), (u'STORE_-1205974526', u'INDIRECT_-1205970170'), (u'INT_RIGHT_-1205976115', u'INT_OR_-1205976114'), (u'INT_XOR_-1205976378', u'INT_ADD_-1205976357'), (u'INT_MULT_-1205980835', u'INT_OR_-1205980838'), (u'INT_ADD_-1205977500', u'INT_ADD_-1205977458'), (u'INT_ADD_-1205984390', u'INT_RIGHT_-1205984366'), (u'INDIRECT_-1205971521', u'MULTIEQUAL_-1205971472'), (u'INT_OR_-1205990032', u'INT_ADD_-1205989715'), (u'INDIRECT_-1205969041', u'MULTIEQUAL_-1205968967'), (u'INT_ADD_-1205978463', u'INT_ADD_-1205978421'), (u'STORE_-1205973555', u'INDIRECT_-1205969182'), (u'INT_ADD_-1205985769', u'INT_RIGHT_-1205985751'), (u'INT_RIGHT_-1205989811', u'INT_OR_-1205989810'), (u'STORE_-1205973695', u'INDIRECT_-1205969807'), (u'MULTIEQUAL_-1205969388', u'COPY_-1205969502'), (u'INT_OR_-1205991712', u'INT_ADD_-1205989478'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205983253'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205968862'), (u'INT_MULT_-1205977210', u'INT_OR_-1205977213'), (u'INT_ADD_-1205989777', u'INT_RIGHT_-1205989240'), (u'INT_OR_-1205985802', u'INT_XOR_-1205985794'), (u'INT_OR_-1205977908', u'INT_ADD_-1205977640'), (u'INT_XOR_-1205987162', u'INT_ADD_-1205987135'), (u'INT_ADD_-1205977268', u'INT_ADD_-1205977242'), (u'MULTIEQUAL_-1205972448', u'INT_ADD_-1205973781'), (u'INT_OR_-1205990310', u'INT_ADD_-1205990313'), ('const-1024', u'INT_MULT_-1205985320'), ('const-64', u'INT_MULT_-1205975647'), (u'INDIRECT_-1205970592', u'MULTIEQUAL_-1205970542'), (u'MULTIEQUAL_-1205968919', u'MULTIEQUAL_-1205968726'), (u'INDIRECT_-1205975545', u'MULTIEQUAL_-1205975546'), (u'STORE_-1205973604', u'INDIRECT_-1205969583'), ('const-2400959708', u'INT_ADD_-1205982018'), ('const-25', u'INT_RIGHT_-1205981057'), (u'CALL_-1205974449', u'INDIRECT_-1205969712'), (u'STORE_-1205973661', u'INDIRECT_-1205971446'), (u'INDIRECT_-1205971238', u'MULTIEQUAL_-1205971167'), (u'INT_ADD_-1205987287', u'INT_RIGHT_-1205986082'), (u'INDIRECT_-1205969656', u'COPY_-1205969712'), (u'STORE_-1205972735', u'INDIRECT_-1205969022'), ('const-17', u'INT_RIGHT_-1205992564'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205987072'), (u'INT_RIGHT_-1205979640', u'INT_OR_-1205979639'), (u'PTRADD_-1205973523', u'STORE_-1205973583'), (u'STORE_-1205974532', u'INDIRECT_-1205971095'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205976273'), (u'STORE_-1205973627', u'INDIRECT_-1205969868'), (u'STORE_-1205973576', u'INDIRECT_-1205970575'), (u'STORE_-1205973534', u'INDIRECT_-1205970829'), (u'INT_OR_-1205980290', u'INT_ADD_-1205980293'), (u'INT_ADD_-1205984516', u'INT_NEGATE_-1205984208'), (u'INDIRECT_-1205971644', u'MULTIEQUAL_-1205971136'), (u'STORE_-1205972666', u'INDIRECT_-1205970584'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205978586'), (u'INT_OR_-1205985174', u'INT_XOR_-1205985126'), (u'INT_ADD_-1205975125', u'INT_RIGHT_-1205975027'), (u'STORE_-1205973417', u'INDIRECT_-1205970683'), ('const-0', u'STORE_-1205973634'), (u'INT_ADD_-1205976533', u'INT_ADD_-1205976477'), ('const-512', u'INT_MULT_-1205978600'), (u'INT_ADD_-1205983533', u'INT_RIGHT_-1205983515'), (u'INT_OR_-1205987404', u'INT_ADD_-1205987103'), (u'INDIRECT_-1205969225', u'MULTIEQUAL_-1205969151'), (u'INT_ADD_-1205985031', u'INT_RIGHT_-1205984492'), (u'INDIRECT_-1205968686', u'MULTIEQUAL_-1205969157'), (u'INDIRECT_-1205969288', u'COPY_-1205969344'), (u'INT_ADD_-1205984684', u'INT_RIGHT_-1205984650'), (u'STORE_-1205972768', u'INDIRECT_-1205970972'), ('const-64', u'INT_MULT_-1205974747'), (u'INDIRECT_-1205968535', u'MULTIEQUAL_-1205968517'), (u'INT_ADD_-1205981978', u'INT_RIGHT_-1205981950'), (u'INT_OR_-1205975360', u'INT_ADD_-1205975363'), (u'INT_OR_-1205983616', u'INT_XOR_-1205983558'), (u'CAST_-1205968213', u'BOOL_NEGATE_-1205968434'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205987970'), (u'INDIRECT_-1205971698', u'MULTIEQUAL_-1205971627'), ('const-56', u'STORE_-1205973555'), ('const-1', u'PTRADD_-1205973727'), (u'INT_OR_-1205979788', u'INT_AND_-1205979723'), ('const-2048', u'INT_MULT_-1205979801'), (u'INDIRECT_-1205970187', u'MULTIEQUAL_-1205970071'), (u'INT_MULT_-1205988856', u'INT_OR_-1205988859'), (u'STORE_-1205973739', u'INDIRECT_-1205970740'), (u'INT_MULT_-1205979833', u'INT_OR_-1205979836'), (u'STORE_-1205972649', u'INDIRECT_-1205970075'), ('const-0', u'SUBPIECE_-1205973379'), (u'INT_ADD_-1205986127', u'INT_MULT_-1205985304'), (u'INT_XOR_-1205976482', u'INT_ADD_-1205976435'), (u'INDIRECT_-1205971421', u'MULTIEQUAL_-1205971320'), (u'INT_MULT_-1205989677', u'INT_OR_-1205989680'), (u'INT_ADD_-1205981394', u'INT_ADD_-1205981358'), (u'INT_OR_-1205991604', u'INT_ADD_-1205991607'), ('const-64', u'INT_MULT_-1205979115'), (u'INT_ADD_-1205987319', u'INT_RIGHT_-1205987253'), (u'STORE_-1205974159', u'INDIRECT_-1205969872'), (u'STORE_-1205973534', u'INDIRECT_-1205970921'), (u'INT_ADD_-1205992906', u'INT_ADD_-1205992896'), ('const-17', u'INT_RIGHT_-1205989062'), (u'STORE_-1205973410', u'INDIRECT_-1205970034'), (u'INDIRECT_-1205968931', u'MULTIEQUAL_-1205969327'), ('const-1024', u'INT_MULT_-1205982748'), (u'INDIRECT_-1205970023', u'MULTIEQUAL_-1205968165'), (u'INT_MULT_-1205976361', u'INT_OR_-1205976364'), (u'INT_MULT_-1205979785', u'INT_OR_-1205979788'), (u'INT_MULT_-1205986961', u'INT_OR_-1205986964'), (u'INT_ADD_-1205992210', u'INT_XOR_-1205992000'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205990428'), (u'STORE_-1205973634', u'INDIRECT_-1205971069'), (u'INT_ADD_-1205983034', u'INT_ADD_-1205982994'), ('const-1024', u'INT_MULT_-1205979514'), (u'MULTIEQUAL_-1205967763', u'SUBPIECE_-1205971995'), (u'INT_OR_-1205980617', u'INT_XOR_-1205980548'), (u'INT_ADD_-1205991119', u'INT_XOR_-1205991094'), (u'CAST_-1205967711', u'STORE_-1205972666'), (u'INT_XOR_-1205991094', u'INT_ADD_-1205991079'), (u'STORE_-1205974159', u'INDIRECT_-1205969688'), (u'INT_ADD_-1205980495', u'INT_MULT_-1205980016'), (u'INT_ADD_-1205988862', u'INT_XOR_-1205988617'), (u'INT_OR_-1205977481', u'INT_ADD_-1205977092'), (u'INT_OR_-1205986504', u'INT_ADD_-1205986507'), (u'INT_OR_-1205988222', u'INT_AND_-1205988183'), (u'STORE_-1205972768', u'INDIRECT_-1205969040'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968270'), (u'INDIRECT_-1205970831', u'MULTIEQUAL_-1205970744'), (u'INT_ADD_-1205981174', u'INT_MULT_-1205980447'), ('const-64', u'INT_LESS_-1205974299'), (u'INT_MULT_-1205991677', u'INT_OR_-1205991680'), (u'INT_AND_-1205978819', u'INT_XOR_-1205978800'), ('const-25', u'INT_RIGHT_-1205988574'), (u'INT_MULT_-1205983597', u'INT_OR_-1205983600'), (u'INT_ADD_-1205976325', u'INT_XOR_-1205976102'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970432'), (u'MULTIEQUAL_-1205969826', u'COPY_-1205969961'), (u'INT_RIGHT_-1205979337', u'INT_OR_-1205979336'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205971002'), (u'INDIRECT_-1205969798', u'MULTIEQUAL_-1205969705'), (u'INDIRECT_-1205970771', u'MULTIEQUAL_-1205971167'), (u'INDIRECT_-1205969869', u'MULTIEQUAL_-1205969795'), (u'INT_OR_-1205993161', u'INT_NEGATE_-1205993140'), (u'INT_AND_-1205989492', u'INT_XOR_-1205989453'), (u'INT_MULT_-1205980287', u'INT_OR_-1205980290'), (u'INT_RIGHT_-1205989775', u'INT_OR_-1205989774'), (u'INT_OR_-1205977621', u'INT_ADD_-1205977216'), (u'INT_ADD_-1205990699', u'INT_RIGHT_-1205990245'), ('const-1548603684', u'INT_ADD_-1205988960'), (u'CALL_-1205993328', u'INDIRECT_-1205977513'), (u'INT_XOR_-1205978345', u'INT_ADD_-1205978334'), ('tmp_36302', u'CBRANCH_-1205973285'), ('const-417', u'STORE_-1205973597'), (u'STORE_-1205972840', u'INDIRECT_-1205970923'), ('const-128', u'INT_MULT_-1205991191'), (u'INT_OR_-1205975932', u'INT_XOR_-1205975872'), (u'INT_ADD_-1205979163', u'INT_RIGHT_-1205979013'), (u'INDIRECT_-1205978525', u'MULTIEQUAL_-1205978451'), ('const-16384', u'INT_MULT_-1205990605'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205976665'), ('const-17', u'INT_RIGHT_-1205975163'), (u'STORE_-1205974664', u'INDIRECT_-1205971720'), (u'INDIRECT_-1205971053', u'MULTIEQUAL_-1205970952'), ('const-1836072691', u'INT_ADD_-1205985897'), (u'STORE_-1205973763', u'INDIRECT_-1205970749'), ('const-1024', u'INT_MULT_-1205990029'), (u'LOAD_-1205993280', u'COPY_-1205968344'), (u'INT_ADD_-1205993106', u'INT_MULT_-1205993084'), (u'STORE_-1205974616', u'INDIRECT_-1205969939'), (u'INT_ADD_-1205981174', u'INT_XOR_-1205980970'), ('const-512', u'INT_MULT_-1205989544'), (u'INDIRECT_-1205968723', u'MULTIEQUAL_-1205968697'), (u'CAST_-1205968107', u'MULTIEQUAL_-1205972503'), (u'INT_ADD_-1205975653', u'INT_XOR_-1205975618'), (u'INDIRECT_-1205969273', u'MULTIEQUAL_-1205969182'), (u'CAST_-1205968107', u'COPY_-1205968225'), (u'INDIRECT_-1205969710', u'COPY_-1205969767'), (u'STORE_-1205973695', u'INDIRECT_-1205971095'), (u'INT_ADD_-1205993090', u'INT_RIGHT_-1205993072'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970580'), ('const-2048', u'INT_MULT_-1205991035'), ('const-380', u'CALL_-1205972994'), (u'INT_RIGHT_-1205983617', u'INT_OR_-1205983616'), (u'INT_OR_-1205982361', u'INT_ADD_-1205982364'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988747'), (u'INDIRECT_-1205971227', u'MULTIEQUAL_-1205971177'), (u'INDIRECT_-1205969766', u'MULTIEQUAL_-1205969506'), ('const-1024', u'INT_MULT_-1205975601'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977510'), (u'STORE_-1205973739', u'INDIRECT_-1205969268'), (u'STORE_-1205972713', u'INDIRECT_-1205970200'), (u'INT_ADD_-1205976467', u'INT_RIGHT_-1205976365'), (u'INT_ADD_-1205981860', u'INT_ADD_-1205981840'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970120'), (u'INT_ADD_-1205990123', u'INT_RIGHT_-1205989935'), (u'COPY_-1205968350', u'MULTIEQUAL_-1205968867'), (u'STORE_-1205972552', u'INDIRECT_-1205970077'), (u'INDIRECT_-1205970655', u'MULTIEQUAL_-1205970623'), (u'STORE_-1205972729', u'INDIRECT_-1205969109'), (u'INDIRECT_-1205969804', u'MULTIEQUAL_-1205969296'), (u'INT_ADD_-1205990003', u'INT_AND_-1205989967'), (u'INT_OR_-1205976198', u'INT_ADD_-1205974911'), (u'PIECE_-1205968390', u'COPY_-1205968312'), (u'INT_OR_-1205977337', u'INT_ADD_-1205977340'), (u'INDIRECT_-1205971366', u'COPY_-1205971423'), (u'INT_RIGHT_-1205975605', u'INT_OR_-1205975604'), (u'STORE_-1205972666', u'INDIRECT_-1205970952'), (u'INT_ADD_-1205980867', u'INT_RIGHT_-1205980839'), ('const-1024', u'INT_MULT_-1205980223'), (u'INT_ADD_-1205975077', u'INT_RIGHT_-1205974692'), (u'STORE_-1205973555', u'INDIRECT_-1205969826'), (u'INT_ADD_-1205977046', u'INT_OR_-1205976987'), ('const-17', u'INT_RIGHT_-1205977857'), (u'INT_NEGATE_-1205985967', u'INT_OR_-1205985822'), (u'INT_RIGHT_-1205978626', u'INT_OR_-1205978625'), (u'CALL_-1205972994', u'INDIRECT_-1205971891'), (u'INDIRECT_-1205970575', u'MULTIEQUAL_-1205968171'), (u'CALL_-1205973395', u'INDIRECT_-1205970718'), (u'INDIRECT_-1205970664', u'MULTIEQUAL_-1205970577'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205985167'), (u'INT_ADD_-1205990797', u'INT_XOR_-1205990674'), (u'STORE_-1205974532', u'INDIRECT_-1205969807'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968321'), (u'INT_ADD_-1205991197', u'INT_RIGHT_-1205991061'), (u'CALL_-1205972973', u'INDIRECT_-1205969526'), (u'INT_ADD_-1205976435', u'INT_RIGHT_-1205976417'), (u'INT_RIGHT_-1205983315', u'INT_OR_-1205983314'), (u'CALL_-1205973395', u'INDIRECT_-1205969338'), (u'INT_NEGATE_-1205992594', u'INT_OR_-1205992441'), (u'STORE_-1205972608', u'INDIRECT_-1205969735'), (u'INT_ADD_-1205985204', u'INT_RIGHT_-1205984586'), (u'STORE_-1205972840', u'INDIRECT_-1205969911'), (u'CAST_-1205968364', u'STORE_-1205974676'), (u'INDIRECT_-1205971187', u'MULTIEQUAL_-1205968177'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969448'), (u'CALL_-1205972582', u'INDIRECT_-1205968391'), ('const-32', u'INT_RIGHT_-1205967749'), ('const-23', u'INT_RIGHT_-1205978604'), (u'INT_OR_-1205978744', u'INT_XOR_-1205978716'), (u'INT_NOTEQUAL_-1205972909', u'CBRANCH_-1205972907'), (u'INT_ADD_-1205984076', u'INT_RIGHT_-1205984058'), (u'STORE_-1205973555', u'INDIRECT_-1205969366'), (u'INT_ADD_-1205977640', u'INT_MULT_-1205977618'), (u'INDIRECT_-1205971117', u'MULTIEQUAL_-1205971067'), ('const-0', u'RETURN_-1205973189'), (u'STORE_-1205973417', u'INDIRECT_-1205970775'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970349'), (u'CALL_-1205993328', u'INDIRECT_-1205975443'), (u'INDIRECT_-1205970194', u'MULTIEQUAL_-1205970150'), (u'INT_ADD_-1205988310', u'INT_XOR_-1205987886'), (u'STORE_-1205973859', u'INDIRECT_-1205971245'), (u'STORE_-1205972608', u'INDIRECT_-1205969275'), (u'INT_ADD_-1205990123', u'INT_AND_-1205990065'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205981279'), (u'INT_XOR_-1205975150', u'INT_XOR_-1205975130'), (u'INDIRECT_-1205970848', u'MULTIEQUAL_-1205970761'), (u'INDIRECT_-1205977789', u'MULTIEQUAL_-1205977715'), (u'INT_RIGHT_-1205976183', u'INT_OR_-1205976182'), (u'INT_RIGHT_-1205992662', u'INT_OR_-1205992661'), (u'INT_XOR_-1205989890', u'INT_AND_-1205989849'), (u'CALL_-1205973319', u'INDIRECT_-1205969949'), (u'INT_MULT_-1205985563', u'INT_OR_-1205985566'), ('const-1024', u'INT_MULT_-1205976537'), (u'INT_ADD_-1205989905', u'INT_XOR_-1205989762'), ('const-22', u'INT_RIGHT_-1205974554'), (u'INT_EQUAL_-1205974552', u'CBRANCH_-1205974502'), (u'STORE_-1205972655', u'INDIRECT_-1205969988'), (u'CAST_-1205974550', u'LOAD_-1205992081'), (u'INT_ADD_-1205977891', u'INT_RIGHT_-1205977857'), (u'STORE_-1205974664', u'INDIRECT_-1205969788'), (u'INDIRECT_-1205970877', u'MULTIEQUAL_-1205970828'), (u'STORE_-1205972664', u'INDIRECT_-1205968890'), ('const-22', u'INT_RIGHT_-1205991891'), (u'CAST_-1205967922', u'STORE_-1205973534'), (u'STORE_-1205974544', u'INDIRECT_-1205969633'), ('const-0', u'COPY_-1205972874'), (u'INT_NEGATE_-1205984322', u'INT_OR_-1205984115'), ('const-22', u'INT_RIGHT_-1205986808'), (u'INT_ADD_-1205974517', u'CAST_-1205968281'), (u'STORE_-1205972782', u'INDIRECT_-1205970810'), (u'CALL_-1205993328', u'INDIRECT_-1205978341'), (u'INT_MULT_-1205989236', u'INT_OR_-1205989239'), (u'INT_ADD_-1205974781', u'INT_MULT_-1205974715'), (u'INDIRECT_-1205969391', u'MULTIEQUAL_-1205969787'), (u'STORE_-1205972735', u'INDIRECT_-1205969574'), (u'STORE_-1205972637', u'INDIRECT_-1205969513'), ('const-22', u'INT_RIGHT_-1205987853'), (u'INT_ADD_-1205975909', u'INT_RIGHT_-1205975885'), (u'INT_ADD_-1205991079', u'INT_MULT_-1205991035'), (u'INT_ADD_-1205985779', u'INT_RIGHT_-1205985719'), (u'INDIRECT_-1205970565', u'MULTIEQUAL_-1205970515'), (u'INDIRECT_-1205970593', u'MULTIEQUAL_-1205970533'), (u'INT_MULT_-1205992318', u'INT_OR_-1205992321'), (u'INT_ADD_-1205983004', u'INT_RIGHT_-1205982934'), (u'SUBPIECE_-1205968394', u'CALL_-1205972510'), ('const-8192', u'INT_MULT_-1205977040'), (u'STORE_-1205972664', u'INDIRECT_-1205970730'), (u'INT_RIGHT_-1205977322', u'INT_OR_-1205977321'), (u'CALL_-1205972973', u'INDIRECT_-1205968552'), (u'MULTIEQUAL_-1205969664', u'COPY_-1205969778'), (u'STORE_-1205972637', u'INDIRECT_-1205970433'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969724'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969632'), ('const-22', u'INT_RIGHT_-1205992322'), (u'INDIRECT_-1205971126', u'MULTIEQUAL_-1205971076'), (u'INT_ADD_-1205979807', u'INT_MULT_-1205979333'), (u'INT_OR_-1205977177', u'INT_ADD_-1205976824'), (u'STORE_-1205973438', u'INDIRECT_-1205969226'), ('const-22', u'INT_RIGHT_-1205976734'), (u'SUBPIECE_-1205968394', u'CAST_-1205967778'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205967778'), (u'STORE_-1205973763', u'INDIRECT_-1205971577'), (u'MULTIEQUAL_-1205969296', u'COPY_-1205969410'), (u'INT_ADD_-1205981510', u'INT_RIGHT_-1205981460'), (u'SUBPIECE_-1205973372', u'STORE_-1205973431'), (u'INDIRECT_-1205978157', u'INT_ADD_-1205982473'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969871'), (u'INT_ADD_-1205988346', u'INT_ADD_-1205988326'), ('const-22', u'INT_RIGHT_-1205982824'), (u'MULTIEQUAL_-1205970032', u'COPY_-1205970146'), (u'INT_OR_-1205984992', u'INT_ADD_-1205984704'), (u'STORE_-1205974670', u'INDIRECT_-1205971173'), (u'CALL_-1205972582', u'INDIRECT_-1205968238'), (u'CALL_-1205974449', u'INDIRECT_-1205969528'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971380'), (u'INDIRECT_-1205971044', u'MULTIEQUAL_-1205970991'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205987557'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205988960'), (u'INT_MULT_-1205980798', u'INT_OR_-1205980801'), (u'STORE_-1205973583', u'INDIRECT_-1205969936'), (u'INDIRECT_-1205970572', u'MULTIEQUAL_-1205970485'), ('const-2053994217', u'INT_ADD_-1205980245'), (u'INT_OR_-1205978744', u'INT_XOR_-1205978654'), (u'CALL_-1205974449', u'INDIRECT_-1205971552'), (u'INDIRECT_-1205969949', u'MULTIEQUAL_-1205969848'), (u'INT_ADD_-1205980652', u'INT_MULT_-1205980630'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205970966'), ('const-23', u'PTRADD_-1205967612'), (u'STORE_-1205972552', u'INDIRECT_-1205970905'), (u'STORE_-1205972664', u'INDIRECT_-1205969166'), (u'INT_OR_-1205992759', u'INT_NEGATE_-1205992748'), (u'INDIRECT_-1205975664', u'MULTIEQUAL_-1205975665'), (u'CALL_-1205972973', u'INDIRECT_-1205968722'), (u'STORE_-1205972713', u'INDIRECT_-1205970660'), (u'STORE_-1205974152', u'INDIRECT_-1205969775'), (u'STORE_-1205973627', u'INDIRECT_-1205970328'), (u'INT_XOR_-1205983360', u'INT_ADD_-1205983355'), (u'STORE_-1205972662', u'INDIRECT_-1205968889'), (u'INT_XOR_-1205974852', u'INT_XOR_-1205974832'), (u'INDIRECT_-1205970556', u'MULTIEQUAL_-1205970506'), ('const-22', u'INT_RIGHT_-1205978626'), (u'STORE_-1205973811', u'INDIRECT_-1205969571'), (u'INT_MULT_-1205980489', u'INT_OR_-1205980492'), (u'INT_OR_-1205986300', u'INT_ADD_-1205986007'), (u'INT_ADD_-1205979361', u'INT_ADD_-1205979245'), (u'INT_ADD_-1205977128', u'INT_OR_-1205977003'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971361'), (u'INDIRECT_-1205968584', u'MULTIEQUAL_-1205969055'), (u'STORE_-1205974616', u'INDIRECT_-1205970951'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973530'), (u'INT_RIGHT_-1205990697', u'INT_OR_-1205990696'), (u'STORE_-1205974664', u'INDIRECT_-1205969696'), (u'INDIRECT_-1205975919', u'MULTIEQUAL_-1205975920'), (u'STORE_-1205974161', u'INDIRECT_-1205971069'), (u'INT_ADD_-1205976922', u'INT_ADD_-1205976912'), ('const-1', u'PTRADD_-1205973530'), (u'INT_ADD_-1205978763', u'INT_MULT_-1205978534'), (u'PTRADD_-1205973516', u'STORE_-1205973576'), (u'INT_XOR_-1205990144', u'INT_ADD_-1205990139'), (u'INT_XOR_-1205976222', u'INT_ADD_-1205976133'), (u'INT_OR_-1205992615', u'INT_ADD_-1205992282'), (u'INT_OR_-1205976322', u'INT_ADD_-1205976325'), (u'INT_RIGHT_-1205983373', u'INT_OR_-1205983372'), ('const-25', u'INT_RIGHT_-1205987765'), (u'INDIRECT_-1205968892', u'MULTIEQUAL_-1205968874'), ('const-1', u'PTRADD_-1205968075'), (u'STORE_-1205972724', u'INDIRECT_-1205970421'), (u'STORE_-1205972571', u'INDIRECT_-1205970404'), (u'CAST_-1205967755', u'STORE_-1205972782'), (u'COPY_-1205975183', u'MULTIEQUAL_-1205972007'), (u'INDIRECT_-1205971178', u'MULTIEQUAL_-1205971085'), (u'INT_ADD_-1205979414', u'INT_MULT_-1205979365'), (u'COPY_-1205968338', u'MULTIEQUAL_-1205968947'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205975399'), ('const-417', u'STORE_-1205973634'), (u'STORE_-1205972552', u'INDIRECT_-1205969433'), (u'INT_ADD_-1205987557', u'INT_ADD_-1205987491'), (u'INT_OR_-1205977621', u'INT_ADD_-1205977206'), (u'STORE_-1205973583', u'INDIRECT_-1205970028'), (u'STORE_-1205974152', u'INDIRECT_-1205970235'), ('const-256', u'INT_MULT_-1205989677'), (u'INT_MULT_-1205988406', u'INT_OR_-1205988409'), ('const-4', u'PTRADD_-1205967778'), (u'INT_OR_-1205975884', u'INT_ADD_-1205975887'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981719'), (u'INT_OR_-1205992481', u'INT_ADD_-1205992484'), (u'INDIRECT_-1205970266', u'MULTIEQUAL_-1205970255'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968590'), (u'STORE_-1205973661', u'INDIRECT_-1205971262'), (u'INT_MULT_-1205979285', u'INT_OR_-1205979288'), (u'INT_OR_-1205975822', u'INT_XOR_-1205975794'), ('const-256', u'INT_MULT_-1205984646'), (u'STORE_-1205974532', u'INDIRECT_-1205971187'), (u'STORE_-1205974159', u'INDIRECT_-1205969412'), (u'INT_OR_-1205992961', u'INT_ADD_-1205992964'), ('tmp_55351', u'MULTIEQUAL_-1205975614'), ('const-32768', u'INT_MULT_-1205977853'), (u'INDIRECT_-1205968365', u'MULTIEQUAL_-1205968353'), (u'INDIRECT_-1205968365', u'MULTIEQUAL_-1205968353'), (u'INT_ADD_-1205981226', u'INT_ADD_-1205981206'), (u'STORE_-1205973739', u'INDIRECT_-1205970924'), (u'INDIRECT_-1205970832', u'MULTIEQUAL_-1205970782'), (u'STORE_-1205973583', u'INDIRECT_-1205969752'), (u'INT_ADD_-1205987019', u'INT_ADD_-1205986999'), (u'INDIRECT_-1205976961', u'MULTIEQUAL_-1205976887'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973574'), (u'INT_OR_-1205990032', u'INT_XOR_-1205989988'), (u'INDIRECT_-1205970778', u'MULTIEQUAL_-1205970707'), (u'INDIRECT_-1205969164', u'MULTIEQUAL_-1205968523'), (u'INT_ADD_-1205989226', u'INT_MULT_-1205989204'), (u'INT_OR_-1205988827', u'INT_ADD_-1205988412'), (u'INDIRECT_-1205969079', u'MULTIEQUAL_-1205968646'), (u'CALL_-1205972582', u'INDIRECT_-1205968187'), ('const-1548603684', u'INT_ADD_-1205986371'), (u'INT_ADD_-1205979562', u'INT_RIGHT_-1205979029'), (u'INT_ADD_-1205978421', u'INT_MULT_-1205978394'), (u'INT_ADD_-1205967921', u'INT_ADD_-1205972768'), (u'SUBPIECE_-1205968394', u'STORE_-1205974161'), (u'INDIRECT_-1205968991', u'MULTIEQUAL_-1205968904'), (u'INDIRECT_-1205970399', u'MULTIEQUAL_-1205970349'), (u'INDIRECT_-1205968808', u'MULTIEQUAL_-1205968782'), (u'STORE_-1205974538', u'INDIRECT_-1205971652'), (u'MULTIEQUAL_-1205972447', u'STORE_-1205973661'), (u'CAST_-1205967892', u'STORE_-1205973452'), ('const-27', u'INT_RIGHT_-1205991351'), (u'INT_MULT_-1205990957', u'INT_OR_-1205990960'), (u'INT_ADD_-1205989550', u'INT_MULT_-1205989110'), (u'CALL_-1205973395', u'INDIRECT_-1205968943'), (u'CALL_-1205973026', u'INDIRECT_-1205971124'), (u'INT_NEGATE_-1205991545', u'INT_OR_-1205990411'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205978031'), (u'STORE_-1205973763', u'INDIRECT_-1205970013'), (u'INT_OR_-1205983893', u'INT_XOR_-1205983807'), (u'INT_ADD_-1205984939', u'INT_RIGHT_-1205984921'), ('const-22', u'INT_RIGHT_-1205991305'), (u'INT_OR_-1205987982', u'INT_ADD_-1205987339'), (u'INT_ADD_-1205979964', u'INT_ADD_-1205979954'), (u'INT_OR_-1205976769', u'INT_ADD_-1205975051'), (u'STORE_-1205973583', u'INDIRECT_-1205970488'), (u'STORE_-1205974161', u'INDIRECT_-1205971529'), (u'MULTIEQUAL_-1205972474', u'PTRADD_-1205973679'), (u'MULTIEQUAL_-1205969274', u'COPY_-1205969409'), (u'INT_ADD_-1205982594', u'INT_RIGHT_-1205982058'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205990179'), (u'STORE_-1205972768', u'INDIRECT_-1205970512'), (u'INDIRECT_-1205970141', u'MULTIEQUAL_-1205970092'), (u'INT_ADD_-1205987135', u'INT_MULT_-1205987097'), (u'STORE_-1205972729', u'INDIRECT_-1205969753'), (u'INT_ADD_-1205990627', u'INT_ADD_-1205990589'), (u'STORE_-1205973627', u'INDIRECT_-1205969224'), (u'INDIRECT_-1205969792', u'MULTIEQUAL_-1205969781'), (u'INT_XOR_-1205980151', u'INT_AND_-1205980104'), (u'LOAD_-1205992173', u'INT_ADD_-1205991663'), (u'INDIRECT_-1205969563', u'MULTIEQUAL_-1205968160'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971278'), (u'INDIRECT_-1205968774', u'MULTIEQUAL_-1205968748'), (u'LOAD_-1205974405', u'MULTIEQUAL_-1205969225'), (u'INDIRECT_-1205969894', u'COPY_-1205969951'), (u'INDIRECT_-1205970264', u'MULTIEQUAL_-1205969548'), (u'INT_OR_-1205984737', u'INT_ADD_-1205984096'), (u'INT_MULT_-1205980223', u'INT_OR_-1205980226'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977232'), (u'STORE_-1205972757', u'INDIRECT_-1205968847'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969963'), (u'COPY_-1205968098', u'MULTIEQUAL_-1205968182'), (u'INT_OR_-1205976733', u'INT_ADD_-1205975217'), (u'INDIRECT_-1205968433', u'MULTIEQUAL_-1205968421'), (u'INDIRECT_-1205968433', u'MULTIEQUAL_-1205968421'), (u'INT_XOR_-1205989143', u'INT_ADD_-1205989106'), (u'INDIRECT_-1205970317', u'MULTIEQUAL_-1205970216'), (u'INT_OR_-1205989239', u'INT_ADD_-1205988862'), (u'INT_ADD_-1205976283', u'INT_ADD_-1205976237'), (u'INT_XOR_-1205977984', u'INT_AND_-1205977963'), (u'INT_MULT_-1205982385', u'INT_OR_-1205982388'), (u'INDIRECT_-1205969988', u'MULTIEQUAL_-1205969480'), (u'CALL_-1205973319', u'INDIRECT_-1205971329'), (u'INT_MULT_-1205990484', u'INT_OR_-1205990487'), (u'INT_OR_-1205986807', u'INT_AND_-1205986774'), (u'STORE_-1205973787', u'INDIRECT_-1205969286'), (u'CALL_-1205974449', u'SUBPIECE_-1205968394'), (u'INT_RIGHT_-1205991467', u'INT_OR_-1205991466'), (u'INT_RIGHT_-1205968029', u'SUBPIECE_-1205973372'), (u'INT_ADD_-1205981326', u'INT_RIGHT_-1205980770'), (u'STORE_-1205974676', u'INDIRECT_-1205970810'), ('const-22', u'INT_RIGHT_-1205990033'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989096'), (u'INT_OR_-1205991060', u'INT_ADD_-1205990855'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205978123'), ('const-4096', u'INT_MULT_-1205983495'), (u'STORE_-1205972735', u'INDIRECT_-1205969206'), (u'INT_ADD_-1205979015', u'INT_XOR_-1205978868'), (u'INT_RIGHT_-1205983774', u'INT_OR_-1205983773'), (u'CALL_-1205972994', u'INDIRECT_-1205969635'), (u'INT_ADD_-1205977154', u'INT_RIGHT_-1205977126'), (u'STORE_-1205974676', u'INDIRECT_-1205970902'), (u'INT_RIGHT_-1205993072', u'INT_OR_-1205993071'), (u'INT_ADD_-1205975575', u'INT_XOR_-1205975482'), (u'CAST_-1205968107', u'MULTIEQUAL_-1205972483'), (u'INDIRECT_-1205968550', u'MULTIEQUAL_-1205969021'), (u'INT_ADD_-1205982594', u'INT_OR_-1205982456'), ('const-1024', u'INT_MULT_-1205975669'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969770'), (u'INDIRECT_-1205971146', u'MULTIEQUAL_-1205970886'), (u'STORE_-1205973438', u'INDIRECT_-1205969778'), (u'INDIRECT_-1205970353', u'MULTIEQUAL_-1205970347'), (u'INT_ADD_-1205981814', u'INT_MULT_-1205981792'), (u'INT_OR_-1205986004', u'INT_ADD_-1205986007'), (u'INT_ADD_-1205986647', u'INT_RIGHT_-1205986608'), (u'STORE_-1205973410', u'INDIRECT_-1205970954'), (u'INT_MULT_-1205987797', u'INT_OR_-1205987800'), ('const-9', u'INT_ADD_-1205967942'), (u'INT_ADD_-1205989274', u'INT_ADD_-1205989226'), (u'INT_MULT_-1205975569', u'INT_OR_-1205975572'), (u'CALL_-1205974449', u'INDIRECT_-1205969147'), (u'INDIRECT_-1205969667', u'MULTIEQUAL_-1205970063'), ('const-27', u'INT_RIGHT_-1205982362'), (u'INT_MULT_-1205975023', u'INT_OR_-1205975026'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205973959'), (u'INT_OR_-1205990032', u'INT_XOR_-1205989948'), (u'STORE_-1205972735', u'INDIRECT_-1205970862'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205980579'), (u'INT_ADD_-1205986007', u'INT_OR_-1205985822'), (u'STORE_-1205974538', u'INDIRECT_-1205969904'), (u'STORE_-1205972768', u'INDIRECT_-1205969684'), ('const-128', u'INT_MULT_-1205988856'), (u'INDIRECT_-1205970540', u'MULTIEQUAL_-1205969824'), (u'INT_XOR_-1205981865', u'INT_AND_-1205981844'), (u'STORE_-1205974682', u'INDIRECT_-1205971735'), ('const-26', u'INT_RIGHT_-1205990697'), (u'INT_ADD_-1205989368', u'INT_MULT_-1205988756'), (u'INT_OR_-1205990212', u'INT_XOR_-1205990144'), (u'INT_RIGHT_-1205979879', u'INT_OR_-1205979878'), (u'CALL_-1205973319', u'INDIRECT_-1205970409'), (u'STORE_-1205973597', u'INDIRECT_-1205970866'), ('const-0', u'SUBPIECE_-1205973386'), (u'STORE_-1205973859', u'INDIRECT_-1205969405'), (u'INDIRECT_-1205968703', u'MULTIEQUAL_-1205969174'), (u'INT_OR_-1205980450', u'INT_AND_-1205980369'), (u'INT_OR_-1205988885', u'INT_ADD_-1205988888'), (u'INT_OR_-1205981056', u'INT_ADD_-1205981059'), (u'INT_ADD_-1205988642', u'INT_ADD_-1205988602'), (u'INT_OR_-1205978017', u'INT_ADD_-1205976581'), (u'STORE_-1205972729', u'INDIRECT_-1205970765'), (u'MULTIEQUAL_-1205971136', u'COPY_-1205971250'), ('const-2', u'INT_NOTEQUAL_-1205973984'), (u'INT_XOR_-1205977667', u'INT_ADD_-1205977656'), (u'STORE_-1205972713', u'INDIRECT_-1205969464'), (u'STORE_-1205972643', u'INDIRECT_-1205969334'), (u'INT_ADD_-1205983776', u'INT_RIGHT_-1205983142'), (u'STORE_-1205973627', u'INDIRECT_-1205969500'), (u'INT_ADD_-1205974947', u'INT_ADD_-1205974572'), (u'STORE_-1205972840', u'INDIRECT_-1205969819'), (u'INT_OR_-1205977751', u'INT_ADD_-1205977392'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205993154'), (u'INT_OR_-1205984025', u'INT_XOR_-1205983939'), ('const-27', u'PTRADD_-1205967575'), (u'INT_ADD_-1205991597', u'INT_RIGHT_-1205991579'), ('const-57', u'INT_LESS_-1205974111'), ('const-1', u'PTRADD_-1205968320'), (u'INDIRECT_-1205970942', u'MULTIEQUAL_-1205970892'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970874'), (u'INT_ADD_-1205988269', u'INT_MULT_-1205988247'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989983'), ('const-1024', u'INT_MULT_-1205980447'), (u'INDIRECT_-1205968414', u'MULTIEQUAL_-1205968885'), ('const-104', u'INT_ADD_-1205974517'), (u'INDIRECT_-1205970911', u'MULTIEQUAL_-1205968174'), (u'INT_ADD_-1205986341', u'INT_RIGHT_-1205986323'), (u'STORE_-1205972649', u'INDIRECT_-1205969891'), (u'INT_ADD_-1205985379', u'INT_ADD_-1205985369'), (u'INT_OR_-1205986704', u'INT_AND_-1205986671'), (u'INT_ADD_-1205976367', u'INT_RIGHT_-1205976199'), (u'STORE_-1205973590', u'INDIRECT_-1205970401'), (u'INDIRECT_-1205970172', u'MULTIEQUAL_-1205969664'), ('const-256', u'INT_MULT_-1205977122'), (u'INT_OR_-1205978063', u'INT_AND_-1205978040'), ('const-0', u'INT_EQUAL_-1205974380'), (u'INDIRECT_-1205969517', u'COPY_-1205967706'), (u'STORE_-1205972637', u'INDIRECT_-1205969697'), (u'INT_OR_-1205984571', u'INT_XOR_-1205984537'), (u'STORE_-1205973417', u'INDIRECT_-1205969855'), (u'MULTIEQUAL_-1205969458', u'COPY_-1205969593'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980438'), (u'STORE_-1205973835', u'INDIRECT_-1205970040'), (u'STORE_-1205972552', u'INDIRECT_-1205970261'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205984886'), (u'INT_MULT_-1205982268', u'INT_OR_-1205982271'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970257'), (u'STORE_-1205974550', u'INDIRECT_-1205970190'), ('const-21', u'INT_RIGHT_-1205982106'), (u'INT_RIGHT_-1205977622', u'INT_OR_-1205977621'), (u'INT_XOR_-1205981567', u'INT_AND_-1205981530'), ('const-22', u'INT_RIGHT_-1205977322'), ('const-20', u'INT_RIGHT_-1205975885'), (u'LOAD_-1205973563', u'MULTIEQUAL_-1205972282'), (u'INT_OR_-1205990696', u'INT_ADD_-1205990699'), ('const-22', u'INT_RIGHT_-1205980227'), (u'INDIRECT_-1205978065', u'INT_ADD_-1205979632'), ('const-21', u'INT_RIGHT_-1205991039'), (u'STORE_-1205973634', u'INDIRECT_-1205969413'), ('const-417', u'STORE_-1205973787'), (u'INT_RIGHT_-1205992936', u'INT_OR_-1205992935'), ('const-0', u'CALL_-1205972582'), (u'STORE_-1205973583', u'INDIRECT_-1205971500'), (u'INDIRECT_-1205977605', u'MULTIEQUAL_-1205977531'), ('const-417', u'STORE_-1205972666'), (u'INT_OR_-1205984413', u'INT_XOR_-1205984405'), (u'CAST_-1205968107', u'COPY_-1205968210'), (u'STORE_-1205973534', u'INDIRECT_-1205969909'), ('const-1024', u'INT_MULT_-1205988219'), (u'STORE_-1205972571', u'INDIRECT_-1205969208'), (u'INT_ADD_-1205988694', u'INT_ADD_-1205988642'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205979903'), ('const-17', u'INT_RIGHT_-1205990795'), ('const-417', u'STORE_-1205972789'), (u'MULTIEQUAL_-1205970100', u'CALL_-1205972973'), (u'STORE_-1205973431', u'INDIRECT_-1205970601'), ('const-417', u'STORE_-1205972664'), (u'INT_OR_-1205983484', u'INT_XOR_-1205983360'), (u'INDIRECT_-1205970187', u'MULTIEQUAL_-1205970100'), (u'STORE_-1205973634', u'INDIRECT_-1205971529'), (u'CALL_-1205974449', u'INDIRECT_-1205968994'), ('const-1024', u'INT_MULT_-1205987849'), (u'CALL_-1205973026', u'INDIRECT_-1205969928'), (u'STORE_-1205973695', u'INDIRECT_-1205970911'), (u'INT_ADD_-1205989683', u'INT_RIGHT_-1205989046'), (u'INDIRECT_-1205978065', u'INT_ADD_-1205977818'), (u'STORE_-1205973661', u'INDIRECT_-1205970710'), (u'INT_ADD_-1205988111', u'INT_XOR_-1205987516'), (u'STORE_-1205973604', u'INDIRECT_-1205969859'), (u'INT_OR_-1205991696', u'INT_XOR_-1205991668'), (u'INT_ADD_-1205975887', u'INT_MULT_-1205975747'), (u'STORE_-1205973438', u'INDIRECT_-1205970514'), ('const-512', u'INT_MULT_-1205988304'), (u'STORE_-1205973859', u'INDIRECT_-1205970049'), (u'INT_OR_-1205990212', u'INT_XOR_-1205990184'), (u'STORE_-1205973739', u'INDIRECT_-1205970648'), ('const-512', u'INT_MULT_-1205985025'), (u'LOAD_-1205992207', u'INT_XOR_-1205991804'), ('const-22', u'INT_RIGHT_-1205990837'), (u'INT_ADD_-1205975363', u'INT_MULT_-1205975055'), (u'INT_ADD_-1205990589', u'INT_RIGHT_-1205990488'), (u'INT_ADD_-1205975311', u'INT_ADD_-1205975269'), ('const-417', u'STORE_-1205974152'), ('const-22', u'INT_RIGHT_-1205981015'), (u'INDIRECT_-1205968499', u'MULTIEQUAL_-1205968970'), (u'CALL_-1205972994', u'INDIRECT_-1205968535'), (u'INT_ADD_-1205974572', u'STORE_-1205974532'), (u'INT_ADD_-1205975363', u'INT_RIGHT_-1205975059'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205988878'), (u'INT_ADD_-1205986143', u'INT_MULT_-1205986121'), (u'INT_OR_-1205975750', u'INT_XOR_-1205975716'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205990293'), (u'INT_ADD_-1205986100', u'INT_OR_-1205986057'), (u'INT_OR_-1205979028', u'INT_XOR_-1205978968'), (u'STORE_-1205972571', u'INDIRECT_-1205970312'), ('const-417', u'STORE_-1205973859'), (u'INT_OR_-1205982751', u'INT_XOR_-1205982621'), (u'INT_ADD_-1205976159', u'INT_ADD_-1205976067'), (u'INT_ADD_-1205980652', u'INT_RIGHT_-1205980634'), (u'INT_OR_-1205983372', u'INT_ADD_-1205982958'), (u'INT_OR_-1205983616', u'INT_ADD_-1205983166'), (u'INT_RIGHT_-1205982634', u'INT_OR_-1205982633'), (u'INDIRECT_-1205969714', u'MULTIEQUAL_-1205969703'), (u'INT_ADD_-1205992065', u'CAST_-1205974550'), (u'INT_XOR_-1205990674', u'INT_XOR_-1205990638'), (u'INT_RIGHT_-1205975969', u'INT_OR_-1205975968'), (u'STORE_-1205972664', u'INDIRECT_-1205969350'), (u'INT_NEGATE_-1205984772', u'INT_OR_-1205984571'), (u'INT_ADD_-1205986143', u'INT_RIGHT_-1205986125'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205975867'), (u'INT_OR_-1205975968', u'COPY_-1205968344'), (u'INDIRECT_-1205975562', u'MULTIEQUAL_-1205975563'), (u'STORE_-1205973604', u'INDIRECT_-1205970687'), (u'INT_ADD_-1205977216', u'INT_XOR_-1205977191'), ('const-10', u'INT_LEFT_-1205993161'), ('const-22', u'INT_RIGHT_-1205986933'), (u'INT_XOR_-1205980115', u'INT_ADD_-1205980100'), (u'STORE_-1205973787', u'INDIRECT_-1205970022'), (u'INT_ADD_-1205985342', u'INT_RIGHT_-1205984738'), ('const-22', u'INT_RIGHT_-1205976894'), (u'STORE_-1205972670', u'INDIRECT_-1205970643'), (u'STORE_-1205972571', u'INDIRECT_-1205969484'), (u'INT_NEGATE_-1205985873', u'INT_OR_-1205985736'), (u'INT_ADD_-1205988412', u'INT_AND_-1205988360'), (u'STORE_-1205972664', u'INDIRECT_-1205970362'), (u'MULTIEQUAL_-1205968159', u'MULTIEQUAL_-1205969476'), (u'STORE_-1205973604', u'INDIRECT_-1205970227'), (u'LOAD_-1205992081', u'INT_ADD_-1205974592'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969844'), ('const-417', u'STORE_-1205973811'), (u'INT_ADD_-1205980192', u'INT_MULT_-1205979514'), (u'INDIRECT_-1205970749', u'MULTIEQUAL_-1205970699'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968607'), (u'STORE_-1205973576', u'INDIRECT_-1205969655'), (u'INT_OR_-1205977321', u'INT_ADD_-1205976912'), (u'INDIRECT_-1205968842', u'MULTIEQUAL_-1205968816'), (u'CAST_-1205967668', u'INT_ADD_-1205972547'), (u'INDIRECT_-1205971514', u'MULTIEQUAL_-1205970977'), (u'STORE_-1205973695', u'INDIRECT_-1205971187'), ('const-417', u'STORE_-1205972662'), (u'INT_OR_-1205984365', u'INT_ADD_-1205984368'), (u'INT_RIGHT_-1205974692', u'INT_OR_-1205974691'), (u'STORE_-1205974664', u'INDIRECT_-1205971352'), (u'STORE_-1205973597', u'INDIRECT_-1205970406'), ('const-32', u'INT_MULT_-1205977426'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970800'), (u'STORE_-1205974129', u'INDIRECT_-1205970410'), (u'INT_OR_-1205975516', u'INT_ADD_-1205975311'), (u'STORE_-1205974161', u'INDIRECT_-1205970241'), ('tmp_55350', u'MULTIEQUAL_-1205975597'), ('const-7', u'INT_AND_-1205974049'), (u'STORE_-1205972840', u'INDIRECT_-1205970279'), (u'CALL_-1205972510', u'INDIRECT_-1205969575'), (u'INT_ADD_-1205977128', u'INT_MULT_-1205977096'), (u'INT_OR_-1205982591', u'INT_ADD_-1205982594'), (u'LOAD_-1205974338', u'INT_ADD_-1205967837'), (u'INT_ZEXT_-1205974186', u'INT_ADD_-1205974183'), (u'STORE_-1205972530', u'INDIRECT_-1205970252'), (u'PTRADD_-1205968281', u'STORE_-1205974152'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971426'), (u'STORE_-1205974616', u'INDIRECT_-1205971779'), (u'STORE_-1205974616', u'INDIRECT_-1205970767'), ('const-22', u'INT_RIGHT_-1205986453'), (u'STORE_-1205974538', u'INDIRECT_-1205970456'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969797'), (u'INT_ADD_-1205988920', u'INT_RIGHT_-1205988860'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986408'), (u'STORE_-1205972724', u'INDIRECT_-1205970053'), (u'STORE_-1205972789', u'INDIRECT_-1205969241'), (u'INT_MULT_-1205974688', u'INT_OR_-1205974691'), (u'STORE_-1205972649', u'INDIRECT_-1205970719'), ('const-27', u'INT_RIGHT_-1205974909'), (u'INDIRECT_-1205969461', u'MULTIEQUAL_-1205969411'), ('tmp_55399', u'MULTIEQUAL_-1205977347'), (u'INT_OR_-1205975096', u'INT_XOR_-1205974984'), ('const-1024', u'INT_MULT_-1205991223'), (u'INT_XOR_-1205978654', u'INT_ADD_-1205978649'), (u'INT_ADD_-1205984222', u'INT_MULT_-1205983311'), (u'INT_ADD_-1205986034', u'INT_MULT_-1205986001'), (u'STORE_-1205973452', u'INDIRECT_-1205971260'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205990569'), (u'INDIRECT_-1205970350', u'MULTIEQUAL_-1205970255'), (u'INDIRECT_-1205969802', u'STORE_-1205972789'), (u'INT_ADD_-1205987255', u'INT_MULT_-1205986929'), (u'INT_ADD_-1205980804', u'INT_MULT_-1205980160'), (u'INDIRECT_-1205969175', u'MULTIEQUAL_-1205969088'), (u'INT_MULT_-1205991347', u'INT_OR_-1205991350'), (u'INDIRECT_-1205969957', u'MULTIEQUAL_-1205969908'), ('const-24', u'INT_RIGHT_-1205991923'), (u'INDIRECT_-1205969284', u'MULTIEQUAL_-1205969197'), (u'CALL_-1205972510', u'INDIRECT_-1205968380'), ('const-17', u'INT_RIGHT_-1205991579'), (u'INT_ADD_-1205972768', u'CAST_-1205967755'), (u'CALL_-1205972510', u'INDIRECT_-1205970219'), (u'STORE_-1205973417', u'INDIRECT_-1205971143'), (u'STORE_-1205973417', u'INDIRECT_-1205969395'), (u'INDIRECT_-1205971661', u'CBRANCH_-1205972573'), ('const-32768', u'INT_MULT_-1205991575'), (u'INT_OR_-1205987644', u'INT_XOR_-1205987526'), (u'INT_ADD_-1205976804', u'INT_MULT_-1205976782'), (u'INT_OR_-1205987622', u'INT_AND_-1205987541'), (u'INT_ADD_-1205985721', u'INT_OR_-1205985488'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205980146'), (u'STORE_-1205972713', u'INDIRECT_-1205969280'), (u'INT_ADD_-1205979673', u'INT_RIGHT_-1205979608'), (u'INT_ADD_-1205973655', u'MULTIEQUAL_-1205968184'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205973934'), (u'MULTIEQUAL_-1205972024', u'MULTIEQUAL_-1205972007'), (u'INT_OR_-1205981291', u'INT_AND_-1205981236'), (u'INT_OR_-1205975968', u'COPY_-1205968347'), (u'INT_OR_-1205991890', u'INT_XOR_-1205991804'), (u'INT_AND_-1205978570', u'INT_XOR_-1205978551'), (u'STORE_-1205972655', u'INDIRECT_-1205969160'), ('tmp_55401', u'MULTIEQUAL_-1205977531'), (u'STORE_-1205972608', u'INDIRECT_-1205970655'), (u'CAST_-1205967733', u'STORE_-1205972724'), ('const-3', u'PTRADD_-1205973544'), (u'STORE_-1205972735', u'INDIRECT_-1205970586'), (u'INT_OR_-1205977027', u'INT_NEGATE_-1205977016'), (u'INT_XOR_-1205976959', u'INT_ADD_-1205976948'), ('const-417', u'STORE_-1205974550'), (u'STORE_-1205974616', u'INDIRECT_-1205969571'), (u'INT_OR_-1205981014', u'INT_AND_-1205980907'), (u'CALL_-1205993328', u'INDIRECT_-1205978617'), (u'INT_ADD_-1205977520', u'INT_OR_-1205977405'), (u'INT_OR_-1205989113', u'INT_XOR_-1205988925'), ('const-1', u'PTRADD_-1205973523'), (u'INT_ADD_-1205986163', u'INT_ADD_-1205986143'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970690'), (u'INDIRECT_-1205969011', u'MULTIEQUAL_-1205968885'), ('const-32', u'INT_MULT_-1205977921'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971288'), (u'INDIRECT_-1205971550', u'COPY_-1205971607'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970082'), ('const-21', u'INT_RIGHT_-1205987447'), (u'INDIRECT_-1205971181', u'MULTIEQUAL_-1205971175'), (u'CALL_-1205972510', u'INDIRECT_-1205970495'), (u'INT_XOR_-1205990860', u'INT_ADD_-1205990829'), (u'STORE_-1205972561', u'INDIRECT_-1205969162'), (u'INT_MULT_-1205976303', u'INT_OR_-1205976306'), (u'INT_MULT_-1205991145', u'INT_OR_-1205991148'), (u'STORE_-1205973835', u'INDIRECT_-1205970960'), (u'INDIRECT_-1205969939', u'MULTIEQUAL_-1205969889'), (u'INT_ADD_-1205974817', u'INT_ADD_-1205974781'), (u'INDIRECT_-1205970170', u'COPY_-1205970227'), (u'INDIRECT_-1205978249', u'MULTIEQUAL_-1205978175'), (u'STORE_-1205973590', u'INDIRECT_-1205969941'), (u'INT_ADD_-1205985647', u'INT_ADD_-1205985591'), (u'INT_RIGHT_-1205977710', u'INT_OR_-1205977709'), ('const-4294967252', u'PTRSUB_-1205975195'), ('const-417', u'STORE_-1205974544'), (u'LOAD_-1205992251', u'INT_ADD_-1205974737'), (u'STORE_-1205972561', u'INDIRECT_-1205970450'), (u'INT_NEGATE_-1205986530', u'INT_OR_-1205986286'), (u'MULTIEQUAL_-1205972421', u'INT_ADD_-1205973709'), (u'INT_RIGHT_-1205976734', u'INT_OR_-1205976733'), (u'CALL_-1205972994', u'INDIRECT_-1205968552'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979168'), (u'INT_OR_-1205992775', u'INT_ADD_-1205992778'), (u'INDIRECT_-1205970166', u'MULTIEQUAL_-1205970071'), (u'INT_ADD_-1205987491', u'INT_ADD_-1205987439'), (u'STORE_-1205973555', u'INDIRECT_-1205971482'), (u'STORE_-1205973417', u'INDIRECT_-1205969671'), ('const-19', u'INT_RIGHT_-1205992662'), ('const-23', u'INT_RIGHT_-1205989366'), (u'CALL_-1205972994', u'INDIRECT_-1205970463'), (u'STORE_-1205973534', u'INDIRECT_-1205970001'), (u'INT_NEGATE_-1205977688', u'INT_OR_-1205977545'), ('const-1024', u'INT_MULT_-1205988824'), (u'INT_OR_-1205983815', u'INT_XOR_-1205983807'), ('const-1024', u'INT_MULT_-1205986449'), (u'COPY_-1205968326', u'MULTIEQUAL_-1205968799'), (u'INT_OR_-1205982633', u'INT_ADD_-1205981106'), (u'STORE_-1205972713', u'INDIRECT_-1205970936'), (u'INT_ADD_-1205989550', u'INT_XOR_-1205989195'), (u'INT_OR_-1205978434', u'INT_XOR_-1205978345'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968457'), ('const-6', u'INT_NOTEQUAL_-1205973884'), (u'INT_OR_-1205980617', u'INT_ADD_-1205980293'), (u'INT_ADD_-1205984684', u'INT_MULT_-1205984646'), (u'STORE_-1205972662', u'INDIRECT_-1205968797'), (u'INT_ADD_-1205991963', u'INT_MULT_-1205991527'), (u'STORE_-1205973627', u'INDIRECT_-1205970880'), (u'INT_RIGHT_-1205975495', u'INT_OR_-1205975494'), (u'INT_MULT_-1205975357', u'INT_OR_-1205975360'), (u'STORE_-1205972552', u'INDIRECT_-1205970721'), (u'CALL_-1205993328', u'INDIRECT_-1205975562'), (u'INT_OR_-1205989113', u'INT_XOR_-1205989033'), ('const-1024', u'INT_MULT_-1205976445'), (u'STORE_-1205972608', u'INDIRECT_-1205971207'), (u'INT_ADD_-1205986750', u'INT_RIGHT_-1205986732'), (u'INT_OR_-1205989902', u'INT_ADD_-1205989905'), (u'STORE_-1205974676', u'INDIRECT_-1205970626'), (u'STORE_-1205972561', u'INDIRECT_-1205970358'), (u'INT_OR_-1205986300', u'INT_XOR_-1205986262'), (u'INDIRECT_-1205970300', u'COPY_-1205970356'), (u'LOAD_-1205993137', u'COPY_-1205968343'), ('const-4', u'PTRADD_-1205968286'), (u'CALL_-1205972582', u'INDIRECT_-1205969181'), (u'COPY_-1205967706', u'STORE_-1205972757'), ('const-20', u'INT_RIGHT_-1205976786'), (u'INT_OR_-1205992207', u'INT_ADD_-1205992210'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205985379'), ('const-32', u'INT_MULT_-1205983180'), (u'INDIRECT_-1205968502', u'MULTIEQUAL_-1205968476'), (u'CALL_-1205974449', u'INDIRECT_-1205971276'), ('const-1024', u'INT_MULT_-1205988704'), ('const-417', u'LOAD_-1205973260'), (u'INDIRECT_-1205971092', u'MULTIEQUAL_-1205970376'), (u'SUBPIECE_-1205968393', u'INT_EQUAL_-1205974349'), (u'INT_MULT_-1205977334', u'INT_OR_-1205977337'), (u'INT_ADD_-1205984532', u'INT_RIGHT_-1205984514'), (u'INT_XOR_-1205981211', u'INT_ADD_-1205981206'), (u'INT_ADD_-1205984786', u'INT_ADD_-1205984684'), (u'STORE_-1205973763', u'INDIRECT_-1205969921'), (u'INT_OR_-1205991712', u'INT_ADD_-1205990313'), (u'STORE_-1205972649', u'INDIRECT_-1205969155'), ('const-18', u'PTRADD_-1205968337'), (u'MULTIEQUAL_-1205968885', u'MULTIEQUAL_-1205968692'), (u'STORE_-1205973583', u'INDIRECT_-1205971040'), (u'INDIRECT_-1205968916', u'MULTIEQUAL_-1205968829'), (u'INDIRECT_-1205969079', u'MULTIEQUAL_-1205968438'), (u'STORE_-1205972561', u'INDIRECT_-1205969070'), (u'INDIRECT_-1205968604', u'MULTIEQUAL_-1205968619'), (u'CALL_-1205972994', u'INDIRECT_-1205970923'), ('const-128', u'STORE_-1205974129'), (u'INT_NOTEQUAL_-1205972842', u'CBRANCH_-1205972833'), (u'STORE_-1205974532', u'INDIRECT_-1205970359'), (u'INDIRECT_-1205978157', u'INT_ADD_-1205985300'), (u'INT_ADD_-1205980054', u'INT_RIGHT_-1205979879'), (u'INT_MULT_-1205979556', u'INT_OR_-1205979559'), ('const-1024', u'INT_MULT_-1205977024'), (u'INT_OR_-1205980019', u'INT_XOR_-1205979975'), (u'INT_NEGATE_-1205977352', u'INT_OR_-1205977251'), ('const-512', u'INT_MULT_-1205992864'), (u'INT_XOR_-1205981091', u'INT_ADD_-1205981086'), (u'INT_RIGHT_-1205976673', u'INT_OR_-1205976672'), (u'STORE_-1205973604', u'INDIRECT_-1205970503'), ('const-417', u'STORE_-1205972530'), (u'INT_RIGHT_-1205990837', u'INT_OR_-1205990836'), (u'STORE_-1205972662', u'INDIRECT_-1205969073'), (u'INT_XOR_-1205975852', u'INT_ADD_-1205975847'), ('const-22', u'INT_RIGHT_-1205990245'), (u'INDIRECT_-1205969858', u'MULTIEQUAL_-1205969598'), ('tmp_55396', u'MULTIEQUAL_-1205977071'), (u'INT_RIGHT_-1205990743', u'INT_OR_-1205990742'), (u'STORE_-1205974538', u'INDIRECT_-1205971560'), (u'INT_ADD_-1205980495', u'INT_AND_-1205980417'), ('const-1024', u'INT_MULT_-1205991835'), (u'STORE_-1205973835', u'INDIRECT_-1205970592'), ('const-56', u'INT_NOTEQUAL_-1205973698'), (u'INDIRECT_-1205970404', u'MULTIEQUAL_-1205970378'), (u'INDIRECT_-1205968748', u'MULTIEQUAL_-1205968722'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973544'), ('const-8', u'INT_ADD_-1205974071'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205978689'), (u'INT_OR_-1205986300', u'INT_ADD_-1205985987'), (u'INT_ADD_-1205984430', u'INT_ADD_-1205984400'), (u'STORE_-1205973534', u'INDIRECT_-1205969449'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205993121'), (u'INT_XOR_-1205985596', u'INT_ADD_-1205985591'), (u'INT_OR_-1205977251', u'INT_XOR_-1205977191'), (u'INT_XOR_-1205988627', u'INT_ADD_-1205988602'), (u'INDIRECT_-1205970145', u'MULTIEQUAL_-1205970071'), (u'STORE_-1205974526', u'INDIRECT_-1205969710'), (u'INT_ADD_-1205992262', u'INT_ADD_-1205992242'), (u'INT_AND_-1205978040', u'INT_XOR_-1205978031'), (u'STORE_-1205973583', u'INDIRECT_-1205970948'), ('const-22', u'INT_RIGHT_-1205975605'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205990627'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968304'), (u'STORE_-1205974544', u'INDIRECT_-1205971013'), ('const-27', u'INT_RIGHT_-1205979879'), (u'STORE_-1205974550', u'INDIRECT_-1205969914'), (u'INDIRECT_-1205969759', u'MULTIEQUAL_-1205970155'), (u'INT_OR_-1205978084', u'INT_ADD_-1205978087'), ('tmp_55355', u'MULTIEQUAL_-1205975682'), (u'INT_MULT_-1205985025', u'INT_OR_-1205985028'), ('const-22', u'INT_RIGHT_-1205979789'), (u'STORE_-1205973627', u'INDIRECT_-1205969316'), (u'INDIRECT_-1205969192', u'MULTIEQUAL_-1205969105'), (u'INDIRECT_-1205971245', u'MULTIEQUAL_-1205971196'), ('const-0', u'STORE_-1205973597'), (u'STORE_-1205973859', u'INDIRECT_-1205969957'), (u'STORE_-1205972735', u'INDIRECT_-1205970494'), (u'INT_XOR_-1205991506', u'INT_XOR_-1205991496'), (u'INT_ADD_-1205988253', u'INT_XOR_-1205987866'), (u'STORE_-1205972637', u'INDIRECT_-1205969237'), (u'INT_ADD_-1205990293', u'INT_ADD_-1205990273'), ('const-4', u'PTRADD_-1205968075'), (u'INT_RIGHT_-1205978761', u'INT_OR_-1205978760'), (u'INT_RIGHT_-1205980802', u'INT_OR_-1205980801'), (u'INT_ADD_-1205978197', u'INT_ADD_-1205978155'), (u'CALL_-1205973395', u'INDIRECT_-1205970258'), (u'INDIRECT_-1205969300', u'MULTIEQUAL_-1205969274'), (u'INT_XOR_-1205987886', u'INT_AND_-1205987839'), (u'STORE_-1205973452', u'INDIRECT_-1205969972'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968525'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205984430'), (u'INT_ADD_-1205978586', u'INT_ADD_-1205978566'), ('const-417', u'STORE_-1205974161'), (u'INT_OR_-1205980450', u'INT_ADD_-1205979871'), (u'INT_XOR_-1205990298', u'INT_AND_-1205990277'), (u'STORE_-1205973438', u'INDIRECT_-1205970606'), (u'CALL_-1205972582', u'INDIRECT_-1205970561'), (u'INT_ADD_-1205976357', u'INT_RIGHT_-1205976323'), ('const-19', u'INT_RIGHT_-1205975027'), (u'INDIRECT_-1205970542', u'MULTIEQUAL_-1205970531'), (u'INT_ADD_-1205977046', u'INT_XOR_-1205976959'), (u'INT_RIGHT_-1205977044', u'INT_OR_-1205977043'), (u'INDIRECT_-1205970160', u'MULTIEQUAL_-1205970149'), (u'COPY_-1205968350', u'MULTIEQUAL_-1205969174'), (u'COPY_-1205968344', u'MULTIEQUAL_-1205969157'), (u'INT_RIGHT_-1205976417', u'INT_OR_-1205976416'), (u'STORE_-1205972666', u'INDIRECT_-1205969572'), ('const-417', u'LOAD_-1205993205'), (u'INT_RIGHT_-1205990456', u'INT_OR_-1205990455'), (u'INDIRECT_-1205970666', u'MULTIEQUAL_-1205970616'), (u'INT_AND_-1205989735', u'INT_XOR_-1205989663'), (u'INT_ADD_-1205993264', u'CAST_-1205975039'), (u'INT_ADD_-1205990025', u'INT_RIGHT_-1205990001'), (u'INDIRECT_-1205969930', u'MULTIEQUAL_-1205969880'), (u'INT_ADD_-1205973856', u'MULTIEQUAL_-1205971639'), (u'STORE_-1205974532', u'INDIRECT_-1205970451'), (u'INDIRECT_-1205970356', u'MULTIEQUAL_-1205969657'), (u'INT_OR_-1205978896', u'INT_XOR_-1205978868'), (u'INT_ADD_-1205982413', u'INT_RIGHT_-1205982330'), (u'INT_RIGHT_-1205980227', u'INT_OR_-1205980226'), (u'INT_ADD_-1205973279', u'MULTIEQUAL_-1205972249'), (u'INT_ADD_-1205980831', u'INT_MULT_-1205980798'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970524'), (u'LOAD_-1205974338', u'INT_ADD_-1205967921'), (u'STORE_-1205972724', u'INDIRECT_-1205969501'), (u'INT_ADD_-1205987501', u'INT_MULT_-1205987443'), (u'INT_RIGHT_-1205985441', u'INT_OR_-1205985440'), (u'INDIRECT_-1205970632', u'MULTIEQUAL_-1205969916'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974535'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987162'), (u'STORE_-1205973835', u'INDIRECT_-1205969856'), ('const-128', u'INT_MULT_-1205990484'), (u'INT_ADD_-1205974807', u'INT_RIGHT_-1205974751'), (u'STORE_-1205972608', u'INDIRECT_-1205970471'), (u'INT_OR_-1205985323', u'INT_ADD_-1205984923'), (u'INDIRECT_-1205970172', u'MULTIEQUAL_-1205969473'), ('const-1024', u'INT_MULT_-1205981874'), (u'STORE_-1205972530', u'INDIRECT_-1205969608'), (u'CALL_-1205972510', u'INDIRECT_-1205969943'), (u'PTRADD_-1205968320', u'LOAD_-1205974283'), (u'STORE_-1205973811', u'INDIRECT_-1205970859'), (u'STORE_-1205974616', u'INDIRECT_-1205970031'), (u'INT_RIGHT_-1205983184', u'INT_OR_-1205983183'), (u'INT_ADD_-1205979245', u'INT_ADD_-1205979163'), (u'STORE_-1205972670', u'INDIRECT_-1205970551'), (u'CALL_-1205973319', u'INDIRECT_-1205968740'), (u'INT_NEGATE_-1205982980', u'INT_OR_-1205982809'), (u'INT_XOR_-1205981983', u'INT_ADD_-1205981978'), (u'STORE_-1205972724', u'INDIRECT_-1205969317'), (u'INDIRECT_-1205969459', u'MULTIEQUAL_-1205969427'), (u'INDIRECT_-1205970726', u'MULTIEQUAL_-1205970715'), (u'INDIRECT_-1205970680', u'MULTIEQUAL_-1205970654'), (u'INT_ADD_-1205975029', u'INT_RIGHT_-1205974554'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205992157'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205977510'), (u'STORE_-1205972561', u'INDIRECT_-1205969714'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977118'), (u'INT_OR_-1205991272', u'INT_ADD_-1205991275'), (u'INDIRECT_-1205969183', u'MULTIEQUAL_-1205969151'), ('const-22', u'INT_RIGHT_-1205975439'), (u'INT_RIGHT_-1205975059', u'INT_OR_-1205975058'), (u'STORE_-1205972664', u'INDIRECT_-1205970454'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979776'), ('const-23', u'INT_RIGHT_-1205990359'), (u'INT_OR_-1205992395', u'INT_XOR_-1205992335'), (u'INT_ADD_-1205978841', u'INT_ADD_-1205978815'), (u'INDIRECT_-1205969807', u'MULTIEQUAL_-1205968162'), (u'INT_OR_-1205988827', u'INT_XOR_-1205988737'), (u'INT_ADD_-1205977808', u'INT_ADD_-1205977792'), (u'INDIRECT_-1205969727', u'MULTIEQUAL_-1205969611'), (u'INT_AND_-1205980130', u'INT_XOR_-1205980115'), (u'INT_XOR_-1205976518', u'INT_XOR_-1205976482'), (u'CALL_-1205972510', u'INDIRECT_-1205968737'), ('const-512', u'INT_MULT_-1205977634'), (u'INT_OR_-1205991148', u'INT_XOR_-1205991104'), (u'INT_RIGHT_-1205986323', u'INT_OR_-1205986322'), (u'INDIRECT_-1205971228', u'MULTIEQUAL_-1205971175'), (u'CALL_-1205972582', u'INDIRECT_-1205969365'), (u'INT_ADD_-1205967900', u'INT_ADD_-1205972710'), (u'CALL_-1205993328', u'INDIRECT_-1205977697'), (u'INT_ADD_-1205975731', u'INT_MULT_-1205975601'), (u'INT_ADD_-1205979015', u'INT_RIGHT_-1205978745'), (u'STORE_-1205973424', u'INDIRECT_-1205970964'), (u'CALL_-1205973319', u'INDIRECT_-1205970777'), (u'INT_ADD_-1205991683', u'INT_RIGHT_-1205991467'), (u'INT_RIGHT_-1205974719', u'INT_OR_-1205974718'), (u'INT_OR_-1205986286', u'INT_XOR_-1205986262'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205984562'), (u'STORE_-1205973534', u'INDIRECT_-1205970277'), (u'INT_RIGHT_-1205978913', u'INT_OR_-1205978912'), (u'INT_ADD_-1205978334', u'INT_RIGHT_-1205978290'), (u'STORE_-1205973431', u'INDIRECT_-1205969589'), (u'STORE_-1205972643', u'INDIRECT_-1205970162'), (u'STORE_-1205973661', u'INDIRECT_-1205969882'), (u'INT_RIGHT_-1205992482', u'INT_OR_-1205992481'), (u'INT_ADD_-1205989106', u'INT_MULT_-1205989058'), (u'INT_ADD_-1205985167', u'INT_ADD_-1205985147'), (u'INT_ADD_-1205979807', u'INT_RIGHT_-1205979337'), (u'STORE_-1205974616', u'INDIRECT_-1205971595'), (u'STORE_-1205973787', u'INDIRECT_-1205970942'), (u'INDIRECT_-1205970722', u'COPY_-1205970779'), (u'STORE_-1205972666', u'INDIRECT_-1205971228'), (u'INT_OR_-1205988573', u'INT_ADD_-1205988576'), (u'INT_MULT_-1205988646', u'INT_OR_-1205988649'), (u'INT_RIGHT_-1205983515', u'INT_OR_-1205983514'), ('const-1', u'RETURN_-1205972559'), (u'INDIRECT_-1205971422', u'MULTIEQUAL_-1205971162'), (u'INDIRECT_-1205969589', u'MULTIEQUAL_-1205969540'), (u'INDIRECT_-1205971454', u'MULTIEQUAL_-1205971361'), ('const-8192', u'INT_MULT_-1205983770'), (u'STORE_-1205974129', u'INDIRECT_-1205970686'), ('const-1836072691', u'INT_ADD_-1205984106'), (u'INT_ADD_-1205986873', u'INT_ADD_-1205986853'), (u'STORE_-1205974550', u'INDIRECT_-1205971846'), (u'STORE_-1205973835', u'INDIRECT_-1205971420'), (u'INDIRECT_-1205969641', u'MULTIEQUAL_-1205969550'), ('const-4096', u'INT_MULT_-1205986961'), (u'INDIRECT_-1205970329', u'MULTIEQUAL_-1205970255'), ('const-18', u'PTRADD_-1205967595'), (u'INT_RIGHT_-1205975885', u'INT_OR_-1205975884'), (u'CALL_-1205973395', u'INDIRECT_-1205970810'), (u'CAST_-1205968281', u'STORE_-1205974532'), (u'INT_RIGHT_-1205977752', u'INT_OR_-1205977751'), (u'STORE_-1205972757', u'INDIRECT_-1205969491'), (u'STORE_-1205973661', u'INDIRECT_-1205969330'), (u'INDIRECT_-1205971310', u'MULTIEQUAL_-1205971260'), (u'INT_OR_-1205982105', u'INT_ADD_-1205982108'), (u'STORE_-1205972664', u'INDIRECT_-1205970914'), (u'CALL_-1205973319', u'INDIRECT_-1205968706'), (u'STORE_-1205973627', u'INDIRECT_-1205970604'), ('const-22', u'INT_RIGHT_-1205991467'), (u'STORE_-1205973787', u'INDIRECT_-1205971034'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205985997'), (u'INDIRECT_-1205970635', u'MULTIEQUAL_-1205968171'), (u'INT_ADD_-1205991275', u'INT_XOR_-1205991182'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971408'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971085'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205990448'), (u'INT_AND_-1205978983', u'INT_XOR_-1205978968'), ('const-22', u'INT_RIGHT_-1205989240'), (u'INT_ADD_-1205989683', u'INT_MULT_-1205989042'), (u'CALL_-1205973319', u'INDIRECT_-1205968859'), (u'STORE_-1205973576', u'INDIRECT_-1205969931'), ('const-22', u'INT_RIGHT_-1205989334'), (u'STORE_-1205973555', u'INDIRECT_-1205969734'), ('const-512', u'INT_MULT_-1205985747'), (u'INT_RIGHT_-1205986453', u'INT_OR_-1205986452'), (u'INT_ADD_-1205978530', u'INT_RIGHT_-1205978501'), (u'INT_OR_-1205981427', u'INT_ADD_-1205980877'), (u'INDIRECT_-1205968380', u'MULTIEQUAL_-1205968851'), (u'INDIRECT_-1205968754', u'MULTIEQUAL_-1205969225'), (u'INT_OR_-1205992279', u'INT_ADD_-1205992282'), (u'INDIRECT_-1205969652', u'MULTIEQUAL_-1205969565'), (u'STORE_-1205973787', u'INDIRECT_-1205969378'), ('const-1', u'PTRADD_-1205973679'), ('const-22', u'INT_RIGHT_-1205976199'), (u'INT_NOTEQUAL_-1205973934', u'CBRANCH_-1205973932'), (u'INDIRECT_-1205968756', u'MULTIEQUAL_-1205968744'), (u'INDIRECT_-1205969838', u'MULTIEQUAL_-1205969788'), (u'INDIRECT_-1205969617', u'MULTIEQUAL_-1205969611'), (u'INDIRECT_-1205970724', u'MULTIEQUAL_-1205970008'), (u'INT_OR_-1205983893', u'INT_ADD_-1205983223'), (u'INT_ADD_-1205975575', u'INT_RIGHT_-1205975439'), (u'INT_ADD_-1205985204', u'INT_MULT_-1205984582'), (u'CALL_-1205972994', u'INDIRECT_-1205970647'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205988747'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967612'), (u'INT_ADD_-1205988253', u'INT_MULT_-1205987619'), (u'INT_MULT_-1205986831', u'INT_OR_-1205986834'), (u'STORE_-1205974526', u'INDIRECT_-1205970630'), ('const-22', u'INT_RIGHT_-1205981580'), (u'INT_ADD_-1205982958', u'INT_RIGHT_-1205982246'), (u'INDIRECT_-1205970630', u'COPY_-1205970687'), (u'STORE_-1205974159', u'INDIRECT_-1205970148'), (u'COPY_-1205968320', u'MULTIEQUAL_-1205968782'), ('const-25', u'INT_RIGHT_-1205990488'), (u'CAST_-1205968286', u'STORE_-1205974538'), (u'CAST_-1205967869', u'STORE_-1205973424'), (u'INDIRECT_-1205969571', u'MULTIEQUAL_-1205969521'), (u'CALL_-1205973026', u'INDIRECT_-1205969192'), (u'INT_XOR_-1205992000', u'INT_ADD_-1205991941'), (u'INT_MULT_-1205990339', u'INT_OR_-1205990342'), (u'INT_OR_-1205974691', u'INT_ADD_-1205974694'), (u'INT_MULT_-1205976838', u'INT_OR_-1205976841'), ('const-1024', u'INT_MULT_-1205983074'), (u'INT_ADD_-1205983776', u'INT_OR_-1205983586'), (u'STORE_-1205972530', u'INDIRECT_-1205969976'), (u'INT_RIGHT_-1205978501', u'INT_OR_-1205978500'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205991751'), (u'INT_XOR_-1205986194', u'INT_AND_-1205986183'), (u'INT_ADD_-1205978113', u'INT_MULT_-1205978081'), ('const-24', u'INT_RIGHT_-1205976579'), ('const-22', u'INT_RIGHT_-1205983894'), (u'LOAD_-1205974338', u'INT_EQUAL_-1205972574'), ('const-22', u'INT_RIGHT_-1205982502'), (u'INDIRECT_-1205968671', u'MULTIEQUAL_-1205968659'), (u'INDIRECT_-1205968671', u'MULTIEQUAL_-1205968659'), (u'INT_XOR_-1205978488', u'INT_AND_-1205978467'), (u'INT_MULT_-1205975819', u'INT_OR_-1205975822'), (u'INT_ADD_-1205981646', u'INT_RIGHT_-1205981292'), (u'STORE_-1205972655', u'INDIRECT_-1205969896'), (u'INDIRECT_-1205969681', u'MULTIEQUAL_-1205969632'), (u'CALL_-1205972510', u'INDIRECT_-1205968397'), (u'INDIRECT_-1205970818', u'MULTIEQUAL_-1205970807'), (u'INDIRECT_-1205971022', u'MULTIEQUAL_-1205970978'), (u'INT_ADD_-1205975165', u'INT_MULT_-1205974877'), (u'STORE_-1205973445', u'INDIRECT_-1205969507'), (u'STORE_-1205972757', u'INDIRECT_-1205969399'), (u'INT_OR_-1205978017', u'INT_ADD_-1205976565'), (u'STORE_-1205974129', u'INDIRECT_-1205969766'), (u'MULTIEQUAL_-1205972510', u'STORE_-1205973835'), (u'INT_XOR_-1205990938', u'INT_ADD_-1205990923'), (u'INT_ADD_-1205977242', u'INT_MULT_-1205977210'), (u'INT_RIGHT_-1205975439', u'INT_OR_-1205975438'), (u'STORE_-1205973811', u'INDIRECT_-1205969479'), (u'MULTIEQUAL_-1205968175', u'MULTIEQUAL_-1205970948'), (u'STORE_-1205973445', u'INDIRECT_-1205970519'), (u'STORE_-1205973787', u'INDIRECT_-1205970390'), (u'INT_XOR_-1205989824', u'INT_ADD_-1205989803'), ('const-22', u'INT_RIGHT_-1205986705'), (u'STORE_-1205972530', u'INDIRECT_-1205970712'), (u'INT_ADD_-1205978400', u'INT_MULT_-1205978014'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970791'), (u'MULTIEQUAL_-1205972302', u'CALL_-1205973026'), (u'STORE_-1205972662', u'INDIRECT_-1205968705'), (u'INT_ADD_-1205979673', u'INT_MULT_-1205979604'), (u'STORE_-1205973787', u'INDIRECT_-1205969838'), (u'STORE_-1205974161', u'INDIRECT_-1205970517'), ('const-417', u'STORE_-1205973695'), (u'STORE_-1205972643', u'INDIRECT_-1205969610'), (u'INDIRECT_-1205969614', u'MULTIEQUAL_-1205969519'), (u'COPY_-1205968338', u'MULTIEQUAL_-1205968642'), (u'INT_XOR_-1205989988', u'INT_AND_-1205989967'), (u'INT_RIGHT_-1205978018', u'INT_OR_-1205978017'), (u'INT_MULT_-1205984698', u'INT_OR_-1205984701'), (u'STORE_-1205973739', u'INDIRECT_-1205969912'), (u'INT_OR_-1205984219', u'INT_ADD_-1205984222'), (u'INDIRECT_-1205975409', u'MULTIEQUAL_-1205975410'), (u'INT_ADD_-1205976435', u'INT_MULT_-1205976413'), (u'INT_ADD_-1205987767', u'INT_AND_-1205987725'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205971012'), (u'INT_RIGHT_-1205988251', u'INT_OR_-1205988250'), (u'CALL_-1205973395', u'INDIRECT_-1205970350'), (u'INT_XOR_-1205975696', u'INT_ADD_-1205975691'), (u'CAST_-1205967875', u'STORE_-1205973431'), ('const-2048', u'INT_MULT_-1205987443'), ('const-108', u'INT_ADD_-1205974511'), ('const-1024', u'INT_MULT_-1205984288'), (u'CAST_-1205975039', u'LOAD_-1205993280'), (u'INDIRECT_-1205968672', u'MULTIEQUAL_-1205968687'), (u'INDIRECT_-1205970378', u'MULTIEQUAL_-1205970334'), (u'INT_MULT_-1205982774', u'INT_OR_-1205982777'), (u'INT_OR_-1205990244', u'INT_XOR_-1205989880'), (u'CALL_-1205972510', u'INDIRECT_-1205969391'), (u'STORE_-1205972768', u'INDIRECT_-1205968764'), ('const-80', u'INT_ADD_-1205974655'), (u'STORE_-1205973627', u'INDIRECT_-1205969408'), (u'INT_ADD_-1205990361', u'INT_RIGHT_-1205990213'), (u'INDIRECT_-1205970207', u'MULTIEQUAL_-1205968167'), (u'INT_MULT_-1205981874', u'INT_OR_-1205981877'), ('const-417', u'LOAD_-1205973563'), (u'STORE_-1205972662', u'INDIRECT_-1205969809'), (u'INDIRECT_-1205970962', u'MULTIEQUAL_-1205970702'), (u'PTRADD_-1205967590', u'STORE_-1205972662'), (u'INDIRECT_-1205968399', u'MULTIEQUAL_-1205968387'), (u'INDIRECT_-1205968399', u'MULTIEQUAL_-1205968387'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987072'), (u'INDIRECT_-1205970112', u'MULTIEQUAL_-1205970025'), (u'INDIRECT_-1205971274', u'COPY_-1205971331'), (u'STORE_-1205973763', u'INDIRECT_-1205970933'), (u'INDIRECT_-1205969346', u'MULTIEQUAL_-1205969335'), ('const-22', u'INT_RIGHT_-1205988458'), (u'INT_ADD_-1205991041', u'INT_XOR_-1205990948'), (u'INT_RIGHT_-1205982752', u'INT_OR_-1205982751'), (u'INT_RIGHT_-1205976167', u'INT_OR_-1205976166'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970717'), (u'INT_ADD_-1205988043', u'INT_ADD_-1205987965'), (u'INT_ADD_-1205986325', u'INT_RIGHT_-1205985609'), (u'INT_ADD_-1205986007', u'INT_NEGATE_-1205985815'), (u'STORE_-1205973452', u'INDIRECT_-1205970708'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969880'), (u'INDIRECT_-1205971054', u'MULTIEQUAL_-1205970794'), (u'STORE_-1205973410', u'INDIRECT_-1205969206'), (u'STORE_-1205972768', u'INDIRECT_-1205970052'), (u'INT_MULT_-1205986501', u'INT_OR_-1205986504'), (u'STORE_-1205972782', u'INDIRECT_-1205971270'), (u'INT_ADD_-1205974655', u'CAST_-1205968359'), (u'INT_ADD_-1205992706', u'INT_ADD_-1205992680'), (u'STORE_-1205973452', u'INDIRECT_-1205969604'), (u'INT_OR_-1205976016', u'INT_XOR_-1205975982'), (u'STORE_-1205974152', u'INDIRECT_-1205970971'), (u'SUBPIECE_-1205968394', u'CAST_-1205967690'), (u'INT_ADD_-1205990589', u'INT_MULT_-1205990484'), (u'MULTIEQUAL_-1205969020', u'COPY_-1205969134'), (u'MULTIEQUAL_-1205969182', u'COPY_-1205969317'), (u'INT_RIGHT_-1205983601', u'INT_OR_-1205983600'), (u'LOAD_-1205974338', u'INT_ADD_-1205967900'), (u'INT_ADD_-1205977891', u'INT_MULT_-1205977853'), (u'INT_ADD_-1205990490', u'INT_RIGHT_-1205990343'), ('const-4', u'PTRADD_-1205968281'), (u'INDIRECT_-1205975494', u'MULTIEQUAL_-1205975495'), (u'STORE_-1205972713', u'INDIRECT_-1205968728'), (u'STORE_-1205972670', u'INDIRECT_-1205970827'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970852'), ('const-128', u'INT_MULT_-1205987761'), (u'INT_ADD_-1205985230', u'INT_RIGHT_-1205985202'), (u'INT_ADD_-1205986687', u'INT_ADD_-1205986667'), (u'INT_RIGHT_-1205987405', u'INT_OR_-1205987404'), (u'INT_MULT_-1205985849', u'INT_OR_-1205985852'), ('tmp_55393', u'MULTIEQUAL_-1205976795'), (u'STORE_-1205972789', u'INDIRECT_-1205968873'), (u'STORE_-1205972664', u'INDIRECT_-1205969902'), (u'INT_ADD_-1205987287', u'INT_OR_-1205986567'), (u'INT_NEGATE_-1205982766', u'INT_OR_-1205982231'), ('const-1024', u'INT_MULT_-1205975513'), (u'CALL_-1205973319', u'INDIRECT_-1205969397'), (u'INT_OR_-1205979054', u'INT_NEGATE_-1205979043'), (u'INT_OR_-1205978760', u'INT_ADD_-1205978763'), ('const-1024', u'INT_MULT_-1205988454'), ('const-2048', u'INT_MULT_-1205974715'), (u'INDIRECT_-1205969991', u'MULTIEQUAL_-1205968164'), (u'CALL_-1205972510', u'INDIRECT_-1205971231'), (u'STORE_-1205974159', u'INDIRECT_-1205970976'), (u'SUBPIECE_-1205968394', u'CAST_-1205967734'), ('const-1024', u'INT_MULT_-1205992756'), (u'INDIRECT_-1205968876', u'MULTIEQUAL_-1205968850'), (u'STORE_-1205973555', u'INDIRECT_-1205970746'), (u'INT_OR_-1205982245', u'INT_ADD_-1205981059'), (u'INT_ADD_-1205981252', u'INT_ADD_-1205981226'), (u'INDIRECT_-1205968416', u'MULTIEQUAL_-1205968404'), (u'INDIRECT_-1205968416', u'MULTIEQUAL_-1205968404'), (u'INT_MULT_-1205977921', u'INT_OR_-1205977924'), (u'STORE_-1205972768', u'INDIRECT_-1205971064'), (u'INT_ADD_-1205991731', u'INT_RIGHT_-1205991681'), (u'INT_ADD_-1205990518', u'INT_MULT_-1205990452'), (u'LOAD_-1205974285', u'INT_CARRY_-1205974227'), (u'LOAD_-1205974285', u'INT_ADD_-1205974227'), (u'CALL_-1205993328', u'INDIRECT_-1205975477'), (u'INT_ADD_-1205993242', u'CAST_-1205975025'), (u'STORE_-1205973763', u'INDIRECT_-1205969553'), (u'STORE_-1205972782', u'INDIRECT_-1205970350'), (u'MULTIEQUAL_-1205972529', u'INT_ADD_-1205974071'), (u'STORE_-1205972552', u'INDIRECT_-1205969985'), (u'STORE_-1205972643', u'INDIRECT_-1205970622'), (u'INT_ADD_-1205977520', u'INT_RIGHT_-1205977482'), (u'MULTIEQUAL_-1205972301', u'INT_RIGHT_-1205968014'), (u'INT_RIGHT_-1205991891', u'INT_OR_-1205991890'), (u'MULTIEQUAL_-1205968170', u'MULTIEQUAL_-1205970488'), ('const-27', u'INT_RIGHT_-1205975361'), (u'CAST_-1205968147', u'STORE_-1205974129'), (u'INT_NOTEQUAL_-1205973909', u'CBRANCH_-1205973907'), ('const-71', u'INT_ADD_-1205972538'), (u'INDIRECT_-1205970594', u'MULTIEQUAL_-1205970057'), (u'CALL_-1205972582', u'INDIRECT_-1205968997'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205977118'), (u'INDIRECT_-1205975596', u'MULTIEQUAL_-1205975597'), (u'INT_OR_-1205990742', u'INT_ADD_-1205989793'), (u'INT_OR_-1205987644', u'INT_XOR_-1205987476'), (u'INT_MULT_-1205989394', u'INT_OR_-1205989397'), (u'INT_RIGHT_-1205968038', u'SUBPIECE_-1205973386'), (u'INT_RIGHT_-1205981644', u'INT_OR_-1205981643'), ('const-16384', u'INT_MULT_-1205979387'), (u'STORE_-1205973597', u'INDIRECT_-1205970314'), ('const-8', u'INT_RIGHT_-1205968014'), (u'INT_OR_-1205983183', u'INT_ADD_-1205983186'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205982186'), ('const-96', u'INT_ADD_-1205974649'), (u'INDIRECT_-1205971025', u'MULTIEQUAL_-1205970975'), (u'STORE_-1205974129', u'INDIRECT_-1205970134'), (u'MULTIEQUAL_-1205968182', u'MULTIEQUAL_-1205972447'), ('const-21', u'PTRADD_-1205967630'), ('const-1024', u'INT_MULT_-1205979785'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205974817'), (u'CALL_-1205972510', u'INDIRECT_-1205968431'), (u'INT_MULT_-1205987561', u'INT_OR_-1205987564'), (u'INT_OR_-1205979368', u'INT_ADD_-1205979371'), (u'LOAD_-1205993280', u'INT_ADD_-1205992906'), (u'STORE_-1205973597', u'INDIRECT_-1205969302'), (u'INT_ADD_-1205991041', u'INT_MULT_-1205990901'), (u'STORE_-1205972724', u'INDIRECT_-1205970973'), (u'INT_ADD_-1205978815', u'INT_ADD_-1205978795'), (u'INT_ADD_-1205977859', u'INT_RIGHT_-1205977752'), (u'INT_ADD_-1205989468', u'INT_ADD_-1205989416'), (u'CALL_-1205973395', u'INDIRECT_-1205970074'), (u'INDIRECT_-1205968621', u'MULTIEQUAL_-1205968595'), (u'INDIRECT_-1205970634', u'MULTIEQUAL_-1205970623'), (u'INDIRECT_-1205969620', u'MULTIEQUAL_-1205968904'), (u'STORE_-1205973811', u'INDIRECT_-1205970767'), (u'MULTIEQUAL_-1205970746', u'COPY_-1205970881'), (u'STORE_-1205972571', u'INDIRECT_-1205969668'), (u'INT_ADD_-1205990123', u'INT_MULT_-1205989931'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968800'), (u'CALL_-1205972973', u'INDIRECT_-1205970354'), (u'STORE_-1205973424', u'INDIRECT_-1205971332'), (u'INDIRECT_-1205968297', u'MULTIEQUAL_-1205968285'), (u'INDIRECT_-1205968297', u'MULTIEQUAL_-1205968285'), (u'MULTIEQUAL_-1205970654', u'COPY_-1205970789'), (u'INDIRECT_-1205976777', u'MULTIEQUAL_-1205976703'), (u'INT_RIGHT_-1205988708', u'INT_OR_-1205988707'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205991011'), (u'INDIRECT_-1205969367', u'MULTIEQUAL_-1205969335'), (u'STORE_-1205973661', u'INDIRECT_-1205970250'), (u'STORE_-1205973534', u'INDIRECT_-1205970093'), (u'INT_ADD_-1205983501', u'INT_OR_-1205983484'), ('const-1859775393', u'INT_ADD_-1205984430'), ('tmp_55349', u'MULTIEQUAL_-1205975580'), (u'INT_OR_-1205991388', u'INT_ADD_-1205991167'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205980970'), (u'INT_XOR_-1205979276', u'INT_AND_-1205979229'), (u'STORE_-1205973739', u'INDIRECT_-1205971476'), (u'INT_OR_-1205992831', u'INT_NEGATE_-1205992790'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205988043'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205978197'), (u'INT_OR_-1205991194', u'INT_ADD_-1205991197'), (u'STORE_-1205973590', u'INDIRECT_-1205970217'), ('const-19', u'INT_RIGHT_-1205976365'), (u'INT_RIGHT_-1205989935', u'INT_OR_-1205989934'), (u'INT_ADD_-1205974227', u'STORE_-1205974161'), (u'STORE_-1205972643', u'INDIRECT_-1205969426'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205992191'), (u'STORE_-1205973576', u'INDIRECT_-1205969287'), (u'STORE_-1205973452', u'INDIRECT_-1205971168'), (u'INDIRECT_-1205970540', u'MULTIEQUAL_-1205970032'), (u'INT_ADD_-1205977206', u'INT_ADD_-1205977154'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971518'), (u'STORE_-1205973627', u'INDIRECT_-1205970788'), (u'STORE_-1205974526', u'INDIRECT_-1205969526'), ('const-22', u'INT_RIGHT_-1205992616'), (u'INT_ADD_-1205991275', u'INT_MULT_-1205991145'), (u'INT_XOR_-1205974984', u'INT_ADD_-1205974979'), (u'MULTIEQUAL_-1205968181', u'MULTIEQUAL_-1205971500'), ('const-1024', u'INT_MULT_-1205982630'), (u'STORE_-1205972789', u'INDIRECT_-1205968781'), (u'STORE_-1205974616', u'INDIRECT_-1205971503'), (u'INT_XOR_-1205983807', u'INT_ADD_-1205983792'), (u'CALL_-1205972994', u'INDIRECT_-1205970555'), (u'INT_OR_-1205977405', u'INT_XOR_-1205977397'), (u'INT_RIGHT_-1205975673', u'INT_OR_-1205975672'), (u'INT_RIGHT_-1205980839', u'INT_OR_-1205980838'), (u'STORE_-1205972655', u'INDIRECT_-1205969344'), ('const-4096', u'INT_MULT_-1205990452'), (u'INT_ADD_-1205987965', u'INT_ADD_-1205987793'), (u'INT_MULT_-1205986297', u'INT_OR_-1205986300'), (u'INT_ADD_-1205992566', u'INT_MULT_-1205992534'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205985300'), (u'INT_ADD_-1205991089', u'INT_ADD_-1205991079'), (u'INDIRECT_-1205968905', u'MULTIEQUAL_-1205968814'), ('const-22', u'INT_RIGHT_-1205985609'), (u'STORE_-1205972608', u'INDIRECT_-1205970839'), (u'INT_XOR_-1205987324', u'INT_ADD_-1205987319'), (u'CALL_-1205972994', u'INDIRECT_-1205968365'), ('const-2400959708', u'INT_ADD_-1205978123'), ('tmp_55343', u'MULTIEQUAL_-1205975478'), (u'INT_ADD_-1205976419', u'INT_RIGHT_-1205976167'), (u'INDIRECT_-1205970074', u'MULTIEQUAL_-1205969979'), (u'STORE_-1205974664', u'INDIRECT_-1205970708'), (u'STORE_-1205973811', u'INDIRECT_-1205970215'), (u'INDIRECT_-1205969471', u'MULTIEQUAL_-1205968159'), (u'INDIRECT_-1205970080', u'MULTIEQUAL_-1205969572'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205992654'), (u'MULTIEQUAL_-1205979433', u'CALL_-1205993328'), (u'INT_RIGHT_-1205978604', u'INT_OR_-1205978603'), (u'INT_ADD_-1205981059', u'INT_XOR_-1205980584'), (u'INT_XOR_-1205990387', u'INT_ADD_-1205990335'), (u'STORE_-1205974670', u'INDIRECT_-1205970253'), ('tmp_55391', u'MULTIEQUAL_-1205976611'), (u'INT_OR_-1205991530', u'INT_ADD_-1205991323'), (u'INT_ADD_-1205990715', u'INT_ADD_-1205990669'), (u'CALL_-1205974449', u'INDIRECT_-1205969896'), (u'INDIRECT_-1205970101', u'MULTIEQUAL_-1205970010'), (u'STORE_-1205973424', u'INDIRECT_-1205970044'), (u'INT_NEGATE_-1205977016', u'INT_OR_-1205976869'), (u'INT_MULT_-1205991463', u'INT_OR_-1205991466'), (u'INT_ADD_-1205975809', u'INT_XOR_-1205975716'), (u'INT_XOR_-1205976258', u'INT_XOR_-1205976222'), ('const-128', u'INT_MULT_-1205987097'), (u'INT_ADD_-1205987197', u'INT_ADD_-1205987177'), (u'INT_ADD_-1205990963', u'INT_MULT_-1205990833'), (u'INT_ADD_-1205990611', u'INT_OR_-1205990411'), (u'INT_OR_-1205975292', u'INT_XOR_-1205975150'), (u'STORE_-1205973811', u'INDIRECT_-1205970123'), (u'INDIRECT_-1205970653', u'MULTIEQUAL_-1205970562'), (u'MULTIEQUAL_-1205970124', u'COPY_-1205970238'), (u'CALL_-1205972582', u'INDIRECT_-1205969273'), (u'STORE_-1205974159', u'INDIRECT_-1205971620'), (u'CALL_-1205972510', u'INDIRECT_-1205968584'), (u'STORE_-1205973661', u'INDIRECT_-1205969238'), ('const-22', u'INT_RIGHT_-1205979029'), (u'INT_RIGHT_-1205976930', u'INT_OR_-1205976929'), (u'CALL_-1205974449', u'INDIRECT_-1205970632'), ('tmp_35177', u'CBRANCH_-1205973932'), (u'STORE_-1205974538', u'INDIRECT_-1205971468'), (u'INT_OR_-1205978896', u'INT_ADD_-1205978606'), (u'STORE_-1205972655', u'INDIRECT_-1205969436'), ('const-0', u'SUBPIECE_-1205973475'), (u'LOAD_-1205993413', u'MULTIEQUAL_-1205975410'), (u'STORE_-1205973695', u'INDIRECT_-1205970175'), ('const-22', u'INT_RIGHT_-1205983617'), (u'CALL_-1205972973', u'INDIRECT_-1205968297'), (u'LOAD_-1205992251', u'INT_LEFT_-1205991890'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205991663'), (u'INT_RIGHT_-1205967749', u'SUBPIECE_-1205971999'), (u'COPY_-1205968320', u'MULTIEQUAL_-1205969089'), (u'INDIRECT_-1205969089', u'MULTIEQUAL_-1205968998'), (u'STORE_-1205972649', u'INDIRECT_-1205968787'), (u'INT_XOR_-1205985794', u'INT_ADD_-1205985769'), (u'INT_XOR_-1205982259', u'INT_AND_-1205982206'), (u'INDIRECT_-1205970908', u'MULTIEQUAL_-1205970192'), (u'INT_ADD_-1205984652', u'INT_RIGHT_-1205984026'), (u'CALL_-1205972994', u'INDIRECT_-1205968297'), (u'LOAD_-1205992207', u'INT_ADD_-1205974827'), (u'INDIRECT_-1205968899', u'MULTIEQUAL_-1205968812'), (u'STORE_-1205973424', u'INDIRECT_-1205970872'), (u'INDIRECT_-1205970022', u'MULTIEQUAL_-1205969972'), (u'INDIRECT_-1205971828', u'MULTIEQUAL_-1205971320'), (u'INT_OR_-1205990104', u'INT_XOR_-1205990046'), ('const-22', u'INT_RIGHT_-1205991713'), ('const-22', u'INT_RIGHT_-1205987925'), (u'INT_ADD_-1205987439', u'INT_MULT_-1205987281'), (u'STORE_-1205972782', u'INDIRECT_-1205970074'), (u'INT_EQUAL_-1205974349', u'MULTIEQUAL_-1205971887'), (u'STORE_-1205972666', u'INDIRECT_-1205969480'), (u'INDIRECT_-1205969712', u'MULTIEQUAL_-1205969013'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970542'), (u'INT_OR_-1205989045', u'INT_ADD_-1205988576'), (u'STORE_-1205973590', u'INDIRECT_-1205969297'), (u'INDIRECT_-1205970756', u'MULTIEQUAL_-1205970669'), (u'STORE_-1205972655', u'INDIRECT_-1205969528'), (u'INDIRECT_-1205970031', u'MULTIEQUAL_-1205969981'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970809'), (u'INT_ADD_-1205967879', u'INT_ADD_-1205972652'), (u'CALL_-1205972973', u'INDIRECT_-1205970906'), ('const-1836072691', u'INT_ADD_-1205983655'), (u'INT_MULT_-1205984174', u'INT_OR_-1205984177'), (u'CAST_-1205967887', u'INT_ADD_-1205973431'), (u'INT_ADD_-1205991353', u'INT_XOR_-1205991328'), (u'STORE_-1205974161', u'INDIRECT_-1205969873'), (u'STORE_-1205973787', u'INDIRECT_-1205971218'), (u'CALL_-1205972994', u'INDIRECT_-1205968484'), (u'INT_ADD_-1205982140', u'INT_RIGHT_-1205982106'), (u'STORE_-1205973695', u'INDIRECT_-1205970359'), (u'CALL_-1205972582', u'INDIRECT_-1205968813'), (u'CALL_-1205973026', u'INDIRECT_-1205970940'), (u'INT_ADD_-1205984060', u'INT_NEGATE_-1205983715'), ('const-417', u'STORE_-1205974159'), (u'INT_XOR_-1205974842', u'INT_ADD_-1205974807'), ('const-0', u'RETURN_-1205974452'), (u'INT_MULT_-1205991301', u'INT_OR_-1205991304'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205987783'), (u'MULTIEQUAL_-1205972301', u'INT_RIGHT_-1205973465'), (u'INT_NEGATE_-1205984208', u'INT_OR_-1205984043'), (u'INT_XOR_-1205988445', u'INT_AND_-1205988390'), (u'INT_ADD_-1205976003', u'INT_MULT_-1205975819'), (u'STORE_-1205972840', u'INDIRECT_-1205971107'), (u'STORE_-1205972782', u'INDIRECT_-1205969430'), (u'INDIRECT_-1205970777', u'MULTIEQUAL_-1205970717'), (u'CALL_-1205972582', u'INDIRECT_-1205971021'), (u'INT_XOR_-1205992427', u'INT_ADD_-1205992386'), (u'STORE_-1205974538', u'INDIRECT_-1205971836'), ('const-62', u'INT_NOTEQUAL_-1205972842'), ('const-16384', u'INT_MULT_-1205991601'), (u'INT_MULT_-1205992276', u'INT_OR_-1205992279'), (u'STORE_-1205974161', u'INDIRECT_-1205970793'), (u'INT_MULT_-1205976782', u'INT_OR_-1205976785'), (u'CALL_-1205972582', u'INDIRECT_-1205968721'), (u'INT_OR_-1205979559', u'INT_ADD_-1205979562'), ('const-2053994217', u'INT_ADD_-1205979739'), (u'LOAD_-1205973260', u'INT_EQUAL_-1205973241'), (u'INT_ADD_-1205988412', u'INT_RIGHT_-1205987925'), (u'INDIRECT_-1205969196', u'COPY_-1205969252'), (u'STORE_-1205974152', u'INDIRECT_-1205971707'), (u'INT_XOR_-1205991402', u'INT_ADD_-1205991381'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205975093'), (u'INDIRECT_-1205970693', u'MULTIEQUAL_-1205970644'), (u'INT_ADD_-1205982423', u'INT_RIGHT_-1205982362'), (u'MULTIEQUAL_-1205968163', u'MULTIEQUAL_-1205969844'), (u'CALL_-1205972994', u'INDIRECT_-1205968348'), (u'INDIRECT_-1205969116', u'MULTIEQUAL_-1205969090'), (u'INDIRECT_-1205968997', u'MULTIEQUAL_-1205968906'), (u'INT_NOTEQUAL_-1205973884', u'CBRANCH_-1205973880'), (u'INDIRECT_-1205978065', u'INT_ADD_-1205981860'), ('const-19', u'INT_RIGHT_-1205983774'), (u'INT_OR_-1205976198', u'INT_ADD_-1205974927'), (u'INT_AND_-1205988390', u'INT_XOR_-1205988284'), (u'INT_ADD_-1205968321', u'INT_ADD_-1205974115'), (u'INDIRECT_-1205969884', u'MULTIEQUAL_-1205969873'), (u'INT_OR_-1205990525', u'INT_XOR_-1205990475'), (u'STORE_-1205974550', u'INDIRECT_-1205970006'), ('const-4', u'PTRADD_-1205968337'), (u'STORE_-1205972840', u'INDIRECT_-1205969543'), (u'INT_ADD_-1205986893', u'INT_ADD_-1205986873'), (u'INT_OR_-1205991304', u'INT_ADD_-1205991119'), (u'INT_ADD_-1205991867', u'INT_ADD_-1205991799'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205976665'), (u'CALL_-1205973395', u'INDIRECT_-1205968739'), (u'INT_MULT_-1205986604', u'INT_OR_-1205986607'), (u'INT_ADD_-1205980867', u'INT_MULT_-1205980835'), ('const-4', u'PTRADD_-1205967625'), (u'INT_ADD_-1205989905', u'INT_RIGHT_-1205989586'), ('const-19', u'INT_RIGHT_-1205987565'), ('const-22', u'INT_RIGHT_-1205975823'), (u'CALL_-1205972994', u'INDIRECT_-1205968603'), (u'CALL_-1205973026', u'INDIRECT_-1205970480'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205993258'), (u'INDIRECT_-1205969917', u'MULTIEQUAL_-1205969826'), (u'INT_ADD_-1205984222', u'INT_NEGATE_-1205983751'), (u'INDIRECT_-1205970403', u'MULTIEQUAL_-1205970799'), (u'INT_ADD_-1205982332', u'INT_NEGATE_-1205981964'), ('const-88', u'INT_ADD_-1205992157'), (u'INT_ADD_-1205987679', u'INT_MULT_-1205987561'), (u'STORE_-1205972757', u'INDIRECT_-1205971055'), (u'INT_ADD_-1205975809', u'INT_MULT_-1205975669'), (u'INT_RIGHT_-1205986098', u'INT_OR_-1205986097'), ('tmp_55411', u'MULTIEQUAL_-1205978451'), (u'CALL_-1205972510', u'INDIRECT_-1205968931'), (u'INT_XOR_-1205989453', u'INT_ADD_-1205989416'), (u'STORE_-1205972713', u'INDIRECT_-1205969648'), (u'MULTIEQUAL_-1205972061', u'INT_NOTEQUAL_-1205972867'), (u'INT_MULT_-1205975601', u'INT_OR_-1205975604'), (u'STORE_-1205973859', u'INDIRECT_-1205970969'), (u'INT_ADD_-1205992050', u'INT_ADD_-1205991995'), (u'CALLIND_-1205972613', u'INDIRECT_-1205967828'), ('const-1024', u'INT_MULT_-1205980531'), ('const-64', u'INT_MULT_-1205979009'), (u'INT_ADD_-1205975867', u'INT_ADD_-1205975847'), ('const-1024', u'INT_MULT_-1205989110'), ('const-1024', u'INT_MULT_-1205984989'), (u'INT_XOR_-1205987476', u'INT_ADD_-1205987439'), (u'INT_ADD_-1205976325', u'INT_RIGHT_-1205976017'), (u'INT_MULT_-1205992158', u'INT_OR_-1205992161'), (u'STORE_-1205973438', u'INDIRECT_-1205970330'), (u'INDIRECT_-1205969439', u'MULTIEQUAL_-1205968158'), (u'STORE_-1205972649', u'INDIRECT_-1205969799'), ('const-417', u'STORE_-1205974676'), (u'STORE_-1205973410', u'INDIRECT_-1205969574'), (u'CALL_-1205993328', u'INDIRECT_-1205975630'), ('const-417', u'STORE_-1205974682'), (u'INT_XOR_-1205980918', u'INT_ADD_-1205980867'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205990428'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205977896'), ('const-417', u'STORE_-1205973410'), (u'INDIRECT_-1205968638', u'MULTIEQUAL_-1205968612'), (u'INT_ADD_-1205989839', u'INT_ADD_-1205989803'), (u'INT_OR_-1205990342', u'INT_XOR_-1205990258'), (u'COPY_-1205968312', u'MULTIEQUAL_-1205967763'), (u'INDIRECT_-1205969376', u'MULTIEQUAL_-1205969289'), (u'INT_ADD_-1205981708', u'INT_ADD_-1205981688'), (u'INT_ADD_-1205977092', u'INT_ADD_-1205977072'), (u'STORE_-1205972729', u'INDIRECT_-1205970029'), (u'STORE_-1205973555', u'INDIRECT_-1205969642'), (u'INT_OR_-1205983893', u'INT_ADD_-1205983517'), (u'INT_XOR_-1205992085', u'INT_ADD_-1205991995'), (u'LOAD_-1205993258', u'INT_OR_-1205993047'), (u'STORE_-1205973634', u'INDIRECT_-1205970609'), (u'STORE_-1205973452', u'INDIRECT_-1205971076'), (u'INT_OR_-1205982057', u'INT_ADD_-1205981798'), (u'INT_ADD_-1205991001', u'INT_RIGHT_-1205990961'), (u'INT_ADD_-1205992556', u'INT_ADD_-1205992510'), (u'INDIRECT_-1205970647', u'MULTIEQUAL_-1205970560'), (u'STORE_-1205973445', u'INDIRECT_-1205969415'), (u'STORE_-1205974538', u'INDIRECT_-1205969996'), (u'MULTIEQUAL_-1205968179', u'MULTIEQUAL_-1205971316'), (u'STORE_-1205973661', u'INDIRECT_-1205970894'), (u'INT_ADD_-1205976788', u'INT_MULT_-1205976766'), (u'INT_ADD_-1205974937', u'INT_ADD_-1205974927'), (u'INT_OR_-1205991890', u'INT_ADD_-1205991581'), (u'INT_RIGHT_-1205992832', u'INT_OR_-1205992831'), (u'STORE_-1205972757', u'INDIRECT_-1205969307'), (u'INT_RIGHT_-1205987447', u'INT_OR_-1205987446'), (u'INT_ADD_-1205990458', u'INT_MULT_-1205989330'), (u'MULTIEQUAL_-1205972282', u'INT_RIGHT_-1205968029'), (u'INT_ADD_-1205991925', u'INT_OR_-1205991824'), (u'INDIRECT_-1205968757', u'MULTIEQUAL_-1205968772'), ('const-1836072691', u'INT_ADD_-1205984562'), ('const-256', u'INT_MULT_-1205984216'), (u'INT_OR_-1205986607', u'INT_ADD_-1205986610'), ('const-24', u'INT_RIGHT_-1205984650'), (u'INDIRECT_-1205969497', u'MULTIEQUAL_-1205969448'), (u'STORE_-1205973417', u'INDIRECT_-1205969763'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976984'), ('tmp_55394', u'MULTIEQUAL_-1205976887'), ('const-22', u'INT_RIGHT_-1205983078'), (u'INDIRECT_-1205969133', u'MULTIEQUAL_-1205969059'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970892'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205981865'), (u'CALL_-1205972582', u'INDIRECT_-1205968905'), (u'STORE_-1205972608', u'INDIRECT_-1205969367'), (u'INT_OR_-1205975058', u'INT_XOR_-1205975014'), ('const-8192', u'INT_MULT_-1205982326'), (u'STORE_-1205973583', u'INDIRECT_-1205971316'), (u'INT_RIGHT_-1205983142', u'INT_OR_-1205983141'), (u'INT_MULT_-1205990029', u'INT_OR_-1205990032'), (u'INT_RIGHT_-1205974945', u'INT_OR_-1205974944'), (u'INT_ADD_-1205986507', u'INT_RIGHT_-1205985853'), (u'INT_AND_-1205979197', u'INT_XOR_-1205979168'), (u'STORE_-1205972662', u'INDIRECT_-1205969257'), ('const-1', u'PTRADD_-1205967985'), (u'STORE_-1205973424', u'INDIRECT_-1205970320'), (u'PTRADD_-1205973544', u'STORE_-1205973604'), ('const-417', u'STORE_-1205972552'), (u'INT_OR_-1205989547', u'INT_ADD_-1205989550'), (u'STORE_-1205973431', u'INDIRECT_-1205971245'), (u'INDIRECT_-1205969526', u'COPY_-1205969583'), ('const-1859775393', u'INT_ADD_-1205982530'), ('const-25', u'INT_RIGHT_-1205990197'), ('const-72380', u'COPY_-1205974456'), (u'INT_ADD_-1205989210', u'INT_XOR_-1205989023'), (u'LOAD_-1205993280', u'INT_NEGATE_-1205993245'), (u'INT_OR_-1205984291', u'INT_XOR_-1205984243'), (u'INDIRECT_-1205970814', u'COPY_-1205970871'), (u'INT_MULT_-1205984488', u'INT_OR_-1205984491'), (u'INT_OR_-1205979836', u'INT_ADD_-1205979393'), (u'INDIRECT_-1205970668', u'COPY_-1205970724'), (u'INT_OR_-1205987148', u'INT_AND_-1205987023'), ('const-21', u'INT_RIGHT_-1205992776'), (u'INDIRECT_-1205970724', u'MULTIEQUAL_-1205970025'), (u'MULTIEQUAL_-1205968156', u'MULTIEQUAL_-1205969200'), (u'INT_OR_-1205983053', u'INT_XOR_-1205983019'), (u'INT_OR_-1205985273', u'INT_XOR_-1205985255'), (u'INT_ADD_-1205989426', u'INT_RIGHT_-1205989366'), ('const-128', u'INT_MULT_-1205990193'), (u'INT_XOR_-1205982801', u'INT_ADD_-1205982796'), (u'STORE_-1205973410', u'INDIRECT_-1205970770'), (u'INDIRECT_-1205969113', u'MULTIEQUAL_-1205968489'), (u'INDIRECT_-1205971052', u'MULTIEQUAL_-1205971002'), (u'INT_RIGHT_-1205990001', u'INT_OR_-1205990000'), (u'INT_OR_-1205980617', u'INT_ADD_-1205980219'), (u'INT_ADD_-1205981978', u'INT_MULT_-1205981946'), (u'MULTIEQUAL_-1205970562', u'COPY_-1205970697'), (u'INT_AND_-1205988079', u'INT_XOR_-1205988064'), (u'INT_XOR_-1205987516', u'INT_ADD_-1205987501'), (u'INT_ADD_-1205979807', u'INT_XOR_-1205979531'), (u'SUBPIECE_-1205968394', u'CAST_-1205967876'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968285'), (u'INDIRECT_-1205970727', u'MULTIEQUAL_-1205968172'), (u'INDIRECT_-1205969777', u'MULTIEQUAL_-1205969703'), (u'INT_MULT_-1205975413', u'INT_OR_-1205975416'), (u'INT_MULT_-1205978060', u'INT_OR_-1205978063'), (u'STORE_-1205973445', u'INDIRECT_-1205971347'), (u'STORE_-1205972670', u'INDIRECT_-1205969907'), (u'MULTIEQUAL_-1205972249', u'INT_ADD_-1205973279'), (u'INT_ADD_-1205984979', u'INT_ADD_-1205984949'), (u'INT_MULT_-1205987233', u'INT_OR_-1205987236'), (u'INT_ADD_-1205975575', u'INT_XOR_-1205975540'), (u'STORE_-1205972713', u'INDIRECT_-1205969372'), ('const-22', u'INT_RIGHT_-1205982272'), (u'INT_MULT_-1205986078', u'INT_OR_-1205986081'), (u'INT_ADD_-1205978763', u'INT_XOR_-1205978591'), (u'CALL_-1205972582', u'INDIRECT_-1205970101'), (u'STORE_-1205973555', u'INDIRECT_-1205969918'), (u'INT_ADD_-1205984532', u'INT_MULT_-1205984510'), ('const-64', u'INT_MULT_-1205990117'), (u'STORE_-1205973811', u'INDIRECT_-1205969755'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971453'), (u'INT_ADD_-1205985997', u'INT_ADD_-1205985987'), (u'STORE_-1205974544', u'INDIRECT_-1205969817'), ('tmp_35273', u'CBRANCH_-1205973880'), (u'INDIRECT_-1205968994', u'MULTIEQUAL_-1205968675'), (u'STORE_-1205973787', u'INDIRECT_-1205970574'), (u'STORE_-1205973811', u'INDIRECT_-1205971319'), (u'PTRADD_-1205968286', u'STORE_-1205974159'), (u'INT_MULT_-1205992462', u'INT_OR_-1205992465'), (u'CALL_-1205972994', u'INDIRECT_-1205969543'), (u'INT_MULT_-1205975289', u'INT_OR_-1205975292'), (u'MULTIEQUAL_-1205969055', u'MULTIEQUAL_-1205968862'), (u'INT_ADD_-1205980345', u'INT_MULT_-1205980287'), ('const-4', u'PTRADD_-1205967575'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969245'), (u'INT_ADD_-1205978503', u'INT_RIGHT_-1205978316'), (u'STORE_-1205972789', u'INDIRECT_-1205969793'), ('const-256', u'INT_MULT_-1205975569'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969218'), (u'STORE_-1205972757', u'INDIRECT_-1205970595'), (u'INT_ADD_-1205982332', u'INT_MULT_-1205980953'), (u'CALL_-1205974449', u'INDIRECT_-1205970448'), (u'INT_RIGHT_-1205991195', u'INT_OR_-1205991194'), ('const-1', u'PTRADD_-1205973703'), (u'STORE_-1205973859', u'INDIRECT_-1205970877'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970607'), (u'CALL_-1205972994', u'INDIRECT_-1205970739'), (u'INT_OR_-1205975672', u'INT_ADD_-1205975477'), (u'INT_OR_-1205975328', u'INT_ADD_-1205975029'), (u'INT_ADD_-1205975029', u'INT_XOR_-1205974852'), (u'INT_XOR_-1205984243', u'INT_ADD_-1205984238'), ('const-417', u'STORE_-1205973445'), (u'INT_OR_-1205987852', u'INT_XOR_-1205987736'), (u'STORE_-1205972782', u'INDIRECT_-1205970258'), (u'INT_MULT_-1205987921', u'INT_OR_-1205987924'), (u'STORE_-1205973431', u'INDIRECT_-1205969221'), (u'INDIRECT_-1205971422', u'MULTIEQUAL_-1205970885'), (u'INT_RIGHT_-1205981428', u'INT_OR_-1205981427'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986194'), (u'STORE_-1205972729', u'INDIRECT_-1205970581'), (u'LOAD_-1205992219', u'INT_ADD_-1205974684'), (u'INT_OR_-1205987852', u'INT_ADD_-1205987287'), ('const-128', u'INT_MULT_-1205981053'), (u'STORE_-1205973417', u'INDIRECT_-1205971327'), (u'INT_ADD_-1205977792', u'INT_MULT_-1205977764'), (u'INDIRECT_-1205968450', u'MULTIEQUAL_-1205968438'), (u'INDIRECT_-1205968450', u'MULTIEQUAL_-1205968438'), (u'INT_OR_-1205982751', u'INT_ADD_-1205980610'), (u'INDIRECT_-1205970620', u'MULTIEQUAL_-1205970609'), ('tmp_55342', u'MULTIEQUAL_-1205975461'), (u'STORE_-1205972561', u'INDIRECT_-1205971002'), (u'INT_RIGHT_-1205980190', u'INT_OR_-1205980189'), (u'INDIRECT_-1205975460', u'MULTIEQUAL_-1205975461'), ('const-1', u'INT_ADD_-1205973781'), (u'INDIRECT_-1205969130', u'MULTIEQUAL_-1205968811'), (u'PTRADD_-1205967985', u'MULTIEQUAL_-1205972233'), (u'CALL_-1205972994', u'INDIRECT_-1205968739'), (u'INT_RIGHT_-1205991117', u'INT_OR_-1205991116'), (u'INDIRECT_-1205969424', u'MULTIEQUAL_-1205969413'), (u'STORE_-1205972757', u'INDIRECT_-1205970687'), ('const-8192', u'INT_MULT_-1205990957'), (u'STORE_-1205974682', u'INDIRECT_-1205969987'), (u'INT_MULT_-1205989544', u'INT_OR_-1205989547'), (u'INT_ADD_-1205977242', u'INT_RIGHT_-1205977214'), ('const-32', u'INT_MULT_-1205976319'), (u'INT_OR_-1205991838', u'INT_NEGATE_-1205990815'), (u'INDIRECT_-1205971216', u'MULTIEQUAL_-1205971129'), (u'INT_ADD_-1205975809', u'INT_RIGHT_-1205975673'), (u'INT_XOR_-1205987072', u'INT_AND_-1205987023'), (u'STORE_-1205974544', u'INDIRECT_-1205971565'), (u'INT_ADD_-1205975731', u'INT_XOR_-1205975638'), (u'STORE_-1205974616', u'INDIRECT_-1205970491'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970616'), (u'STORE_-1205972608', u'INDIRECT_-1205971023'), (u'INT_OR_-1205985323', u'INT_ADD_-1205984876'), (u'INDIRECT_-1205970463', u'MULTIEQUAL_-1205970376'), (u'INT_ADD_-1205985121', u'INT_MULT_-1205985099'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971150'), (u'INDIRECT_-1205971552', u'MULTIEQUAL_-1205970836'), (u'INT_RIGHT_-1205980770', u'INT_OR_-1205980769'), (u'INDIRECT_-1205970838', u'MULTIEQUAL_-1205970794'), (u'COPY_-1205968332', u'MULTIEQUAL_-1205968930'), (u'INT_RIGHT_-1205991781', u'INT_OR_-1205991780'), ('const-21', u'INT_RIGHT_-1205987999'), ('const-1024', u'INT_MULT_-1205980766'), (u'INT_RIGHT_-1205984921', u'INT_OR_-1205984920'), (u'INDIRECT_-1205968994', u'MULTIEQUAL_-1205968353'), (u'INDIRECT_-1205970421', u'MULTIEQUAL_-1205970347'), (u'MULTIEQUAL_-1205970194', u'COPY_-1205970329'), (u'STORE_-1205973438', u'INDIRECT_-1205971158'), (u'INDIRECT_-1205968586', u'MULTIEQUAL_-1205968574'), (u'INDIRECT_-1205968586', u'MULTIEQUAL_-1205968574'), (u'INT_MULT_-1205992958', u'INT_OR_-1205992961'), (u'INT_MULT_-1205983912', u'INT_OR_-1205983915'), (u'INT_OR_-1205990836', u'INT_ADD_-1205990490'), (u'INT_MULT_-1205988131', u'INT_OR_-1205988134'), (u'MULTIEQUAL_-1205968169', u'MULTIEQUAL_-1205970396'), (u'INT_XOR_-1205986039', u'INT_ADD_-1205986034'), (u'INDIRECT_-1205969254', u'MULTIEQUAL_-1205969243'), (u'STORE_-1205972649', u'INDIRECT_-1205969431'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971536'), ('const-18', u'INT_RIGHT_-1205990609'), (u'CALL_-1205974449', u'INDIRECT_-1205970356'), (u'INDIRECT_-1205969961', u'MULTIEQUAL_-1205969887'), (u'INT_XOR_-1205975202', u'INT_ADD_-1205975197'), (u'STORE_-1205974526', u'INDIRECT_-1205970354'), (u'INDIRECT_-1205969858', u'MULTIEQUAL_-1205969787'), ('tmp_55395', u'MULTIEQUAL_-1205976979'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969972'), (u'INT_ADD_-1205974753', u'STORE_-1205974670'), (u'INT_ADD_-1205991443', u'INT_MULT_-1205991301'), ('const-22', u'INT_RIGHT_-1205982389'), ('const-16384', u'INT_MULT_-1205976179'), (u'INDIRECT_-1205970839', u'MULTIEQUAL_-1205970807'), (u'INT_RIGHT_-1205991697', u'INT_OR_-1205991696'), (u'INT_MULT_-1205988518', u'INT_OR_-1205988521'), (u'CALL_-1205972582', u'INDIRECT_-1205968510'), (u'STORE_-1205974161', u'INDIRECT_-1205969505'), (u'COPY_-1205968320', u'MULTIEQUAL_-1205968574'), (u'INT_MULT_-1205978534', u'INT_OR_-1205978537'), (u'STORE_-1205972655', u'INDIRECT_-1205970264'), (u'INT_OR_-1205983314', u'INT_ADD_-1205982936'), (u'STORE_-1205974616', u'INDIRECT_-1205971319'), (u'CALL_-1205993328', u'INDIRECT_-1205975409'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969678'), (u'INT_RIGHT_-1205968014', u'SUBPIECE_-1205973351'), ('const-67', u'INT_ADD_-1205973431'), (u'STORE_-1205972840', u'INDIRECT_-1205970647'), (u'INT_ADD_-1205992980', u'INT_RIGHT_-1205992962'), ('const-7', u'PTRADD_-1205973516'), (u'INDIRECT_-1205970226', u'MULTIEQUAL_-1205970155'), ('const-1024', u'INT_MULT_-1205979051'), (u'INT_ADD_-1205985300', u'INT_ADD_-1205985270'), ('const-8192', u'INT_MULT_-1205983333'), (u'STORE_-1205972637', u'INDIRECT_-1205969053'), (u'INT_ADD_-1205976581', u'INT_XOR_-1205976482'), (u'SUBPIECE_-1205968394', u'INT_EQUAL_-1205974380'), (u'INT_OR_-1205989934', u'INT_XOR_-1205989890'), (u'INT_ADD_-1205989550', u'INT_AND_-1205989492'), (u'INDIRECT_-1205970114', u'MULTIEQUAL_-1205970064'), (u'INDIRECT_-1205970819', u'MULTIEQUAL_-1205968173'), (u'INDIRECT_-1205975443', u'MULTIEQUAL_-1205975444'), (u'STORE_-1205973597', u'INDIRECT_-1205971142'), ('const-2048', u'INT_MULT_-1205982102'), (u'STORE_-1205973787', u'INDIRECT_-1205969746'), (u'INDIRECT_-1205968652', u'MULTIEQUAL_-1205969123'), (u'INDIRECT_-1205970902', u'MULTIEQUAL_-1205970809'), (u'INT_RIGHT_-1205979369', u'INT_OR_-1205979368'), (u'CALL_-1205973395', u'INDIRECT_-1205968586'), (u'STORE_-1205972724', u'INDIRECT_-1205969777'), (u'INT_ADD_-1205985031', u'INT_OR_-1205984962'), (u'INT_ADD_-1205989400', u'INT_AND_-1205989168'), (u'INDIRECT_-1205970134', u'MULTIEQUAL_-1205970063'), (u'INT_ADD_-1205977458', u'INT_RIGHT_-1205977430'), (u'INT_ADD_-1205985204', u'INT_NEGATE_-1205985007'), (u'INDIRECT_-1205968721', u'MULTIEQUAL_-1205968630'), (u'PTRADD_-1205973530', u'STORE_-1205973590'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970212'), (u'INDIRECT_-1205969121', u'MULTIEQUAL_-1205969020'), (u'STORE_-1205972530', u'INDIRECT_-1205969792'), (u'INT_ADD_-1205986173', u'INT_ADD_-1205986163'), (u'STORE_-1205972729', u'INDIRECT_-1205970305'), (u'INT_ADD_-1205975691', u'INT_MULT_-1205975647'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205991417'), (u'STORE_-1205974129', u'INDIRECT_-1205971698'), (u'STORE_-1205972552', u'INDIRECT_-1205970169'), (u'INT_OR_-1205986932', u'INT_AND_-1205986877'), (u'INDIRECT_-1205969858', u'MULTIEQUAL_-1205969321'), (u'INT_ADD_-1205988199', u'INT_ADD_-1205988169'), (u'STORE_-1205973811', u'INDIRECT_-1205971411'), (u'INT_ADD_-1205990273', u'INT_ADD_-1205990237'), (u'INDIRECT_-1205969950', u'MULTIEQUAL_-1205969690'), (u'INT_MULT_-1205975725', u'INT_OR_-1205975728'), (u'STORE_-1205973739', u'INDIRECT_-1205970556'), ('const-23', u'INT_RIGHT_-1205992962'), (u'STORE_-1205973835', u'INDIRECT_-1205970684'), (u'INDIRECT_-1205969195', u'MULTIEQUAL_-1205968156'), (u'MULTIEQUAL_-1205972282', u'INT_RIGHT_-1205968043'), (u'STORE_-1205972530', u'INDIRECT_-1205970620'), (u'INT_OR_-1205984962', u'INT_XOR_-1205984954'), (u'CALL_-1205974449', u'INDIRECT_-1205970172'), (u'STORE_-1205974152', u'INDIRECT_-1205970787'), (u'INT_ADD_-1205980433', u'INT_ADD_-1205980345'), ('const-24', u'INT_RIGHT_-1205991273'), (u'INDIRECT_-1205970496', u'MULTIEQUAL_-1205970470'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205989294'), (u'INDIRECT_-1205969020', u'MULTIEQUAL_-1205968967'), (u'INT_ADD_-1205987793', u'INT_RIGHT_-1205987765'), (u'INDIRECT_-1205969490', u'MULTIEQUAL_-1205968953'), (u'STORE_-1205972768', u'INDIRECT_-1205969316'), (u'INDIRECT_-1205969636', u'MULTIEQUAL_-1205969586'), (u'INT_MULT_-1205989997', u'INT_OR_-1205990000'), (u'CALL_-1205972582', u'INDIRECT_-1205968170'), (u'INT_ADD_-1205983964', u'INT_ADD_-1205983954'), (u'INT_ADD_-1205976419', u'INT_XOR_-1205976258'), (u'INDIRECT_-1205971460', u'MULTIEQUAL_-1205970761'), (u'INT_OR_-1205991060', u'INT_XOR_-1205991026'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205989321'), (u'STORE_-1205972530', u'INDIRECT_-1205970528'), ('const-22', u'INT_RIGHT_-1205992466'), ('const-20', u'INT_RIGHT_-1205990456'), (u'INT_OR_-1205977043', u'INT_ADD_-1205977046'), (u'STORE_-1205972608', u'INDIRECT_-1205969827'), ('const-1024', u'INT_MULT_-1205974550'), ('const-2048', u'INT_MULT_-1205991777'), (u'INDIRECT_-1205971237', u'MULTIEQUAL_-1205971177'), (u'INT_OR_-1205993087', u'INT_ADD_-1205993090'), (u'INT_ADD_-1205982332', u'INT_RIGHT_-1205980957'), (u'INT_ADD_-1205975597', u'INT_MULT_-1205975569'), (u'INT_AND_-1205980369', u'INT_XOR_-1205980330'), ('const-22', u'INT_RIGHT_-1205977710'), ('const-417', u'STORE_-1205973661'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205979213'), (u'STORE_-1205973787', u'INDIRECT_-1205970850'), (u'STORE_-1205974532', u'INDIRECT_-1205971555'), (u'INDIRECT_-1205970133', u'MULTIEQUAL_-1205970032'), (u'STORE_-1205973695', u'INDIRECT_-1205970451'), (u'INT_RIGHT_-1205985751', u'INT_OR_-1205985750'), (u'INT_XOR_-1205991422', u'INT_XOR_-1205991402'), (u'CALL_-1205973395', u'INDIRECT_-1205968654'), (u'STORE_-1205974544', u'INDIRECT_-1205970001'), (u'STORE_-1205974159', u'INDIRECT_-1205971068'), ('const-22', u'INT_RIGHT_-1205975751'), (u'INT_OR_-1205976306', u'INT_ADD_-1205975961'), (u'INT_RIGHT_-1205975807', u'INT_OR_-1205975806'), ('const-4096', u'INT_MULT_-1205987281'), (u'INDIRECT_-1205970080', u'MULTIEQUAL_-1205969364'), ('const-18', u'INT_RIGHT_-1205980190'), (u'INT_MULT_-1205991957', u'INT_OR_-1205991960'), (u'STORE_-1205974544', u'INDIRECT_-1205970553'), (u'STORE_-1205974616', u'INDIRECT_-1205971871'), (u'INT_ADD_-1205992980', u'INT_MULT_-1205992958'), (u'INT_XOR_-1205974994', u'INT_ADD_-1205974969'), (u'INT_OR_-1205975604', u'INT_ADD_-1205975419'), (u'STORE_-1205972561', u'INDIRECT_-1205968886'), ('tmp_55403', u'MULTIEQUAL_-1205977715'), ('const-22', u'INT_RIGHT_-1205985853'), (u'CAST_-1205974612', u'LOAD_-1205992207'), (u'INT_OR_-1205986807', u'INT_ADD_-1205986610'), (u'INDIRECT_-1205971237', u'MULTIEQUAL_-1205971136'), (u'INT_RIGHT_-1205977214', u'INT_OR_-1205977213'), (u'STORE_-1205973634', u'INDIRECT_-1205970149'), (u'STORE_-1205973811', u'INDIRECT_-1205971503'), (u'STORE_-1205973661', u'INDIRECT_-1205970342'), (u'INT_XOR_-1205991338', u'INT_XOR_-1205991328'), (u'INT_ADD_-1205983253', u'INT_ADD_-1205983223'), (u'STORE_-1205972735', u'INDIRECT_-1205971046'), (u'STORE_-1205974616', u'INDIRECT_-1205970307'), (u'INDIRECT_-1205970502', u'MULTIEQUAL_-1205969965'), (u'SUBPIECE_-1205968394', u'LOAD_-1205973565'), (u'INDIRECT_-1205971420', u'MULTIEQUAL_-1205971370'), (u'PTRADD_-1205967575', u'STORE_-1205972643'), (u'INT_RIGHT_-1205976365', u'INT_OR_-1205976364'), (u'CALL_-1205974449', u'INDIRECT_-1205968909'), (u'INT_XOR_-1205974832', u'INT_ADD_-1205974781'), (u'STORE_-1205972666', u'INDIRECT_-1205971136'), (u'STORE_-1205973835', u'INDIRECT_-1205970224'), (u'INDIRECT_-1205969581', u'MULTIEQUAL_-1205969521'), (u'INT_OR_-1205983141', u'INT_XOR_-1205983009'), (u'STORE_-1205972571', u'INDIRECT_-1205968840'), (u'MULTIEQUAL_-1205972282', u'SUBPIECE_-1205973379'), (u'INT_MULT_-1205974550', u'INT_OR_-1205974553'), (u'INDIRECT_-1205968740', u'MULTIEQUAL_-1205968755'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205985997'), ('const-25', u'INT_RIGHT_-1205985719'), (u'INT_ADD_-1205975419', u'INT_XOR_-1205975316'), (u'STORE_-1205973763', u'INDIRECT_-1205970565'), (u'SUBPIECE_-1205968394', u'CAST_-1205968148'), (u'INDIRECT_-1205970003', u'MULTIEQUAL_-1205969916'), (u'STORE_-1205972789', u'INDIRECT_-1205969977'), (u'INT_ADD_-1205992500', u'INT_MULT_-1205992478'), ('const-1548603684', u'INT_ADD_-1205986173'), (u'INT_RIGHT_-1205980957', u'INT_OR_-1205980956'), ('const-417', u'STORE_-1205973835'), (u'STORE_-1205974538', u'INDIRECT_-1205970272'), (u'STORE_-1205973835', u'INDIRECT_-1205970500'), (u'INDIRECT_-1205969207', u'MULTIEQUAL_-1205969603'), (u'INDIRECT_-1205970952', u'MULTIEQUAL_-1205970899'), (u'INT_OR_-1205977003', u'INT_XOR_-1205976959'), ('const-60', u'INT_NOTEQUAL_-1205972726'), (u'INT_MULT_-1205984288', u'INT_OR_-1205984291'), (u'INDIRECT_-1205970258', u'MULTIEQUAL_-1205970165'), (u'INDIRECT_-1205969614', u'MULTIEQUAL_-1205969521'), (u'STORE_-1205972637', u'INDIRECT_-1205968869'), (u'INT_ADD_-1205977278', u'INT_ADD_-1205977268'), (u'INT_ADD_-1205990699', u'INT_XOR_-1205990638'), (u'INT_ADD_-1205988556', u'INT_ADD_-1205988546'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972458'), (u'INT_ADD_-1205990699', u'INT_XOR_-1205990475'), (u'INT_OR_-1205977481', u'INT_NEGATE_-1205977444'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970248'), (u'INT_XOR_-1205984405', u'INT_ADD_-1205984390'), (u'INDIRECT_-1205970859', u'MULTIEQUAL_-1205970809'), (u'STORE_-1205972637', u'INDIRECT_-1205970157'), ('const-1024', u'INT_MULT_-1205987233'), ('const-22', u'INT_RIGHT_-1205979337'), (u'INDIRECT_-1205969798', u'MULTIEQUAL_-1205969703'), (u'INT_MULT_-1205986094', u'INT_OR_-1205986097'), (u'INDIRECT_-1205969709', u'MULTIEQUAL_-1205969703'), (u'STORE_-1205973634', u'INDIRECT_-1205970517'), (u'INDIRECT_-1205970409', u'MULTIEQUAL_-1205970308'), ('const-22', u'INT_RIGHT_-1205984026'), (u'INT_XOR_-1205981279', u'INT_AND_-1205981236'), (u'INDIRECT_-1205969865', u'MULTIEQUAL_-1205969816'), (u'INT_ADD_-1205975809', u'INT_XOR_-1205975774'), (u'INDIRECT_-1205970772', u'MULTIEQUAL_-1205970746'), (u'STORE_-1205974664', u'INDIRECT_-1205971444'), (u'MULTIEQUAL_-1205969848', u'COPY_-1205969962'), (u'INT_OR_-1205985836', u'INT_XOR_-1205985794'), (u'INDIRECT_-1205968502', u'MULTIEQUAL_-1205968517'), (u'STORE_-1205973431', u'INDIRECT_-1205970969'), (u'INT_OR_-1205984057', u'INT_ADD_-1205984060'), (u'INT_MULT_-1205977318', u'INT_OR_-1205977321'), (u'INDIRECT_-1205969733', u'MULTIEQUAL_-1205969642'), ('const-22', u'INT_RIGHT_-1205983373'), (u'CAST_-1205968148', u'INT_ADD_-1205974115'), (u'INT_XOR_-1205991016', u'INT_ADD_-1205991001'), (u'INT_OR_-1205992441', u'INT_XOR_-1205992427'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971094'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205969055'), (u'STORE_-1205973438', u'INDIRECT_-1205969870'), (u'INT_XOR_-1205977191', u'INT_ADD_-1205977154'), (u'INT_ADD_-1205974601', u'CAST_-1205968321'), (u'INT_OR_-1205977297', u'INT_XOR_-1205977283'), (u'INDIRECT_-1205970988', u'MULTIEQUAL_-1205970977'), (u'INT_OR_-1205975234', u'INT_NEGATE_-1205975183'), (u'INT_ADD_-1205977738', u'INT_ADD_-1205977682'), (u'INT_ADD_-1205988127', u'INT_RIGHT_-1205988109'), (u'INDIRECT_-1205970758', u'MULTIEQUAL_-1205970708'), (u'STORE_-1205974682', u'INDIRECT_-1205970907'), (u'INT_ADD_-1205983517', u'INT_RIGHT_-1205982752'), (u'INT_ADD_-1205976035', u'INT_RIGHT_-1205975969'), (u'CALL_-1205973395', u'INDIRECT_-1205968722'), (u'SUBPIECE_-1205971999', u'INT_ADD_-1205972557'), ('const-25', u'INT_RIGHT_-1205992208'), (u'INT_ADD_-1205989757', u'INT_RIGHT_-1205989681'), (u'INT_RIGHT_-1205987983', u'INT_OR_-1205987982'), (u'CALL_-1205972994', u'INDIRECT_-1205968722'), (u'STORE_-1205973424', u'INDIRECT_-1205969676'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968061'), (u'PTRADD_-1205967985', u'LOAD_-1205973362'), (u'INT_RIGHT_-1205980618', u'INT_OR_-1205980617'), (u'INT_XOR_-1205992809', u'INT_ADD_-1205992804'), (u'INT_ADD_-1205991607', u'INT_RIGHT_-1205991563'), (u'STORE_-1205972782', u'INDIRECT_-1205969062'), (u'CALL_-1205972973', u'INDIRECT_-1205968569'), (u'INT_RIGHT_-1205991923', u'INT_OR_-1205991922'), ('tmp_55339', u'LOAD_-1205993413'), (u'STORE_-1205973583', u'INDIRECT_-1205970856'), (u'CALL_-1205972973', u'INDIRECT_-1205968484'), (u'STORE_-1205973695', u'INDIRECT_-1205969347'), ('const-4', u'PTRADD_-1205968320'), (u'CALL_-1205972582', u'INDIRECT_-1205968153'), (u'CALL_-1205972994', u'INDIRECT_-1205968501'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971435'), (u'INT_ADD_-1205985105', u'INT_RIGHT_-1205984178'), (u'INDIRECT_-1205978157', u'INT_ADD_-1205981049'), ('const-17', u'INT_RIGHT_-1205981324'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970634'), (u'STORE_-1205973445', u'INDIRECT_-1205970979'), (u'INT_RIGHT_-1205988886', u'INT_OR_-1205988885'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968658'), ('const-17', u'INT_RIGHT_-1205988886'), (u'INDIRECT_-1205969017', u'COPY_-1205967665'), (u'INT_MULT_-1205975997', u'INT_OR_-1205976000'), (u'STORE_-1205973534', u'INDIRECT_-1205971381'), (u'INT_ADD_-1205983186', u'INT_OR_-1205983063'), (u'INDIRECT_-1205970471', u'MULTIEQUAL_-1205970439'), (u'CALL_-1205974449', u'INDIRECT_-1205969988'), (u'INDIRECT_-1205968907', u'MULTIEQUAL_-1205968875'), ('const-23', u'INT_RIGHT_-1205988308'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205993154'), (u'INT_XOR_-1205975540', u'INT_ADD_-1205975535'), (u'INDIRECT_-1205968672', u'MULTIEQUAL_-1205968646'), (u'INT_ADD_-1205977458', u'INT_MULT_-1205977426'), (u'INDIRECT_-1205970513', u'MULTIEQUAL_-1205970439'), (u'CALL_-1205972510', u'INDIRECT_-1205969299'), (u'STORE_-1205972782', u'INDIRECT_-1205969614'), (u'STORE_-1205972643', u'INDIRECT_-1205970070'), ('const-1024', u'INT_MULT_-1205984022'), (u'INT_ADD_-1205992644', u'INT_ADD_-1205992608'), (u'STORE_-1205972789', u'INDIRECT_-1205970621'), (u'INT_RIGHT_-1205993088', u'INT_OR_-1205993087'), (u'STORE_-1205973604', u'INDIRECT_-1205970319'), (u'INT_ADD_-1205977536', u'INT_RIGHT_-1205977518'), (u'INT_ADD_-1205988310', u'INT_MULT_-1205987849'), (u'CALL_-1205993328', u'INDIRECT_-1205975664'), (u'INDIRECT_-1205969113', u'MULTIEQUAL_-1205968472'), (u'CALL_-1205972582', u'INDIRECT_-1205968442'), (u'INT_ADD_-1205991119', u'INT_XOR_-1205991026'), (u'INT_RIGHT_-1205979789', u'INT_OR_-1205979788'), (u'INDIRECT_-1205971494', u'MULTIEQUAL_-1205971444'), ('const-1836072691', u'INT_ADD_-1205983964'), (u'INT_ADD_-1205981414', u'INT_ADD_-1205981394'), (u'INT_ADD_-1205987835', u'INT_MULT_-1205987797'), (u'INT_RIGHT_-1205978435', u'INT_OR_-1205978434'), (u'INT_OR_-1205977099', u'INT_NEGATE_-1205977058'), (u'INDIRECT_-1205970686', u'MULTIEQUAL_-1205970615'), (u'INT_RIGHT_-1205977909', u'INT_OR_-1205977908'), (u'STORE_-1205972643', u'INDIRECT_-1205970714'), ('const-32768', u'INT_MULT_-1205986604'), ('tmp_55410', u'MULTIEQUAL_-1205978359'), (u'INT_RIGHT_-1205988574', u'INT_OR_-1205988573'), (u'INDIRECT_-1205969674', u'MULTIEQUAL_-1205969137'), (u'INDIRECT_-1205969045', u'MULTIEQUAL_-1205968612'), (u'STORE_-1205973410', u'INDIRECT_-1205970402'), (u'INT_OR_-1205987764', u'INT_ADD_-1205987767'), (u'STORE_-1205974161', u'INDIRECT_-1205971161'), (u'INT_MULT_-1205989771', u'INT_OR_-1205989774'), (u'INT_MULT_-1205982358', u'INT_OR_-1205982361'), (u'INT_OR_-1205977163', u'INT_XOR_-1205977077'), (u'STORE_-1205973695', u'INDIRECT_-1205969255'), (u'MULTIEQUAL_-1205972503', u'PTRADD_-1205973751'), (u'INT_ADD_-1205980054', u'INT_MULT_-1205979875'), (u'STORE_-1205974550', u'INDIRECT_-1205971110'), ('const-18', u'INT_RIGHT_-1205983916'), ('const-2400959708', u'INT_ADD_-1205982186'), (u'INT_ADD_-1205988888', u'INT_RIGHT_-1205988223'), (u'STORE_-1205973555', u'INDIRECT_-1205971390'), (u'INT_ADD_-1205976643', u'INT_ADD_-1205976597'), (u'INT_MULT_-1205979333', u'INT_OR_-1205979336'), (u'INT_MULT_-1205976179', u'INT_OR_-1205976182'), (u'INT_ADD_-1205988602', u'INT_RIGHT_-1205988574'), ('const-2400959708', u'INT_ADD_-1205981414'), (u'INDIRECT_-1205969164', u'MULTIEQUAL_-1205968540'), ('const-17', u'INT_RIGHT_-1205986608'), (u'INDIRECT_-1205968859', u'MULTIEQUAL_-1205968833'), (u'STORE_-1205972724', u'INDIRECT_-1205969685'), (u'STORE_-1205972662', u'INDIRECT_-1205970269'), (u'INDIRECT_-1205971053', u'MULTIEQUAL_-1205970993'), (u'INT_RIGHT_-1205991839', u'INT_OR_-1205991838'), ('tmp_34400', u'CBRANCH_-1205974341'), (u'CALL_-1205972973', u'INDIRECT_-1205970814'), (u'INT_OR_-1205987644', u'INT_ADD_-1205986477'), (u'INT_MULT_-1205982054', u'INT_OR_-1205982057'), (u'INDIRECT_-1205970956', u'MULTIEQUAL_-1205970930'), ('const-4', u'PTRADD_-1205967612'), (u'STORE_-1205973763', u'INDIRECT_-1205970381'), (u'INT_ADD_-1205987567', u'INT_AND_-1205987505'), ('const-417', u'LOAD_-1205974647'), (u'STORE_-1205972664', u'INDIRECT_-1205970638'), (u'STORE_-1205973835', u'INDIRECT_-1205969304'), ('tmp_55352', u'MULTIEQUAL_-1205975631'), (u'INT_ADD_-1205974592', u'COPY_-1205968356'), (u'INT_OR_-1205975026', u'INT_ADD_-1205975029'), (u'INT_RIGHT_-1205982122', u'INT_OR_-1205982121'), (u'INT_RIGHT_-1205976579', u'INT_OR_-1205976578'), (u'INT_RIGHT_-1205974751', u'INT_OR_-1205974750'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205969090'), (u'INT_OR_-1205976893', u'INT_ADD_-1205976185'), (u'INT_CARRY_-1205974227', u'INT_ZEXT_-1205974186'), ('const-32768', u'INT_MULT_-1205981640'), (u'INT_OR_-1205985307', u'INT_ADD_-1205985105'), ('const-26', u'INT_RIGHT_-1205979608'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205992203'), (u'INT_XOR_-1205975404', u'INT_XOR_-1205975384'), (u'INT_ADD_-1205988960', u'INT_ADD_-1205988950'), (u'INT_ADD_-1205976273', u'INT_ADD_-1205976133'), ('const-22', u'INT_RIGHT_-1205979289'), (u'INDIRECT_-1205971329', u'MULTIEQUAL_-1205971269'), (u'INT_OR_-1205983372', u'INT_XOR_-1205983360'), (u'INT_OR_-1205980534', u'INT_XOR_-1205980480'), (u'INT_XOR_-1205988925', u'INT_ADD_-1205988920'), (u'STORE_-1205972608', u'INDIRECT_-1205971115'), ('const-4', u'PTRADD_-1205967595'), (u'INDIRECT_-1205970285', u'MULTIEQUAL_-1205970194'), (u'CALL_-1205972994', u'INDIRECT_-1205968433'), (u'CALL_-1205973026', u'INDIRECT_-1205970204'), (u'STORE_-1205972571', u'INDIRECT_-1205970128'), (u'INT_ADD_-1205984060', u'INT_OR_-1205984043'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980438'), (u'CALL_-1205974449', u'MULTIEQUAL_-1205967781'), (u'STORE_-1205974616', u'INDIRECT_-1205971043'), (u'INT_ADD_-1205989488', u'INT_ADD_-1205989468'), (u'INDIRECT_-1205969896', u'MULTIEQUAL_-1205969388'), (u'STORE_-1205973634', u'INDIRECT_-1205970701'), (u'INDIRECT_-1205971552', u'MULTIEQUAL_-1205970853'), (u'STORE_-1205972729', u'INDIRECT_-1205969017'), (u'INT_OR_-1205989585', u'INT_XOR_-1205989519'), (u'INT_OR_-1205987982', u'INT_AND_-1205987895'), (u'INT_MULT_-1205984022', u'INT_OR_-1205984025'), (u'INT_ADD_-1205978292', u'INT_MULT_-1205976669'), ('const-8192', u'INT_MULT_-1205986094'), (u'CALL_-1205974449', u'INDIRECT_-1205969113'), (u'INT_ADD_-1205980579', u'INT_ADD_-1205980433'), (u'INT_ADD_-1205976844', u'INT_RIGHT_-1205976734'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988445'), (u'STORE_-1205972670', u'INDIRECT_-1205970735'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968817'), (u'INT_OR_-1205991038', u'INT_ADD_-1205991041'), (u'CALL_-1205972994', u'INDIRECT_-1205968331'), ('const-1', u'PTRADD_-1205973799'), (u'INT_OR_-1205980838', u'INT_ADD_-1205980841'), (u'INDIRECT_-1205970994', u'MULTIEQUAL_-1205970899'), (u'STORE_-1205972649', u'INDIRECT_-1205968695'), ('const-256', u'INT_MULT_-1205976575'), (u'STORE_-1205972571', u'INDIRECT_-1205969300'), (u'INT_XOR_-1205979168', u'INT_ADD_-1205979153'), (u'INT_OR_-1205992367', u'INT_ADD_-1205992370'), (u'STORE_-1205973763', u'INDIRECT_-1205970657'), (u'INT_ADD_-1205992210', u'INT_RIGHT_-1205992130'), (u'INT_OR_-1205976142', u'INT_XOR_-1205976092'), (u'INT_ADD_-1205986967', u'INT_XOR_-1205986904'), (u'INT_RIGHT_-1205975329', u'INT_OR_-1205975328'), (u'INDIRECT_-1205970296', u'MULTIEQUAL_-1205970209'), (u'INT_MULT_-1205979636', u'INT_OR_-1205979639'), (u'STORE_-1205974538', u'INDIRECT_-1205970640'), (u'CALL_-1205972973', u'INDIRECT_-1205967974'), ('const-32768', u'INT_MULT_-1205992560'), (u'STORE_-1205972664', u'INDIRECT_-1205969442'), (u'INT_ADD_-1205977340', u'INT_OR_-1205977251'), (u'INDIRECT_-1205969387', u'MULTIEQUAL_-1205969337'), (u'INDIRECT_-1205969635', u'MULTIEQUAL_-1205969519'), (u'INT_ADD_-1205986647', u'INT_MULT_-1205986604'), (u'INDIRECT_-1205968973', u'MULTIEQUAL_-1205968967'), (u'INT_ADD_-1205991941', u'INT_RIGHT_-1205991923'), ('const-27', u'INT_RIGHT_-1205975807'), (u'INDIRECT_-1205967628', u'STORE_-1205972571'), (u'INT_RIGHT_-1205992760', u'INT_OR_-1205992759'), ('const-23', u'INT_RIGHT_-1205981172'), (u'COPY_-1205968344', u'MULTIEQUAL_-1205968659'), (u'COPY_-1205968338', u'MULTIEQUAL_-1205968625'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969595'), (u'INDIRECT_-1205969746', u'MULTIEQUAL_-1205969696'), (u'INT_ADD_-1205976325', u'INT_XOR_-1205976222'), (u'MULTIEQUAL_-1205969191', u'MULTIEQUAL_-1205968998'), (u'INDIRECT_-1205971054', u'MULTIEQUAL_-1205970517'), (u'INT_XOR_-1205978968', u'INT_ADD_-1205978947'), (u'INT_ADD_-1205977072', u'INT_RIGHT_-1205977044'), (u'INDIRECT_-1205970350', u'MULTIEQUAL_-1205970257'), (u'INT_ADD_-1205987679', u'INT_RIGHT_-1205987565'), ('const-4', u'PTRADD_-1205967585'), (u'INT_MULT_-1205978622', u'INT_OR_-1205978625'), (u'STORE_-1205974664', u'INDIRECT_-1205971812'), (u'INDIRECT_-1205971482', u'MULTIEQUAL_-1205971438'), (u'INT_XOR_-1205992721', u'INT_ADD_-1205992680'), (u'INT_ADD_-1205980841', u'INT_RIGHT_-1205980227'), ('const-1024', u'INT_MULT_-1205989330'), (u'INT_OR_-1205977027', u'INT_ADD_-1205976367'), (u'INT_ADD_-1205991581', u'INT_XOR_-1205991496'), (u'INDIRECT_-1205970172', u'MULTIEQUAL_-1205969456'), (u'INT_OR_-1205988649', u'INT_ADD_-1205988652'), ('const-19', u'PTRADD_-1205967648'), ('const-18', u'INT_RIGHT_-1205984366'), (u'STORE_-1205973445', u'INDIRECT_-1205970427'), (u'STORE_-1205973661', u'INDIRECT_-1205969790'), (u'INT_AND_-1205988970', u'INT_XOR_-1205988935'), (u'INT_MULT_-1205984582', u'INT_OR_-1205984585'), (u'STORE_-1205973576', u'INDIRECT_-1205971035'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205982045'), (u'INDIRECT_-1205969398', u'MULTIEQUAL_-1205969327'), (u'INT_ADD_-1205974115', u'CAST_-1205968147'), (u'STORE_-1205974159', u'INDIRECT_-1205970424'), (u'INT_OR_-1205984043', u'INT_XOR_-1205983939'), (u'INDIRECT_-1205969023', u'MULTIEQUAL_-1205969419'), (u'INT_ADD_-1205979881', u'INT_MULT_-1205979285'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971242'), (u'INT_OR_-1205987252', u'INT_ADD_-1205987255'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968355'), (u'INT_OR_-1205987622', u'INT_ADD_-1205987255'), (u'INT_MULT_-1205982588', u'INT_OR_-1205982591'), (u'INDIRECT_-1205969397', u'MULTIEQUAL_-1205969337'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205976834'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205992065'), (u'INDIRECT_-1205969379', u'MULTIEQUAL_-1205968158'), (u'COPY_-1205975166', u'MULTIEQUAL_-1205979438'), (u'STORE_-1205974664', u'INDIRECT_-1205971904'), (u'INT_OR_-1205991304', u'INT_XOR_-1205991260'), (u'STORE_-1205973590', u'INDIRECT_-1205971137'), (u'CALL_-1205972994', u'INDIRECT_-1205968705'), (u'INT_OR_-1205976114', u'INT_ADD_-1205976117'), (u'INT_OR_-1205977027', u'INT_ADD_-1205976283'), (u'INDIRECT_-1205968638', u'MULTIEQUAL_-1205968653'), (u'INT_OR_-1205990244', u'INT_ADD_-1205990159'), (u'INT_MULT_-1205987145', u'INT_OR_-1205987148'), (u'INDIRECT_-1205970593', u'MULTIEQUAL_-1205970492'), (u'INDIRECT_-1205971904', u'INT_MULT_-1205971052'), (u'CAST_-1205968369', u'STORE_-1205974682'), (u'INT_ADD_-1205992778', u'INT_MULT_-1205992756'), (u'CALL_-1205972994', u'INDIRECT_-1205968382'), (u'INT_RIGHT_-1205976033', u'INT_OR_-1205976032'), (u'INT_MULT_-1205988247', u'INT_OR_-1205988250'), (u'INDIRECT_-1205970417', u'MULTIEQUAL_-1205970368'), (u'STORE_-1205973627', u'INDIRECT_-1205970512'), (u'INT_ADD_-1205988910', u'INT_MULT_-1205988882'), ('const-1024', u'INT_MULT_-1205990209'), (u'INT_ADD_-1205992954', u'INT_ADD_-1205992906'), (u'INT_ADD_-1205975165', u'INT_XOR_-1205975130'), ('tmp_37246', u'CBRANCH_-1205972907'), (u'INT_ADD_-1205992484', u'INT_OR_-1205992395'), (u'INT_ADD_-1205975691', u'INT_RIGHT_-1205975651'), (u'INDIRECT_-1205969468', u'MULTIEQUAL_-1205969381'), (u'INT_OR_-1205975058', u'INT_ADD_-1205974674'), (u'INT_ADD_-1205974674', u'STORE_-1205974664'), (u'CALL_-1205993328', u'INDIRECT_-1205975681'), (u'INT_ADD_-1205990569', u'INT_ADD_-1205990559'), (u'MULTIEQUAL_-1205968918', u'INT_EQUAL_-1205973241'), (u'INT_ADD_-1205981952', u'INT_XOR_-1205981865'), (u'INDIRECT_-1205968329', u'MULTIEQUAL_-1205968800'), (u'INT_OR_-1205977321', u'INT_NEGATE_-1205977310'), (u'INT_ADD_-1205978400', u'INT_RIGHT_-1205978018'), (u'CALL_-1205973026', u'INDIRECT_-1205968586'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205989488'), (u'INT_OR_-1205987404', u'INT_AND_-1205987343'), (u'INT_ADD_-1205989184', u'INT_ADD_-1205989158'), (u'INDIRECT_-1205977053', u'MULTIEQUAL_-1205976979'), (u'STORE_-1205974538', u'INDIRECT_-1205970548'), (u'INDIRECT_-1205969045', u'MULTIEQUAL_-1205968726'), (u'CALL_-1205972973', u'INDIRECT_-1205970538'), (u'INT_MULT_-1205971052', u'INT_ADD_-1205972557'), (u'CALL_-1205972994', u'INDIRECT_-1205968450'), (u'STORE_-1205974159', u'INDIRECT_-1205970056'), (u'STORE_-1205973452', u'INDIRECT_-1205971444'), ('const-22', u'INT_RIGHT_-1205991227'), (u'INT_OR_-1205992581', u'INT_XOR_-1205992515'), (u'INDIRECT_-1205969944', u'MULTIEQUAL_-1205969918'), (u'INDIRECT_-1205970261', u'MULTIEQUAL_-1205970255'), (u'STORE_-1205974664', u'INDIRECT_-1205970800'), (u'INDIRECT_-1205969113', u'MULTIEQUAL_-1205968680'), (u'CALL_-1205972510', u'INDIRECT_-1205968550'), (u'INT_ADD_-1205976788', u'INT_OR_-1205976286'), (u'STORE_-1205974129', u'INDIRECT_-1205970226'), ('const-22', u'INT_RIGHT_-1205988135'), (u'LOAD_-1205992173', u'INT_ADD_-1205991683'), (u'MULTIEQUAL_-1205969225', u'MULTIEQUAL_-1205969032'), (u'INT_ADD_-1205989793', u'INT_ADD_-1205989757'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205976984'), (u'INT_ADD_-1205992191', u'CAST_-1205974612'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205990179'), ('const-1548603684', u'INT_ADD_-1205989572'), (u'INT_ADD_-1205980219', u'INT_ADD_-1205980100'), (u'CALL_-1205973026', u'INDIRECT_-1205970296'), (u'INDIRECT_-1205970869', u'MULTIEQUAL_-1205970809'), ('const-1024', u'INT_MULT_-1205991057'), (u'INDIRECT_-1205970264', u'MULTIEQUAL_-1205969756'), (u'INT_ADD_-1205989777', u'INT_XOR_-1205989519'), ('const-19', u'INT_RIGHT_-1205975495'), ('const-22', u'INT_RIGHT_-1205989586'), (u'INDIRECT_-1205970020', u'MULTIEQUAL_-1205969933'), ('const-417', u'STORE_-1205972649'), (u'STORE_-1205973445', u'INDIRECT_-1205969783'), (u'INT_ADD_-1205989368', u'INT_RIGHT_-1205988760'), (u'CAST_-1205968321', u'STORE_-1205974616'), (u'PTRADD_-1205975175', u'INT_NOTEQUAL_-1205993313'), (u'STORE_-1205973431', u'INDIRECT_-1205969129'), (u'INT_ADD_-1205976948', u'INT_RIGHT_-1205976930'), (u'STORE_-1205972655', u'INDIRECT_-1205969804'), (u'CALL_-1205972994', u'INDIRECT_-1205968467'), ('const-417', u'STORE_-1205974664'), (u'STORE_-1205974544', u'INDIRECT_-1205971657'), (u'INDIRECT_-1205970354', u'COPY_-1205970411'), (u'INDIRECT_-1205970601', u'MULTIEQUAL_-1205970552'), ('const-22', u'INT_RIGHT_-1205976307'), (u'STORE_-1205974676', u'INDIRECT_-1205971178'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979266'), ('const-22', u'INT_RIGHT_-1205980020'), (u'INT_ADD_-1205977859', u'INT_MULT_-1205977748'), (u'INT_OR_-1205976016', u'INT_ADD_-1205975809'), (u'STORE_-1205973763', u'INDIRECT_-1205971117'), (u'CALL_-1205973395', u'INDIRECT_-1205968807'), (u'STORE_-1205974526', u'INDIRECT_-1205970814'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971462'), ('const-28', u'PTRADD_-1205967570'), (u'STORE_-1205973410', u'INDIRECT_-1205971046'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970138'), (u'STORE_-1205973695', u'INDIRECT_-1205969439'), (u'INT_RIGHT_-1205991605', u'INT_OR_-1205991604'), (u'STORE_-1205973763', u'INDIRECT_-1205970289'), (u'INT_OR_-1205986581', u'INT_ADD_-1205986054'), (u'STORE_-1205972561', u'INDIRECT_-1205970082'), (u'INDIRECT_-1205970011', u'MULTIEQUAL_-1205969979'), (u'INDIRECT_-1205971736', u'MULTIEQUAL_-1205971228'), (u'CALL_-1205974449', u'INDIRECT_-1205968960'), (u'CALL_-1205972994', u'INDIRECT_-1205969359'), ('const-26', u'INT_RIGHT_-1205978761'), (u'STORE_-1205973739', u'INDIRECT_-1205971108'), (u'STORE_-1205973634', u'INDIRECT_-1205970057'), (u'INDIRECT_-1205970534', u'MULTIEQUAL_-1205970441'), (u'STORE_-1205972530', u'INDIRECT_-1205968964'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968372'), (u'INDIRECT_-1205969851', u'MULTIEQUAL_-1205970247'), (u'INT_OR_-1205985174', u'INT_ADD_-1205984652'), (u'CALL_-1205972973', u'INDIRECT_-1205970262'), (u'INT_OR_-1205985307', u'INT_XOR_-1205985255'), (u'STORE_-1205974676', u'INDIRECT_-1205971362'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974655'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969104'), (u'INT_OR_-1205991116', u'INT_ADD_-1205991119'), (u'INT_OR_-1205985852', u'INT_XOR_-1205985784'), (u'STORE_-1205973604', u'INDIRECT_-1205971423'), (u'INT_ADD_-1205981059', u'INT_MULT_-1205980531'), (u'STORE_-1205972561', u'INDIRECT_-1205971186'), (u'STORE_-1205972655', u'INDIRECT_-1205970448'), ('const-1', u'RETURN_-1205972305'), (u'INT_ADD_-1205991607', u'INT_MULT_-1205991559'), ('const-1024', u'INT_MULT_-1205980614'), (u'INT_AND_-1205980563', u'INT_XOR_-1205980548'), (u'INT_MULT_-1205981640', u'INT_OR_-1205981643'), (u'INT_OR_-1205979288', u'INT_AND_-1205979197'), ('const-1024', u'INT_MULT_-1205983369'), (u'STORE_-1205973452', u'INDIRECT_-1205969788'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969012'), (u'INT_ADD_-1205979954', u'INT_ADD_-1205979913'), (u'STORE_-1205972552', u'INDIRECT_-1205969525'), (u'LOAD_-1205993258', u'INT_ADD_-1205974797'), (u'INDIRECT_-1205969091', u'MULTIEQUAL_-1205969059'), (u'INT_OR_-1205985028', u'INT_ADD_-1205985031'), (u'INT_ADD_-1205975653', u'INT_RIGHT_-1205975517'), (u'INT_ADD_-1205976984', u'INT_ADD_-1205976974'), (u'INDIRECT_-1205971136', u'MULTIEQUAL_-1205971083'), (u'STORE_-1205974676', u'INDIRECT_-1205971822'), (u'INT_ADD_-1205986790', u'INT_ADD_-1205986770'), (u'STORE_-1205973787', u'INDIRECT_-1205971586'), (u'INT_OR_-1205984737', u'INT_ADD_-1205984516'), (u'STORE_-1205972670', u'INDIRECT_-1205971011'), (u'CALL_-1205993328', u'INDIRECT_-1205976317'), (u'INDIRECT_-1205978341', u'INT_ADD_-1205986687'), (u'INT_ADD_-1205992484', u'INT_MULT_-1205992462'), (u'STORE_-1205973597', u'INDIRECT_-1205969486'), ('const-1024', u'INT_MULT_-1205990833'), (u'CALL_-1205972582', u'INDIRECT_-1205970469'), (u'PTRADD_-1205968061', u'CAST_-1205967922'), (u'INT_OR_-1205976506', u'INT_XOR_-1205976492'), (u'STORE_-1205973438', u'INDIRECT_-1205969502'), ('const-2053994217', u'INT_ADD_-1205979494'), (u'INT_MULT_-1205990979', u'INT_OR_-1205990982'), (u'CALL_-1205993328', u'INDIRECT_-1205975511'), (u'INDIRECT_-1205971146', u'MULTIEQUAL_-1205971075'), (u'INT_ADD_-1205989416', u'INT_RIGHT_-1205989398'), (u'INT_AND_-1205976617', u'INT_XOR_-1205976608'), ('const-16384', u'INT_MULT_-1205978909'), (u'INT_OR_-1205977545', u'INT_XOR_-1205977469'), (u'CALL_-1205972582', u'INDIRECT_-1205970929'), (u'CAST_-1205968255', u'INT_RIGHT_-1205968384'), (u'INT_XOR_-1205986262', u'INT_ADD_-1205986225'), (u'INDIRECT_-1205969388', u'MULTIEQUAL_-1205969335'), (u'INT_MULT_-1205987849', u'INT_OR_-1205987852'), (u'INT_OR_-1205983586', u'INT_XOR_-1205983558'), (u'INDIRECT_-1205971157', u'MULTIEQUAL_-1205971083'), (u'STORE_-1205972757', u'INDIRECT_-1205969859'), ('const-18', u'INT_RIGHT_-1205990883'), (u'STORE_-1205974616', u'INDIRECT_-1205969847'), (u'INT_RIGHT_-1205982246', u'INT_OR_-1205982245'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205981049'), (u'INT_XOR_-1205985255', u'INT_ADD_-1205985230'), (u'STORE_-1205972664', u'INDIRECT_-1205968798'), (u'INT_XOR_-1205988096', u'INT_AND_-1205988079'), (u'INT_OR_-1205992465', u'INT_ADD_-1205991925'), (u'INT_ADD_-1205975535', u'INT_RIGHT_-1205975495'), (u'INT_OR_-1205980633', u'INT_ADD_-1205980636'), (u'STORE_-1205974152', u'INDIRECT_-1205970603'), (u'STORE_-1205974152', u'INDIRECT_-1205969683'), (u'INT_RIGHT_-1205984492', u'INT_OR_-1205984491'), (u'INT_ADD_-1205989983', u'INT_ADD_-1205989963'), ('const-1024', u'INT_MULT_-1205992318'), ('const-417', u'LOAD_-1205993413'), (u'STORE_-1205972666', u'INDIRECT_-1205969756'), (u'INT_ADD_-1205978360', u'INT_ADD_-1205978334'), (u'INT_ADD_-1205992608', u'INT_MULT_-1205992560'), (u'MULTIEQUAL_-1205970492', u'COPY_-1205970606'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205979684'), ('const-6', u'PTRADD_-1205973523'), (u'CALL_-1205972994', u'INDIRECT_-1205968991'), (u'CALL_-1205972973', u'INDIRECT_-1205970078'), ('const-108', u'INT_ADD_-1205993264'), (u'STORE_-1205973583', u'INDIRECT_-1205971224'), (u'CALL_-1205972973', u'INDIRECT_-1205970630'), ('const-25', u'INT_RIGHT_-1205987253'), ('const-22', u'INT_RIGHT_-1205980535'), (u'INT_OR_-1205978063', u'INT_ADD_-1205977682'), ('const-417', u'STORE_-1205973739'), ('const-22', u'INT_RIGHT_-1205987405'), (u'STORE_-1205973811', u'INDIRECT_-1205970675'), (u'INDIRECT_-1205970841', u'MULTIEQUAL_-1205970791'), (u'INT_XOR_-1205990539', u'INT_ADD_-1205990518'), (u'INDIRECT_-1205971403', u'MULTIEQUAL_-1205968180'), (u'INDIRECT_-1205969820', u'MULTIEQUAL_-1205969770'), (u'STORE_-1205972666', u'INDIRECT_-1205969204'), (u'LOAD_-1205993137', u'INT_ADD_-1205974582'), ('const-4096', u'INT_MULT_-1205978286'), (u'STORE_-1205973835', u'INDIRECT_-1205971052'), (u'INT_XOR_-1205985126', u'INT_ADD_-1205985121'), ('const-20', u'INT_RIGHT_-1205981950'), (u'INT_MULT_-1205992932', u'INT_OR_-1205992935'), ('const-18', u'INT_RIGHT_-1205976183'), (u'INT_ADD_-1205974183', u'MULTIEQUAL_-1205972282'), (u'INT_ADD_-1205991995', u'INT_RIGHT_-1205991961'), (u'MULTIEQUAL_-1205970102', u'COPY_-1205970237'), (u'STORE_-1205973627', u'INDIRECT_-1205969684'), (u'STORE_-1205972782', u'INDIRECT_-1205970534'), (u'INT_ADD_-1205979990', u'INT_XOR_-1205979766'), (u'INT_ADD_-1205974207', u'INT_NOTEQUAL_-1205974162'), (u'INT_OR_-1205983372', u'INT_ADD_-1205982862'), (u'STORE_-1205974159', u'INDIRECT_-1205970332'), (u'INT_ADD_-1205976477', u'INT_ADD_-1205976467'), (u'INT_AND_-1205986774', u'INT_XOR_-1205986755'), (u'COPY_-1205975183', u'COPY_-1205974435'), (u'INT_XOR_-1205981825', u'INT_ADD_-1205981814'), (u'INT_ADD_-1205973438', u'CAST_-1205967892'), ('const-22', u'INT_RIGHT_-1205989114'), (u'INDIRECT_-1205978065', u'INT_ADD_-1205979903'), (u'STORE_-1205974129', u'INDIRECT_-1205969950'), (u'STORE_-1205973590', u'INDIRECT_-1205970309'), (u'STORE_-1205972724', u'INDIRECT_-1205969133'), (u'INT_RIGHT_-1205984026', u'INT_OR_-1205984025'), (u'INT_MULT_-1205978431', u'INT_OR_-1205978434'), (u'INDIRECT_-1205968722', u'MULTIEQUAL_-1205968704'), (u'INT_RIGHT_-1205975823', u'INT_OR_-1205975822'), ('tmp_40666', u'PTRSUB_-1205975195'), (u'INT_ADD_-1205979610', u'INT_RIGHT_-1205978064'), (u'INDIRECT_-1205968689', u'MULTIEQUAL_-1205968663'), (u'CALL_-1205973395', u'INDIRECT_-1205968892'), (u'STORE_-1205972649', u'INDIRECT_-1205969707'), (u'INT_XOR_-1205989860', u'INT_ADD_-1205989757'), (u'INT_ADD_-1205975731', u'INT_XOR_-1205975696'), (u'MULTIEQUAL_-1205969366', u'COPY_-1205969501'), ('const-8192', u'INT_MULT_-1205975491'), ('const-417', u'STORE_-1205974526'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968337'), (u'INDIRECT_-1205968932', u'MULTIEQUAL_-1205968906'), (u'INDIRECT_-1205970831', u'MULTIEQUAL_-1205970715'), (u'STORE_-1205972782', u'INDIRECT_-1205970442'), (u'INDIRECT_-1205978433', u'MULTIEQUAL_-1205978359'), (u'INT_OR_-1205977709', u'INT_NEGATE_-1205977688'), (u'INDIRECT_-1205970837', u'MULTIEQUAL_-1205970746'), (u'INT_OR_-1205989585', u'INT_ADD_-1205989064'), (u'INT_ADD_-1205979434', u'INT_RIGHT_-1205979391'), (u'CALL_-1205972510', u'INDIRECT_-1205968414'), (u'CALL_-1205972510', u'INDIRECT_-1205970311'), (u'STORE_-1205972782', u'INDIRECT_-1205969246'), (u'INT_RIGHT_-1205992466', u'INT_OR_-1205992465'), (u'STORE_-1205972649', u'INDIRECT_-1205969615'), (u'INDIRECT_-1205968840', u'MULTIEQUAL_-1205968814'), (u'INT_ADD_-1205975419', u'INT_XOR_-1205975384'), (u'INDIRECT_-1205968655', u'MULTIEQUAL_-1205968629'), (u'STORE_-1205972643', u'INDIRECT_-1205969518'), (u'STORE_-1205972729', u'INDIRECT_-1205968833'), (u'INT_OR_-1205985566', u'INT_XOR_-1205985480'), (u'MULTIEQUAL_-1205972301', u'SUBPIECE_-1205973475'), (u'STORE_-1205972840', u'INDIRECT_-1205970095'), (u'INT_ADD_-1205974781', u'INT_RIGHT_-1205974719'), (u'STORE_-1205974161', u'INDIRECT_-1205970885'), (u'PTRADD_-1205967580', u'STORE_-1205972649'), (u'INDIRECT_-1205969490', u'MULTIEQUAL_-1205969230'), ('const-22', u'INT_RIGHT_-1205990105'), (u'INT_RIGHT_-1205978316', u'INT_OR_-1205978315'), (u'INDIRECT_-1205968893', u'MULTIEQUAL_-1205968867'), (u'INT_ADD_-1205982186', u'INT_ADD_-1205982176'), ('const-32768', u'INT_MULT_-1205992478'), (u'INT_ADD_-1205976581', u'INT_MULT_-1205976303'), (u'STORE_-1205972724', u'INDIRECT_-1205970145'), (u'INT_RIGHT_-1205979837', u'INT_OR_-1205979836'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205986790'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974661'), (u'INT_OR_-1205985836', u'INT_ADD_-1205985270'), (u'STORE_-1205974532', u'INDIRECT_-1205971003'), (u'CAST_-1205968108', u'INT_ADD_-1205974041'), (u'COPY_-1205968350', u'MULTIEQUAL_-1205968981'), (u'INT_ADD_-1205983802', u'INT_ADD_-1205983792'), (u'STORE_-1205972670', u'INDIRECT_-1205970919'), (u'PTRADD_-1205967595', u'STORE_-1205972670'), (u'INT_MULT_-1205985099', u'INT_OR_-1205985102'), (u'INT_RIGHT_-1205987801', u'INT_OR_-1205987800'), (u'INT_NEGATE_-1205993140', u'INT_OR_-1205993005'), (u'INDIRECT_-1205969011', u'MULTIEQUAL_-1205968692'), (u'INT_MULT_-1205993068', u'INT_OR_-1205993071'), (u'STORE_-1205972608', u'INDIRECT_-1205969459'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205973884'), (u'INT_OR_-1205989696', u'INT_AND_-1205989502'), (u'INT_ADD_-1205983339', u'INT_MULT_-1205982630'), (u'INT_MULT_-1205991919', u'INT_OR_-1205991922'), (u'INT_ADD_-1205988652', u'INT_AND_-1205988586'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969889'), ('tmp_55390', u'MULTIEQUAL_-1205976519'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970506'), (u'INT_XOR_-1205991628', u'INT_ADD_-1205991597'), (u'STORE_-1205972670', u'INDIRECT_-1205969171'), (u'STORE_-1205972670', u'INDIRECT_-1205970367'), (u'STORE_-1205974676', u'INDIRECT_-1205971730'), (u'STORE_-1205974682', u'INDIRECT_-1205970815'), (u'INT_ADD_-1205990855', u'INT_ADD_-1205990829'), (u'INT_RIGHT_-1205991273', u'INT_OR_-1205991272'), (u'INT_NEGATE_-1205993245', u'INT_OR_-1205993195'), (u'INT_RIGHT_-1205989398', u'INT_OR_-1205989397'), (u'STORE_-1205973604', u'INDIRECT_-1205969307'), (u'INDIRECT_-1205969079', u'MULTIEQUAL_-1205968760'), (u'STORE_-1205972729', u'INDIRECT_-1205969661'), ('const-1024', u'INT_MULT_-1205978741'), (u'INT_RIGHT_-1205989114', u'INT_OR_-1205989113'), (u'STORE_-1205972729', u'INDIRECT_-1205970121'), (u'INT_XOR_-1205984751', u'INT_ADD_-1205984720'), (u'INT_OR_-1205984585', u'INT_XOR_-1205984537'), (u'MULTIEQUAL_-1205968180', u'MULTIEQUAL_-1205971408'), (u'STORE_-1205972649', u'INDIRECT_-1205969247'), (u'INDIRECT_-1205970657', u'MULTIEQUAL_-1205970607'), (u'STORE_-1205974152', u'INDIRECT_-1205969407'), ('const-417', u'STORE_-1205972735'), ('const-417', u'STORE_-1205973627'), (u'INT_OR_-1205978537', u'INT_ADD_-1205978155'), (u'INT_XOR_-1205978214', u'INT_ADD_-1205978113'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969696'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968302'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970782'), (u'STORE_-1205972840', u'INDIRECT_-1205970739'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987224'), (u'INT_AND_-1205980417', u'INT_XOR_-1205980360'), (u'INDIRECT_-1205970216', u'MULTIEQUAL_-1205970163'), (u'INT_ADD_-1205988674', u'INT_RIGHT_-1205988650'), (u'INT_MULT_-1205989362', u'INT_OR_-1205989365'), (u'STORE_-1205972670', u'INDIRECT_-1205969815'), (u'STORE_-1205973739', u'INDIRECT_-1205971384'), (u'INDIRECT_-1205971276', u'MULTIEQUAL_-1205970768'), (u'INDIRECT_-1205971092', u'MULTIEQUAL_-1205970584'), (u'INT_RIGHT_-1205976786', u'INT_OR_-1205976785'), (u'INT_ADD_-1205992804', u'INT_RIGHT_-1205992776'), (u'STORE_-1205974129', u'INDIRECT_-1205970042'), (u'CALL_-1205972582', u'INDIRECT_-1205968527'), (u'STORE_-1205972666', u'INDIRECT_-1205970308'), (u'INDIRECT_-1205969525', u'MULTIEQUAL_-1205969519'), (u'INDIRECT_-1205970851', u'MULTIEQUAL_-1205968174'), (u'INT_OR_-1205975806', u'INT_ADD_-1205975809'), (u'INDIRECT_-1205970464', u'MULTIEQUAL_-1205970414'), (u'STORE_-1205972608', u'INDIRECT_-1205969551'), (u'INDIRECT_-1205968964', u'MULTIEQUAL_-1205968953'), (u'INT_ADD_-1205978915', u'INT_MULT_-1205978622'), (u'INDIRECT_-1205970860', u'MULTIEQUAL_-1205970807'), (u'CALL_-1205993328', u'INDIRECT_-1205977053'), (u'INDIRECT_-1205971495', u'MULTIEQUAL_-1205968181'), (u'INDIRECT_-1205971107', u'MULTIEQUAL_-1205971020'), (u'INT_OR_-1205990487', u'INT_ADD_-1205990490'), (u'STORE_-1205973627', u'INDIRECT_-1205971064'), (u'STORE_-1205972735', u'INDIRECT_-1205970402'), (u'INDIRECT_-1205970679', u'MULTIEQUAL_-1205971075'), ('const-1', u'PTRADD_-1205973537'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969898'), (u'STORE_-1205973576', u'INDIRECT_-1205970851'), (u'INT_RIGHT_-1205984178', u'INT_OR_-1205984177'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205991089'), (u'INT_RIGHT_-1205989240', u'INT_OR_-1205989239'), (u'INT_ADD_-1205980831', u'INT_RIGHT_-1205980802'), ('const-28', u'PTRADD_-1205967990'), (u'CALL_-1205972510', u'INDIRECT_-1205970587'), (u'INDIRECT_-1205968688', u'MULTIEQUAL_-1205968676'), (u'INDIRECT_-1205968688', u'MULTIEQUAL_-1205968676'), (u'STORE_-1205972735', u'INDIRECT_-1205969298'), (u'CALL_-1205972582', u'INDIRECT_-1205971661'), (u'INDIRECT_-1205970870', u'MULTIEQUAL_-1205970333'), (u'CALL_-1205972973', u'INDIRECT_-1205970998'), (u'INT_XOR_-1205983558', u'INT_ADD_-1205983533'), (u'INT_XOR_-1205988064', u'INT_ADD_-1205988033'), (u'STORE_-1205974616', u'INDIRECT_-1205970215'), (u'COPY_-1205968332', u'MULTIEQUAL_-1205968608'), (u'CALL_-1205973026', u'INDIRECT_-1205969284'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205979632'), (u'STORE_-1205973835', u'INDIRECT_-1205969396'), (u'INDIRECT_-1205968635', u'MULTIEQUAL_-1205969106'), (u'CALL_-1205974449', u'INDIRECT_-1205970908'), (u'STORE_-1205972530', u'INDIRECT_-1205969516'), (u'INT_ADD_-1205977792', u'INT_RIGHT_-1205977768'), (u'INT_OR_-1205980769', u'INT_ADD_-1205980080'), (u'INT_MULT_-1205975159', u'INT_OR_-1205975162'), (u'INDIRECT_-1205970442', u'MULTIEQUAL_-1205970347'), (u'CALL_-1205973026', u'INDIRECT_-1205968331'), (u'COPY_-1205974435', u'MULTIEQUAL_-1205969015'), (u'INT_ADD_-1205982364', u'INT_RIGHT_-1205981878'), (u'INT_ADD_-1205982872', u'INT_ADD_-1205982862'), (u'INT_ADD_-1205982936', u'INT_OR_-1205982725'), (u'CALL_-1205972582', u'INDIRECT_-1205968204'), ('const-1', u'INT_ADD_-1205973757'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205968748'), (u'INT_ADD_-1205978649', u'INT_RIGHT_-1205978604'), (u'INT_MULT_-1205980766', u'INT_OR_-1205980769'), (u'INT_OR_-1205992735', u'INT_XOR_-1205992721'), ('const-417', u'STORE_-1205974616'), (u'MULTIEQUAL_-1205972529', u'INT_ADD_-1205973856'), ('const-64', u'STORE_-1205972530'), (u'CALL_-1205972582', u'INDIRECT_-1205971904'), ('const-23', u'INT_RIGHT_-1205987801'), (u'INT_ADD_-1205980495', u'INT_RIGHT_-1205980020'), (u'STORE_-1205973634', u'INDIRECT_-1205969873'), (u'INDIRECT_-1205970870', u'MULTIEQUAL_-1205970610'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971527'), (u'INDIRECT_-1205971021', u'MULTIEQUAL_-1205970930'), (u'INT_OR_-1205978896', u'INT_ADD_-1205978566'), ('const-26', u'INT_RIGHT_-1205975651'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969622'), (u'INT_RIGHT_-1205991713', u'INT_OR_-1205991712'), (u'INDIRECT_-1205975630', u'MULTIEQUAL_-1205975631'), (u'INT_XOR_-1205975872', u'INT_XOR_-1205975852'), (u'INT_RIGHT_-1205988410', u'INT_OR_-1205988409'), (u'INT_OR_-1205984177', u'INT_XOR_-1205984081'), (u'INT_ADD_-1205973410', u'CAST_-1205967869'), (u'STORE_-1205973534', u'INDIRECT_-1205969173'), (u'INT_OR_-1205975234', u'INT_ADD_-1205974827'), (u'INT_MULT_-1205989204', u'INT_OR_-1205989207'), (u'INDIRECT_-1205969673', u'MULTIEQUAL_-1205969613'), (u'INDIRECT_-1205969070', u'MULTIEQUAL_-1205969059'), (u'CALL_-1205972994', u'INDIRECT_-1205970187'), (u'INT_RIGHT_-1205987565', u'INT_OR_-1205987564'), (u'STORE_-1205972637', u'INDIRECT_-1205969789'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968494'), (u'STORE_-1205974664', u'INDIRECT_-1205970432'), (u'INT_MULT_-1205988304', u'INT_OR_-1205988307'), (u'INT_ADD_-1205991041', u'INT_XOR_-1205991016'), (u'STORE_-1205974161', u'INDIRECT_-1205970057'), (u'STORE_-1205973590', u'INDIRECT_-1205970493'), (u'STORE_-1205972649', u'INDIRECT_-1205970167'), (u'INT_ADD_-1205984390', u'INT_MULT_-1205984362'), ('const-18', u'INT_RIGHT_-1205981460'), (u'CALL_-1205972582', u'INDIRECT_-1205968272'), (u'INT_OR_-1205991388', u'INT_ADD_-1205991197'), (u'PTRADD_-1205967665', u'STORE_-1205972789'), (u'STORE_-1205973604', u'INDIRECT_-1205971147'), (u'MULTIEQUAL_-1205970584', u'COPY_-1205970698'), (u'INDIRECT_-1205968876', u'MULTIEQUAL_-1205968891'), (u'STORE_-1205973590', u'INDIRECT_-1205970585'), (u'MULTIEQUAL_-1205968494', u'MULTIEQUAL_-1205968301'), (u'INT_ADD_-1205976003', u'INT_XOR_-1205975946'), (u'INT_MULT_-1205983511', u'INT_OR_-1205983514'), (u'INT_ADD_-1205982862', u'INT_ADD_-1205982796'), (u'INT_ADD_-1205983186', u'INT_RIGHT_-1205982502'), (u'INT_ADD_-1205988674', u'INT_MULT_-1205988646'), (u'INT_RIGHT_-1205986005', u'INT_OR_-1205986004'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976347'), (u'CALL_-1205974449', u'INDIRECT_-1205968620'), (u'CALL_-1205972973', u'INDIRECT_-1205971874'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205987557'), (u'INT_ADD_-1205979213', u'INT_ADD_-1205979193'), (u'INT_OR_-1205981949', u'INT_ADD_-1205981952'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969862'), (u'CALL_-1205993328', u'INDIRECT_-1205976593'), (u'INT_ADD_-1205974694', u'STORE_-1205974682'), (u'INT_ADD_-1205989106', u'INT_RIGHT_-1205989062'), (u'INT_OR_-1205976166', u'INT_XOR_-1205976102'), (u'INT_OR_-1205991562', u'INT_NEGATE_-1205991545'), (u'INT_ADD_-1205992510', u'INT_ADD_-1205992500'), ('const-24', u'PTRADD_-1205967639'), (u'INDIRECT_-1205969856', u'MULTIEQUAL_-1205969806'), (u'INT_ADD_-1205990923', u'INT_MULT_-1205990879'), (u'INT_OR_-1205990104', u'INT_ADD_-1205989905'), (u'INDIRECT_-1205968587', u'MULTIEQUAL_-1205968602'), ('const-4', u'PTRADD_-1205967648'), ('const-1836072691', u'INT_ADD_-1205982872'), (u'INT_ADD_-1205977422', u'INT_ADD_-1205977392'), (u'INDIRECT_-1205969755', u'MULTIEQUAL_-1205969705'), (u'INDIRECT_-1205969819', u'MULTIEQUAL_-1205969732'), ('const-0', u'COPY_-1205972898'), (u'STORE_-1205972655', u'INDIRECT_-1205970356'), (u'INT_XOR_-1205988815', u'INT_AND_-1205988788'), (u'INT_ADD_-1205975165', u'INT_RIGHT_-1205974881'), (u'INDIRECT_-1205970588', u'MULTIEQUAL_-1205970562'), (u'INT_MULT_-1205977764', u'INT_OR_-1205977767'), (u'STORE_-1205972768', u'INDIRECT_-1205970144'), (u'INT_RIGHT_-1205987765', u'INT_OR_-1205987764'), (u'INT_ADD_-1205977770', u'INT_OR_-1205977591'), (u'INDIRECT_-1205970036', u'MULTIEQUAL_-1205970010'), (u'CALL_-1205973319', u'INDIRECT_-1205970501'), (u'INT_ADD_-1205988253', u'INT_RIGHT_-1205987623'), (u'INT_XOR_-1205979505', u'INT_AND_-1205979458'), (u'STORE_-1205973604', u'INDIRECT_-1205970135'), (u'CALL_-1205973319', u'INDIRECT_-1205968689'), (u'STORE_-1205972608', u'INDIRECT_-1205970563'), (u'INT_OR_-1205980019', u'INT_XOR_-1205979918'), (u'INT_OR_-1205979804', u'INT_ADD_-1205979807'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969356'), (u'CAST_-1205967870', u'INT_ADD_-1205973410'), (u'INT_RIGHT_-1205989903', u'INT_OR_-1205989902'), (u'INT_XOR_-1205978591', u'INT_AND_-1205978570'), ('const-1024', u'INT_MULT_-1205992932'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980085'), (u'INT_ADD_-1205975269', u'INT_RIGHT_-1205975163'), (u'PTRADD_-1205973775', u'MULTIEQUAL_-1205972503'), (u'INT_ADD_-1205979990', u'INT_RIGHT_-1205979640'), (u'INT_RIGHT_-1205989046', u'INT_OR_-1205989045'), (u'CALL_-1205973395', u'INDIRECT_-1205968841'), ('const-22', u'INT_RIGHT_-1205984586'), (u'INT_ADD_-1205992896', u'INT_MULT_-1205992864'), (u'INDIRECT_-1205971054', u'MULTIEQUAL_-1205970983'), ('const-14', u'INT_ADD_-1205967837'), (u'STORE_-1205973452', u'INDIRECT_-1205969328'), (u'INT_ADD_-1205989803', u'INT_MULT_-1205989771'), (u'COPY_-1205968332', u'MULTIEQUAL_-1205968816'), (u'INT_MULT_-1205991527', u'INT_OR_-1205991530'), (u'INT_ADD_-1205973757', u'MULTIEQUAL_-1205972430'), (u'STORE_-1205973739', u'INDIRECT_-1205970004'), (u'MULTIEQUAL_-1205969971', u'MULTIEQUAL_-1205969908'), (u'INT_OR_-1205985339', u'INT_ADD_-1205985342'), (u'CALL_-1205974449', u'INDIRECT_-1205969368'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971251'), ('const-22', u'INT_RIGHT_-1205977482'), (u'STORE_-1205974159', u'INDIRECT_-1205969504'), (u'INT_ADD_-1205976117', u'INT_XOR_-1205976072'), (u'INT_OR_-1205975292', u'INT_ADD_-1205974947'), (u'INT_ADD_-1205976117', u'INT_MULT_-1205975929'), (u'INDIRECT_-1205970391', u'MULTIEQUAL_-1205968169'), (u'INT_ADD_-1205974797', u'INT_ADD_-1205974721'), (u'INT_OR_-1205981109', u'INT_XOR_-1205981091'), (u'INDIRECT_-1205970587', u'MULTIEQUAL_-1205970983'), ('const-1024', u'INT_MULT_-1205984734'), (u'INT_ADD_-1205979073', u'INT_ADD_-1205978963'), (u'INDIRECT_-1205970721', u'MULTIEQUAL_-1205970715'), (u'INT_RIGHT_-1205976541', u'INT_OR_-1205976540'), ('const-1024', u'INT_MULT_-1205983613'), ('const-88', u'COPY_-1205967701'), (u'STORE_-1205974152', u'INDIRECT_-1205970419'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968440'), ('const-417', u'STORE_-1205973534'), (u'STORE_-1205974676', u'INDIRECT_-1205971454'), (u'INT_ADD_-1205992282', u'INT_OR_-1205992093'), (u'STORE_-1205973859', u'INDIRECT_-1205969773'), (u'CALL_-1205973319', u'INDIRECT_-1205970133'), (u'INDIRECT_-1205969765', u'MULTIEQUAL_-1205969664'), (u'INT_OR_-1205990342', u'INT_ADD_-1205990061'), (u'STORE_-1205972840', u'INDIRECT_-1205969175'), (u'STORE_-1205972757', u'INDIRECT_-1205970779'), (u'STORE_-1205972757', u'INDIRECT_-1205968939'), (u'STORE_-1205972735', u'INDIRECT_-1205969942'), ('const-32', u'INT_MULT_-1205975357'), (u'INDIRECT_-1205970647', u'MULTIEQUAL_-1205970531'), (u'STORE_-1205973811', u'INDIRECT_-1205971043'), (u'INT_MULT_-1205983770', u'INT_OR_-1205983773'), ('const-1', u'PTRADD_-1205973574'), (u'STORE_-1205973555', u'INDIRECT_-1205970286'), (u'INT_OR_-1205984893', u'INT_ADD_-1205984258'), (u'CALL_-1205993328', u'INDIRECT_-1205977421'), (u'STORE_-1205972530', u'INDIRECT_-1205971080'), (u'CALL_-1205973026', u'INDIRECT_-1205968535'), (u'INT_ADD_-1205987103', u'INT_RIGHT_-1205986808'), (u'INT_XOR_-1205976102', u'INT_XOR_-1205976072'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970552'), (u'INDIRECT_-1205969489', u'MULTIEQUAL_-1205969388'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969476'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205987911'), (u'INT_OR_-1205984491', u'INT_XOR_-1205984405'), ('const-24', u'INT_RIGHT_-1205975573'), (u'INT_ADD_-1205991275', u'INT_RIGHT_-1205991149'), (u'INT_ADD_-1205992680', u'INT_MULT_-1205992658'), (u'INT_ADD_-1205989018', u'INT_ADD_-1205988920'), (u'INT_OR_-1205975932', u'INT_ADD_-1205975711'), (u'INT_ADD_-1205987803', u'INT_RIGHT_-1205987237'), ('const-0', u'SUBPIECE_-1205973365'), (u'INDIRECT_-1205971577', u'MULTIEQUAL_-1205971527'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205978586'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971564'), ('const-27', u'INT_RIGHT_-1205992368'), ('const-2048', u'INT_MULT_-1205989771'), (u'STORE_-1205974544', u'INDIRECT_-1205971381'), (u'INDIRECT_-1205969744', u'MULTIEQUAL_-1205969657'), (u'INT_OR_-1205979336', u'INT_ADD_-1205978815'), (u'PTRADD_-1205973703', u'MULTIEQUAL_-1205972474'), (u'MULTIEQUAL_-1205969918', u'COPY_-1205970053'), (u'STORE_-1205974550', u'INDIRECT_-1205971478'), (u'INT_ADD_-1205985465', u'INT_RIGHT_-1205985441'), (u'STORE_-1205973787', u'INDIRECT_-1205969470'), (u'INT_ADD_-1205985031', u'INT_NEGATE_-1205985017'), (u'STORE_-1205972724', u'INDIRECT_-1205970697'), (u'INT_ADD_-1205991783', u'INT_RIGHT_-1205991713'), (u'INT_OR_-1205991960', u'INT_ADD_-1205991963'), (u'INT_ADD_-1205974911', u'INT_XOR_-1205974842'), ('const-1', u'PTRADD_-1205973635'), (u'STORE_-1205973452', u'INDIRECT_-1205970616'), (u'INT_RIGHT_-1205989548', u'INT_OR_-1205989547'), (u'INDIRECT_-1205970718', u'MULTIEQUAL_-1205970625'), (u'INDIRECT_-1205971016', u'MULTIEQUAL_-1205970966'), ('const-1024', u'INT_MULT_-1205982820'), (u'INT_ADD_-1205988862', u'INT_AND_-1205988788'), (u'INT_XOR_-1205982045', u'INT_AND_-1205982002'), (u'INT_OR_-1205982271', u'INT_ADD_-1205981952'), (u'INT_ADD_-1205982176', u'INT_ADD_-1205982140'), (u'INT_ADD_-1205981462', u'INT_MULT_-1205981011'), (u'INT_ADD_-1205988310', u'INT_RIGHT_-1205987853'), (u'STORE_-1205973763', u'INDIRECT_-1205969645'), (u'INT_OR_-1205976929', u'INT_ADD_-1205976932'), (u'INT_RIGHT_-1205982389', u'INT_OR_-1205982388'), (u'INT_RIGHT_-1205981878', u'INT_OR_-1205981877'), (u'CALL_-1205972973', u'INDIRECT_-1205969434'), (u'INT_OR_-1205991824', u'INT_XOR_-1205991648'), (u'INT_ADD_-1205986837', u'INT_MULT_-1205986449'), (u'CALL_-1205972994', u'INDIRECT_-1205970095'), (u'INT_OR_-1205984649', u'INT_ADD_-1205984652'), (u'INT_RIGHT_-1205976199', u'INT_OR_-1205976198'), (u'INDIRECT_-1205968893', u'MULTIEQUAL_-1205968908'), (u'INDIRECT_-1205968949', u'MULTIEQUAL_-1205968875'), ('const-25', u'PTRADD_-1205967585'), (u'INT_XOR_-1205989321', u'INT_AND_-1205989278'), (u'INT_NEGATE_-1205992036', u'INT_OR_-1205991824'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968925'), (u'INT_ADD_-1205990933', u'INT_ADD_-1205990923'), (u'INDIRECT_-1205968533', u'MULTIEQUAL_-1205969004'), (u'CALL_-1205973319', u'INDIRECT_-1205968553'), ('const-1024', u'INT_MULT_-1205986578'), (u'STORE_-1205972552', u'INDIRECT_-1205969341'), (u'INT_OR_-1205988457', u'INT_AND_-1205988390'), (u'INDIRECT_-1205972584', u'COPY_-1205968320'), (u'INT_ADD_-1205981326', u'INT_MULT_-1205980766'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970818'), (u'STORE_-1205974159', u'INDIRECT_-1205971528'), (u'INDIRECT_-1205968824', u'MULTIEQUAL_-1205968806'), (u'INT_RIGHT_-1205990795', u'INT_OR_-1205990794'), (u'INDIRECT_-1205969673', u'MULTIEQUAL_-1205969572'), ('const-417', u'LOAD_-1205992081'), (u'INT_OR_-1205992563', u'INT_ADD_-1205992566'), (u'INDIRECT_-1205968213', u'MULTIEQUAL_-1205968187'), (u'INT_XOR_-1205978385', u'INT_AND_-1205978364'), (u'INDIRECT_-1205969083', u'MULTIEQUAL_-1205968967'), ('tmp_55400', u'MULTIEQUAL_-1205977439'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205992850'), (u'INT_OR_-1205983077', u'INT_ADD_-1205982433'), (u'CALL_-1205972510', u'INDIRECT_-1205968312'), (u'STORE_-1205973627', u'INDIRECT_-1205971248'), ('const-1024', u'INT_MULT_-1205984488'), (u'CALL_-1205972994', u'INDIRECT_-1205971199'), (u'INT_ADD_-1205983934', u'INT_RIGHT_-1205983916'), (u'INDIRECT_-1205970555', u'MULTIEQUAL_-1205970439'), ('tmp_35223', u'CBRANCH_-1205973907'), (u'INDIRECT_-1205970480', u'MULTIEQUAL_-1205970393'), (u'INT_RIGHT_-1205975933', u'INT_OR_-1205975932'), ('const-27', u'INT_RIGHT_-1205982956'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205992954'), (u'INT_OR_-1205975494', u'INT_ADD_-1205975497'), (u'INDIRECT_-1205971503', u'MULTIEQUAL_-1205971453'), (u'STORE_-1205972530', u'INDIRECT_-1205969332'), (u'INDIRECT_-1205971080', u'MULTIEQUAL_-1205971069'), (u'INT_OR_-1205980534', u'INT_ADD_-1205979954'), (u'INT_XOR_-1205991852', u'INT_ADD_-1205991799'), (u'INT_XOR_-1205975560', u'INT_XOR_-1205975540'), (u'STORE_-1205972643', u'INDIRECT_-1205969058'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205991323'), (u'STORE_-1205974129', u'INDIRECT_-1205969398'), (u'CALL_-1205972510', u'INDIRECT_-1205968023'), (u'INT_ADD_-1205978606', u'INT_MULT_-1205978431'), (u'INT_ADD_-1205975555', u'INT_ADD_-1205975535'), ('const-20', u'INT_RIGHT_-1205976930'), ('const-22', u'INT_RIGHT_-1205992760'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968117'), ('const-0', u'STORE_-1205972724'), (u'STORE_-1205973661', u'INDIRECT_-1205970066'), (u'LOAD_-1205993280', u'COPY_-1205968350'), (u'INDIRECT_-1205969096', u'MULTIEQUAL_-1205968472'), (u'INT_ADD_-1205979610', u'INT_XOR_-1205979505'), ('const-2400959708', u'INT_ADD_-1205980688'), ('const-1024', u'INT_MULT_-1205992158'), (u'INT_OR_-1205989239', u'INT_XOR_-1205989143'), (u'INT_ADD_-1205987449', u'INT_XOR_-1205987224'), (u'STORE_-1205974550', u'INDIRECT_-1205971202'), (u'INDIRECT_-1205969560', u'MULTIEQUAL_-1205969473'), (u'INDIRECT_-1205970902', u'MULTIEQUAL_-1205970807'), (u'INDIRECT_-1205969912', u'MULTIEQUAL_-1205969862'), (u'INT_XOR_-1205980584', u'INT_AND_-1205980563'), (u'INT_NEGATE_-1205977610', u'INT_OR_-1205977405'), (u'INT_RIGHT_-1205990121', u'INT_OR_-1205990120'), (u'CAST_-1205967689', u'STORE_-1205972608'), (u'STORE_-1205972649', u'INDIRECT_-1205968971'), (u'STORE_-1205974129', u'INDIRECT_-1205971422'), (u'STORE_-1205973417', u'INDIRECT_-1205970867'), (u'INDIRECT_-1205970684', u'MULTIEQUAL_-1205970634'), (u'INDIRECT_-1205970197', u'MULTIEQUAL_-1205970147'), (u'INT_OR_-1205988222', u'INT_ADD_-1205987803'), (u'CALL_-1205973395', u'INDIRECT_-1205968688'), ('const-417', u'STORE_-1205972608'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971076'), ('const-0', u'STORE_-1205973835'), (u'STORE_-1205972735', u'INDIRECT_-1205969390'), (u'INT_ADD_-1205991963', u'INT_XOR_-1205991668'), (u'INT_MULT_-1205977514', u'INT_OR_-1205977517'), ('const-4096', u'INT_MULT_-1205975881'), (u'INT_MULT_-1205975435', u'INT_OR_-1205975438'), (u'INDIRECT_-1205970279', u'MULTIEQUAL_-1205970192'), (u'INDIRECT_-1205971145', u'MULTIEQUAL_-1205971044'), (u'STORE_-1205972735', u'INDIRECT_-1205970310'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971177'), (u'INT_MULT_-1205974905', u'INT_OR_-1205974908'), (u'INT_XOR_-1205980330', u'INT_ADD_-1205980309'), (u'INDIRECT_-1205968912', u'COPY_-1205967652'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971554'), ('const-22', u'INT_RIGHT_-1205978745'), (u'STORE_-1205973859', u'INDIRECT_-1205969865'), (u'INT_OR_-1205983314', u'INT_XOR_-1205983228'), (u'STORE_-1205974670', u'INDIRECT_-1205971909'), (u'CALL_-1205972973', u'INDIRECT_-1205968535'), (u'INT_OR_-1205975750', u'INT_ADD_-1205975555'), (u'STORE_-1205972670', u'INDIRECT_-1205968711'), (u'INDIRECT_-1205970746', u'MULTIEQUAL_-1205970702'), (u'STORE_-1205973739', u'INDIRECT_-1205971292'), (u'STORE_-1205972666', u'INDIRECT_-1205970216'), (u'STORE_-1205973590', u'INDIRECT_-1205969205'), ('const-22', u'PTRADD_-1205967625'), (u'INDIRECT_-1205969825', u'MULTIEQUAL_-1205969734'), (u'INDIRECT_-1205969096', u'MULTIEQUAL_-1205968663'), (u'INT_OR_-1205991388', u'INT_XOR_-1205991338'), (u'STORE_-1205972655', u'INDIRECT_-1205969252'), (u'INDIRECT_-1205970500', u'MULTIEQUAL_-1205970450'), (u'INT_RIGHT_-1205986835', u'INT_OR_-1205986834'), (u'STORE_-1205973431', u'INDIRECT_-1205970785'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205976087'), (u'STORE_-1205973811', u'INDIRECT_-1205970307'), (u'INDIRECT_-1205971043', u'MULTIEQUAL_-1205970993'), (u'INDIRECT_-1205969130', u'MULTIEQUAL_-1205968506'), (u'STORE_-1205974616', u'INDIRECT_-1205969663'), ('const-18', u'INT_RIGHT_-1205978913'), ('const-1548603684', u'INT_ADD_-1205987365'), (u'INT_ADD_-1205986967', u'INT_RIGHT_-1205986705'), (u'INDIRECT_-1205969847', u'MULTIEQUAL_-1205969797'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205978051'), (u'CALL_-1205973395', u'INDIRECT_-1205968773'), (u'INT_RIGHT_-1205984366', u'INT_OR_-1205984365'), ('const-4', u'PTRADD_-1205975175'), (u'INT_XOR_-1205986692', u'INT_AND_-1205986671'), (u'MULTIEQUAL_-1205968814', u'COPY_-1205968949'), (u'STORE_-1205973763', u'INDIRECT_-1205970197'), (u'CALL_-1205972510', u'INDIRECT_-1205968448'), (u'STORE_-1205973576', u'INDIRECT_-1205970207'), (u'INT_OR_-1205986932', u'INT_ADD_-1205986734'), (u'INT_ADD_-1205983918', u'INT_OR_-1205983566'), (u'STORE_-1205972840', u'INDIRECT_-1205971015'), ('const-17', u'PTRADD_-1205968024'), (u'SUBPIECE_-1205968394', u'CAST_-1205967870'), (u'MULTIEQUAL_-1205968800', u'MULTIEQUAL_-1205968607'), ('const-22', u'INT_RIGHT_-1205989935'), (u'STORE_-1205973445', u'INDIRECT_-1205970335'), (u'LOAD_-1205993137', u'COPY_-1205968332'), ('tmp_34993', u'CBRANCH_-1205974032'), (u'INT_XOR_-1205981515', u'INT_ADD_-1205981510'), (u'INT_XOR_-1205981399', u'INT_AND_-1205981378'), (u'STORE_-1205973835', u'INDIRECT_-1205970132'), (u'INT_RIGHT_-1205975417', u'INT_OR_-1205975416'), (u'INT_ADD_-1205975497', u'INT_MULT_-1205975325'), (u'INT_MULT_-1205991035', u'INT_OR_-1205991038'), (u'INT_MULT_-1205975881', u'INT_OR_-1205975884'), (u'INT_RIGHT_-1205988650', u'INT_OR_-1205988649'), ('const-22', u'INT_RIGHT_-1205979640'), (u'INDIRECT_-1205968928', u'MULTIEQUAL_-1205968875'), (u'INT_RIGHT_-1205981015', u'INT_OR_-1205981014'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970901'), (u'INT_XOR_-1205978716', u'INT_AND_-1205978673'), (u'INT_OR_-1205991226', u'INT_ADD_-1205991041'), (u'CALL_-1205972994', u'INDIRECT_-1205968637'), (u'CALL_-1205973026', u'INDIRECT_-1205968450'), (u'INDIRECT_-1205971061', u'MULTIEQUAL_-1205971012'), (u'STORE_-1205973634', u'INDIRECT_-1205969781'), (u'CALL_-1205972973', u'INDIRECT_-1205968399'), (u'INT_MULT_-1205983074', u'INT_OR_-1205983077'), (u'LOAD_-1205993137', u'INT_ADD_-1205993002'), (u'INT_OR_-1205986567', u'INT_XOR_-1205986559'), (u'INT_ADD_-1205981086', u'INT_RIGHT_-1205981057'), ('const-66', u'INT_ADD_-1205973403'), (u'STORE_-1205974616', u'INDIRECT_-1205970859'), (u'STORE_-1205972530', u'INDIRECT_-1205971172'), ('const-4', u'PTRADD_-1205967990'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205967990'), (u'INT_MULT_-1205979984', u'INT_OR_-1205979987'), (u'CALL_-1205973395', u'INDIRECT_-1205971362'), ('const-2053994217', u'INT_ADD_-1205978197'), (u'INT_XOR_-1205991172', u'INT_ADD_-1205991141'), (u'CALL_-1205972510', u'INDIRECT_-1205971047'), (u'CALL_-1205972973', u'INDIRECT_-1205969342'), (u'INT_OR_-1205983514', u'INT_ADD_-1205983517'), (u'STORE_-1205973417', u'INDIRECT_-1205971419'), (u'MULTIEQUAL_-1205968162', u'MULTIEQUAL_-1205969752'), (u'CALL_-1205972994', u'INDIRECT_-1205968620'), (u'STORE_-1205972608', u'INDIRECT_-1205970103'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970736'), (u'INT_ADD_-1205990611', u'INT_MULT_-1205989693'), ('tmp_55382', u'MULTIEQUAL_-1205976158'), (u'STORE_-1205974152', u'INDIRECT_-1205970695'), (u'INT_NOTEQUAL_-1205972610', u'CBRANCH_-1205972601'), (u'INT_ADD_-1205992896', u'INT_RIGHT_-1205992868'), (u'INDIRECT_-1205968858', u'MULTIEQUAL_-1205968840'), (u'STORE_-1205974682', u'INDIRECT_-1205971183'), ('tmp_35085', u'CBRANCH_-1205973982'), (u'INT_OR_-1205984585', u'INT_ADD_-1205983954'), (u'LOAD_-1205993280', u'INT_ADD_-1205974556'), ('const-1', u'INT_ADD_-1205974207'), (u'INT_MULT_-1205977618', u'INT_OR_-1205977621'), (u'INDIRECT_-1205970307', u'MULTIEQUAL_-1205970257'), (u'CAST_-1205967734', u'INT_ADD_-1205972710'), (u'STORE_-1205973445', u'INDIRECT_-1205969967'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981719'), (u'MULTIEQUAL_-1205968157', u'MULTIEQUAL_-1205969292'), ('const-25', u'INT_RIGHT_-1205992280'), (u'INDIRECT_-1205968740', u'MULTIEQUAL_-1205968714'), ('const-22', u'INT_RIGHT_-1205985837'), (u'STORE_-1205973787', u'INDIRECT_-1205970114'), (u'INDIRECT_-1205968654', u'MULTIEQUAL_-1205968642'), (u'INDIRECT_-1205968654', u'MULTIEQUAL_-1205968642'), ('const-12', u'INT_ADD_-1205967879'), (u'INT_XOR_-1205975982', u'INT_XOR_-1205975946'), (u'CAST_-1205967408', u'STORE_-1205972571'), (u'INDIRECT_-1205970134', u'MULTIEQUAL_-1205969874'), (u'INT_NEGATE_-1205983715', u'INT_OR_-1205983566'), (u'STORE_-1205973438', u'INDIRECT_-1205969318'), (u'STORE_-1205973534', u'INDIRECT_-1205971197'), (u'INT_OR_-1205988827', u'INT_XOR_-1205988815'), (u'INT_OR_-1205981427', u'INT_AND_-1205981378'), (u'INDIRECT_-1205969712', u'MULTIEQUAL_-1205969204'), (u'INDIRECT_-1205969208', u'MULTIEQUAL_-1205969182'), ('const-22', u'INT_RIGHT_-1205992130'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967595'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989321'), (u'INT_OR_-1205993224', u'INT_ADD_-1205992870'), (u'STORE_-1205973597', u'INDIRECT_-1205970130'), (u'INT_MULT_-1205976766', u'INT_OR_-1205976769'), (u'CALL_-1205973319', u'INDIRECT_-1205971421'), (u'INT_NEGATE_-1205985216', u'INT_OR_-1205985150'), (u'INT_ADD_-1205989905', u'INT_MULT_-1205989582'), (u'STORE_-1205974676', u'INDIRECT_-1205969614'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968743'), (u'MULTIEQUAL_-1205969157', u'MULTIEQUAL_-1205968964'), (u'CALL_-1205973395', u'INDIRECT_-1205969798'), (u'INT_OR_-1205975074', u'INT_ADD_-1205975077'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205992360'), ('const-1024', u'INT_MULT_-1205989693'), ('tmp_37603', u'CBRANCH_-1205972717'), (u'INT_OR_-1205992161', u'INT_NEGATE_-1205992144'), (u'INT_OR_-1205979639', u'INT_XOR_-1205979531'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205988199'), (u'INT_MULT_-1205987401', u'INT_OR_-1205987404'), (u'STORE_-1205973661', u'INDIRECT_-1205970158'), (u'INT_ADD_-1205980527', u'INT_MULT_-1205980489'), (u'INT_ADD_-1205983517', u'INT_NEGATE_-1205983471'), (u'INDIRECT_-1205971330', u'MULTIEQUAL_-1205971259'), (u'INT_ADD_-1205982594', u'INT_XOR_-1205982151'), (u'CALL_-1205973319', u'INDIRECT_-1205970225'), (u'CAST_-1205968107', u'STORE_-1205973859'), ('const-417', u'STORE_-1205972724'), (u'INT_AND_-1205987181', u'INT_XOR_-1205987162'), (u'MULTIEQUAL_-1205967763', u'CAST_-1205967591'), (u'INT_ADD_-1205983918', u'INT_MULT_-1205983074'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205976533'), (u'STORE_-1205974550', u'INDIRECT_-1205969546'), (u'STORE_-1205973590', u'INDIRECT_-1205971229'), (u'STORE_-1205972552', u'INDIRECT_-1205970537'), (u'INT_NEGATE_-1205979043', u'INT_OR_-1205977695'), ('const-0', u'STORE_-1205973661'), (u'INDIRECT_-1205970868', u'MULTIEQUAL_-1205970818'), ('tmp_37187', u'CBRANCH_-1205972573'), (u'INDIRECT_-1205970409', u'MULTIEQUAL_-1205970349'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980330'), (u'INT_RIGHT_-1205976323', u'INT_OR_-1205976322'), (u'INDIRECT_-1205968813', u'MULTIEQUAL_-1205968722'), (u'INT_MULT_-1205992612', u'INT_OR_-1205992615'), ('const-1024', u'INT_MULT_-1205977318'), (u'INT_OR_-1205987446', u'INT_ADD_-1205987449'), ('tmp_312', u'CBRANCH_-1205993294'), (u'INT_ADD_-1205976974', u'INT_ADD_-1205976948'), (u'LOAD_-1205974338', u'INT_ADD_-1205967858'), (u'INT_ADD_-1205985475', u'INT_ADD_-1205985465'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205976393'), ('const-100', u'INT_ADD_-1205974529'), (u'INDIRECT_-1205969674', u'MULTIEQUAL_-1205969414'), (u'INT_AND_-1205987839', u'INT_XOR_-1205987814'), (u'INT_OR_-1205983498', u'INT_ADD_-1205983501'), (u'CALL_-1205973026', u'INDIRECT_-1205969468'), (u'STORE_-1205972655', u'INDIRECT_-1205970080'), (u'STORE_-1205972552', u'INDIRECT_-1205970445'), (u'STORE_-1205974544', u'INDIRECT_-1205970829'), ('const-1024', u'INT_MULT_-1205975819'), (u'INT_OR_-1205990882', u'INT_ADD_-1205990885'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970165'), (u'INT_ADD_-1205989400', u'INT_XOR_-1205989033'), ('const-18', u'PTRADD_-1205968070'), (u'INDIRECT_-1205970388', u'MULTIEQUAL_-1205970301'), (u'INT_ADD_-1205976597', u'INT_RIGHT_-1205976579'), (u'STORE_-1205973410', u'INDIRECT_-1205969482'), (u'INDIRECT_-1205969398', u'MULTIEQUAL_-1205968861'), (u'STORE_-1205974526', u'INDIRECT_-1205969894'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968834'), (u'CALL_-1205973395', u'INDIRECT_-1205968790'), ('const-417', u'STORE_-1205974670'), ('const-1024', u'INT_MULT_-1205986078'), (u'INT_OR_-1205984291', u'INT_ADD_-1205983776'), (u'INT_OR_-1205992853', u'INT_XOR_-1205992809'), ('const-16', u'INT_RIGHT_-1205968019'), (u'PTRADD_-1205967639', u'STORE_-1205972757'), (u'STORE_-1205973431', u'INDIRECT_-1205970509'), (u'INT_ADD_-1205983186', u'INT_NEGATE_-1205982970'), (u'STORE_-1205972649', u'INDIRECT_-1205969983'), (u'STORE_-1205973763', u'INDIRECT_-1205969461'), (u'STORE_-1205973604', u'INDIRECT_-1205970043'), (u'INDIRECT_-1205969756', u'MULTIEQUAL_-1205969703'), ('const-4', u'PTRADD_-1205967985'), (u'INT_ADD_-1205972594', u'CAST_-1205967689'), ('tmp_55347', u'MULTIEQUAL_-1205975546'), (u'INT_ADD_-1205986225', u'INT_RIGHT_-1205986098'), (u'INT_ADD_-1205980495', u'INT_XOR_-1205980177'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970208'), (u'INT_LEFT_-1205991890', u'INT_OR_-1205991890'), ('const-1', u'INT_NOTEQUAL_-1205974009'), (u'INDIRECT_-1205969397', u'MULTIEQUAL_-1205969296'), (u'INT_XOR_-1205987610', u'INT_AND_-1205987541'), (u'SUBPIECE_-1205968394', u'CALL_-1205973395'), (u'INT_MULT_-1205984917', u'INT_OR_-1205984920'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986692'), (u'INDIRECT_-1205970233', u'MULTIEQUAL_-1205970184'), (u'CALL_-1205973319', u'INDIRECT_-1205970041'), (u'INT_ADD_-1205981510', u'INT_MULT_-1205981456'), (u'INT_OR_-1205989696', u'INT_ADD_-1205989210'), ('const-22', u'INT_RIGHT_-1205982634'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969586'), (u'STORE_-1205974616', u'INDIRECT_-1205969755'), (u'STORE_-1205974161', u'INDIRECT_-1205969781'), (u'INT_ADD_-1205978103', u'INT_ADD_-1205978010'), (u'INT_RIGHT_-1205985853', u'INT_OR_-1205985852'), (u'INT_RIGHT_-1205980634', u'INT_OR_-1205980633'), (u'INT_OR_-1205986097', u'INT_ADD_-1205986100'), (u'INDIRECT_-1205970010', u'MULTIEQUAL_-1205969966'), (u'INT_XOR_-1205975482', u'INT_XOR_-1205975462'), (u'INT_ADD_-1205987255', u'INT_RIGHT_-1205986933'), (u'STORE_-1205972729', u'INDIRECT_-1205969385'), (u'INT_OR_-1205978744', u'INT_ADD_-1205978463'), (u'INT_NEGATE_-1205982848', u'INT_OR_-1205982456'), (u'STORE_-1205972840', u'INDIRECT_-1205971199'), (u'STORE_-1205973583', u'INDIRECT_-1205970764'), (u'INT_ADD_-1205993090', u'INT_MULT_-1205993068'), (u'INT_ADD_-1205992370', u'INT_XOR_-1205992335'), (u'STORE_-1205973604', u'INDIRECT_-1205969951'), (u'STORE_-1205972530', u'INDIRECT_-1205969884'), (u'CALL_-1205974449', u'INDIRECT_-1205970080'), (u'INT_ADD_-1205982616', u'INT_RIGHT_-1205982592'), (u'LOAD_-1205992207', u'INT_LEFT_-1205991696'), (u'INT_OR_-1205985201', u'INT_ADD_-1205985204'), ('const-256', u'INT_MULT_-1205979984'), (u'INT_OR_-1205976672', u'INT_ADD_-1205976419'), (u'INT_ADD_-1205992824', u'INT_ADD_-1205992804'), (u'CAST_-1205967662', u'INT_ADD_-1205972538'), ('tmp_35131', u'CBRANCH_-1205973957'), (u'INDIRECT_-1205975647', u'MULTIEQUAL_-1205975648'), (u'INT_OR_-1205978289', u'INT_ADD_-1205978292'), (u'COPY_-1205975183', u'MULTIEQUAL_-1205972024'), (u'INT_XOR_-1205980657', u'INT_ADD_-1205980652'), (u'INT_XOR_-1205977573', u'INT_ADD_-1205977536'), (u'STORE_-1205974550', u'INDIRECT_-1205971754'), (u'INT_NEGATE_-1205977444', u'INT_OR_-1205977297'), (u'INT_ADD_-1205982780', u'INT_OR_-1205982476'), (u'INDIRECT_-1205969338', u'MULTIEQUAL_-1205969243'), (u'INT_MULT_-1205978600', u'INT_OR_-1205978603'), (u'INT_ADD_-1205993028', u'INT_ADD_-1205993002'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205976565'), (u'INT_ADD_-1205986371', u'INT_ADD_-1205986361'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979505'), (u'INT_OR_-1205991440', u'INT_ADD_-1205991443'), (u'STORE_-1205972789', u'INDIRECT_-1205969517'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973523'), (u'INT_ADD_-1205990518', u'INT_RIGHT_-1205990456'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205989572'), (u'INDIRECT_-1205969368', u'MULTIEQUAL_-1205968934'), (u'COPY_-1205967665', u'STORE_-1205972649'), ('const-1024', u'INT_MULT_-1205977748'), (u'INDIRECT_-1205975409', u'INT_EQUAL_-1205974552'), (u'STORE_-1205973835', u'INDIRECT_-1205970408'), (u'CALL_-1205974449', u'INDIRECT_-1205969045'), (u'STORE_-1205973835', u'INDIRECT_-1205971236'), (u'CAST_-1205968107', u'MULTIEQUAL_-1205972465'), ('tmp_55409', u'MULTIEQUAL_-1205978267'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970625'), (u'INT_RIGHT_-1205991149', u'INT_OR_-1205991148'), (u'CALL_-1205974449', u'INDIRECT_-1205971460'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970396'), (u'INT_OR_-1205991350', u'INT_ADD_-1205991353'), (u'INT_OR_-1205990742', u'INT_ADD_-1205990361'), ('const-64', u'INT_NOTEQUAL_-1205972909'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205990855'), (u'LOAD_-1205974405', u'MULTIEQUAL_-1205969032'), (u'CAST_-1205968226', u'CBRANCH_-1205974371'), (u'STORE_-1205972571', u'INDIRECT_-1205970864'), ('const-256', u'INT_MULT_-1205989997'), (u'CALL_-1205973319', u'INDIRECT_-1205968944'), (u'MULTIEQUAL_-1205971351', u'MULTIEQUAL_-1205971269'), (u'INT_ADD_-1205980610', u'INT_ADD_-1205980527'), (u'MULTIEQUAL_-1205968160', u'MULTIEQUAL_-1205969568'), (u'INT_ADD_-1205989064', u'INT_RIGHT_-1205988708'), (u'STORE_-1205972729', u'INDIRECT_-1205969845'), (u'INT_ADD_-1205990458', u'INT_RIGHT_-1205989334'), (u'INT_AND_-1205986183', u'INT_XOR_-1205986148'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205993242'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973551'), (u'INT_NEGATE_-1205985007', u'INT_OR_-1205984723'), (u'INT_ADD_-1205977520', u'INT_XOR_-1205977469'), (u'STORE_-1205973661', u'INDIRECT_-1205970986'), (u'CALL_-1205973319', u'INDIRECT_-1205970869'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205986600'), (u'STORE_-1205973452', u'INDIRECT_-1205969512'), (u'INT_AND_-1205987505', u'INT_XOR_-1205987476'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970046'), ('const-0', u'STORE_-1205972666'), (u'INDIRECT_-1205971276', u'MULTIEQUAL_-1205970577'), (u'INDIRECT_-1205969121', u'MULTIEQUAL_-1205969061'), (u'STORE_-1205974538', u'INDIRECT_-1205971376'), (u'INT_OR_-1205990104', u'INT_XOR_-1205990086'), (u'CALL_-1205993328', u'INDIRECT_-1205977237'), (u'INDIRECT_-1205968553', u'MULTIEQUAL_-1205968527'), (u'INT_ADD_-1205990797', u'INT_XOR_-1205990756'), ('tmp_37895', u'CBRANCH_-1205972553'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969346'), (u'STORE_-1205973590', u'INDIRECT_-1205970677'), (u'INT_OR_-1205987236', u'INT_ADD_-1205986967'), (u'INT_OR_-1205975292', u'INT_ADD_-1205974817'), (u'STORE_-1205973695', u'INDIRECT_-1205969531'), (u'INT_OR_-1205975604', u'INT_XOR_-1205975560'), (u'INT_ADD_-1205992850', u'INT_ADD_-1205992824'), (u'STORE_-1205973661', u'INDIRECT_-1205969514'), (u'CALL_-1205972582', u'INDIRECT_-1205968493'), (u'INT_MULT_-1205976575', u'INT_OR_-1205976578'), (u'STORE_-1205973424', u'INDIRECT_-1205970136'), (u'INT_ADD_-1205991877', u'INT_ADD_-1205991731'), (u'INT_OR_-1205975438', u'INT_ADD_-1205975165'), ('const-96', u'INT_ADD_-1205993189'), (u'STORE_-1205974129', u'INDIRECT_-1205970962'), (u'INT_MULT_-1205977706', u'INT_OR_-1205977709'), (u'STORE_-1205972735', u'INDIRECT_-1205970034'), (u'CALL_-1205973395', u'INDIRECT_-1205970534'), (u'INT_OR_-1205979836', u'INT_ADD_-1205979245'), (u'INDIRECT_-1205970495', u'MULTIEQUAL_-1205970891'), (u'INT_ADD_-1205990335', u'INT_RIGHT_-1205990311'), (u'INT_RIGHT_-1205975729', u'INT_OR_-1205975728'), (u'STORE_-1205974682', u'INDIRECT_-1205970171'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205981126'), (u'STORE_-1205972530', u'INDIRECT_-1205969148'), ('const-417', u'STORE_-1205973438'), ('const-26', u'INT_RIGHT_-1205984058'), (u'INT_RIGHT_-1205982956', u'INT_OR_-1205982955'), (u'INDIRECT_-1205969990', u'MULTIEQUAL_-1205969979'), (u'INT_ADD_-1205977128', u'INT_RIGHT_-1205977100'), (u'INT_ADD_-1205973279', u'PIECE_-1205967981'), ('const-1024', u'INT_MULT_-1205985849'), (u'INDIRECT_-1205968791', u'MULTIEQUAL_-1205968765'), (u'INT_RIGHT_-1205986582', u'INT_OR_-1205986581'), (u'STORE_-1205973417', u'INDIRECT_-1205969487'), (u'INT_ADD_-1205988602', u'INT_MULT_-1205988570'), ('const-256', u'INT_MULT_-1205980798'), (u'INDIRECT_-1205970881', u'MULTIEQUAL_-1205970807'), (u'INDIRECT_-1205968841', u'MULTIEQUAL_-1205968823'), (u'INT_OR_-1205989585', u'INT_XOR_-1205989453'), ('const-24', u'INT_RIGHT_-1205984220'), ('const-18', u'INT_RIGHT_-1205981796'), ('const-417', u'LOAD_-1205974285'), (u'INDIRECT_-1205970068', u'MULTIEQUAL_-1205970057'), (u'INT_NEGATE_-1205992790', u'INT_OR_-1205992689'), (u'INT_ADD_-1205992386', u'INT_RIGHT_-1205992368'), (u'STORE_-1205974664', u'INDIRECT_-1205971536'), (u'INT_ADD_-1205976035', u'INT_XOR_-1205975202'), (u'CALL_-1205973395', u'INDIRECT_-1205969522'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205992716'), (u'STORE_-1205972735', u'INDIRECT_-1205969666'), (u'INT_ADD_-1205980345', u'INT_RIGHT_-1205980291'), (u'INT_OR_-1205976987', u'INT_XOR_-1205976881'), (u'INT_OR_-1205980956', u'INT_ADD_-1205980495'), (u'CALL_-1205973319', u'INDIRECT_-1205968570'), (u'LOAD_-1205992173', u'INT_XOR_-1205992085'), ('const-4096', u'INT_MULT_-1205977764'), (u'INDIRECT_-1205969620', u'MULTIEQUAL_-1205969112'), (u'INDIRECT_-1205970175', u'MULTIEQUAL_-1205968166'), (u'INT_ADD_-1205979414', u'INT_RIGHT_-1205979369'), (u'INT_OR_-1205982271', u'INT_ADD_-1205981840'), (u'INT_ADD_-1205982796', u'INT_MULT_-1205982774'), (u'INT_OR_-1205987852', u'INT_ADD_-1205986554'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205988356'), (u'STORE_-1205973661', u'INDIRECT_-1205971354'), ('const-8', u'INT_ADD_-1205968321'), (u'STORE_-1205972735', u'INDIRECT_-1205969850'), ('const-64', u'INT_MULT_-1205984054'), (u'INT_XOR_-1205975014', u'INT_XOR_-1205974994'), (u'INT_ADD_-1205984516', u'INT_OR_-1205984115'), (u'INDIRECT_-1205971514', u'MULTIEQUAL_-1205971254'), (u'STORE_-1205973417', u'INDIRECT_-1205971235'), ('const-22', u'INT_RIGHT_-1205988708'), (u'INDIRECT_-1205969706', u'MULTIEQUAL_-1205969611'), (u'INDIRECT_-1205969304', u'MULTIEQUAL_-1205969254'), (u'INDIRECT_-1205971127', u'MULTIEQUAL_-1205968177'), (u'INT_MULT_-1205981792', u'INT_OR_-1205981795'), (u'CAST_-1205968107', u'COPY_-1205968240'), (u'INDIRECT_-1205971698', u'MULTIEQUAL_-1205971161'), (u'STORE_-1205972670', u'INDIRECT_-1205970275'), ('const-65', u'INT_ADD_-1205973396'), ('const-417', u'STORE_-1205972768'), (u'STORE_-1205973590', u'INDIRECT_-1205970953'), (u'INT_ADD_-1205986544', u'INT_MULT_-1205986501'), (u'INDIRECT_-1205968689', u'MULTIEQUAL_-1205968704'), (u'STORE_-1205972643', u'INDIRECT_-1205968966'), (u'INT_OR_-1205975968', u'INT_ADD_-1205974582'), (u'INT_ADD_-1205977770', u'INT_MULT_-1205977706'), ('tmp_37819', u'CBRANCH_-1205972601'), (u'INDIRECT_-1205969572', u'MULTIEQUAL_-1205969519'), (u'INT_OR_-1205976000', u'INT_ADD_-1205976003'), (u'INT_ADD_-1205985721', u'INT_MULT_-1205984989'), (u'INT_MULT_-1205977478', u'INT_OR_-1205977481'), (u'INT_OR_-1205989045', u'INT_AND_-1205988970'), (u'INT_ADD_-1205984720', u'INT_MULT_-1205984698'), (u'INDIRECT_-1205970502', u'MULTIEQUAL_-1205970242'), (u'INT_OR_-1205978434', u'INT_ADD_-1205977959'), (u'INDIRECT_-1205969147', u'MULTIEQUAL_-1205968523'), ('const-1024', u'INT_MULT_-1205983138'), (u'STORE_-1205972782', u'INDIRECT_-1205969154'), (u'INDIRECT_-1205969806', u'MULTIEQUAL_-1205969795'), (u'INT_ADD_-1205975379', u'INT_MULT_-1205975357'), (u'INDIRECT_-1205968656', u'MULTIEQUAL_-1205968630'), ('const-2048', u'INT_MULT_-1205992772'), (u'INT_OR_-1205991578', u'INT_ADD_-1205991581'), (u'INT_OR_-1205985718', u'INT_ADD_-1205985721'), (u'INDIRECT_-1205970116', u'COPY_-1205970172'), ('const-26', u'INT_RIGHT_-1205986005'), (u'STORE_-1205972768', u'INDIRECT_-1205970788'), (u'STORE_-1205974676', u'INDIRECT_-1205971270'), (u'INDIRECT_-1205968720', u'MULTIEQUAL_-1205969191'), (u'INT_OR_-1205989810', u'INT_ADD_-1205989158'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981211'), (u'INT_ADD_-1205978606', u'INT_XOR_-1205978488'), (u'INT_XOR_-1205988331', u'INT_ADD_-1205988326'), (u'CALL_-1205973026', u'INDIRECT_-1205969376'), (u'STORE_-1205972643', u'INDIRECT_-1205969978'), (u'INT_ADD_-1205972547', u'CAST_-1205967667'), (u'MULTIEQUAL_-1205968172', u'MULTIEQUAL_-1205970672'), ('const-1836072691', u'INT_ADD_-1205984796'), (u'INDIRECT_-1205970501', u'MULTIEQUAL_-1205970400'), (u'STORE_-1205972757', u'INDIRECT_-1205969123'), ('const-92', u'INT_ADD_-1205974535'), (u'STORE_-1205974538', u'INDIRECT_-1205970732'), (u'CALL_-1205972973', u'INDIRECT_-1205968331'), (u'STORE_-1205973627', u'INDIRECT_-1205970696'), (u'CALL_-1205972510', u'INDIRECT_-1205969023'), (u'INDIRECT_-1205970576', u'COPY_-1205970632'), (u'STORE_-1205973604', u'INDIRECT_-1205971239'), (u'INT_RIGHT_-1205992162', u'INT_OR_-1205992161'), ('const-512', u'INT_MULT_-1205990355'), (u'INT_XOR_-1205983019', u'INT_ADD_-1205982994'), (u'INT_ADD_-1205985230', u'INT_MULT_-1205985198'), (u'INT_OR_-1205977517', u'INT_ADD_-1205977520'), (u'INT_MULT_-1205977040', u'INT_OR_-1205977043'), (u'CALL_-1205972973', u'INDIRECT_-1205968637'), (u'INT_OR_-1205979054', u'INT_ADD_-1205977500'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205986371'), (u'STORE_-1205973604', u'INDIRECT_-1205970411'), (u'INT_ADD_-1205990361', u'INT_XOR_-1205990298'), (u'STORE_-1205972664', u'INDIRECT_-1205970270'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969521'), (u'INT_MULT_-1205989058', u'INT_OR_-1205989061'), (u'INT_ADD_-1205982594', u'INT_XOR_-1205982259'), (u'INT_OR_-1205976540', u'INT_ADD_-1205976273'), (u'INDIRECT_-1205971460', u'MULTIEQUAL_-1205970744'), (u'INT_XOR_-1205979531', u'INT_AND_-1205979478'), (u'INDIRECT_-1205970298', u'MULTIEQUAL_-1205970248'), (u'INT_RIGHT_-1205976449', u'INT_OR_-1205976448'), (u'MULTIEQUAL_-1205969642', u'COPY_-1205969777'), (u'INDIRECT_-1205971184', u'MULTIEQUAL_-1205970485'), (u'INT_MULT_-1205990739', u'INT_OR_-1205990742'), (u'CALL_-1205993328', u'INDIRECT_-1205977605'), (u'INT_MULT_-1205977174', u'INT_OR_-1205977177'), (u'PTRADD_-1205973574', u'STORE_-1205973634'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971316'), (u'STORE_-1205973739', u'INDIRECT_-1205969452'), ('const-2053994217', u'INT_ADD_-1205979073'), (u'INT_OR_-1205989934', u'INT_ADD_-1205989468'), (u'INT_ADD_-1205985897', u'INT_ADD_-1205985887'), (u'STORE_-1205974526', u'INDIRECT_-1205971642'), (u'INT_OR_-1205983773', u'INT_ADD_-1205983776'), (u'INDIRECT_-1205971003', u'MULTIEQUAL_-1205968175'), (u'STORE_-1205973431', u'INDIRECT_-1205971153'), (u'INT_ADD_-1205991443', u'INT_RIGHT_-1205991305'), (u'INT_XOR_-1205988737', u'INT_ADD_-1205988674'), (u'INT_OR_-1205974880', u'INT_XOR_-1205974852'), (u'INDIRECT_-1205969359', u'MULTIEQUAL_-1205969243'), (u'INDIRECT_-1205969700', u'MULTIEQUAL_-1205969689'), (u'INT_ADD_-1205984923', u'INT_MULT_-1205984288'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970358'), (u'CALL_-1205972582', u'INDIRECT_-1205969733'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970184'), (u'STORE_-1205974670', u'INDIRECT_-1205970897'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969981'), (u'INT_OR_-1205980163', u'INT_ADD_-1205979610'), (u'STORE_-1205972713', u'INDIRECT_-1205969188'), (u'STORE_-1205974538', u'INDIRECT_-1205971008'), (u'INT_RIGHT_-1205986732', u'INT_OR_-1205986731'), (u'MULTIEQUAL_-1205968161', u'MULTIEQUAL_-1205969660'), (u'CALL_-1205973026', u'INDIRECT_-1205968501'), (u'INDIRECT_-1205969147', u'MULTIEQUAL_-1205968828'), ('const-22', u'INT_RIGHT_-1205977028'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969310'), (u'LOAD_-1205993205', u'INT_ADD_-1205993134'), ('tmp_55344', u'MULTIEQUAL_-1205975495'), (u'INT_MULT_-1205979514', u'INT_OR_-1205979517'), (u'INDIRECT_-1205971086', u'MULTIEQUAL_-1205970991'), (u'INT_OR_-1205978434', u'INT_ADD_-1205978087'), (u'INT_ADD_-1205991443', u'INT_XOR_-1205991338'), (u'STORE_-1205972670', u'INDIRECT_-1205969723'), (u'INT_ADD_-1205977046', u'INT_RIGHT_-1205977028'), (u'INT_RIGHT_-1205982272', u'INT_OR_-1205982271'), (u'INT_ADD_-1205988546', u'INT_RIGHT_-1205988410'), ('const-4294967232', u'INT_MULT_-1205971052'), ('const-256', u'INT_MULT_-1205976413'), (u'INT_ADD_-1205978400', u'INT_XOR_-1205978303'), (u'INT_ADD_-1205976051', u'INT_MULT_-1205975997'), ('const-23', u'INT_RIGHT_-1205977638'), ('const-1024', u'INT_MULT_-1205977174'), (u'STORE_-1205973410', u'INDIRECT_-1205970494'), (u'LOAD_-1205974405', u'MULTIEQUAL_-1205968727'), (u'INT_OR_-1205986081', u'INT_ADD_-1205985721'), (u'INDIRECT_-1205970312', u'MULTIEQUAL_-1205970286'), (u'STORE_-1205974161', u'INDIRECT_-1205970149'), (u'INT_NEGATE_-1205976758', u'INT_OR_-1205976142'), (u'MULTIEQUAL_-1205972301', u'INT_RIGHT_-1205968019'), (u'INDIRECT_-1205970685', u'MULTIEQUAL_-1205970625'), (u'INDIRECT_-1205976409', u'MULTIEQUAL_-1205976335'), (u'STORE_-1205973431', u'INDIRECT_-1205969313'), ('const-32768', u'INT_MULT_-1205980489'), (u'INT_ADD_-1205981798', u'INT_RIGHT_-1205981428'), ('const-19', u'INT_RIGHT_-1205982330'), (u'STORE_-1205974550', u'INDIRECT_-1205971570'), (u'STORE_-1205973431', u'INDIRECT_-1205971429'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969564'), (u'STORE_-1205973739', u'INDIRECT_-1205971200'), (u'STORE_-1205973634', u'INDIRECT_-1205970333'), (u'INT_RIGHT_-1205981324', u'INT_OR_-1205981323'), (u'STORE_-1205972670', u'INDIRECT_-1205969539'), (u'INDIRECT_-1205969368', u'MULTIEQUAL_-1205968744'), (u'INT_MULT_-1205987995', u'INT_OR_-1205987998'), (u'CALL_-1205972973', u'INDIRECT_-1205969894'), ('const-1859775393', u'INT_ADD_-1205983832'), (u'INT_OR_-1205982501', u'INT_ADD_-1205982108'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205978051'), (u'INT_OR_-1205976841', u'INT_ADD_-1205976844'), (u'INT_ADD_-1205982108', u'INT_XOR_-1205981825'), (u'INT_ADD_-1205978087', u'INT_MULT_-1205976537'), (u'INDIRECT_-1205968882', u'CALL_-1205972582'), (u'INT_XOR_-1205978051', u'INT_AND_-1205978040'), (u'INT_MULT_-1205987443', u'INT_OR_-1205987446'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968285'), (u'INT_ADD_-1205985591', u'INT_MULT_-1205985336'), ('tmp_55402', u'MULTIEQUAL_-1205977623'), (u'STORE_-1205973859', u'INDIRECT_-1205971061'), (u'INDIRECT_-1205971236', u'MULTIEQUAL_-1205971186'), (u'INDIRECT_-1205969299', u'MULTIEQUAL_-1205969695'), (u'INT_OR_-1205993005', u'INT_XOR_-1205992923'), ('const-22', u'INT_RIGHT_-1205990213'), (u'INDIRECT_-1205969645', u'MULTIEQUAL_-1205969595'), (u'MULTIEQUAL_-1205968936', u'MULTIEQUAL_-1205968743'), (u'INT_XOR_-1205988210', u'INT_AND_-1205988183'), (u'INDIRECT_-1205970133', u'MULTIEQUAL_-1205970073'), (u'INDIRECT_-1205970358', u'MULTIEQUAL_-1205970347'), (u'STORE_-1205972664', u'INDIRECT_-1205970822'), (u'INT_NEGATE_-1205983579', u'INT_OR_-1205983236'), (u'INT_XOR_-1205989259', u'INT_ADD_-1205989226'), (u'INT_ADD_-1205991213', u'INT_RIGHT_-1205991195'), (u'CALL_-1205993328', u'INDIRECT_-1205975919'), (u'STORE_-1205973590', u'INDIRECT_-1205971321'), (u'INT_ADD_-1205979913', u'INT_MULT_-1205979801'), (u'INT_XOR_-1205983228', u'INT_ADD_-1205983213'), (u'INT_RIGHT_-1205982330', u'INT_OR_-1205982329'), (u'INDIRECT_-1205968739', u'MULTIEQUAL_-1205968727'), (u'INDIRECT_-1205968739', u'MULTIEQUAL_-1205968727'), (u'INT_XOR_-1205990684', u'INT_ADD_-1205990659'), (u'PTRADD_-1205968075', u'LOAD_-1205973563'), (u'MULTIEQUAL_-1205968851', u'MULTIEQUAL_-1205968658'), (u'INT_ADD_-1205975363', u'INT_XOR_-1205975150'), (u'INT_ADD_-1205986507', u'INT_MULT_-1205985849'), (u'INT_ADD_-1205974721', u'STORE_-1205974544'), (u'STORE_-1205974532', u'INDIRECT_-1205970727'), (u'INDIRECT_-1205968872', u'MULTIEQUAL_-1205968861'), (u'INT_OR_-1205982633', u'INT_ADD_-1205982124'), (u'STORE_-1205974682', u'INDIRECT_-1205969711'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205991751'), (u'STORE_-1205974159', u'INDIRECT_-1205971712'), (u'STORE_-1205972768', u'INDIRECT_-1205970420'), (u'STORE_-1205973695', u'INDIRECT_-1205969715'), (u'INT_ADD_-1205975711', u'INT_ADD_-1205975691'), (u'INT_ADD_-1205982354', u'INT_ADD_-1205982322'), (u'STORE_-1205972643', u'INDIRECT_-1205969794'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989725'), (u'INT_RIGHT_-1205979013', u'INT_OR_-1205979012'), (u'STORE_-1205972637', u'INDIRECT_-1205970709'), (u'INT_ADD_-1205975379', u'INT_RIGHT_-1205975361'), ('const-4096', u'INT_MULT_-1205991437'), (u'INT_NEGATE_-1205990815', u'INT_OR_-1205990718'), (u'INDIRECT_-1205969608', u'MULTIEQUAL_-1205969597'), (u'STORE_-1205973583', u'INDIRECT_-1205969476'), (u'MULTIEQUAL_-1205969208', u'MULTIEQUAL_-1205969015'), (u'INT_ADD_-1205979121', u'INT_MULT_-1205979051'), (u'INDIRECT_-1205969079', u'MULTIEQUAL_-1205968455'), (u'CALL_-1205973026', u'INDIRECT_-1205968433'), (u'INDIRECT_-1205970344', u'MULTIEQUAL_-1205970333'), (u'INT_MULT_-1205980614', u'INT_OR_-1205980617'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970230'), (u'INT_RIGHT_-1205978398', u'INT_OR_-1205978397'), (u'INDIRECT_-1205971209', u'MULTIEQUAL_-1205971159'), (u'INDIRECT_-1205970013', u'MULTIEQUAL_-1205969963'), (u'CALL_-1205973319', u'INDIRECT_-1205968655'), (u'INT_EQUAL_-1205973241', u'CAST_-1205967784'), (u'INT_MULT_-1205989330', u'INT_OR_-1205989333'), (u'MULTIEQUAL_-1205970117', u'CALL_-1205972994'), (u'CALL_-1205972994', u'INDIRECT_-1205968416'), (u'MULTIEQUAL_-1205970216', u'COPY_-1205970330'), (u'COPY_-1205967715', u'MULTIEQUAL_-1205967763'), (u'INT_ADD_-1205978689', u'INT_ADD_-1205978669'), (u'INT_ADD_-1205985721', u'INT_NEGATE_-1205985633'), (u'INT_MULT_-1205978014', u'INT_OR_-1205978017'), (u'INT_ADD_-1205992370', u'INT_RIGHT_-1205992322'), (u'INT_ADD_-1205976237', u'INT_RIGHT_-1205976183'), (u'CALL_-1205972973', u'INDIRECT_-1205968382'), (u'INDIRECT_-1205971390', u'MULTIEQUAL_-1205971346'), ('const-1024', u'INT_MULT_-1205979833'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205983964'), (u'INDIRECT_-1205969295', u'MULTIEQUAL_-1205969245'), (u'INT_ADD_-1205982413', u'INT_MULT_-1205982326'), (u'STORE_-1205973835', u'INDIRECT_-1205969764'), (u'INT_RIGHT_-1205986125', u'INT_OR_-1205986124'), ('const-22', u'INT_RIGHT_-1205981292'), (u'INT_XOR_-1205976628', u'INT_AND_-1205976617'), ('const-4', u'PTRADD_-1205968024'), (u'INT_ADD_-1205983501', u'INT_MULT_-1205982820'), (u'INT_OR_-1205983141', u'INT_ADD_-1205982520'), (u'INT_ADD_-1205981662', u'INT_RIGHT_-1205981644'), (u'INDIRECT_-1205970538', u'COPY_-1205970595'), (u'INDIRECT_-1205968944', u'MULTIEQUAL_-1205968959'), (u'INT_RIGHT_-1205986608', u'INT_OR_-1205986607'), (u'SUBPIECE_-1205973379', u'STORE_-1205973438'), (u'INDIRECT_-1205969635', u'MULTIEQUAL_-1205969548'), (u'INDIRECT_-1205970123', u'MULTIEQUAL_-1205970073'), (u'CALL_-1205972582', u'INDIRECT_-1205970193'), ('const-2', u'PTRADD_-1205968276'), (u'STORE_-1205972713', u'INDIRECT_-1205970752'), (u'STORE_-1205974550', u'INDIRECT_-1205970926'), (u'INT_ADD_-1205975497', u'INT_XOR_-1205975404'), (u'LOAD_-1205974283', u'INT_ADD_-1205974183'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969328'), (u'INT_XOR_-1205984081', u'INT_ADD_-1205984076'), (u'STORE_-1205973661', u'INDIRECT_-1205969422'), (u'STORE_-1205972571', u'INDIRECT_-1205969760'), (u'STORE_-1205974532', u'INDIRECT_-1205970083'), (u'MULTIEQUAL_-1205972282', u'INT_RIGHT_-1205968024'), ('const-1', u'PTRADD_-1205973751'), ('const-0', u'STORE_-1205973695'), (u'INT_OR_-1205991562', u'INT_ADD_-1205989274'), ('const-4294967072', u'PTRSUB_-1205968369'), (u'STORE_-1205974544', u'INDIRECT_-1205970921'), (u'INT_XOR_-1205993175', u'INT_ADD_-1205993106'), (u'CAST_-1205968291', u'STORE_-1205974544'), (u'COPY_-1205975199', u'MULTIEQUAL_-1205979438'), (u'INT_XOR_-1205987004', u'INT_ADD_-1205986999'), (u'INT_ADD_-1205976347', u'INT_ADD_-1205976283'), (u'INDIRECT_-1205978617', u'MULTIEQUAL_-1205978543'), (u'INDIRECT_-1205969988', u'MULTIEQUAL_-1205969289'), (u'INT_MULT_-1205977426', u'INT_OR_-1205977429'), (u'LOAD_-1205974405', u'MULTIEQUAL_-1205968918'), (u'INT_OR_-1205975058', u'INT_ADD_-1205974797'), (u'INT_OR_-1205985852', u'INT_ADD_-1205985369'), (u'INT_MULT_-1205980186', u'INT_OR_-1205980189'), (u'INT_ADD_-1205977927', u'INT_MULT_-1205976445'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970368'), (u'INT_OR_-1205984992', u'INT_ADD_-1205984400'), (u'CALL_-1205972973', u'INDIRECT_-1205968348'), (u'INT_RIGHT_-1205981580', u'INT_OR_-1205981579'), ('const-0', u'STORE_-1205973590'), (u'INT_OR_-1205990104', u'INT_ADD_-1205989839'), ('const-22', u'INT_RIGHT_-1205977622'), (u'STORE_-1205973424', u'INDIRECT_-1205970228'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205986893'), ('const-1024', u'INT_MULT_-1205979025'), (u'CALL_-1205973026', u'INDIRECT_-1205968916'), (u'STORE_-1205972643', u'INDIRECT_-1205970530'), (u'CALL_-1205972582', u'INDIRECT_-1205970009'), (u'INT_ADD_-1205993090', u'INT_XOR_-1205993033'), (u'INDIRECT_-1205971371', u'MULTIEQUAL_-1205968179'), (u'INT_OR_-1205991712', u'INT_NEGATE_-1205991639'), (u'INDIRECT_-1205969204', u'MULTIEQUAL_-1205969151'), ('const-21', u'INT_RIGHT_-1205986505'), (u'STORE_-1205973438', u'INDIRECT_-1205971434'), (u'INT_OR_-1205984920', u'INT_ADD_-1205984923'), (u'INT_ADD_-1205991443', u'INT_XOR_-1205991402'), (u'INT_RIGHT_-1205982824', u'INT_OR_-1205982823'), ('const-2048', u'INT_MULT_-1205985099'), ('const-22', u'INT_RIGHT_-1205992162'), (u'INT_OR_-1205976869', u'INT_XOR_-1205976809'), (u'INT_ADD_-1205986054', u'INT_ADD_-1205986034'), (u'INDIRECT_-1205969045', u'MULTIEQUAL_-1205968919'), (u'INDIRECT_-1205969728', u'MULTIEQUAL_-1205969678'), (u'STORE_-1205973590', u'INDIRECT_-1205971045'), (u'CALL_-1205993328', u'INDIRECT_-1205975528'), (u'INT_MULT_-1205974877', u'INT_OR_-1205974880'), (u'STORE_-1205974664', u'INDIRECT_-1205970340'), (u'STORE_-1205974544', u'INDIRECT_-1205971841'), (u'INDIRECT_-1205969544', u'MULTIEQUAL_-1205969494'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205978841'), (u'INT_ADD_-1205986554', u'INT_ADD_-1205986544'), ('const-2400959708', u'INT_ADD_-1205980897'), (u'INT_ADD_-1205975009', u'INT_ADD_-1205974969'), (u'INT_ADD_-1205975217', u'INT_ADD_-1205975197'), (u'STORE_-1205973431', u'INDIRECT_-1205970233'), (u'INDIRECT_-1205971595', u'MULTIEQUAL_-1205971545'), (u'STORE_-1205974670', u'INDIRECT_-1205971725'), (u'INT_OR_-1205976016', u'INT_ADD_-1205975789'), (u'COPY_-1205968326', u'MULTIEQUAL_-1205968913'), (u'INT_ADD_-1205981814', u'INT_RIGHT_-1205981796'), (u'INT_XOR_-1205980360', u'INT_ADD_-1205980345'), (u'STORE_-1205973583', u'INDIRECT_-1205970672'), (u'INDIRECT_-1205970042', u'MULTIEQUAL_-1205969782'), (u'INDIRECT_-1205969024', u'MULTIEQUAL_-1205968998'), (u'STORE_-1205972530', u'INDIRECT_-1205970344'), ('const-26', u'INT_RIGHT_-1205990121'), (u'INT_ADD_-1205983186', u'INT_MULT_-1205982498'), (u'STORE_-1205973583', u'INDIRECT_-1205969200'), (u'INT_ADD_-1205979393', u'INT_XOR_-1205979000'), (u'STORE_-1205972729', u'INDIRECT_-1205971041'), (u'STORE_-1205973445', u'INDIRECT_-1205970059'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970331'), (u'INT_ADD_-1205974071', u'INT_ADD_-1205974041'), (u'INT_ADD_-1205988033', u'INT_MULT_-1205987995'), (u'PTRSUB_-1205975195', u'INT_NOTEQUAL_-1205993313'), (u'INT_OR_-1205976448', u'INT_ADD_-1205976087'), ('const-22', u'INT_RIGHT_-1205979518'), (u'STORE_-1205972662', u'INDIRECT_-1205969901'), (u'CALL_-1205972582', u'INDIRECT_-1205970377'), (u'INT_ADD_-1205984704', u'INT_RIGHT_-1205983894'), (u'INT_ADD_-1205990699', u'INT_MULT_-1205990241'), ('const-2048', u'INT_MULT_-1205987995'), (u'INT_ADD_-1205988326', u'INT_RIGHT_-1205988308'), (u'CALL_-1205972973', u'INDIRECT_-1205971938'), (u'INT_ADD_-1205983517', u'INT_OR_-1205983236'), (u'INT_RIGHT_-1205984292', u'INT_OR_-1205984291'), (u'INT_ADD_-1205975269', u'INT_MULT_-1205975159'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205980385'), (u'INDIRECT_-1205977513', u'MULTIEQUAL_-1205977439'), (u'INT_OR_-1205991530', u'INT_XOR_-1205991506'), (u'CALL_-1205972582', u'INDIRECT_-1205969549'), (u'MULTIEQUAL_-1205972492', u'PTRADD_-1205973727'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981399'), (u'STORE_-1205973634', u'INDIRECT_-1205969597'), (u'STORE_-1205973438', u'INDIRECT_-1205971250'), (u'INT_NOTEQUAL_-1205973984', u'CBRANCH_-1205973982'), (u'INDIRECT_-1205971908', u'MULTIEQUAL_-1205971887'), (u'CALL_-1205973026', u'INDIRECT_-1205970572'), (u'STORE_-1205972662', u'INDIRECT_-1205970637'), (u'STORE_-1205974152', u'INDIRECT_-1205969591'), (u'PTRADD_-1205973799', u'MULTIEQUAL_-1205972510'), (u'INT_ADD_-1205991353', u'INT_XOR_-1205991260'), ('const-1024', u'INT_MULT_-1205987979'), (u'INT_ADD_-1205983501', u'INT_RIGHT_-1205982824'), (u'INT_NEGATE_-1205975915', u'INT_OR_-1205974866'), (u'INT_OR_-1205984177', u'INT_ADD_-1205983918'), (u'STORE_-1205972662', u'INDIRECT_-1205969441'), (u'LOAD_-1205993274', u'INT_LEFT_-1205993224'), (u'INT_ADD_-1205980080', u'INT_ADD_-1205980054'), (u'INDIRECT_-1205969011', u'MULTIEQUAL_-1205968387'), (u'CAST_-1205967857', u'STORE_-1205973410'), (u'CAST_-1205967876', u'INT_ADD_-1205973417'), (u'INT_XOR_-1205977469', u'INT_ADD_-1205977458'), ('const-4096', u'INT_MULT_-1205988247'), (u'CALL_-1205972582', u'INDIRECT_-1205970285'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205977979'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986692'), (u'INT_OR_-1205990960', u'INT_ADD_-1205990963'), (u'CALL_-1205973395', u'INDIRECT_-1205970166'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205990081'), (u'INT_RIGHT_-1205986301', u'INT_OR_-1205986300'), (u'INDIRECT_-1205969642', u'MULTIEQUAL_-1205969598'), (u'INT_OR_-1205986452', u'INT_ADD_-1205985887'), (u'INT_NEGATE_-1205985633', u'INT_OR_-1205985283'), (u'INT_ADD_-1205967858', u'INT_ADD_-1205972594'), ('const-22', u'INT_RIGHT_-1205977178'), ('const-16', u'PTRADD_-1205968061'), (u'INDIRECT_-1205970718', u'MULTIEQUAL_-1205970623'), (u'INT_RIGHT_-1205980291', u'INT_OR_-1205980290'), (u'INT_AND_-1205981692', u'INT_XOR_-1205981673'), (u'INDIRECT_-1205975681', u'MULTIEQUAL_-1205975682'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971168'), (u'INDIRECT_-1205970225', u'MULTIEQUAL_-1205970165'), (u'INDIRECT_-1205970410', u'MULTIEQUAL_-1205970150'), (u'INT_ADD_-1205984704', u'INT_NEGATE_-1205984670'), (u'STORE_-1205972662', u'INDIRECT_-1205970453'), (u'INT_MULT_-1205985747', u'INT_OR_-1205985750'), (u'STORE_-1205973445', u'INDIRECT_-1205969875'), (u'INT_ADD_-1205980897', u'INT_ADD_-1205980877'), (u'INT_RIGHT_-1205984738', u'INT_OR_-1205984737'), (u'STORE_-1205973811', u'INDIRECT_-1205969387'), (u'INDIRECT_-1205970003', u'MULTIEQUAL_-1205969887'), (u'CALL_-1205973026', u'INDIRECT_-1205968688'), (u'STORE_-1205973576', u'INDIRECT_-1205970299'), (u'INDIRECT_-1205970132', u'MULTIEQUAL_-1205970082'), (u'INT_OR_-1205993161', u'INT_ADD_-1205992706'), (u'STORE_-1205972637', u'INDIRECT_-1205968685'), ('const-58', u'INT_NOTEQUAL_-1205972610'), (u'INDIRECT_-1205970540', u'MULTIEQUAL_-1205969841'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992422'), (u'INDIRECT_-1205968705', u'MULTIEQUAL_-1205968687'), (u'MULTIEQUAL_-1205969572', u'COPY_-1205969686'), (u'CAST_-1205967591', u'INT_RIGHT_-1205967749'), (u'INT_ADD_-1205990199', u'INT_RIGHT_-1205990033'), (u'STORE_-1205972530', u'INDIRECT_-1205969700'), (u'INT_OR_-1205984025', u'INT_ADD_-1205983501'), (u'CALL_-1205973026', u'INDIRECT_-1205970756'), (u'CALL_-1205972994', u'INDIRECT_-1205968586'), (u'STORE_-1205972670', u'INDIRECT_-1205969447'), (u'INT_OR_-1205982751', u'INT_ADD_-1205982364'), (u'INT_OR_-1205976672', u'INT_XOR_-1205976608'), ('const-1024', u'INT_MULT_-1205992828'), (u'STORE_-1205972782', u'INDIRECT_-1205969706'), (u'STORE_-1205972662', u'INDIRECT_-1205969717'), ('const-19', u'INT_RIGHT_-1205989208'), (u'STORE_-1205973555', u'INDIRECT_-1205971114'), (u'STORE_-1205973438', u'INDIRECT_-1205971066'), (u'INT_ADD_-1205979121', u'INT_XOR_-1205977844'), (u'STORE_-1205973576', u'INDIRECT_-1205971495'), (u'MULTIEQUAL_-1205969004', u'MULTIEQUAL_-1205968811'), (u'INT_OR_-1205980492', u'INT_ADD_-1205980495'), (u'INT_OR_-1205979028', u'INT_ADD_-1205978763'), (u'INT_XOR_-1205989437', u'INT_ADD_-1205989426'), (u'CALL_-1205993328', u'INDIRECT_-1205978065'), (u'CALL_-1205972510', u'INDIRECT_-1205968669'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205987783'), ('const-0', u'STORE_-1205972608'), (u'CALL_-1205973319', u'INDIRECT_-1205968825'), (u'STORE_-1205973661', u'INDIRECT_-1205970618'), (u'INDIRECT_-1205968431', u'MULTIEQUAL_-1205968902'), ('tmp_55387', u'MULTIEQUAL_-1205976243'), (u'STORE_-1205972571', u'INDIRECT_-1205969852'), (u'STORE_-1205974526', u'INDIRECT_-1205970998'), (u'INDIRECT_-1205970629', u'MULTIEQUAL_-1205970623'), (u'CALL_-1205993328', u'INDIRECT_-1205975460'), (u'INT_ADD_-1205981646', u'INT_MULT_-1205981288'), ('const-1024', u'INT_MULT_-1205978622'), (u'LOAD_-1205974647', u'INT_EQUAL_-1205974552'), (u'INT_ADD_-1205978566', u'INT_ADD_-1205978530'), (u'INDIRECT_-1205969341', u'MULTIEQUAL_-1205969335'), (u'INDIRECT_-1205977145', u'MULTIEQUAL_-1205977071'), (u'MULTIEQUAL_-1205969695', u'MULTIEQUAL_-1205969568'), (u'INT_ADD_-1205987319', u'INT_MULT_-1205987249'), (u'CALL_-1205972994', u'INDIRECT_-1205968518'), (u'INDIRECT_-1205969392', u'MULTIEQUAL_-1205969366'), (u'STORE_-1205972735', u'INDIRECT_-1205969758'), (u'INT_NEGATE_-1205986633', u'INT_OR_-1205986567'), (u'PTRADD_-1205967778', u'STORE_-1205972530'), (u'INT_RIGHT_-1205993162', u'INT_OR_-1205993161'), (u'INDIRECT_-1205968655', u'MULTIEQUAL_-1205968670'), (u'MULTIEQUAL_-1205972503', u'STORE_-1205973811'), (u'INDIRECT_-1205971115', u'MULTIEQUAL_-1205971083'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968736'), ('const-26', u'INT_RIGHT_-1205977214'), (u'STORE_-1205972643', u'INDIRECT_-1205970346'), (u'CALL_-1205972510', u'INDIRECT_-1205970127'), (u'INDIRECT_-1205975613', u'MULTIEQUAL_-1205975614'), (u'INT_ADD_-1205974737', u'STORE_-1205974616'), (u'INDIRECT_-1205970356', u'MULTIEQUAL_-1205969848'), ('const-0', u'STORE_-1205973627'), (u'MULTIEQUAL_-1205971443', u'MULTIEQUAL_-1205971370'), (u'INT_OR_-1205976166', u'INT_ADD_-1205975867'), (u'INT_ADD_-1205985987', u'INT_ADD_-1205985779'), (u'STORE_-1205973555', u'INDIRECT_-1205969550'), (u'SUBPIECE_-1205973365', u'STORE_-1205973424'), (u'INT_ADD_-1205988111', u'INT_RIGHT_-1205987405'), (u'INT_OR_-1205988307', u'INT_ADD_-1205988310'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988210'), (u'INDIRECT_-1205970810', u'MULTIEQUAL_-1205970717'), ('const-22', u'INT_RIGHT_-1205984738'), (u'INT_OR_-1205975516', u'INT_XOR_-1205975482'), (u'INDIRECT_-1205971330', u'MULTIEQUAL_-1205970793'), (u'INT_XOR_-1205989023', u'INT_AND_-1205988970'), (u'INT_ADD_-1205987767', u'INT_XOR_-1205987526'), (u'STORE_-1205972666', u'INDIRECT_-1205970492'), (u'CALL_-1205973026', u'INDIRECT_-1205968569'), ('const-22', u'INT_RIGHT_-1205992936'), (u'INT_OR_-1205978744', u'INT_ADD_-1205978503'), ('const-26', u'PTRADD_-1205967580'), (u'INDIRECT_-1205971292', u'MULTIEQUAL_-1205971242'), (u'STORE_-1205973410', u'INDIRECT_-1205969298'), (u'INT_OR_-1205990904', u'INT_XOR_-1205990870'), (u'INT_ADD_-1205972662', u'STORE_-1205972637'), ('const-1548603684', u'INT_ADD_-1205987197'), ('const-22', u'INT_RIGHT_-1205991697'), (u'INT_OR_-1205989774', u'INT_ADD_-1205989777'), (u'INT_OR_-1205992537', u'INT_ADD_-1205992015'), (u'CALL_-1205972994', u'INDIRECT_-1205970831'), (u'INDIRECT_-1205969213', u'MULTIEQUAL_-1205969112'), (u'STORE_-1205972789', u'INDIRECT_-1205969885'), (u'LOAD_-1205993137', u'INT_ADD_-1205993090'), (u'STORE_-1205972768', u'INDIRECT_-1205969224'), (u'INT_MULT_-1205980016', u'INT_OR_-1205980019'), (u'STORE_-1205973811', u'INDIRECT_-1205970951'), (u'INT_RIGHT_-1205979518', u'INT_OR_-1205979517'), (u'INT_MULT_-1205976445', u'INT_OR_-1205976448'), ('const-0', u'STORE_-1205973787'), (u'INT_ADD_-1205979393', u'INT_RIGHT_-1205978897'), (u'INDIRECT_-1205970390', u'MULTIEQUAL_-1205970340'), (u'INDIRECT_-1205968570', u'MULTIEQUAL_-1205968544'), (u'INDIRECT_-1205970448', u'MULTIEQUAL_-1205969749'), (u'INT_AND_-1205990277', u'INT_XOR_-1205990258'), (u'PTRADD_-1205973537', u'STORE_-1205973597'), (u'INT_OR_-1205986081', u'INT_ADD_-1205985475'), (u'INT_MULT_-1205990193', u'INT_OR_-1205990196'), (u'STORE_-1205973859', u'INDIRECT_-1205969589'), ('const-8192', u'INT_MULT_-1205989899'), (u'INT_MULT_-1205992864', u'INT_OR_-1205992867'), (u'INT_OR_-1205981747', u'INT_ADD_-1205981394'), (u'CAST_-1205974595', u'LOAD_-1205992173'), (u'INT_MULT_-1205975669', u'INT_OR_-1205975672'), ('const-1024', u'INT_MULT_-1205982242'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970944'), (u'SUBPIECE_-1205971995', u'CALL_-1205972582'), (u'STORE_-1205973859', u'INDIRECT_-1205969313'), (u'INT_XOR_-1205975274', u'INT_ADD_-1205975269'), (u'STORE_-1205973739', u'INDIRECT_-1205969544'), (u'CALL_-1205974449', u'INDIRECT_-1205972584'), (u'INDIRECT_-1205969198', u'MULTIEQUAL_-1205969072'), (u'INDIRECT_-1205971644', u'MULTIEQUAL_-1205970928'), (u'INDIRECT_-1205968567', u'MULTIEQUAL_-1205969038'), ('const-27', u'INT_RIGHT_-1205977925'), (u'STORE_-1205973445', u'INDIRECT_-1205971071'), (u'INT_ADD_-1205986667', u'INT_ADD_-1205986647'), (u'INT_ADD_-1205982780', u'INT_MULT_-1205982385'), (u'INDIRECT_-1205969982', u'MULTIEQUAL_-1205969889'), (u'CALL_-1205972994', u'INDIRECT_-1205971107'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205988612'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205992422'), (u'INT_XOR_-1205990948', u'INT_XOR_-1205990938'), (u'CALL_-1205974449', u'INDIRECT_-1205971828'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971104'), (u'INT_MULT_-1205978312', u'INT_OR_-1205978315'), ('const-19', u'INT_RIGHT_-1205986323'), (u'INDIRECT_-1205971139', u'MULTIEQUAL_-1205971535'), (u'STORE_-1205972637', u'INDIRECT_-1205969973'), (u'CALL_-1205973319', u'INDIRECT_-1205968604'), (u'STORE_-1205972552', u'INDIRECT_-1205969709'), (u'INT_ADD_-1205991197', u'INT_XOR_-1205991172'), (u'CAST_-1205975034', u'LOAD_-1205993274'), (u'INT_ADD_-1205975887', u'INT_RIGHT_-1205975751'), ('const-1548603684', u'INT_ADD_-1205989294'), ('const-23', u'INT_RIGHT_-1205985751'), (u'INT_MULT_-1205988882', u'INT_OR_-1205988885'), ('const-22', u'INT_RIGHT_-1205982752'), (u'INT_ADD_-1205982166', u'INT_MULT_-1205982118'), ('const-417', u'STORE_-1205972571'), (u'STORE_-1205973835', u'INDIRECT_-1205969580'), (u'INT_MULT_-1205990101', u'INT_OR_-1205990104'), (u'CALL_-1205993328', u'INDIRECT_-1205975545'), (u'MULTIEQUAL_-1205971627', u'MULTIEQUAL_-1205971545'), (u'INDIRECT_-1205969764', u'MULTIEQUAL_-1205969714'), (u'CALL_-1205973395', u'INDIRECT_-1205968535'), ('const-22', u'INT_RIGHT_-1205991531'), (u'STORE_-1205973739', u'INDIRECT_-1205970464'), (u'INT_MULT_-1205990791', u'INT_OR_-1205990794'), (u'INDIRECT_-1205970962', u'MULTIEQUAL_-1205970425'), (u'INT_ADD_-1205982958', u'INT_MULT_-1205982242'), (u'INDIRECT_-1205969045', u'MULTIEQUAL_-1205968421'), ('const-0', u'STORE_-1205972670'), (u'INT_XOR_-1205987700', u'INT_ADD_-1205987679'), (u'STORE_-1205972662', u'INDIRECT_-1205971005'), (u'INT_OR_-1205992465', u'INT_ADD_-1205991867'), (u'INDIRECT_-1205971270', u'MULTIEQUAL_-1205971177'), (u'CALLIND_-1205972613', u'INDIRECT_-1205971036'), (u'INT_RIGHT_-1205977638', u'INT_OR_-1205977637'), (u'INT_OR_-1205989239', u'INT_ADD_-1205988852'), ('const-417', u'STORE_-1205974538'), (u'STORE_-1205972552', u'INDIRECT_-1205969801'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970147'), ('const-417', u'STORE_-1205972782'), (u'STORE_-1205972637', u'INDIRECT_-1205970801'), (u'COPY_-1205968210', u'MULTIEQUAL_-1205972510'), (u'INT_RIGHT_-1205987285', u'INT_OR_-1205987284'), (u'INDIRECT_-1205969857', u'MULTIEQUAL_-1205969756'), (u'INT_ADD_-1205982958', u'INT_NEGATE_-1205982838'), (u'INT_ADD_-1205975597', u'INT_RIGHT_-1205975573'), (u'STORE_-1205972649', u'INDIRECT_-1205970535'), ('const-21', u'INT_RIGHT_-1205977338'), (u'CALL_-1205973319', u'INDIRECT_-1205968519'), ('const-8192', u'INT_MULT_-1205976361'), ('const-80', u'INT_ADD_-1205992191'), (u'MULTIEQUAL_-1205969038', u'MULTIEQUAL_-1205968845'), (u'STORE_-1205972724', u'INDIRECT_-1205971157'), (u'STORE_-1205973452', u'INDIRECT_-1205971352'), (u'INDIRECT_-1205969287', u'MULTIEQUAL_-1205968157'), (u'INT_OR_-1205991466', u'INT_ADD_-1205991275'), (u'INDIRECT_-1205968213', u'MULTIEQUAL_-1205968228'), ('const-16384', u'INT_MULT_-1205983912'), (u'INDIRECT_-1205970042', u'MULTIEQUAL_-1205969505'), (u'INT_RIGHT_-1205990883', u'INT_OR_-1205990882'), (u'INT_MULT_-1205987979', u'INT_OR_-1205987982'), (u'INT_OR_-1205982809', u'INT_XOR_-1205982801'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969990'), (u'INT_MULT_-1205976319', u'INT_OR_-1205976322'), (u'INT_XOR_-1205989663', u'INT_ADD_-1205989652'), (u'INT_ADD_-1205986853', u'INT_RIGHT_-1205986835'), (u'INT_OR_-1205976032', u'INT_ADD_-1205976035'), ('const-24', u'INT_RIGHT_-1205989681'), (u'INT_ADD_-1205981662', u'INT_MULT_-1205981640'), (u'INT_AND_-1205977869', u'INT_XOR_-1205977844'), ('const-32', u'INT_MULT_-1205980835'), (u'INDIRECT_-1205969490', u'MULTIEQUAL_-1205969419'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205986858'), ('const-8', u'INT_ADD_-1205973655'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981567'), ('tmp_37387', u'CBRANCH_-1205972833'), ('const-256', u'INT_MULT_-1205991919'), (u'INT_XOR_-1205975774', u'INT_ADD_-1205975769'), (u'STORE_-1205973534', u'INDIRECT_-1205969541'), (u'INDIRECT_-1205970852', u'COPY_-1205970908'), (u'INT_OR_-1205977125', u'INT_ADD_-1205977128'), (u'STORE_-1205974538', u'INDIRECT_-1205971192'), (u'INDIRECT_-1205970004', u'MULTIEQUAL_-1205969954'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970644'), ('const-417', u'LOAD_-1205974283'), (u'INT_OR_-1205984585', u'INT_ADD_-1205984060'), ('const-1024', u'INT_MULT_-1205991463'), (u'STORE_-1205974550', u'INDIRECT_-1205970098'), (u'INT_ADD_-1205977656', u'INT_MULT_-1205977634'), (u'INT_ADD_-1205985147', u'INT_ADD_-1205985121'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205979494'), (u'STORE_-1205973590', u'INDIRECT_-1205969481'), (u'INT_XOR_-1205979776', u'INT_AND_-1205979723'), ('const-24', u'INT_RIGHT_-1205968043'), (u'INT_OR_-1205979336', u'INT_XOR_-1205979276'), (u'INDIRECT_-1205970632', u'MULTIEQUAL_-1205970124'), (u'INT_ADD_-1205975887', u'INT_XOR_-1205975852'), (u'MULTIEQUAL_-1205969940', u'COPY_-1205970054'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205967979'), (u'CALL_-1205972973', u'INDIRECT_-1205968688'), (u'INT_ADD_-1205986853', u'INT_MULT_-1205986831'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974667'), (u'STORE_-1205974670', u'INDIRECT_-1205971357'), (u'INT_AND_-1205989278', u'INT_XOR_-1205989259'), (u'INT_XOR_-1205990756', u'INT_ADD_-1205990735'), (u'INDIRECT_-1205969479', u'MULTIEQUAL_-1205969429'), (u'STORE_-1205973763', u'INDIRECT_-1205971209'), (u'INT_RIGHT_-1205981460', u'INT_OR_-1205981459'), (u'CALL_-1205973026', u'INDIRECT_-1205971216'), (u'INT_ADD_-1205991297', u'INT_MULT_-1205991269'), (u'INT_RIGHT_-1205974554', u'INT_OR_-1205974553'), (u'INT_XOR_-1205986755', u'INT_ADD_-1205986750'), (u'INT_ADD_-1205976367', u'INT_XOR_-1205976242'), (u'STORE_-1205972757', u'INDIRECT_-1205969031'), (u'STORE_-1205973534', u'INDIRECT_-1205970185'), (u'STORE_-1205972664', u'INDIRECT_-1205971006'), (u'INT_ADD_-1205984652', u'INT_NEGATE_-1205984322'), (u'INT_OR_-1205989333', u'INT_ADD_-1205988888'), ('const-128', u'INT_MULT_-1205985336'), ('const-22', u'INT_RIGHT_-1205976770'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205974937'), (u'INDIRECT_-1205968927', u'MULTIEQUAL_-1205968901'), (u'INDIRECT_-1205970810', u'MULTIEQUAL_-1205970715'), (u'MULTIEQUAL_-1205969734', u'COPY_-1205969869'), (u'STORE_-1205973534', u'INDIRECT_-1205969725'), (u'INDIRECT_-1205969919', u'MULTIEQUAL_-1205969887'), ('tmp_55392', u'MULTIEQUAL_-1205976703'), ('const-21', u'INT_RIGHT_-1205989775'), (u'INDIRECT_-1205968536', u'MULTIEQUAL_-1205968551'), (u'STORE_-1205973859', u'INDIRECT_-1205971153'), (u'INDIRECT_-1205969530', u'MULTIEQUAL_-1205969519'), ('tmp_55408', u'MULTIEQUAL_-1205978175'), (u'INT_ADD_-1205976133', u'INT_RIGHT_-1205976115'), (u'LOAD_-1205992251', u'INT_XOR_-1205992111'), ('const-22', u'INT_RIGHT_-1205990343'), (u'INDIRECT_-1205970931', u'MULTIEQUAL_-1205970899'), (u'INT_RIGHT_-1205991531', u'INT_OR_-1205991530'), (u'CALL_-1205972582', u'INDIRECT_-1205968306'), (u'INT_XOR_-1205991104', u'INT_XOR_-1205991094'), (u'INT_RIGHT_-1205987149', u'INT_OR_-1205987148'), (u'STORE_-1205972530', u'INDIRECT_-1205970896'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968493'), (u'STORE_-1205972724', u'INDIRECT_-1205970513'), (u'INT_OR_-1205981459', u'INT_ADD_-1205981462'), (u'STORE_-1205974616', u'INDIRECT_-1205971687'), (u'STORE_-1205974682', u'INDIRECT_-1205970079'), (u'INT_XOR_-1205979419', u'INT_ADD_-1205979414'), (u'INDIRECT_-1205970850', u'MULTIEQUAL_-1205970800'), (u'MULTIEQUAL_-1205968868', u'MULTIEQUAL_-1205968675'), (u'INT_NOTEQUAL_-1205972784', u'CBRANCH_-1205972775'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969420'), (u'CAST_-1205968276', u'STORE_-1205974526'), (u'INT_ADD_-1205986610', u'INT_RIGHT_-1205986582'), ('const-76', u'INT_ADD_-1205992203'), (u'INT_OR_-1205976733', u'INT_ADD_-1205976035'), ('const-1024', u'INT_MULT_-1205978534'), (u'PTRADD_-1205967570', u'STORE_-1205972637'), (u'INT_ADD_-1205991459', u'INT_RIGHT_-1205991441'), (u'STORE_-1205973597', u'INDIRECT_-1205969578'), (u'INDIRECT_-1205970195', u'MULTIEQUAL_-1205970163'), (u'INDIRECT_-1205969079', u'MULTIEQUAL_-1205968953'), (u'STORE_-1205974544', u'INDIRECT_-1205970277'), (u'STORE_-1205974550', u'INDIRECT_-1205970558'), ('const-1024', u'INT_MULT_-1205975435'), (u'CALL_-1205973395', u'INDIRECT_-1205971086'), ('const-1024', u'INT_MULT_-1205978893'), ('const-22', u'INT_RIGHT_-1205979055'), (u'CALL_-1205974449', u'INDIRECT_-1205971000'), (u'INT_XOR_-1205976492', u'INT_ADD_-1205976467'), (u'INT_ADD_-1205975259', u'INT_ADD_-1205975217'), (u'INT_ADD_-1205978292', u'INT_AND_-1205978255'), ('const-1024', u'INT_MULT_-1205974877'), (u'INT_ADD_-1205992298', u'INT_RIGHT_-1205992280'), ('const-22', u'INT_RIGHT_-1205980957'), (u'INDIRECT_-1205977421', u'MULTIEQUAL_-1205977347'), (u'INT_MULT_-1205990209', u'INT_OR_-1205990212'), (u'INT_RIGHT_-1205990033', u'INT_OR_-1205990032'), (u'STORE_-1205972649', u'INDIRECT_-1205968879'), (u'INT_ADD_-1205985031', u'INT_MULT_-1205984488'), (u'STORE_-1205972670', u'INDIRECT_-1205969631'), (u'INDIRECT_-1205968518', u'MULTIEQUAL_-1205968506'), (u'INDIRECT_-1205968518', u'MULTIEQUAL_-1205968506'), (u'INDIRECT_-1205970509', u'MULTIEQUAL_-1205970460'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971040'), (u'INT_ADD_-1205985105', u'INT_NEGATE_-1205984772'), ('const-22', u'INT_RIGHT_-1205991389'), (u'INT_RIGHT_-1205975573', u'INT_OR_-1205975572'), (u'MULTIEQUAL_-1205972474', u'STORE_-1205973739'), (u'STORE_-1205973763', u'INDIRECT_-1205970841'), (u'STORE_-1205973417', u'INDIRECT_-1205970407'), (u'INT_ADD_-1205989478', u'INT_ADD_-1205989426'), (u'INDIRECT_-1205969522', u'MULTIEQUAL_-1205969429'), (u'INDIRECT_-1205969582', u'MULTIEQUAL_-1205969045'), (u'INT_OR_-1205992831', u'INT_ADD_-1205992484'), (u'STORE_-1205973445', u'INDIRECT_-1205971163'), (u'INT_XOR_-1205980725', u'INT_AND_-1205980698'), (u'STORE_-1205974129', u'INDIRECT_-1205971514'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968527'), (u'INT_ADD_-1205991751', u'INT_ADD_-1205991741'), (u'INDIRECT_-1205969305', u'MULTIEQUAL_-1205969204'), (u'CALL_-1205973319', u'INDIRECT_-1205970593'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968510'), (u'INT_ADD_-1205991119', u'INT_MULT_-1205990979'), (u'INDIRECT_-1205970174', u'MULTIEQUAL_-1205970163'), (u'CALL_-1205972582', u'INDIRECT_-1205969457'), (u'INT_ADD_-1205978010', u'INT_MULT_-1205977921'), (u'INDIRECT_-1205969332', u'MULTIEQUAL_-1205969321'), (u'INDIRECT_-1205969710', u'COPY_-1205967763'), (u'INT_ADD_-1205974183', u'STORE_-1205974159'), ('const-3319327743', u'INT_ADD_-1205972662'), (u'CALL_-1205972582', u'INDIRECT_-1205968255'), (u'INDIRECT_-1205968312', u'MULTIEQUAL_-1205968783'), (u'STORE_-1205972664', u'INDIRECT_-1205970086'), (u'INT_ADD_-1205979871', u'INT_ADD_-1205979673'), (u'STORE_-1205972655', u'INDIRECT_-1205969068'), (u'CALL_-1205974449', u'INDIRECT_-1205969079'), (u'STORE_-1205974538', u'INDIRECT_-1205969536'), (u'INT_ADD_-1205989210', u'INT_MULT_-1205988454'), (u'CALL_-1205972994', u'INDIRECT_-1205968280'), (u'INT_XOR_-1205982197', u'INT_ADD_-1205982166'), (u'STORE_-1205973438', u'INDIRECT_-1205970698'), (u'INT_OR_-1205974866', u'INT_XOR_-1205974842'), (u'CALL_-1205973395', u'INDIRECT_-1205968552'), (u'INDIRECT_-1205970491', u'MULTIEQUAL_-1205970441'), (u'STORE_-1205973634', u'INDIRECT_-1205970793'), (u'INT_ADD_-1205989572', u'INT_ADD_-1205989478'), (u'STORE_-1205972561', u'INDIRECT_-1205969530'), (u'INT_OR_-1205980942', u'INT_XOR_-1205980918'), ('const-32768', u'INT_MULT_-1205975159'), (u'STORE_-1205974676', u'INDIRECT_-1205969798'), (u'STORE_-1205973555', u'INDIRECT_-1205970838'), (u'CALL_-1205973395', u'INDIRECT_-1205968756'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205975961'), (u'INDIRECT_-1205971301', u'MULTIEQUAL_-1205971251'), ('const-1024', u'INT_MULT_-1205990979'), (u'STORE_-1205974670', u'INDIRECT_-1205971541'), (u'INT_ADD_-1205977927', u'INT_RIGHT_-1205976449'), (u'STORE_-1205973661', u'INDIRECT_-1205971078'), ('const-32', u'INT_MULT_-1205982952'), (u'STORE_-1205974550', u'INDIRECT_-1205969638'), ('const-4096', u'INT_MULT_-1205982930'), ('const-32', u'INT_MULT_-1205974905'), (u'INDIRECT_-1205969501', u'MULTIEQUAL_-1205969427'), (u'STORE_-1205972789', u'INDIRECT_-1205970161'), (u'STORE_-1205972729', u'INDIRECT_-1205969477'), (u'INDIRECT_-1205968886', u'MULTIEQUAL_-1205968875'), (u'INDIRECT_-1205969096', u'MULTIEQUAL_-1205968455'), (u'STORE_-1205972735', u'INDIRECT_-1205969114'), (u'INDIRECT_-1205971207', u'MULTIEQUAL_-1205971175'), (u'INT_RIGHT_-1205992962', u'INT_OR_-1205992961'), (u'STORE_-1205974129', u'INDIRECT_-1205969490'), (u'INDIRECT_-1205970264', u'MULTIEQUAL_-1205969565'), (u'MULTIEQUAL_-1205968174', u'MULTIEQUAL_-1205970856'), (u'INT_ADD_-1205981106', u'INT_ADD_-1205981086'), (u'INT_ADD_-1205976860', u'INT_MULT_-1205976838'), (u'INT_ADD_-1205976824', u'INT_ADD_-1205976804'), (u'INDIRECT_-1205970675', u'MULTIEQUAL_-1205970625'), (u'STORE_-1205972768', u'INDIRECT_-1205970236'), (u'STORE_-1205974682', u'INDIRECT_-1205971367'), (u'INT_RIGHT_-1205979029', u'INT_OR_-1205979028'), (u'INDIRECT_-1205969484', u'MULTIEQUAL_-1205969458'), (u'INT_ADD_-1205987501', u'INT_RIGHT_-1205987447'), (u'INT_OR_-1205979639', u'INT_XOR_-1205979449'), (u'INDIRECT_-1205969852', u'MULTIEQUAL_-1205969826'), (u'INT_ADD_-1205986100', u'INT_NEGATE_-1205985967'), (u'CALL_-1205973395', u'INDIRECT_-1205971178'), (u'STORE_-1205974161', u'INDIRECT_-1205971437'), (u'INDIRECT_-1205971172', u'MULTIEQUAL_-1205971161'), ('const-18', u'INT_RIGHT_-1205979391'), (u'INT_MULT_-1205990879', u'INT_OR_-1205990882'), ('const-4096', u'INT_MULT_-1205976926'), ('const-88', u'INT_ADD_-1205974667'), (u'INT_ADD_-1205977927', u'INT_XOR_-1205977896'), (u'INT_OR_-1205978315', u'INT_ADD_-1205976643'), (u'INT_AND_-1205978673', u'INT_XOR_-1205978654'), (u'INT_OR_-1205991226', u'INT_ADD_-1205991011'), ('const-4', u'PTRADD_-1205968061'), (u'INT_XOR_-1205991182', u'INT_XOR_-1205991172'), (u'INT_OR_-1205988827', u'INT_ADD_-1205988346'), (u'CALL_-1205993328', u'INDIRECT_-1205976961'), (u'INT_XOR_-1205992335', u'INT_ADD_-1205992298'), (u'STORE_-1205973417', u'INDIRECT_-1205970959'), ('const-1024', u'INT_MULT_-1205975231'), ('const-84', u'INT_ADD_-1205974601'), ('const-417', u'STORE_-1205972713'), (u'INT_OR_-1205987644', u'INT_ADD_-1205986507'), (u'INT_XOR_-1205983548', u'INT_ADD_-1205983543'), (u'STORE_-1205974664', u'INDIRECT_-1205969972'), (u'SUBPIECE_-1205968394', u'CAST_-1205967712'), (u'INT_ADD_-1205977216', u'INT_RIGHT_-1205977178'), (u'INT_MULT_-1205982498', u'INT_OR_-1205982501'), (u'STORE_-1205974676', u'INDIRECT_-1205969890'), (u'STORE_-1205974670', u'INDIRECT_-1205970345'), (u'INT_LEFT_-1205993161', u'INT_OR_-1205993161'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992556'), ('const-32', u'INT_MULT_-1205991347'), ('const-0', u'SUBPIECE_-1205971995'), (u'STORE_-1205973555', u'INDIRECT_-1205970102'), (u'MULTIEQUAL_-1205969089', u'MULTIEQUAL_-1205968896'), ('const-22', u'INT_RIGHT_-1205990983'), (u'INT_ADD_-1205990885', u'INT_XOR_-1205990860'), (u'STORE_-1205974161', u'INDIRECT_-1205969965'), (u'INT_AND_-1205988586', u'INT_XOR_-1205988561'), (u'STORE_-1205973695', u'INDIRECT_-1205969899'), (u'CALL_-1205973026', u'INDIRECT_-1205968739'), (u'INT_OR_-1205986232', u'INT_ADD_-1205985753'), (u'INDIRECT_-1205968926', u'MULTIEQUAL_-1205968908'), (u'CALL_-1205972973', u'INDIRECT_-1205968314'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977278'), (u'INT_MULT_-1205991601', u'INT_OR_-1205991604'), (u'INT_RIGHT_-1205987925', u'INT_OR_-1205987924'), (u'INT_MULT_-1205990355', u'INT_OR_-1205990358'), (u'INT_OR_-1205977856', u'INT_ADD_-1205977859'), (u'STORE_-1205973534', u'INDIRECT_-1205971013'), ('const-23', u'INT_RIGHT_-1205991117'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974517'), (u'INT_OR_-1205977099', u'INT_ADD_-1205976788'), (u'INDIRECT_-1205969618', u'COPY_-1205969675'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205991915'), (u'INT_ADD_-1205986074', u'INT_ADD_-1205986054'), ('const-22', u'INT_RIGHT_-1205987623'), (u'INDIRECT_-1205970317', u'MULTIEQUAL_-1205970257'), (u'INDIRECT_-1205971135', u'MULTIEQUAL_-1205971085'), (u'INT_ADD_-1205974927', u'INT_ADD_-1205974807'), (u'STORE_-1205972789', u'INDIRECT_-1205970437'), (u'INDIRECT_-1205970594', u'MULTIEQUAL_-1205970523'), (u'INT_ADD_-1205983517', u'INT_MULT_-1205982748'), (u'INDIRECT_-1205969028', u'MULTIEQUAL_-1205968595'), (u'STORE_-1205972649', u'INDIRECT_-1205970903'), (u'INT_ADD_-1205990313', u'INT_MULT_-1205990101'), (u'INT_OR_-1205984737', u'INT_XOR_-1205984689'), (u'INT_ADD_-1205979881', u'INT_XOR_-1205979419'), (u'STORE_-1205972757', u'INDIRECT_-1205969675'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968024'), (u'STORE_-1205973695', u'INDIRECT_-1205970635'), (u'STORE_-1205973627', u'INDIRECT_-1205969776'), (u'STORE_-1205972637', u'INDIRECT_-1205970617'), ('const-4', u'PTRADD_-1205967580'), (u'INT_ADD_-1205980309', u'INT_MULT_-1205980186'), ('const-417', u'LOAD_-1205993258'), (u'STORE_-1205973597', u'INDIRECT_-1205969762'), (u'INT_OR_-1205979517', u'INT_ADD_-1205979121'), (u'INT_ADD_-1205992360', u'INT_ADD_-1205992350'), (u'STORE_-1205974538', u'INDIRECT_-1205970180'), (u'INDIRECT_-1205970289', u'MULTIEQUAL_-1205970239'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968544'), (u'INDIRECT_-1205971065', u'MULTIEQUAL_-1205970991'), (u'MULTIEQUAL_-1205968166', u'MULTIEQUAL_-1205970120'), (u'INT_NEGATE_-1205991639', u'INT_OR_-1205990572'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205977818'), (u'INDIRECT_-1205971206', u'MULTIEQUAL_-1205971162'), (u'STORE_-1205974532', u'INDIRECT_-1205971739'), (u'STORE_-1205973597', u'INDIRECT_-1205969946'), (u'STORE_-1205973739', u'INDIRECT_-1205970832'), (u'MULTIEQUAL_-1205968630', u'COPY_-1205968765'), (u'STORE_-1205973597', u'INDIRECT_-1205970682'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992850'), (u'INT_ADD_-1205978606', u'INT_AND_-1205978570'), (u'STORE_-1205973590', u'INDIRECT_-1205970861'), (u'INDIRECT_-1205969643', u'MULTIEQUAL_-1205969611'), (u'INDIRECT_-1205968944', u'MULTIEQUAL_-1205968918'), (u'STORE_-1205972664', u'INDIRECT_-1205969534'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992030'), ('const-4096', u'INT_MULT_-1205976782'), (u'INT_RIGHT_-1205975163', u'INT_OR_-1205975162'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968542'), (u'CALL_-1205973395', u'INDIRECT_-1205968620'), (u'INT_ADD_-1205988127', u'INT_MULT_-1205988105'), (u'STORE_-1205973695', u'INDIRECT_-1205971371'), (u'INT_OR_-1205974718', u'INT_ADD_-1205974721'), (u'INT_XOR_-1205977077', u'INT_ADD_-1205977072'), ('const-8192', u'INT_MULT_-1205984917'), (u'INDIRECT_-1205971186', u'MULTIEQUAL_-1205971175'), (u'STORE_-1205972729', u'INDIRECT_-1205969293'), (u'INT_OR_-1205988707', u'INT_ADD_-1205988310'), (u'STORE_-1205972670', u'INDIRECT_-1205968895'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972448'), (u'INT_MULT_-1205987641', u'INT_OR_-1205987644'), ('const-0', u'SUBPIECE_-1205973351'), (u'INT_ADD_-1205986127', u'INT_RIGHT_-1205985308'), ('const-1024', u'INT_MULT_-1205985304'), (u'STORE_-1205972666', u'INDIRECT_-1205970124'), (u'INDIRECT_-1205968465', u'MULTIEQUAL_-1205968936'), (u'INT_MULT_-1205990693', u'INT_OR_-1205990696'), (u'STORE_-1205972670', u'INDIRECT_-1205970183'), (u'INT_ADD_-1205989294', u'INT_ADD_-1205989274'), (u'SUBPIECE_-1205968394', u'CAST_-1205967858'), (u'INT_ADD_-1205987835', u'INT_RIGHT_-1205987801'), (u'STORE_-1205973604', u'INDIRECT_-1205969399'), (u'STORE_-1205973583', u'INDIRECT_-1205969384'), (u'INT_ADD_-1205979881', u'INT_RIGHT_-1205979289'), (u'INT_XOR_-1205991328', u'INT_ADD_-1205991297'), (u'STORE_-1205973597', u'INDIRECT_-1205971510'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968508'), (u'CALL_-1205973395', u'INDIRECT_-1205968637'), (u'STORE_-1205974670', u'INDIRECT_-1205971817'), (u'STORE_-1205974544', u'INDIRECT_-1205970093'), (u'STORE_-1205974670', u'INDIRECT_-1205970713'), (u'INT_RIGHT_-1205991961', u'INT_OR_-1205991960'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205989437'), (u'INDIRECT_-1205968008', u'MULTIEQUAL_-1205967996'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968268'), (u'INT_ADD_-1205976067', u'INT_MULT_-1205976029'), (u'INT_RIGHT_-1205975361', u'INT_OR_-1205975360'), (u'STORE_-1205973583', u'INDIRECT_-1205970580'), (u'INDIRECT_-1205969575', u'MULTIEQUAL_-1205969971'), ('const-17', u'INT_RIGHT_-1205984702'), (u'INT_OR_-1205980769', u'INT_ADD_-1205980192'), (u'INT_SUB_-1205974086', u'INT_AND_-1205974049'), (u'MULTIEQUAL_-1205970799', u'MULTIEQUAL_-1205970672'), (u'INDIRECT_-1205971145', u'MULTIEQUAL_-1205971085'), (u'INDIRECT_-1205968970', u'MULTIEQUAL_-1205968875'), ('const-22', u'INT_RIGHT_-1205980618'), ('const-23', u'INT_RIGHT_-1205978398'), (u'STORE_-1205974538', u'INDIRECT_-1205969628'), (u'STORE_-1205973410', u'INDIRECT_-1205970678'), (u'INT_ADD_-1205980804', u'INT_XOR_-1205980725'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969402'), (u'INT_OR_-1205984025', u'INT_ADD_-1205983401'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992262'), (u'INDIRECT_-1205968363', u'MULTIEQUAL_-1205968834'), (u'INDIRECT_-1205969943', u'MULTIEQUAL_-1205970339'), (u'INDIRECT_-1205968739', u'MULTIEQUAL_-1205968721'), (u'INDIRECT_-1205969147', u'MULTIEQUAL_-1205969021'), (u'PTRSUB_-1205968369', u'CALL_-1205973319'), (u'INDIRECT_-1205970436', u'MULTIEQUAL_-1205970425'), (u'STORE_-1205972757', u'INDIRECT_-1205970135'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205982259'), (u'STORE_-1205973604', u'INDIRECT_-1205970963'), ('const-0', u'STORE_-1205972662'), (u'STORE_-1205972664', u'INDIRECT_-1205969810'), ('const-22', u'INT_RIGHT_-1205977374'), (u'INT_ADD_-1205992664', u'INT_MULT_-1205992612'), (u'INT_ADD_-1205981840', u'INT_ADD_-1205981814'), (u'STORE_-1205973763', u'INDIRECT_-1205969829'), (u'INT_OR_-1205980163', u'INT_ADD_-1205979444'), (u'STORE_-1205972552', u'INDIRECT_-1205969249'), (u'INT_OR_-1205982501', u'INT_ADD_-1205981998'), (u'STORE_-1205973445', u'INDIRECT_-1205969691'), (u'INDIRECT_-1205970204', u'MULTIEQUAL_-1205970117'), (u'INDIRECT_-1205969360', u'MULTIEQUAL_-1205969310'), (u'STORE_-1205973859', u'INDIRECT_-1205970693'), (u'INT_RIGHT_-1205988223', u'INT_OR_-1205988222'), (u'PTRADD_-1205967990', u'INT_NOTEQUAL_-1205973304'), (u'INDIRECT_-1205968977', u'MULTIEQUAL_-1205968851'), (u'INT_ADD_-1205984368', u'INT_RIGHT_-1205983617'), (u'INT_RIGHT_-1205988458', u'INT_OR_-1205988457'), (u'CAST_-1205967864', u'INT_ADD_-1205973403'), (u'CALL_-1205972582', u'INDIRECT_-1205968221'), (u'MULTIEQUAL_-1205971228', u'COPY_-1205971342'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977588'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973537'), (u'CALL_-1205973395', u'INDIRECT_-1205969614'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205992262'), (u'CALL_-1205972510', u'INDIRECT_-1205970403'), (u'INDIRECT_-1205970712', u'MULTIEQUAL_-1205970701'), (u'PIECE_-1205967981', u'MULTIEQUAL_-1205967970'), (u'INT_ADD_-1205990179', u'INT_ADD_-1205990159'), (u'INT_OR_-1205976540', u'INT_XOR_-1205976518'), (u'INDIRECT_-1205970943', u'MULTIEQUAL_-1205968175'), (u'INT_OR_-1205982271', u'INT_AND_-1205982206'), (u'INT_ADD_-1205991197', u'INT_MULT_-1205991057'), (u'INDIRECT_-1205969433', u'MULTIEQUAL_-1205969427'), (u'INT_ADD_-1205974041', u'CAST_-1205968107'), (u'STORE_-1205972571', u'INDIRECT_-1205968656'), (u'MULTIEQUAL_-1205970768', u'COPY_-1205970882'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968438'), (u'INDIRECT_-1205969458', u'MULTIEQUAL_-1205969414'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205991877'), (u'INT_OR_-1205988134', u'INT_XOR_-1205988064'), (u'INT_XOR_-1205985245', u'INT_ADD_-1205985240'), (u'INT_RIGHT_-1205982058', u'INT_OR_-1205982057'), (u'INT_OR_-1205978537', u'INT_XOR_-1205978448'), (u'STORE_-1205973597', u'INDIRECT_-1205971326'), (u'INT_MULT_-1205979365', u'INT_OR_-1205979368'), (u'INT_ADD_-1205979434', u'INT_MULT_-1205979387'), (u'INDIRECT_-1205970483', u'MULTIEQUAL_-1205968170'), (u'INDIRECT_-1205971328', u'MULTIEQUAL_-1205971278'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967585'), (u'INDIRECT_-1205968603', u'MULTIEQUAL_-1205968585'), (u'MULTIEQUAL_-1205972465', u'PTRADD_-1205973635'), (u'STORE_-1205972552', u'INDIRECT_-1205970629'), (u'INT_ADD_-1205990361', u'INT_XOR_-1205989860'), (u'INDIRECT_-1205971089', u'MULTIEQUAL_-1205971083'), (u'STORE_-1205972561', u'INDIRECT_-1205970910'), (u'INT_ADD_-1205978606', u'INT_RIGHT_-1205978435'), ('const-1', u'INT_ADD_-1205973856'), (u'CALL_-1205973026', u'INDIRECT_-1205968620'), (u'INT_RIGHT_-1205991351', u'INT_OR_-1205991350'), (u'INT_ADD_-1205990490', u'INT_XOR_-1205990433'), (u'INT_OR_-1205984177', u'INT_ADD_-1205983645'), (u'STORE_-1205973787', u'INDIRECT_-1205971310'), (u'STORE_-1205972729', u'INDIRECT_-1205969201'), ('const-22', u'INT_RIGHT_-1205976167'), (u'STORE_-1205972655', u'INDIRECT_-1205968884'), (u'INT_ADD_-1205975029', u'INT_XOR_-1205974994'), (u'INDIRECT_-1205969748', u'COPY_-1205969804'), (u'INT_OR_-1205981747', u'INT_ADD_-1205981462'), ('const-512', u'INT_MULT_-1205987797'), (u'INDIRECT_-1205969457', u'MULTIEQUAL_-1205969366'), (u'STORE_-1205973811', u'INDIRECT_-1205969295'), (u'MULTIEQUAL_-1205979438', u'PTRADD_-1205975175'), (u'INDIRECT_-1205970760', u'COPY_-1205970816'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205991915'), (u'INDIRECT_-1205969011', u'MULTIEQUAL_-1205968370'), (u'COPY_-1205968344', u'MULTIEQUAL_-1205968850'), (u'INDIRECT_-1205970115', u'MULTIEQUAL_-1205968166'), (u'CALL_-1205973026', u'INDIRECT_-1205968637'), ('const-22', u'INT_RIGHT_-1205983315'), (u'STORE_-1205973534', u'INDIRECT_-1205970461'), (u'INT_RIGHT_-1205988135', u'INT_OR_-1205988134'), (u'STORE_-1205973424', u'INDIRECT_-1205970504'), (u'INDIRECT_-1205970626', u'MULTIEQUAL_-1205970531'), (u'STORE_-1205973695', u'INDIRECT_-1205969991'), (u'INDIRECT_-1205969551', u'MULTIEQUAL_-1205969519'), (u'COPY_-1205967666', u'STORE_-1205972655'), (u'INT_ADD_-1205989777', u'INT_AND_-1205989735'), (u'INT_ADD_-1205979562', u'INT_AND_-1205979478'), ('const-22', u'INT_RIGHT_-1205986301'), (u'INT_ADD_-1205985270', u'INT_ADD_-1205985230'), (u'INT_ADD_-1205979562', u'INT_XOR_-1205979276'), (u'INT_OR_-1205992161', u'INT_ADD_-1205990669'), (u'STORE_-1205973859', u'INDIRECT_-1205971613'), (u'INT_OR_-1205980956', u'INT_XOR_-1205980918'), (u'INT_AND_-1205987725', u'INT_XOR_-1205987700'), (u'STORE_-1205973695', u'INDIRECT_-1205971003'), (u'INT_MULT_-1205986728', u'INT_OR_-1205986731'), (u'COPY_-1205968356', u'MULTIEQUAL_-1205968676'), (u'INT_ADD_-1205976117', u'INT_RIGHT_-1205975933'), (u'CALL_-1205972510', u'INDIRECT_-1205969667'), (u'LOAD_-1205993205', u'INT_ADD_-1205974674'), ('const-417', u'STORE_-1205974532'), ('const-16384', u'INT_MULT_-1205991677'), ('const-4', u'PTRADD_-1205967639'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205977738'), (u'STORE_-1205973661', u'INDIRECT_-1205970802'), (u'STORE_-1205973445', u'INDIRECT_-1205970243'), (u'INT_RIGHT_-1205979119', u'INT_OR_-1205979118'), ('const-32', u'INT_RIGHT_-1205968384'), (u'INDIRECT_-1205969470', u'MULTIEQUAL_-1205969420'), (u'INT_OR_-1205980617', u'INT_XOR_-1205980584'), (u'CAST_-1205967690', u'INT_ADD_-1205972594'), (u'INT_MULT_-1205984989', u'INT_OR_-1205984992'), ('const-1', u'PTRADD_-1205975175'), (u'INT_ADD_-1205981358', u'INT_RIGHT_-1205981324'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970174'), (u'STORE_-1205972666', u'INDIRECT_-1205970860'), (u'STORE_-1205972530', u'INDIRECT_-1205970068'), (u'STORE_-1205972789', u'INDIRECT_-1205970253'), (u'CALL_-1205993328', u'INDIRECT_-1205976869'), (u'INT_RIGHT_-1205991389', u'INT_OR_-1205991388'), (u'STORE_-1205974664', u'INDIRECT_-1205970064'), (u'LOAD_-1205992081', u'INT_ADD_-1205991877'), (u'INT_ADD_-1205975961', u'INT_ADD_-1205975909'), (u'STORE_-1205973576', u'INDIRECT_-1205971127'), (u'STORE_-1205973604', u'INDIRECT_-1205971331'), (u'INT_ADD_-1205980636', u'INT_MULT_-1205979785'), (u'INT_MULT_-1205981424', u'INT_OR_-1205981427'), ('const-417', u'LOAD_-1205974405'), (u'STORE_-1205973627', u'INDIRECT_-1205971340'), (u'INT_ADD_-1205991963', u'INT_XOR_-1205991756'), (u'STORE_-1205973555', u'INDIRECT_-1205970562'), (u'INT_OR_-1205990358', u'INT_ADD_-1205990361'), ('const-22', u'INT_RIGHT_-1205977752'), (u'STORE_-1205974544', u'INDIRECT_-1205971197'), (u'INDIRECT_-1205969516', u'MULTIEQUAL_-1205969505'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205978380'), (u'INDIRECT_-1205968978', u'MULTIEQUAL_-1205968967'), (u'CALL_-1205972994', u'INDIRECT_-1205969451'), (u'INT_ADD_-1205986837', u'INT_XOR_-1205986652'), (u'INT_RIGHT_-1205979055', u'INT_OR_-1205979054'), (u'INDIRECT_-1205969528', u'MULTIEQUAL_-1205968829'), (u'CALL_-1205972582', u'INDIRECT_-1205968357'), (u'STORE_-1205974616', u'INDIRECT_-1205970583'), ('const-0', u'COPY_-1205972504'), (u'INT_RIGHT_-1205981950', u'INT_OR_-1205981949'), (u'INT_ADD_-1205977118', u'INT_ADD_-1205977092'), (u'COPY_-1205968350', u'MULTIEQUAL_-1205968676'), (u'INT_MULT_-1205988570', u'INT_OR_-1205988573'), ('const-1024', u'INT_MULT_-1205980016'), (u'STORE_-1205973452', u'INDIRECT_-1205969696'), (u'CAST_-1205967712', u'INT_ADD_-1205972652'), (u'INT_MULT_-1205975231', u'INT_OR_-1205975234'), (u'INDIRECT_-1205971034', u'MULTIEQUAL_-1205970984'), (u'CALL_-1205972973', u'INDIRECT_-1205968586'), (u'INT_ADD_-1205974529', u'CAST_-1205968291'), (u'INDIRECT_-1205971826', u'COPY_-1205971883'), (u'MULTIEQUAL_-1205967970', u'MULTIEQUAL_-1205967781'), (u'INT_ADD_-1205986100', u'INT_RIGHT_-1205985567'), (u'INT_XOR_-1205986795', u'INT_AND_-1205986774'), (u'INDIRECT_-1205969582', u'MULTIEQUAL_-1205969322'), (u'INT_ADD_-1205993154', u'INT_ADD_-1205993134'), (u'CALL_-1205973026', u'INDIRECT_-1205969560'), (u'STORE_-1205972608', u'INDIRECT_-1205968907'), (u'INT_ADD_-1205981126', u'INT_ADD_-1205981106'), (u'INT_EQUAL_-1205974380', u'CAST_-1205968226'), (u'STORE_-1205973417', u'INDIRECT_-1205970223'), (u'INDIRECT_-1205971736', u'MULTIEQUAL_-1205971037'), (u'INT_ADD_-1205992015', u'INT_ADD_-1205991941'), (u'INT_OR_-1205983600', u'INT_XOR_-1205983548'), (u'STORE_-1205972561', u'INDIRECT_-1205970726'), (u'INDIRECT_-1205969425', u'COPY_-1205967705'), (u'INDIRECT_-1205970785', u'MULTIEQUAL_-1205970736'), (u'COPY_-1205975154', u'MULTIEQUAL_-1205975920'), ('const-22', u'INT_RIGHT_-1205987983'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205980245'), (u'STORE_-1205974159', u'INDIRECT_-1205970608'), ('const-1024', u'INT_MULT_-1205983890'), (u'INT_OR_-1205986704', u'INT_ADD_-1205986163'), (u'INT_ADD_-1205979153', u'INT_MULT_-1205979115'), (u'STORE_-1205972768', u'INDIRECT_-1205968948'), (u'STORE_-1205973835', u'INDIRECT_-1205969488'), ('const-2048', u'INT_MULT_-1205991957'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205982354'), ('const-4', u'PTRADD_-1205968276'), (u'INT_ADD_-1205991167', u'INT_ADD_-1205991141'), ('const-4', u'INT_ADD_-1205993288'), ('const-20', u'INT_RIGHT_-1205988251'), (u'INT_XOR_-1205979684', u'INT_ADD_-1205979673'), (u'STORE_-1205973859', u'INDIRECT_-1205970601'), (u'INDIRECT_-1205970969', u'MULTIEQUAL_-1205970920'), (u'STORE_-1205974670', u'INDIRECT_-1205969609'), (u'STORE_-1205973576', u'INDIRECT_-1205969563'), (u'STORE_-1205972713', u'INDIRECT_-1205970292'), ('tmp_55406', u'MULTIEQUAL_-1205977991'), (u'INT_MULT_-1205981320', u'INT_OR_-1205981323'), ('const-23', u'INT_RIGHT_-1205985029'), (u'INDIRECT_-1205970381', u'MULTIEQUAL_-1205970331'), ('const-18', u'PTRADD_-1205968281'), (u'INT_RIGHT_-1205992280', u'INT_OR_-1205992279'), (u'INT_ADD_-1205978292', u'INT_RIGHT_-1205976673'), (u'INT_ADD_-1205982473', u'INT_ADD_-1205982433'), (u'STORE_-1205973534', u'INDIRECT_-1205970645'), (u'INT_OR_-1205976198', u'INT_NEGATE_-1205975349'), (u'INDIRECT_-1205971047', u'MULTIEQUAL_-1205971443'), (u'INT_OR_-1205991148', u'INT_ADD_-1205990963'), (u'STORE_-1205974544', u'INDIRECT_-1205970369'), (u'CALL_-1205973026', u'INDIRECT_-1205969744'), (u'INT_ADD_-1205981086', u'INT_MULT_-1205981053'), (u'STORE_-1205973438', u'INDIRECT_-1205970790'), (u'INDIRECT_-1205970286', u'MULTIEQUAL_-1205970242'), (u'CALL_-1205973319', u'INDIRECT_-1205968842'), (u'STORE_-1205972643', u'INDIRECT_-1205970898'), (u'INT_ADD_-1205979494', u'INT_ADD_-1205979474'), (u'STORE_-1205972637', u'INDIRECT_-1205970985'), ('const-22', u'INT_RIGHT_-1205988760'), (u'INDIRECT_-1205969921', u'MULTIEQUAL_-1205969871'), (u'CALL_-1205972973', u'INDIRECT_-1205968705'), (u'INT_RIGHT_-1205977100', u'INT_OR_-1205977099'), (u'INDIRECT_-1205969911', u'MULTIEQUAL_-1205969824'), (u'INT_AND_-1205986671', u'INT_XOR_-1205986652'), ('const-2053994217', u'INT_ADD_-1205979964'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968936'), (u'INT_RIGHT_-1205982362', u'INT_OR_-1205982361'), (u'CALL_-1205972582', u'INDIRECT_-1205968374'), (u'INT_OR_-1205981795', u'INT_ADD_-1205981798'), (u'INT_RIGHT_-1205977768', u'INT_OR_-1205977767'), (u'STORE_-1205972840', u'INDIRECT_-1205970463'), (u'INT_ADD_-1205987783', u'INT_ADD_-1205987757'), (u'INT_ADD_-1205984368', u'INT_NEGATE_-1205984198'), (u'STORE_-1205973431', u'INDIRECT_-1205969865'), (u'INT_ADD_-1205986477', u'INT_ADD_-1205986225'), (u'MULTIEQUAL_-1205972483', u'STORE_-1205973763'), (u'INT_MULT_-1205976413', u'INT_OR_-1205976416'), (u'INDIRECT_-1205968570', u'MULTIEQUAL_-1205968585'), (u'STORE_-1205974544', u'INDIRECT_-1205970645'), (u'INT_MULT_-1205986001', u'INT_OR_-1205986004'), (u'INT_ADD_-1205992484', u'INT_RIGHT_-1205992466'), (u'CALL_-1205973026', u'INDIRECT_-1205969008'), ('const-1024', u'INT_MULT_-1205984890'), (u'INT_ADD_-1205989927', u'INT_RIGHT_-1205989903'), (u'CALL_-1205973319', u'INDIRECT_-1205968638'), (u'INT_ADD_-1205981688', u'INT_ADD_-1205981662'), (u'CALL_-1205993328', u'INDIRECT_-1205978433'), (u'INT_MULT_-1205987761', u'INT_OR_-1205987764'), (u'INT_ADD_-1205980192', u'INT_XOR_-1205979776'), (u'INDIRECT_-1205970103', u'MULTIEQUAL_-1205970071'), (u'PTRADD_-1205973751', u'MULTIEQUAL_-1205972492'), (u'INT_MULT_-1205978286', u'INT_OR_-1205978289'), (u'STORE_-1205974161', u'INDIRECT_-1205970609'), (u'INDIRECT_-1205969249', u'MULTIEQUAL_-1205969243'), (u'STORE_-1205972643', u'INDIRECT_-1205969150'), (u'INDIRECT_-1205967991', u'MULTIEQUAL_-1205967979'), (u'CALL_-1205973026', u'INDIRECT_-1205969100'), (u'INDIRECT_-1205971642', u'COPY_-1205971699'), (u'COPY_-1205974435', u'MULTIEQUAL_-1205969208'), (u'INT_OR_-1205977767', u'INT_ADD_-1205977770'), (u'INT_ADD_-1205991741', u'INT_ADD_-1205991623'), ('const-0', u'STORE_-1205973604'), (u'CALL_-1205973026', u'INDIRECT_-1205970112'), (u'LOAD_-1205992251', u'INT_RIGHT_-1205991891'), (u'INDIRECT_-1205968331', u'MULTIEQUAL_-1205968319'), (u'INDIRECT_-1205968331', u'MULTIEQUAL_-1205968319'), (u'STORE_-1205972662', u'INDIRECT_-1205969165'), (u'STORE_-1205973634', u'INDIRECT_-1205970241'), (u'INT_ADD_-1205992157', u'CAST_-1205974595'), (u'INT_MULT_-1205992534', u'INT_OR_-1205992537'), (u'INT_OR_-1205989810', u'INT_XOR_-1205989762'), (u'MULTIEQUAL_-1205972458', u'INT_ADD_-1205973805'), ('const-26', u'INT_RIGHT_-1205990311'), (u'INT_OR_-1205986232', u'INT_AND_-1205986183'), ('const-27', u'INT_RIGHT_-1205978085'), (u'INT_ADD_-1205987767', u'INT_MULT_-1205985833'), (u'INT_RIGHT_-1205986233', u'INT_OR_-1205986232'), (u'INT_ADD_-1205990199', u'INT_XOR_-1205990086'), (u'INDIRECT_-1205975528', u'MULTIEQUAL_-1205975529'), (u'INT_ADD_-1205991925', u'INT_XOR_-1205991852'), (u'INDIRECT_-1205969948', u'MULTIEQUAL_-1205969898'), (u'INDIRECT_-1205969801', u'MULTIEQUAL_-1205969795'), (u'STORE_-1205974664', u'INDIRECT_-1205970984'), (u'INDIRECT_-1205970451', u'MULTIEQUAL_-1205968169'), (u'INT_ADD_-1205991581', u'INT_XOR_-1205991422'), (u'INDIRECT_-1205969338', u'MULTIEQUAL_-1205969245'), (u'INDIRECT_-1205969950', u'MULTIEQUAL_-1205969413'), (u'INT_RIGHT_-1205989697', u'INT_OR_-1205989696'), (u'INDIRECT_-1205969267', u'MULTIEQUAL_-1205969151'), (u'INT_OR_-1205978063', u'INT_ADD_-1205977770'), (u'INDIRECT_-1205971319', u'MULTIEQUAL_-1205971269'), (u'INT_RIGHT_-1205985609', u'INT_OR_-1205985608'), (u'STORE_-1205973576', u'INDIRECT_-1205969747'), (u'INT_ADD_-1205978915', u'INT_AND_-1205978819'), (u'INT_ADD_-1205983792', u'INT_MULT_-1205983770'), (u'INT_RIGHT_-1205978897', u'INT_OR_-1205978896'), (u'INT_OR_-1205975822', u'INT_ADD_-1205975633'), (u'INT_OR_-1205978017', u'INT_XOR_-1205977938'), (u'INT_OR_-1205983600', u'INT_ADD_-1205983339'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205988935'), ('const-112', u'INT_ADD_-1205974523'), (u'INDIRECT_-1205970960', u'MULTIEQUAL_-1205970910'), (u'INDIRECT_-1205970929', u'MULTIEQUAL_-1205970838'), ('const-22', u'INT_RIGHT_-1205990743'), ('const-0', u'INT_EQUAL_-1205974349'), (u'INDIRECT_-1205970697', u'MULTIEQUAL_-1205970623'), (u'INT_RIGHT_-1205986082', u'INT_OR_-1205986081'), (u'STORE_-1205973634', u'INDIRECT_-1205970425'), (u'INT_ADD_-1205991275', u'INT_XOR_-1205991250'), (u'INT_MULT_-1205990522', u'INT_OR_-1205990525'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205990715'), (u'MULTIEQUAL_-1205979438', u'CALL_-1205993328'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205975145'), (u'INDIRECT_-1205969893', u'MULTIEQUAL_-1205969887'), (u'INT_MULT_-1205991835', u'INT_OR_-1205991838'), (u'INT_OR_-1205977621', u'INT_NEGATE_-1205977610'), (u'MULTIEQUAL_-1205970010', u'COPY_-1205970145'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205993028'), ('tmp_55345', u'MULTIEQUAL_-1205975512'), (u'CALL_-1205974449', u'INDIRECT_-1205969096'), (u'INT_MULT_-1205981053', u'INT_OR_-1205981056'), (u'INT_MULT_-1205992756', u'INT_OR_-1205992759'), (u'INDIRECT_-1205970816', u'MULTIEQUAL_-1205970117'), (u'INT_ADD_-1205990611', u'INT_RIGHT_-1205989697'), ('const-2', u'PTRADD_-1205973567'), (u'STORE_-1205974676', u'INDIRECT_-1205970994'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205977232'), (u'LOAD_-1205974338', u'INT_NOTEQUAL_-1205972784'), ('const-25', u'INT_RIGHT_-1205988860'), (u'INT_ADD_-1205982520', u'INT_ADD_-1205982423'), (u'INT_OR_-1205991562', u'INT_ADD_-1205989368'), (u'INDIRECT_-1205968618', u'MULTIEQUAL_-1205969089'), (u'CALL_-1205993328', u'INDIRECT_-1205977881'), ('const-512', u'INT_MULT_-1205975997'), (u'STORE_-1205973452', u'INDIRECT_-1205969236'), (u'COPY_-1205972504', u'MULTIEQUAL_-1205972529'), (u'INT_ADD_-1205985591', u'INT_RIGHT_-1205985340'), (u'INT_RIGHT_-1205988308', u'INT_OR_-1205988307'), (u'INT_OR_-1205977751', u'INT_ADD_-1205977432'), (u'INT_ADD_-1205982936', u'INT_RIGHT_-1205982272'), (u'CALL_-1205972510', u'INDIRECT_-1205969483'), (u'INT_XOR_-1205976404', u'INT_XOR_-1205976378'), (u'INT_ADD_-1205986770', u'INT_ADD_-1205986750'), (u'INDIRECT_-1205970392', u'COPY_-1205970448'), (u'INDIRECT_-1205968706', u'MULTIEQUAL_-1205968680'), (u'STORE_-1205972724', u'INDIRECT_-1205969041'), ('const-1024', u'INT_MULT_-1205987619'), (u'CALL_-1205993328', u'INDIRECT_-1205976409'), (u'INT_OR_-1205975728', u'INT_ADD_-1205975731'), (u'STORE_-1205974526', u'INDIRECT_-1205969618'), (u'INT_MULT_-1205985437', u'INT_OR_-1205985440'), (u'INT_OR_-1205988759', u'INT_AND_-1205988678'), (u'INDIRECT_-1205969175', u'MULTIEQUAL_-1205969059'), (u'INDIRECT_-1205969932', u'COPY_-1205969988'), (u'INT_OR_-1205975822', u'INT_ADD_-1205975653'), (u'STORE_-1205973859', u'INDIRECT_-1205971429'), (u'INDIRECT_-1205975579', u'MULTIEQUAL_-1205975580'), (u'INDIRECT_-1205968601', u'MULTIEQUAL_-1205969072'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967570'), (u'INT_OR_-1205984759', u'INT_XOR_-1205984751'), (u'INT_NEGATE_-1205992454', u'INT_OR_-1205992265'), ('const-1', u'PTRADD_-1205967590'), (u'STORE_-1205973597', u'INDIRECT_-1205971050'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205973984'), (u'INT_XOR_-1205978551', u'INT_ADD_-1205978530'), (u'INDIRECT_-1205969378', u'MULTIEQUAL_-1205969328'), (u'STORE_-1205974550', u'INDIRECT_-1205970282'), (u'MULTIEQUAL_-1205968173', u'MULTIEQUAL_-1205970764'), (u'STORE_-1205973627', u'INDIRECT_-1205970144'), (u'INT_OR_-1205977099', u'INT_ADD_-1205976477'), (u'INT_ADD_-1205981952', u'INT_RIGHT_-1205981580'), (u'PTRADD_-1205967985', u'INT_NOTEQUAL_-1205973304'), (u'INDIRECT_-1205970745', u'MULTIEQUAL_-1205970654'), (u'STORE_-1205973634', u'INDIRECT_-1205971345'), (u'INT_ADD_-1205976932', u'INT_RIGHT_-1205976894'), (u'INT_ADD_-1205980841', u'INT_AND_-1205980563'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968338'), (u'INT_ADD_-1205976467', u'INT_MULT_-1205976361'), (u'STORE_-1205973417', u'INDIRECT_-1205969947'), (u'INT_NEGATE_-1205983387', u'INT_OR_-1205983053'), (u'INT_ADD_-1205977927', u'INT_XOR_-1205976518'), (u'STORE_-1205974129', u'INDIRECT_-1205969582'), (u'STORE_-1205973661', u'INDIRECT_-1205969606'), (u'STORE_-1205973597', u'INDIRECT_-1205970958'), ('const-1548603684', u'INT_ADD_-1205987599'), (u'INDIRECT_-1205969804', u'MULTIEQUAL_-1205969105'), (u'INT_RIGHT_-1205988109', u'INT_OR_-1205988108'), (u'INT_ADD_-1205977979', u'INT_ADD_-1205977959'), ('const-8192', u'INT_MULT_-1205986319'), (u'INT_XOR_-1205985784', u'INT_ADD_-1205985779'), ('const-4', u'INT_ADD_-1205973279'), (u'INT_XOR_-1205991250', u'INT_ADD_-1205991213'), ('const-22', u'INT_RIGHT_-1205978538'), ('const-1024', u'INT_MULT_-1205975747'), (u'STORE_-1205973859', u'INDIRECT_-1205970785'), (u'INDIRECT_-1205969472', u'COPY_-1205969528'), (u'STORE_-1205972666', u'INDIRECT_-1205970768'), (u'INT_ADD_-1205979990', u'INT_AND_-1205979938'), (u'INT_ADD_-1205990123', u'INT_XOR_-1205989988'), (u'INT_ADD_-1205988001', u'INT_RIGHT_-1205987645'), (u'STORE_-1205973634', u'INDIRECT_-1205971161'), (u'INT_OR_-1205977709', u'INT_ADD_-1205977340'), (u'INT_OR_-1205990718', u'INT_XOR_-1205990684'), (u'CALL_-1205973026', u'INDIRECT_-1205968314'), (u'INT_ADD_-1205992500', u'INT_RIGHT_-1205992482'), (u'INT_ADD_-1205982958', u'INT_OR_-1205982809'), ('const-64', u'INT_MULT_-1205978757'), ('const-64', u'INT_MULT_-1205983511'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205981414'), (u'INT_ADD_-1205978649', u'INT_MULT_-1205978600'), (u'INDIRECT_-1205970318', u'MULTIEQUAL_-1205970247'), (u'PTRADD_-1205967625', u'STORE_-1205972729'), (u'INT_ADD_-1205976665', u'INT_ADD_-1205976643'), ('const-512', u'INT_MULT_-1205992958'), (u'INT_XOR_-1205975316', u'INT_XOR_-1205975274'), (u'INT_OR_-1205976893', u'INT_NEGATE_-1205976748'), (u'INT_MULT_-1205981576', u'INT_OR_-1205981579'), (u'INDIRECT_-1205969157', u'MULTIEQUAL_-1205969151'), (u'INT_OR_-1205990244', u'INT_ADD_-1205990199'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968783'), (u'INT_NEGATE_-1205985043', u'INT_OR_-1205984962'), (u'INT_OR_-1205992321', u'INT_ADD_-1205991783'), (u'INT_RIGHT_-1205975751', u'INT_OR_-1205975750'), (u'INT_ADD_-1205986507', u'INT_OR_-1205986286'), (u'STORE_-1205973576', u'INDIRECT_-1205970115'), (u'INT_ADD_-1205983355', u'INT_MULT_-1205983333'), (u'STORE_-1205973576', u'INDIRECT_-1205969195'), (u'INT_OR_-1205990455', u'INT_ADD_-1205990458'), (u'INT_ADD_-1205972652', u'CAST_-1205967711'), (u'INT_ADD_-1205989757', u'INT_MULT_-1205989677'), (u'INT_ADD_-1205979663', u'INT_MULT_-1205979556'), (u'INT_OR_-1205976785', u'INT_ADD_-1205976788'), (u'INDIRECT_-1205970962', u'MULTIEQUAL_-1205970891'), ('const-417', u'LOAD_-1205992207'), (u'STORE_-1205972662', u'INDIRECT_-1205970913'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968559'), (u'INT_ADD_-1205976117', u'INT_XOR_-1205975982'), (u'STORE_-1205972552', u'INDIRECT_-1205968973'), (u'STORE_-1205972571', u'INDIRECT_-1205969944'), (u'INT_MULT_-1205989899', u'INT_OR_-1205989902'), (u'SUBPIECE_-1205973358', u'STORE_-1205973417'), (u'STORE_-1205972662', u'INDIRECT_-1205969625'), (u'SUBPIECE_-1205968394', u'CAST_-1205968108'), (u'STORE_-1205972561', u'INDIRECT_-1205971094'), (u'INDIRECT_-1205971184', u'MULTIEQUAL_-1205970468'), (u'INDIRECT_-1205971108', u'MULTIEQUAL_-1205971058'), (u'STORE_-1205972666', u'INDIRECT_-1205970032'), (u'STORE_-1205972713', u'INDIRECT_-1205969096'), (u'CALL_-1205973319', u'INDIRECT_-1205968791'), (u'INT_ADD_-1205978963', u'INT_ADD_-1205978947'), (u'INDIRECT_-1205970053', u'MULTIEQUAL_-1205969979'), (u'STORE_-1205974676', u'INDIRECT_-1205970718'), ('const-24', u'INT_RIGHT_-1205976417'), (u'STORE_-1205974526', u'INDIRECT_-1205971550'), (u'MULTIEQUAL_-1205968177', u'MULTIEQUAL_-1205971132'), (u'INT_ADD_-1205990963', u'INT_RIGHT_-1205990837'), (u'INT_RIGHT_-1205984993', u'INT_OR_-1205984992'), ('const-1024', u'INT_MULT_-1205977706'), (u'MULTIEQUAL_-1205970400', u'COPY_-1205970514'), (u'INT_MULT_-1205974747', u'INT_OR_-1205974750'), (u'STORE_-1205973424', u'INDIRECT_-1205971056'), (u'INT_OR_-1205977637', u'INT_ADD_-1205977640'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205988612'), (u'INDIRECT_-1205969528', u'MULTIEQUAL_-1205968812'), (u'INDIRECT_-1205969911', u'MULTIEQUAL_-1205969795'), (u'INT_OR_-1205980534', u'INT_XOR_-1205980360'), (u'STORE_-1205973576', u'INDIRECT_-1205971219'), (u'INT_ADD_-1205975653', u'INT_MULT_-1205975513'), (u'STORE_-1205974682', u'INDIRECT_-1205971643'), (u'INDIRECT_-1205970740', u'MULTIEQUAL_-1205970690'), (u'INT_NEGATE_-1205992748', u'INT_OR_-1205992581'), (u'INT_OR_-1205982633', u'INT_XOR_-1205982448'), (u'COPY_-1205968320', u'MULTIEQUAL_-1205968591'), (u'STORE_-1205972789', u'INDIRECT_-1205971081'), (u'INDIRECT_-1205969268', u'MULTIEQUAL_-1205969218'), (u'INT_OR_-1205979788', u'INT_ADD_-1205979371'), (u'INT_ADD_-1205984106', u'INT_ADD_-1205984096'), (u'INDIRECT_-1205970930', u'MULTIEQUAL_-1205970886'), (u'INDIRECT_-1205978433', u'INT_ADD_-1205989488'), (u'INT_ADD_-1205977640', u'INT_OR_-1205977545'), (u'INDIRECT_-1205970502', u'MULTIEQUAL_-1205970431'), ('const-2400959708', u'INT_ADD_-1205980385'), (u'INT_ADD_-1205977366', u'INT_RIGHT_-1205977338'), ('const-1859775393', u'INT_ADD_-1205984979'), (u'STORE_-1205974161', u'INDIRECT_-1205970977'), (u'INT_OR_-1205984723', u'INT_XOR_-1205984689'), (u'INT_ADD_-1205983543', u'INT_RIGHT_-1205983499'), (u'INT_OR_-1205978625', u'INT_XOR_-1205978591'), (u'STORE_-1205972571', u'INDIRECT_-1205970680'), (u'INT_ADD_-1205980100', u'INT_RIGHT_-1205979988'), (u'INDIRECT_-1205978341', u'INT_ADD_-1205986790'), (u'STORE_-1205974682', u'INDIRECT_-1205971919'), ('const-1024', u'INT_MULT_-1205991145'), (u'STORE_-1205972561', u'INDIRECT_-1205970818'), (u'CALL_-1205973026', u'INDIRECT_-1205970388'), (u'CAST_-1205967886', u'STORE_-1205973445'), (u'INDIRECT_-1205968023', u'MULTIEQUAL_-1205968494'), (u'STORE_-1205973695', u'INDIRECT_-1205970819'), (u'INT_MULT_-1205984362', u'INT_OR_-1205984365'), (u'INT_ADD_-1205982530', u'INT_ADD_-1205982520'), (u'INT_OR_-1205975162', u'INT_ADD_-1205975165'), (u'STORE_-1205972789', u'INDIRECT_-1205969609'), (u'STORE_-1205972782', u'INDIRECT_-1205970718'), (u'STORE_-1205972552', u'INDIRECT_-1205969157'), (u'INT_MULT_-1205987249', u'INT_OR_-1205987252'), (u'STORE_-1205974682', u'INDIRECT_-1205969895'), (u'CALL_-1205993328', u'INDIRECT_-1205975613'), (u'STORE_-1205973583', u'INDIRECT_-1205971408'), (u'INT_XOR_-1205991648', u'INT_ADD_-1205991623'), (u'INDIRECT_-1205975477', u'MULTIEQUAL_-1205975478'), (u'INT_OR_-1205988134', u'INT_XOR_-1205988096'), (u'INT_ADD_-1205988179', u'INT_ADD_-1205988127'), (u'INDIRECT_-1205971485', u'MULTIEQUAL_-1205971435'), (u'INT_OR_-1205980019', u'INT_ADD_-1205979474'), (u'STORE_-1205973597', u'INDIRECT_-1205969210'), (u'STORE_-1205973787', u'INDIRECT_-1205970298'), (u'INDIRECT_-1205971002', u'MULTIEQUAL_-1205970991'), ('const-417', u'STORE_-1205974129'), (u'INT_ADD_-1205977392', u'INT_ADD_-1205977366'), (u'INT_AND_-1205988360', u'INT_XOR_-1205988331'), (u'STORE_-1205974544', u'INDIRECT_-1205971749'), (u'MULTIEQUAL_-1205972529', u'INT_SUB_-1205974086'), ('const-24', u'INT_RIGHT_-1205975075'), ('const-1024', u'INT_MULT_-1205982054'), (u'INT_OR_-1205992537', u'INT_ADD_-1205992210'), (u'INT_ADD_-1205979739', u'INT_ADD_-1205979709'), (u'INT_ADD_-1205980841', u'INT_XOR_-1205980480'), (u'STORE_-1205972840', u'INDIRECT_-1205969359'), (u'INT_OR_-1205990525', u'INT_ADD_-1205989683'), (u'INT_ADD_-1205983792', u'INT_RIGHT_-1205983774'), (u'INT_ADD_-1205980688', u'INT_ADD_-1205980672'), (u'INT_RIGHT_-1205985202', u'INT_OR_-1205985201'), (u'INT_XOR_-1205992111', u'INT_XOR_-1205992085'), ('const-4', u'PTRADD_-1205968070'), (u'STORE_-1205972713', u'INDIRECT_-1205969924'), (u'INT_ADD_-1205989777', u'INT_MULT_-1205989236'), (u'INDIRECT_-1205970463', u'MULTIEQUAL_-1205970347'), (u'CALL_-1205972973', u'INDIRECT_-1205968263'), (u'INT_ADD_-1205991963', u'INT_RIGHT_-1205991531'), (u'INDIRECT_-1205969147', u'MULTIEQUAL_-1205968506'), (u'INT_RIGHT_-1205987853', u'INT_OR_-1205987852'), (u'STORE_-1205973859', u'INDIRECT_-1205970233'), (u'INT_MULT_-1205992204', u'INT_OR_-1205992207'), (u'STORE_-1205973410', u'INDIRECT_-1205970218'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205988694'), (u'INT_MULT_-1205991057', u'INT_OR_-1205991060'), ('const-16384', u'INT_MULT_-1205980186'), (u'INDIRECT_-1205968791', u'MULTIEQUAL_-1205968806'), (u'INT_ADD_-1205992242', u'INT_ADD_-1205992226'), (u'INDIRECT_-1205968482', u'MULTIEQUAL_-1205968953'), (u'INDIRECT_-1205969130', u'MULTIEQUAL_-1205968697'), (u'INDIRECT_-1205970605', u'MULTIEQUAL_-1205970531'), (u'INT_ADD_-1205981206', u'INT_RIGHT_-1205981172'), (u'INDIRECT_-1205969918', u'MULTIEQUAL_-1205969874'), (u'MULTIEQUAL_-1205968953', u'MULTIEQUAL_-1205968760'), (u'INDIRECT_-1205968552', u'MULTIEQUAL_-1205968540'), (u'INDIRECT_-1205968552', u'MULTIEQUAL_-1205968540'), (u'STORE_-1205972561', u'INDIRECT_-1205970174'), (u'STORE_-1205973576', u'INDIRECT_-1205970943'), (u'INT_ADD_-1205976912', u'INT_ADD_-1205976860'), (u'INT_MULT_-1205975803', u'INT_OR_-1205975806'), (u'STORE_-1205973445', u'INDIRECT_-1205970611'), (u'CALL_-1205972510', u'INDIRECT_-1205969851'), (u'INT_MULT_-1205978909', u'INT_OR_-1205978912'), (u'INT_ADD_-1205991213', u'INT_MULT_-1205991191'), (u'INT_ADD_-1205983213', u'INT_MULT_-1205983180'), (u'STORE_-1205973627', u'INDIRECT_-1205971524'), (u'INDIRECT_-1205969848', u'MULTIEQUAL_-1205969795'), (u'PTRSUB_-1205975200', u'COPY_-1205975199'), (u'STORE_-1205974161', u'INDIRECT_-1205971345'), (u'INT_ADD_-1205978503', u'INT_MULT_-1205978312'), (u'CALL_-1205972510', u'INDIRECT_-1205968754'), (u'STORE_-1205973835', u'INDIRECT_-1205969948'), (u'STORE_-1205973661', u'INDIRECT_-1205970434'), (u'INT_ADD_-1205974207', u'MULTIEQUAL_-1205972529'), (u'CAST_-1205967778', u'INT_ADD_-1205972826'), (u'INT_ADD_-1205991683', u'INT_MULT_-1205991463'), (u'INT_ADD_-1205980877', u'INT_ADD_-1205980831'), (u'INT_OR_-1205985150', u'INT_XOR_-1205985126'), (u'STORE_-1205973695', u'INDIRECT_-1205970727'), (u'INT_OR_-1205978017', u'INT_XOR_-1205977984'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205970993'), (u'STORE_-1205972530', u'INDIRECT_-1205970436'), (u'INT_ADD_-1205976035', u'INT_OR_-1205975096'), (u'INT_RIGHT_-1205977178', u'INT_OR_-1205977177'), (u'INT_RIGHT_-1205985103', u'INT_OR_-1205985102'), (u'INT_OR_-1205991466', u'INT_XOR_-1205991422'), (u'STORE_-1205973597', u'INDIRECT_-1205970222'), ('const-0', u'STORE_-1205973583'), (u'CALL_-1205972973', u'INDIRECT_-1205971182'), (u'STORE_-1205973859', u'INDIRECT_-1205969497'), (u'MULTIEQUAL_-1205970707', u'MULTIEQUAL_-1205970598'), (u'INDIRECT_-1205968603', u'MULTIEQUAL_-1205968591'), (u'INDIRECT_-1205968603', u'MULTIEQUAL_-1205968591'), (u'INDIRECT_-1205968553', u'MULTIEQUAL_-1205968568'), (u'INT_ADD_-1205988033', u'INT_RIGHT_-1205987999'), ('const-1548603684', u'INT_ADD_-1205987045'), (u'INDIRECT_-1205970813', u'MULTIEQUAL_-1205970807'), (u'CALL_-1205973319', u'INDIRECT_-1205971053'), (u'STORE_-1205972757', u'INDIRECT_-1205970963'), (u'STORE_-1205972571', u'INDIRECT_-1205968932'), (u'INT_MULT_-1205983613', u'INT_OR_-1205983616'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969540'), (u'INT_AND_-1205989168', u'INT_XOR_-1205989143'), ('const-22', u'INT_RIGHT_-1205977100'), ('const-27', u'INT_RIGHT_-1205976323'), (u'INDIRECT_-1205969096', u'MULTIEQUAL_-1205968970'), (u'STORE_-1205972666', u'INDIRECT_-1205969388'), ('const-22', u'INT_RIGHT_-1205976673'), (u'INT_ADD_-1205973805', u'MULTIEQUAL_-1205972448'), (u'INT_MULT_-1205986701', u'INT_OR_-1205986704'), (u'INT_AND_-1205979478', u'INT_XOR_-1205979449'), (u'CALL_-1205974449', u'INDIRECT_-1205969164'), (u'MULTIEQUAL_-1205968164', u'MULTIEQUAL_-1205969936'), (u'INT_ADD_-1205985105', u'INT_OR_-1205984723'), (u'CALL_-1205974449', u'INDIRECT_-1205969620'), (u'INT_OR_-1205975328', u'INT_ADD_-1205975009'), (u'INT_OR_-1205983566', u'INT_XOR_-1205983548'), (u'STORE_-1205972655', u'INDIRECT_-1205970816'), (u'INT_XOR_-1205980852', u'INT_ADD_-1205980831'), (u'STORE_-1205973431', u'INDIRECT_-1205971061'), (u'INDIRECT_-1205969543', u'MULTIEQUAL_-1205969427'), (u'INT_ADD_-1205988888', u'INT_MULT_-1205988219'), (u'STORE_-1205972840', u'INDIRECT_-1205970555'), (u'INT_XOR_-1205980177', u'INT_AND_-1205980130'), (u'INT_RIGHT_-1205977126', u'INT_OR_-1205977125'), (u'CALL_-1205973395', u'INDIRECT_-1205969982'), (u'INT_OR_-1205987284', u'INT_ADD_-1205987287'), ('const-2048', u'INT_MULT_-1205986121'), (u'INT_OR_-1205975220', u'INT_XOR_-1205975202'), ('const-1024', u'INT_MULT_-1205988518'), (u'INT_OR_-1205989397', u'INT_ADD_-1205989400'), (u'INDIRECT_-1205970096', u'MULTIEQUAL_-1205970046'), (u'INT_OR_-1205978537', u'INT_XOR_-1205978488'), (u'STORE_-1205973627', u'INDIRECT_-1205970420'), ('tmp_34091', u'CBRANCH_-1205974502'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976834'), (u'INT_OR_-1205993071', u'INT_NEGATE_-1205993060'), (u'INT_OR_-1205974880', u'INT_ADD_-1205974592'), (u'INT_RIGHT_-1205973465', u'MULTIEQUAL_-1205972214'), (u'INT_MULT_-1205977905', u'INT_OR_-1205977908'), (u'INT_ADD_-1205988001', u'INT_MULT_-1205987641'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205979739'), ('const-417', u'STORE_-1205972757'), (u'STORE_-1205974532', u'INDIRECT_-1205970543'), (u'STORE_-1205974152', u'INDIRECT_-1205971615'), (u'STORE_-1205973597', u'INDIRECT_-1205971234'), (u'INDIRECT_-1205971153', u'MULTIEQUAL_-1205971104'), (u'STORE_-1205974544', u'INDIRECT_-1205971105'), (u'STORE_-1205972649', u'INDIRECT_-1205970995'), (u'INT_OR_-1205976893', u'INT_ADD_-1205976159'), (u'INDIRECT_-1205969113', u'MULTIEQUAL_-1205968794'), (u'STORE_-1205972662', u'INDIRECT_-1205970361'), ('const-1548603684', u'INT_ADD_-1205987911'), (u'INT_MULT_-1205983890', u'INT_OR_-1205983893'), (u'CALL_-1205973026', u'INDIRECT_-1205968399'), (u'INT_OR_-1205987982', u'INT_ADD_-1205987449'), ('const-1024', u'INT_MULT_-1205986297'), ('const-32768', u'INT_MULT_-1205977514'), (u'INT_ADD_-1205982364', u'INT_XOR_-1205981983'), (u'STORE_-1205972757', u'INDIRECT_-1205970411'), (u'INT_ADD_-1205981556', u'INT_ADD_-1205981546'), (u'STORE_-1205972713', u'INDIRECT_-1205969832'), ('const-1024', u'INT_MULT_-1205979333'), ('const-1024', u'INT_MULT_-1205977370'), (u'INDIRECT_-1205970908', u'LOAD_-1205974405'), (u'INT_OR_-1205986581', u'INT_ADD_-1205986100'), (u'INT_ADD_-1205993189', u'CAST_-1205975000'), ('const-64', u'INT_MULT_-1205986728'), (u'INT_ADD_-1205976357', u'INT_MULT_-1205976319'), (u'INDIRECT_-1205975443', u'INT_ADD_-1205987365'), (u'INT_RIGHT_-1205984586', u'INT_OR_-1205984585'), (u'INT_OR_-1205980226', u'INT_XOR_-1205980115'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205986497'), (u'CAST_-1205974971', u'LOAD_-1205993137'), (u'MULTIEQUAL_-1205971535', u'MULTIEQUAL_-1205971444'), ('const-21', u'INT_RIGHT_-1205985103'), (u'INT_OR_-1205991696', u'INT_ADD_-1205991443'), ('const-1024', u'INT_MULT_-1205986804'), (u'INT_ADD_-1205973431', u'CAST_-1205967886'), (u'INT_ADD_-1205977640', u'INT_RIGHT_-1205977622'), (u'STORE_-1205973583', u'INDIRECT_-1205970304'), (u'STORE_-1205974682', u'INDIRECT_-1205971551'), (u'INT_ADD_-1205988169', u'INT_ADD_-1205988033'), (u'INT_NEGATE_-1205977310', u'INT_OR_-1205977163'), (u'MULTIEQUAL_-1205970983', u'MULTIEQUAL_-1205970883'), (u'STORE_-1205972530', u'INDIRECT_-1205970804'), (u'INT_ADD_-1205993121', u'CAST_-1205974971'), (u'CALL_-1205974449', u'INDIRECT_-1205971184'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969292'), (u'STORE_-1205974550', u'INDIRECT_-1205971018'), ('const-1', u'PTRADD_-1205973679'), (u'INT_ADD_-1205986127', u'INT_NEGATE_-1205985873'), (u'INT_ADD_-1205981326', u'INT_XOR_-1205980852'), (u'INT_ADD_-1205990361', u'INT_MULT_-1205990209'), (u'INDIRECT_-1205971552', u'MULTIEQUAL_-1205971044'), (u'INT_ADD_-1205991623', u'INT_RIGHT_-1205991605'), (u'INDIRECT_-1205969483', u'MULTIEQUAL_-1205969879'), (u'INT_ADD_-1205985342', u'INT_OR_-1205985273'), (u'INDIRECT_-1205968346', u'MULTIEQUAL_-1205968817'), ('const-0', u'STORE_-1205972552'), (u'INDIRECT_-1205969950', u'MULTIEQUAL_-1205969879'), ('const-417', u'STORE_-1205973590'), (u'INT_ADD_-1205974969', u'INT_MULT_-1205974941'), ('const-1024', u'INT_MULT_-1205983597'), ('const-512', u'INT_MULT_-1205980630'), (u'STORE_-1205974670', u'INDIRECT_-1205969885'), (u'INT_OR_-1205988859', u'INT_ADD_-1205988862'), (u'STORE_-1205973604', u'INDIRECT_-1205971515'), (u'STORE_-1205974532', u'INDIRECT_-1205971647'), (u'INT_OR_-1205989585', u'INT_ADD_-1205989018'), (u'INT_ADD_-1205990313', u'INT_XOR_-1205990184'), (u'INT_OR_-1205986232', u'INT_ADD_-1205985647'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205987197'), (u'INT_ADD_-1205990003', u'INT_RIGHT_-1205989811'), (u'INDIRECT_-1205968994', u'MULTIEQUAL_-1205968370'), (u'INT_ADD_-1205977818', u'INT_ADD_-1205977808'), (u'INT_ADD_-1205989064', u'INT_MULT_-1205988704'), ('const-22', u'INT_RIGHT_-1205983142'), (u'CALL_-1205973026', u'INDIRECT_-1205969836'), (u'INT_OR_-1205989239', u'INT_XOR_-1205989195'), (u'INT_MULT_-1205992772', u'INT_OR_-1205992775'), (u'INT_XOR_-1205989948', u'INT_ADD_-1205989927'), (u'CALL_-1205972510', u'INDIRECT_-1205968618'), (u'INT_ADD_-1205992804', u'INT_MULT_-1205992772'), (u'STORE_-1205974159', u'INDIRECT_-1205970700'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992360'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970488'), (u'STORE_-1205974550', u'INDIRECT_-1205971662'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205975259'), (u'CALL_-1205973319', u'INDIRECT_-1205971237'), (u'INT_OR_-1205991530', u'INT_ADD_-1205991353'), (u'INT_XOR_-1205976242', u'INT_ADD_-1205976237'), (u'INT_ADD_-1205982994', u'INT_RIGHT_-1205982956'), (u'INT_ADD_-1205977340', u'INT_XOR_-1205977283'), (u'MULTIEQUAL_-1205968722', u'COPY_-1205968857'), (u'STORE_-1205972666', u'INDIRECT_-1205970400'), (u'STORE_-1205973811', u'INDIRECT_-1205970583'), (u'INT_ADD_-1205989652', u'INT_MULT_-1205989544'), (u'STORE_-1205973811', u'INDIRECT_-1205970031'), (u'STORE_-1205972768', u'INDIRECT_-1205968856'), (u'INT_ADD_-1205983339', u'INT_NEGATE_-1205982980'), (u'SUBPIECE_-1205973475', u'STORE_-1205973534'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205968557'), ('const-32768', u'INT_MULT_-1205989058'), (u'INT_AND_-1205981844', u'INT_XOR_-1205981825'), (u'INT_OR_-1205978315', u'INT_ADD_-1205977859'), (u'STORE_-1205974682', u'INDIRECT_-1205970999'), (u'INT_OR_-1205975328', u'INT_XOR_-1205975316'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970515'), (u'INT_XOR_-1205975638', u'INT_XOR_-1205975618'), (u'STORE_-1205973555', u'INDIRECT_-1205970378'), (u'STORE_-1205973555', u'INDIRECT_-1205970194'), (u'STORE_-1205974550', u'INDIRECT_-1205970650'), (u'INT_ADD_-1205974535', u'CAST_-1205968296'), (u'INT_ADD_-1205987793', u'INT_MULT_-1205987761'), (u'INT_XOR_-1205989195', u'INT_AND_-1205989168'), (u'INT_ADD_-1205987365', u'INT_ADD_-1205987339'), (u'STORE_-1205972840', u'INDIRECT_-1205971291'), (u'STORE_-1205973627', u'INDIRECT_-1205970236'), (u'INT_ADD_-1205977959', u'INT_ADD_-1205977891'), (u'STORE_-1205972637', u'INDIRECT_-1205968777'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205992030'), (u'INT_RIGHT_-1205989208', u'INT_OR_-1205989207'), (u'INT_ADD_-1205987339', u'INT_ADD_-1205987319'), (u'INDIRECT_-1205971184', u'MULTIEQUAL_-1205970676'), ('const-32', u'INT_MULT_-1205975803'), (u'INT_MULT_-1205974227', u'INT_CARRY_-1205974227'), (u'INT_MULT_-1205974227', u'INT_ADD_-1205974227'), (u'INDIRECT_-1205968991', u'MULTIEQUAL_-1205968875'), (u'INDIRECT_-1205970944', u'COPY_-1205971000'), (u'CALL_-1205972582', u'INDIRECT_-1205968459'), (u'INDIRECT_-1205970863', u'MULTIEQUAL_-1205971259'), (u'STORE_-1205973787', u'INDIRECT_-1205970666'), (u'INT_OR_-1205978315', u'INT_XOR_-1205978214'), (u'INDIRECT_-1205970450', u'MULTIEQUAL_-1205970439'), ('const-1024', u'INT_MULT_-1205981744'), (u'INT_OR_-1205988457', u'INT_ADD_-1205987881'), (u'INDIRECT_-1205970208', u'COPY_-1205970264'), ('const-1024', u'INT_MULT_-1205978312'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205988356'), (u'INT_OR_-1205984701', u'INT_ADD_-1205984704'), (u'STORE_-1205974129', u'INDIRECT_-1205971054'), ('const-16384', u'INT_MULT_-1205975725'), (u'STORE_-1205973811', u'INDIRECT_-1205969939'), (u'INT_RIGHT_-1205991579', u'INT_OR_-1205991578'), ('const-17', u'INT_RIGHT_-1205981644'), (u'INT_ADD_-1205980192', u'INT_RIGHT_-1205979518'), (u'INT_ADD_-1205977128', u'INT_XOR_-1205977077'), (u'INT_MULT_-1205976926', u'INT_OR_-1205976929'), (u'INT_MULT_-1205976890', u'INT_OR_-1205976893'), (u'INDIRECT_-1205969899', u'MULTIEQUAL_-1205968163'), (u'STORE_-1205972571', u'INDIRECT_-1205970036'), (u'INDIRECT_-1205969359', u'MULTIEQUAL_-1205969272'), (u'STORE_-1205973534', u'INDIRECT_-1205970553'), (u'STORE_-1205972608', u'INDIRECT_-1205969919'), (u'INDIRECT_-1205969096', u'MULTIEQUAL_-1205968777'), (u'INT_RIGHT_-1205988828', u'INT_OR_-1205988827'), (u'CAST_-1205967756', u'INT_ADD_-1205972768'), (u'STORE_-1205972552', u'INDIRECT_-1205970353'), (u'STORE_-1205972782', u'INDIRECT_-1205971178'), (u'INT_ADD_-1205978123', u'INT_ADD_-1205978103'), (u'STORE_-1205972782', u'INDIRECT_-1205970994'), (u'INT_ADD_-1205991607', u'INT_XOR_-1205990684'), (u'INT_ADD_-1205973829', u'MULTIEQUAL_-1205972458'), (u'COPY_-1205967706', u'INT_ADD_-1205972662'), (u'STORE_-1205972666', u'INDIRECT_-1205969112'), (u'INDIRECT_-1205969246', u'MULTIEQUAL_-1205969151'), (u'INT_ADD_-1205974207', u'INT_NOTEQUAL_-1205972909'), (u'STORE_-1205972713', u'INDIRECT_-1205970844'), (u'CALL_-1205974449', u'INDIRECT_-1205971644'), (u'INT_OR_-1205982329', u'INT_ADD_-1205982332'), (u'INT_MULT_-1205986578', u'INT_OR_-1205986581'), (u'STORE_-1205974532', u'INDIRECT_-1205970267'), ('const-128', u'INT_MULT_-1205982588'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205988279'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972430'), (u'CALL_-1205973319', u'INDIRECT_-1205968757'), ('const-24', u'INT_RIGHT_-1205968038'), (u'INT_ADD_-1205990829', u'INT_MULT_-1205990791'), (u'INT_ADD_-1205988310', u'INT_AND_-1205988079'), (u'INT_ADD_-1205978483', u'INT_ADD_-1205978463'), ('const-1024', u'INT_MULT_-1205990901'), (u'MULTIEQUAL_-1205968171', u'MULTIEQUAL_-1205970580'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981567'), (u'INT_ADD_-1205978669', u'INT_ADD_-1205978649'), (u'INT_ADD_-1205990885', u'INT_RIGHT_-1205990743'), (u'INT_OR_-1205981579', u'INT_ADD_-1205981326'), (u'INT_ADD_-1205984400', u'INT_ADD_-1205984390'), (u'INT_RIGHT_-1205992564', u'INT_OR_-1205992563'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971132'), (u'INT_ADD_-1205987287', u'INT_NEGATE_-1205986530'), (u'INT_OR_-1205981291', u'INT_ADD_-1205980804'), ('const-22', u'INT_RIGHT_-1205975969'), (u'STORE_-1205973695', u'INDIRECT_-1205970543'), (u'INT_ADD_-1205988888', u'INT_XOR_-1205988284'), (u'STORE_-1205972608', u'INDIRECT_-1205970747'), (u'STORE_-1205972840', u'INDIRECT_-1205970187'), (u'STORE_-1205973590', u'INDIRECT_-1205970769'), (u'COPY_-1205968320', u'MULTIEQUAL_-1205968896'), (u'INDIRECT_-1205968280', u'MULTIEQUAL_-1205968268'), (u'STORE_-1205973576', u'INDIRECT_-1205970391'), (u'STORE_-1205972724', u'INDIRECT_-1205969409'), ('const-22', u'INT_RIGHT_-1205975933'), (u'INT_OR_-1205988250', u'INT_ADD_-1205988253'), (u'INT_OR_-1205979639', u'INT_ADD_-1205978963'), (u'INT_ADD_-1205980804', u'INT_RIGHT_-1205980164'), (u'INDIRECT_-1205969765', u'MULTIEQUAL_-1205969705'), (u'STORE_-1205973811', u'INDIRECT_-1205971227'), (u'CALL_-1205972994', u'INDIRECT_-1205970371'), ('const-22', u'INT_RIGHT_-1205989697'), (u'CAST_-1205967777', u'STORE_-1205972840'), (u'INDIRECT_-1205970215', u'MULTIEQUAL_-1205970165'), (u'INT_RIGHT_-1205977482', u'INT_OR_-1205977481'), (u'INT_MULT_-1205983333', u'INT_OR_-1205983336'), (u'INT_OR_-1205991922', u'INT_ADD_-1205991925'), (u'INT_XOR_-1205989519', u'INT_AND_-1205989492'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969660'), (u'INT_ADD_-1205986967', u'INT_MULT_-1205986701'), (u'STORE_-1205974129', u'INDIRECT_-1205970594'), (u'INT_OR_-1205978625', u'INT_ADD_-1205978360'), (u'CALL_-1205972582', u'INDIRECT_-1205968476'), (u'INT_ADD_-1205992964', u'INT_RIGHT_-1205992936'), (u'INT_ADD_-1205991197', u'INT_XOR_-1205991104'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205992556'), (u'STORE_-1205973634', u'INDIRECT_-1205969965'), (u'INDIRECT_-1205968519', u'MULTIEQUAL_-1205968493'), (u'INT_ADD_-1205992870', u'INT_RIGHT_-1205992832'), (u'INT_OR_-1205977751', u'INT_NEGATE_-1205977724'), (u'INT_OR_-1205984893', u'INT_ADD_-1205984368'), (u'CALL_-1205973395', u'INDIRECT_-1205969154'), (u'INDIRECT_-1205970534', u'MULTIEQUAL_-1205970439'), (u'STORE_-1205972789', u'INDIRECT_-1205969057'), ('const-417', u'LOAD_-1205992173'), (u'INDIRECT_-1205970049', u'MULTIEQUAL_-1205970000'), (u'SUBPIECE_-1205968394', u'CAST_-1205967662'), ('const-19', u'INT_RIGHT_-1205986098'), ('const-1024', u'INT_MULT_-1205981424'), (u'STORE_-1205972729', u'INDIRECT_-1205970489'), (u'INT_ADD_-1205979371', u'INT_XOR_-1205979266'), (u'INDIRECT_-1205970124', u'MULTIEQUAL_-1205970071'), (u'CALL_-1205972510', u'INDIRECT_-1205969759'), ('const-26', u'INT_RIGHT_-1205984514'), (u'INT_ADD_-1205984516', u'INT_RIGHT_-1205983601'), (u'INT_ADD_-1205984222', u'INT_OR_-1205983815'), (u'STORE_-1205973763', u'INDIRECT_-1205969369'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969779'), (u'STORE_-1205973452', u'INDIRECT_-1205970156'), (u'CALL_-1205972510', u'INDIRECT_-1205968482'), (u'INT_ADD_-1205988576', u'INT_MULT_-1205987979'), (u'STORE_-1205972662', u'INDIRECT_-1205970085'), (u'STORE_-1205973597', u'INDIRECT_-1205970498'), (u'INT_MULT_-1205986804', u'INT_OR_-1205986807'), (u'INT_RIGHT_-1205992616', u'INT_OR_-1205992615'), (u'INT_OR_-1205987236', u'INT_AND_-1205987181'), (u'MULTIEQUAL_-1205969916', u'CALL_-1205972973'), (u'CALL_-1205972994', u'INDIRECT_-1205970279'), (u'CALL_-1205972994', u'INDIRECT_-1205968569'), ('const-0', u'SUBPIECE_-1205971999'), (u'INT_AND_-1205981236', u'INT_XOR_-1205981211'), (u'INT_ADD_-1205990199', u'INT_MULT_-1205990029'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974523'), (u'INT_ADD_-1205986999', u'INT_RIGHT_-1205986965'), (u'INT_ADD_-1205988652', u'INT_MULT_-1205988131'), (u'INT_NEGATE_-1205977140', u'INT_OR_-1205977003'), (u'INT_ADD_-1205983655', u'INT_ADD_-1205983645'), (u'INT_ADD_-1205977216', u'INT_MULT_-1205977174'), (u'INT_ADD_-1205992210', u'INT_OR_-1205991978'), (u'INT_XOR_-1205978031', u'INT_ADD_-1205978010'), (u'MULTIEQUAL_-1205972061', u'STORE_-1205972664'), (u'INT_MULT_-1205982102', u'INT_OR_-1205982105'), (u'INDIRECT_-1205970789', u'MULTIEQUAL_-1205970715'), (u'INT_ADD_-1205979903', u'INT_ADD_-1205979871'), ('const-1024', u'INT_MULT_-1205989931'), (u'INT_OR_-1205977177', u'INT_ADD_-1205976844'), (u'STORE_-1205973739', u'INDIRECT_-1205970096'), (u'MULTIEQUAL_-1205971639', u'INT_ADD_-1205973829'), (u'LOAD_-1205974338', u'INT_NOTEQUAL_-1205972842'), (u'INDIRECT_-1205969829', u'MULTIEQUAL_-1205969779'), (u'INT_NEGATE_-1205985815', u'INT_OR_-1205985488'), (u'INDIRECT_-1205970041', u'MULTIEQUAL_-1205969981'), (u'INT_ADD_-1205972538', u'CAST_-1205967661'), (u'INT_MULT_-1205989110', u'INT_OR_-1205989113'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969236'), ('const-417', u'STORE_-1205973583'), (u'INT_ADD_-1205986007', u'INT_MULT_-1205985320'), (u'STORE_-1205973835', u'INDIRECT_-1205970868'), (u'COPY_-1205974435', u'MULTIEQUAL_-1205968693'), ('const-22', u'INT_RIGHT_-1205981748'), ('const-22', u'INT_RIGHT_-1205975517'), (u'INT_OR_-1205990032', u'INT_ADD_-1205989777'), (u'INDIRECT_-1205968722', u'MULTIEQUAL_-1205968710'), (u'INDIRECT_-1205968722', u'MULTIEQUAL_-1205968710'), (u'INDIRECT_-1205969181', u'MULTIEQUAL_-1205968540'), (u'INT_ADD_-1205978530', u'INT_MULT_-1205978497'), (u'INT_OR_-1205985440', u'INT_ADD_-1205985443'), (u'INT_OR_-1205985608', u'INT_ADD_-1205985204'), ('const-0', u'SUBPIECE_-1205973358'), (u'INDIRECT_-1205969928', u'MULTIEQUAL_-1205969841'), (u'INT_ADD_-1205972557', u'CAST_-1205967408'), (u'STORE_-1205974526', u'INDIRECT_-1205971274'), (u'INT_MULT_-1205977024', u'INT_OR_-1205977027'), (u'INDIRECT_-1205969056', u'MULTIEQUAL_-1205969045'), ('const-19', u'INT_RIGHT_-1205984921'), ('const-71', u'INT_ADD_-1205973438'), (u'STORE_-1205973590', u'INDIRECT_-1205969757'), (u'INT_OR_-1205990982', u'INT_XOR_-1205990948'), (u'CALL_-1205973395', u'INDIRECT_-1205968875'), (u'INT_MULT_-1205989582', u'INT_OR_-1205989585'), (u'INT_ADD_-1205983745', u'INT_ADD_-1205983735'), (u'INDIRECT_-1205970561', u'MULTIEQUAL_-1205970470'), (u'CAST_-1205967573', u'CBRANCH_-1205972969'), (u'INT_RIGHT_-1205980164', u'INT_OR_-1205980163'), (u'INT_OR_-1205978315', u'INT_XOR_-1205978303'), (u'CALL_-1205973395', u'INDIRECT_-1205968926'), (u'STORE_-1205973590', u'INDIRECT_-1205970033'), (u'INT_MULT_-1205975965', u'INT_OR_-1205975968'), ('const-1859775393', u'INT_ADD_-1205984278'), (u'INT_OR_-1205980226', u'INT_ADD_-1205979709'), (u'STORE_-1205973835', u'INDIRECT_-1205971328'), (u'INT_ADD_-1205983223', u'INT_ADD_-1205983213'), (u'CALL_-1205973026', u'INDIRECT_-1205968467'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968168'), (u'CALL_-1205972510', u'INDIRECT_-1205968567'), (u'STORE_-1205974538', u'INDIRECT_-1205971284'), (u'MULTIEQUAL_-1205969879', u'MULTIEQUAL_-1205969806'), (u'STORE_-1205972552', u'INDIRECT_-1205971089'), (u'INDIRECT_-1205969840', u'COPY_-1205969896'), (u'STORE_-1205972666', u'INDIRECT_-1205969940'), (u'CALL_-1205972510', u'INDIRECT_-1205968652'), (u'INDIRECT_-1205969313', u'MULTIEQUAL_-1205969264'), (u'INT_ADD_-1205992870', u'INT_MULT_-1205992828'), (u'STORE_-1205973534', u'INDIRECT_-1205969265'), (u'INT_ADD_-1205984886', u'INT_ADD_-1205984876'), (u'INT_ADD_-1205986610', u'INT_XOR_-1205986408'), (u'LOAD_-1205993258', u'INT_LEFT_-1205993161'), (u'CAST_-1205974621', u'LOAD_-1205992219'), (u'INT_OR_-1205989061', u'INT_ADD_-1205989064'), (u'INT_ADD_-1205991581', u'INT_MULT_-1205991385'), (u'INDIRECT_-1205969819', u'MULTIEQUAL_-1205969703'), ('const-1024', u'INT_MULT_-1205992534'), (u'INT_OR_-1205988108', u'INT_ADD_-1205988111'), (u'INT_ADD_-1205990771', u'INT_ADD_-1205990735'), (u'SUBPIECE_-1205968394', u'CAST_-1205967893'), (u'INDIRECT_-1205971736', u'MULTIEQUAL_-1205971020'), ('const-256', u'INT_MULT_-1205975071'), (u'INT_NEGATE_-1205981964', u'INT_OR_-1205981109'), (u'INT_ADD_-1205990139', u'INT_RIGHT_-1205990121'), (u'INT_ADD_-1205981462', u'INT_XOR_-1205981279'), (u'INDIRECT_-1205978065', u'MULTIEQUAL_-1205977991'), (u'INDIRECT_-1205970501', u'MULTIEQUAL_-1205970441'), (u'STORE_-1205973438', u'INDIRECT_-1205969686'), (u'CALL_-1205973319', u'INDIRECT_-1205968927'), ('const-128', u'INT_MULT_-1205989394'), (u'COPY_-1205975193', u'LOAD_-1205974647'), (u'CALL_-1205972973', u'INDIRECT_-1205970446'), (u'INT_MULT_-1205981288', u'INT_OR_-1205981291'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205988199'), (u'INT_MULT_-1205982326', u'INT_OR_-1205982329'), ('const-4096', u'INT_MULT_-1205978497'), (u'INT_ADD_-1205972826', u'CAST_-1205967777'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970414'), (u'INT_OR_-1205984491', u'INT_ADD_-1205983802'), (u'INT_ADD_-1205976133', u'INT_MULT_-1205976111'), ('tmp_55353', u'MULTIEQUAL_-1205975648'), (u'STORE_-1205972840', u'INDIRECT_-1205968991'), (u'INDIRECT_-1205970372', u'MULTIEQUAL_-1205970322'), (u'INDIRECT_-1205970371', u'MULTIEQUAL_-1205970255'), (u'INT_OR_-1205992161', u'INT_ADD_-1205991607'), (u'STORE_-1205972768', u'INDIRECT_-1205969868'), (u'INT_OR_-1205986452', u'INT_AND_-1205986381'), (u'STORE_-1205973597', u'INDIRECT_-1205971418'), ('tmp_36376', u'CBRANCH_-1205973237'), (u'STORE_-1205974538', u'INDIRECT_-1205970088'), (u'INT_RIGHT_-1205991039', u'INT_OR_-1205991038'), (u'STORE_-1205973787', u'INDIRECT_-1205971402'), (u'SUBPIECE_-1205973393', u'STORE_-1205973452'), (u'INT_ADD_-1205991011', u'INT_ADD_-1205991001'), (u'INDIRECT_-1205968961', u'MULTIEQUAL_-1205968934'), (u'INT_OR_-1205990120', u'INT_ADD_-1205990123'), (u'INT_ADD_-1205979990', u'INT_MULT_-1205979636'), (u'INT_ADD_-1205975457', u'INT_MULT_-1205975413'), (u'INT_OR_-1205979288', u'INT_ADD_-1205977808'), (u'INT_XOR_-1205975618', u'INT_ADD_-1205975597'), (u'STORE_-1205972666', u'INDIRECT_-1205971044'), (u'INT_ADD_-1205990963', u'INT_XOR_-1205990870'), (u'CAST_-1205967667', u'STORE_-1205972561'), (u'CALL_-1205993328', u'INDIRECT_-1205976685'), (u'INT_MULT_-1205982242', u'INT_OR_-1205982245'), (u'INT_OR_-1205990411', u'INT_XOR_-1205990387'), (u'CALL_-1205973395', u'INDIRECT_-1205968569'), (u'INT_ADD_-1205985779', u'INT_MULT_-1205985715'), (u'INT_ADD_-1205975477', u'INT_ADD_-1205975457'), (u'INT_MULT_-1205992478', u'INT_OR_-1205992481'), (u'STORE_-1205973661', u'INDIRECT_-1205971538'), ('const-32768', u'INT_MULT_-1205985198'), (u'INT_OR_-1205982725', u'INT_XOR_-1205982621'), (u'PTRADD_-1205967995', u'MULTIEQUAL_-1205972233'), (u'INT_ADD_-1205982124', u'INT_OR_-1205981109'), (u'INDIRECT_-1205968875', u'MULTIEQUAL_-1205968857'), (u'STORE_-1205974532', u'INDIRECT_-1205969899'), (u'INT_OR_-1205979054', u'INT_ADD_-1205977520'), (u'STORE_-1205973424', u'INDIRECT_-1205969124'), (u'INT_ADD_-1205992226', u'INT_RIGHT_-1205992208'), (u'CALL_-1205973319', u'INDIRECT_-1205968672'), ('const-1024', u'INT_MULT_-1205993068'), (u'STORE_-1205973739', u'INDIRECT_-1205969360'), (u'MULTIEQUAL_-1205968184', u'MULTIEQUAL_-1205972402'), (u'INT_ADD_-1205983918', u'INT_NEGATE_-1205983631'), (u'INDIRECT_-1205968999', u'MULTIEQUAL_-1205968967'), (u'STORE_-1205973410', u'INDIRECT_-1205971138'), ('const-22', u'INT_RIGHT_-1205990905'), (u'STORE_-1205972670', u'INDIRECT_-1205968987'), (u'STORE_-1205973661', u'INDIRECT_-1205970526'), (u'INT_RIGHT_-1205979988', u'INT_OR_-1205979987'), (u'INT_ADD_-1205988434', u'INT_ADD_-1205988376'), (u'INT_EQUAL_-1205974061', u'CBRANCH_-1205974032'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205975311'), (u'INT_ADD_-1205991783', u'INT_XOR_-1205991648'), (u'STORE_-1205972530', u'INDIRECT_-1205969056'), (u'INT_ADD_-1205976067', u'INT_RIGHT_-1205976033'), (u'INDIRECT_-1205969451', u'MULTIEQUAL_-1205969364'), (u'INDIRECT_-1205969182', u'MULTIEQUAL_-1205969138'), (u'STORE_-1205973811', u'INDIRECT_-1205971135'), (u'CALL_-1205973026', u'INDIRECT_-1205968365'), (u'INDIRECT_-1205969267', u'MULTIEQUAL_-1205969180'), (u'STORE_-1205972729', u'INDIRECT_-1205970949'), (u'INT_ADD_-1205986497', u'INT_ADD_-1205986477'), (u'CALL_-1205973319', u'INDIRECT_-1205968808'), (u'INT_MULT_-1205979387', u'INT_OR_-1205979390'), (u'INT_MULT_-1205978081', u'INT_OR_-1205978084'), (u'INT_OR_-1205987236', u'INT_ADD_-1205986873'), (u'CALL_-1205972973', u'CAST_-1205967578'), (u'INT_ADD_-1205979444', u'INT_ADD_-1205979414'), (u'INT_LESS_-1205974111', u'CBRANCH_-1205974120'), (u'INDIRECT_-1205969255', u'MULTIEQUAL_-1205968156'), (u'INDIRECT_-1205970563', u'MULTIEQUAL_-1205970531'), (u'INT_ADD_-1205975165', u'INT_XOR_-1205975014'), (u'STORE_-1205972662', u'INDIRECT_-1205970545'), (u'STORE_-1205972735', u'INDIRECT_-1205968930'), (u'INT_RIGHT_-1205989366', u'INT_OR_-1205989365'), (u'INT_OR_-1205983063', u'INT_XOR_-1205983009'), (u'MULTIEQUAL_-1205970615', u'MULTIEQUAL_-1205970533'), (u'INT_RIGHT_-1205983078', u'INT_OR_-1205983077'), (u'INT_OR_-1205979012', u'INT_ADD_-1205979015'), (u'INT_MULT_-1205978394', u'INT_OR_-1205978397'), ('const-1024', u'INT_MULT_-1205988131'), (u'INT_MULT_-1205980630', u'INT_OR_-1205980633'), (u'CALL_-1205974449', u'INDIRECT_-1205969198'), (u'INT_ADD_-1205991941', u'INT_MULT_-1205991919'), (u'STORE_-1205974532', u'INDIRECT_-1205970819'), ('const-16384', u'INT_MULT_-1205981792'), (u'INDIRECT_-1205971279', u'MULTIEQUAL_-1205968178'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970392'), (u'INT_XOR_-1205993033', u'INT_ADD_-1205992980'), (u'STORE_-1205972666', u'INDIRECT_-1205968928'), (u'STORE_-1205972649', u'INDIRECT_-1205970259'), (u'INDIRECT_-1205970906', u'COPY_-1205970963'), (u'STORE_-1205972552', u'INDIRECT_-1205969893'), (u'MULTIEQUAL_-1205971044', u'COPY_-1205971158'), (u'STORE_-1205972670', u'INDIRECT_-1205969263'), (u'CALL_-1205973395', u'INDIRECT_-1205968858'), (u'INDIRECT_-1205968671', u'MULTIEQUAL_-1205968653'), (u'INDIRECT_-1205969576', u'MULTIEQUAL_-1205969550'), (u'MULTIEQUAL_-1205970378', u'COPY_-1205970513'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205977588'), (u'INDIRECT_-1205971199', u'MULTIEQUAL_-1205971083'), (u'INDIRECT_-1205971249', u'MULTIEQUAL_-1205971175'), (u'INDIRECT_-1205977881', u'MULTIEQUAL_-1205977807'), (u'INT_ADD_-1205974556', u'COPY_-1205968338'), (u'INDIRECT_-1205969398', u'MULTIEQUAL_-1205969138'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968286'), (u'INT_OR_-1205978603', u'INT_ADD_-1205978606'), (u'INT_OR_-1205988759', u'INT_ADD_-1205988253'), ('const-22', u'INT_RIGHT_-1205982058'), ('const-22', u'INT_RIGHT_-1205975673'), ('const-22', u'INT_RIGHT_-1205980770'), (u'INT_XOR_-1205975716', u'INT_XOR_-1205975696'), (u'INT_ADD_-1205982166', u'INT_RIGHT_-1205982122'), (u'CALL_-1205973026', u'INDIRECT_-1205968654'), (u'INDIRECT_-1205968910', u'MULTIEQUAL_-1205968884'), ('const-22', u'INT_RIGHT_-1205984178'), (u'INT_ADD_-1205984552', u'INT_ADD_-1205984532'), ('const-417', u'LOAD_-1205974338'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968151'), (u'STORE_-1205973634', u'INDIRECT_-1205969321'), (u'STORE_-1205973604', u'INDIRECT_-1205969675'), (u'SUBPIECE_-1205973386', u'STORE_-1205973445'), ('const-22', u'INT_RIGHT_-1205984993'), (u'INT_MULT_-1205984054', u'INT_OR_-1205984057'), (u'INDIRECT_-1205970193', u'MULTIEQUAL_-1205970102'), (u'INT_OR_-1205989680', u'INT_ADD_-1205989683'), (u'INT_ADD_-1205984562', u'INT_ADD_-1205984552'), (u'COPY_-1205973277', u'MULTIEQUAL_-1205972302'), (u'INT_RIGHT_-1205984514', u'INT_OR_-1205984513'), (u'CAST_-1205968107', u'PTRADD_-1205973799'), (u'MULTIEQUAL_-1205968783', u'MULTIEQUAL_-1205968590'), (u'INDIRECT_-1205969045', u'MULTIEQUAL_-1205968404'), (u'INT_OR_-1205978434', u'INT_XOR_-1205978385'), (u'STORE_-1205973410', u'INDIRECT_-1205970862'), (u'INT_RIGHT_-1205991563', u'INT_OR_-1205991562'), (u'INT_OR_-1205977373', u'INT_ADD_-1205976974'), (u'INT_OR_-1205990212', u'INT_ADD_-1205989963'), (u'INDIRECT_-1205969213', u'MULTIEQUAL_-1205969153'), (u'CALL_-1205972973', u'INDIRECT_-1205968671'), (u'STORE_-1205973597', u'INDIRECT_-1205970774'), (u'INDIRECT_-1205970961', u'MULTIEQUAL_-1205970901'), (u'STORE_-1205972637', u'INDIRECT_-1205969421'), (u'INT_MULT_-1205976195', u'INT_OR_-1205976198'), ('const-64', u'INT_MULT_-1205977210'), (u'INT_ADD_-1205991925', u'INT_RIGHT_-1205991839'), (u'INT_AND_-1205981378', u'INT_XOR_-1205981363'), ('const-22', u'INT_RIGHT_-1205982246'), (u'INT_XOR_-1205992247', u'INT_ADD_-1205992226'), (u'INT_RIGHT_-1205987101', u'INT_OR_-1205987100'), (u'INT_XOR_-1205975130', u'INT_ADD_-1205975125'), (u'INT_OR_-1205979390', u'INT_ADD_-1205979393'), (u'INT_OR_-1205990000', u'INT_ADD_-1205990003'), (u'INT_MULT_-1205985336', u'INT_OR_-1205985339'), (u'INT_OR_-1205982057', u'INT_AND_-1205982002'), ('const-22', u'INT_RIGHT_-1205991839'), (u'STORE_-1205972713', u'INDIRECT_-1205969556'), (u'INT_ADD_-1205989368', u'INT_XOR_-1205989023'), (u'STORE_-1205972713', u'INDIRECT_-1205970568'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205969936'), (u'INT_RIGHT_-1205976770', u'INT_OR_-1205976769'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987392'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205981252'), ('const-2400959708', u'INT_ADD_-1205981252'), (u'INT_OR_-1205979118', u'INT_ADD_-1205979121'), (u'INT_ADD_-1205992566', u'INT_RIGHT_-1205992538'), (u'INDIRECT_-1205970077', u'MULTIEQUAL_-1205970071'), (u'INT_ADD_-1205990458', u'INT_XOR_-1205990387'), (u'STORE_-1205972561', u'INDIRECT_-1205970542'), (u'MULTIEQUAL_-1205969327', u'MULTIEQUAL_-1205969254'), ('const-1548603684', u'INT_ADD_-1205988434'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205975711'), ('const-4096', u'INT_MULT_-1205981946'), (u'MULTIEQUAL_-1205969419', u'MULTIEQUAL_-1205969319'), ('const-56', u'INT_EQUAL_-1205972574'), ('const-22', u'INT_RIGHT_-1205979837'), (u'STORE_-1205972670', u'INDIRECT_-1205968803'), (u'INDIRECT_-1205971086', u'MULTIEQUAL_-1205970993'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970304'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205982668'), (u'INT_MULT_-1205989042', u'INT_OR_-1205989045'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973516'), (u'INT_RIGHT_-1205977028', u'INT_OR_-1205977027'), (u'STORE_-1205974152', u'INDIRECT_-1205970143'), (u'STORE_-1205972713', u'INDIRECT_-1205970108'), (u'INT_OR_-1205975438', u'INT_ADD_-1205975145'), (u'INDIRECT_-1205969836', u'MULTIEQUAL_-1205969749'), (u'STORE_-1205973787', u'INDIRECT_-1205969562'), (u'STORE_-1205972729', u'INDIRECT_-1205969569'), (u'INT_ADD_-1205976844', u'INT_OR_-1205976506'), (u'CALL_-1205973026', u'INDIRECT_-1205968722'), (u'CALL_-1205972973', u'INDIRECT_-1205969986'), (u'INT_OR_-1205979878', u'INT_ADD_-1205979881'), ('const-23', u'INT_RIGHT_-1205989548'), (u'INT_EQUAL_-1205972574', u'CBRANCH_-1205972553'), (u'INDIRECT_-1205970225', u'MULTIEQUAL_-1205970124'), ('const-1548603684', u'INT_ADD_-1205988694'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205992235'), (u'INT_XOR_-1205978448', u'INT_ADD_-1205978421'), (u'INDIRECT_-1205969396', u'MULTIEQUAL_-1205969346'), (u'INT_OR_-1205991304', u'INT_ADD_-1205991089'), (u'INT_OR_-1205978896', u'INT_XOR_-1205978800'), (u'PTRADD_-1205973551', u'COPY_-1205968045'), (u'INDIRECT_-1205970869', u'MULTIEQUAL_-1205970768'), (u'INDIRECT_-1205968705', u'MULTIEQUAL_-1205968693'), (u'INDIRECT_-1205968705', u'MULTIEQUAL_-1205968693'), ('const-5', u'INT_NOTEQUAL_-1205973909'), (u'INDIRECT_-1205971555', u'MULTIEQUAL_-1205968181'), (u'INT_ADD_-1205991323', u'INT_ADD_-1205991297'), (u'INDIRECT_-1205968825', u'MULTIEQUAL_-1205968840'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205980794'), (u'INT_ADD_-1205986734', u'INT_MULT_-1205986229'), (u'INT_RIGHT_-1205987237', u'INT_OR_-1205987236'), (u'INT_ADD_-1205982994', u'INT_MULT_-1205982952'), (u'STORE_-1205972840', u'INDIRECT_-1205969635'), ('const-22', u'INT_RIGHT_-1205976541'), ('const-1024', u'INT_MULT_-1205978431'), (u'INDIRECT_-1205969451', u'MULTIEQUAL_-1205969335'), (u'INT_ADD_-1205989927', u'INT_MULT_-1205989899'), (u'INT_ADD_-1205979709', u'INT_ADD_-1205979663'), (u'INT_RIGHT_-1205968384', u'SUBPIECE_-1205968393'), (u'INT_ADD_-1205985342', u'INT_MULT_-1205984734'), (u'STORE_-1205972840', u'INDIRECT_-1205969451'), (u'INDIRECT_-1205970371', u'MULTIEQUAL_-1205970284'), (u'INT_ADD_-1205980841', u'INT_MULT_-1205980223'), ('const-20', u'INT_RIGHT_-1205988650'), (u'STORE_-1205972735', u'INDIRECT_-1205970770'), (u'INT_NEGATE_-1205977724', u'INT_OR_-1205977591'), (u'INDIRECT_-1205969898', u'MULTIEQUAL_-1205969887'), (u'STORE_-1205974526', u'INDIRECT_-1205970262'), (u'STORE_-1205974616', u'INDIRECT_-1205970399'), (u'INT_OR_-1205992759', u'INT_ADD_-1205992370'), ('const-1', u'PTRADD_-1205973516'), (u'STORE_-1205973445', u'INDIRECT_-1205969599'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970576'), (u'INDIRECT_-1205968807', u'MULTIEQUAL_-1205968789'), (u'INT_ADD_-1205983339', u'INT_RIGHT_-1205982634'), (u'STORE_-1205974532', u'INDIRECT_-1205970911'), (u'MULTIEQUAL_-1205968184', u'INT_NOTEQUAL_-1205973698'), (u'STORE_-1205973576', u'INDIRECT_-1205969471'), (u'INT_ADD_-1205989400', u'INT_MULT_-1205988824'), (u'INDIRECT_-1205970308', u'MULTIEQUAL_-1205970255'), (u'INDIRECT_-1205978525', u'INT_ADD_-1205992654'), (u'CALL_-1205973395', u'INDIRECT_-1205971454'), ('const-19', u'INT_RIGHT_-1205990961'), (u'STORE_-1205972637', u'INDIRECT_-1205969881'), (u'MULTIEQUAL_-1205969787', u'MULTIEQUAL_-1205969705'), (u'INDIRECT_-1205968943', u'MULTIEQUAL_-1205968624'), (u'INT_RIGHT_-1205985175', u'INT_OR_-1205985174'), ('const-1024', u'INT_MULT_-1205992612'), (u'STORE_-1205972552', u'INDIRECT_-1205968881'), (u'INDIRECT_-1205969452', u'MULTIEQUAL_-1205969402'), (u'INT_MULT_-1205981011', u'INT_OR_-1205981014'), (u'INDIRECT_-1205978157', u'INT_ADD_-1205985167'), (u'CALL_-1205993328', u'INDIRECT_-1205977145'), (u'INDIRECT_-1205969438', u'MULTIEQUAL_-1205969427'), ('const-16384', u'INT_MULT_-1205985437'), (u'INT_OR_-1205982501', u'INT_XOR_-1205982438'), (u'STORE_-1205972655', u'INDIRECT_-1205969712'), (u'INT_ADD_-1205991683', u'INT_XOR_-1205991506'), (u'STORE_-1205974544', u'INDIRECT_-1205971473'), (u'INDIRECT_-1205970686', u'MULTIEQUAL_-1205970426'), (u'INT_ADD_-1205988862', u'INT_RIGHT_-1205988522'), (u'INDIRECT_-1205969366', u'MULTIEQUAL_-1205969322'), (u'STORE_-1205972608', u'INDIRECT_-1205970011'), (u'STORE_-1205972664', u'INDIRECT_-1205970178'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970276'), (u'STORE_-1205972643', u'INDIRECT_-1205970990'), (u'STORE_-1205974550', u'INDIRECT_-1205970742'), (u'INT_RIGHT_-1205968043', u'SUBPIECE_-1205973393'), (u'INDIRECT_-1205968569', u'MULTIEQUAL_-1205968551'), (u'STORE_-1205973634', u'INDIRECT_-1205969689'), (u'INDIRECT_-1205971606', u'MULTIEQUAL_-1205971346'), (u'INT_ADD_-1205988412', u'INT_MULT_-1205987921'), ('const-4', u'PTRADD_-1205967570'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205993189'), (u'INT_ADD_-1205973781', u'MULTIEQUAL_-1205972439'), (u'INT_OR_-1205986704', u'INT_ADD_-1205986325'), (u'INT_OR_-1205983915', u'INT_ADD_-1205983918'), (u'MULTIEQUAL_-1205969140', u'MULTIEQUAL_-1205968947'), (u'STORE_-1205974152', u'INDIRECT_-1205971339'), (u'STORE_-1205973695', u'INDIRECT_-1205970083'), (u'INDIRECT_-1205970448', u'MULTIEQUAL_-1205969940'), ('const-128', u'INT_MULT_-1205988570'), (u'INT_ADD_-1205982936', u'INT_NEGATE_-1205982848'), (u'STORE_-1205972729', u'INDIRECT_-1205970673'), (u'INT_ADD_-1205982108', u'INT_MULT_-1205981744'), ('const-100', u'INT_ADD_-1205993242'), (u'STORE_-1205972782', u'INDIRECT_-1205970626'), (u'INT_OR_-1205975416', u'INT_ADD_-1205975419'), (u'CALL_-1205973319', u'INDIRECT_-1205969305'), (u'INDIRECT_-1205969581', u'MULTIEQUAL_-1205969480'), ('const-8', u'PTRADD_-1205973551'), (u'INT_RIGHT_-1205975235', u'INT_OR_-1205975234'), (u'STORE_-1205972649', u'INDIRECT_-1205969523'), (u'INT_ADD_-1205977216', u'INT_OR_-1205977163'), (u'INDIRECT_-1205969890', u'MULTIEQUAL_-1205969797'), (u'MULTIEQUAL_-1205972402', u'INT_ADD_-1205973655'), (u'INT_OR_-1205982245', u'INT_ADD_-1205980887'), (u'INT_OR_-1205990836', u'INT_ADD_-1205990448'), (u'INT_MULT_-1205982952', u'INT_OR_-1205982955'), (u'INT_MULT_-1205976013', u'INT_OR_-1205976016'), (u'CALL_-1205973026', u'INDIRECT_-1205968348'), ('const-64', u'INT_MULT_-1205986001'), (u'INT_ADD_-1205985753', u'INT_NEGATE_-1205985623'), (u'STORE_-1205973763', u'INDIRECT_-1205970473'), (u'STORE_-1205973410', u'INDIRECT_-1205969390'), (u'STORE_-1205972840', u'INDIRECT_-1205970371'), (u'INT_ADD_-1205983213', u'INT_RIGHT_-1205983184'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205975259'), (u'STORE_-1205974152', u'INDIRECT_-1205969959'), (u'INDIRECT_-1205970768', u'MULTIEQUAL_-1205970715'), (u'STORE_-1205974161', u'INDIRECT_-1205971621'), (u'INDIRECT_-1205969706', u'MULTIEQUAL_-1205969613'), (u'INT_NEGATE_-1205985623', u'INT_OR_-1205985273'), (u'STORE_-1205974676', u'INDIRECT_-1205970258'), (u'INDIRECT_-1205971514', u'MULTIEQUAL_-1205971443'), (u'INT_ADD_-1205981798', u'INT_XOR_-1205981515'), (u'STORE_-1205972666', u'INDIRECT_-1205969848'), (u'CALL_-1205972582', u'INDIRECT_-1205968119'), (u'COPY_-1205968356', u'MULTIEQUAL_-1205968884'), (u'INT_ADD_-1205978795', u'INT_RIGHT_-1205978761'), (u'STORE_-1205973534', u'INDIRECT_-1205970737'), (u'CALL_-1205972973', u'INDIRECT_-1205968603'), (u'INT_MULT_-1205975513', u'INT_OR_-1205975516'), (u'STORE_-1205972571', u'INDIRECT_-1205969576'), (u'INDIRECT_-1205975664', u'INT_ADD_-1205979964'), (u'INT_ADD_-1205975419', u'INT_MULT_-1205975289'), (u'STORE_-1205974670', u'INDIRECT_-1205970529'), (u'INT_ADD_-1205992210', u'INT_MULT_-1205992126'), (u'CALL_-1205973319', u'INDIRECT_-1205968536'), (u'CALL_-1205973319', u'INDIRECT_-1205969489'), (u'INT_ADD_-1205975077', u'INT_XOR_-1205974984'), (u'INT_RIGHT_-1205984702', u'INT_OR_-1205984701'), ('const-1', u'PTRADD_-1205973727'), (u'STORE_-1205973438', u'INDIRECT_-1205970054'), (u'INT_LESS_-1205974299', u'CBRANCH_-1205974307'), (u'INT_MULT_-1205984510', u'INT_OR_-1205984513'), (u'STORE_-1205972735', u'INDIRECT_-1205968746'), (u'INT_OR_-1205991226', u'INT_XOR_-1205991182'), ('const-1024', u'INT_MULT_-1205991559'), (u'STORE_-1205973410', u'INDIRECT_-1205969758'), (u'LOAD_-1205974338', u'INT_ADD_-1205974207'), (u'INT_AND_-1205979458', u'INT_XOR_-1205979419'), ('const-16384', u'INT_MULT_-1205990879'), (u'INDIRECT_-1205976501', u'MULTIEQUAL_-1205976427'), (u'STORE_-1205973627', u'INDIRECT_-1205971432'), (u'INDIRECT_-1205970078', u'COPY_-1205970135'), (u'STORE_-1205973417', u'INDIRECT_-1205970591'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205981860'), (u'INT_OR_-1205983336', u'INT_ADD_-1205983339'), (u'CALL_-1205972582', u'INDIRECT_-1205969089'), (u'STORE_-1205972670', u'INDIRECT_-1205969079'), (u'INDIRECT_-1205968501', u'MULTIEQUAL_-1205968489'), (u'INDIRECT_-1205968501', u'MULTIEQUAL_-1205968489'), (u'STORE_-1205972729', u'INDIRECT_-1205970857'), (u'INDIRECT_-1205968621', u'MULTIEQUAL_-1205968636'), (u'INT_ADD_-1205980794', u'INT_ADD_-1205980610'), (u'CALL_-1205974449', u'INDIRECT_-1205971736'), (u'INT_ADD_-1205974227', u'MULTIEQUAL_-1205972301'), (u'INT_OR_-1205976733', u'INT_NEGATE_-1205976716'), (u'CALL_-1205972973', u'INDIRECT_-1205968433'), (u'INT_ADD_-1205978421', u'INT_RIGHT_-1205978398'), ('const-32', u'INT_MULT_-1205976838'), (u'INT_ADD_-1205979807', u'INT_AND_-1205979713'), (u'INT_NEGATE_-1205985957', u'INT_OR_-1205985802'), (u'INT_OR_-1205992321', u'INT_NEGATE_-1205992310'), (u'INT_MULT_-1205982930', u'INT_OR_-1205982933'), (u'STORE_-1205974526', u'INDIRECT_-1205969802'), (u'INT_XOR_-1205986346', u'INT_ADD_-1205986341'), (u'INT_RIGHT_-1205981057', u'INT_OR_-1205981056'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205980794'), (u'STORE_-1205972666', u'INDIRECT_-1205969664'), (u'INT_ADD_-1205986734', u'INT_XOR_-1205986346'), (u'INT_ADD_-1205976788', u'INT_RIGHT_-1205976770'), ('const-22', u'INT_RIGHT_-1205984894'), ('const-18', u'INT_RIGHT_-1205982778'), ('const-22', u'INT_RIGHT_-1205986582'), (u'CALL_-1205972582', u'INDIRECT_-1205968323'), (u'INT_RIGHT_-1205985340', u'INT_OR_-1205985339'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976533'), (u'INT_ADD_-1205990735', u'INT_MULT_-1205990693'), (u'SUBPIECE_-1205968394', u'CAST_-1205967887'), (u'INT_ADD_-1205993106', u'INT_RIGHT_-1205993088'), (u'STORE_-1205974664', u'INDIRECT_-1205970524'), (u'STORE_-1205973787', u'INDIRECT_-1205970482'), (u'LOAD_-1205974338', u'INT_NOTEQUAL_-1205972610'), (u'STORE_-1205972655', u'INDIRECT_-1205969620'), (u'INDIRECT_-1205971032', u'MULTIEQUAL_-1205970945'), (u'INT_XOR_-1205986904', u'INT_AND_-1205986877'), (u'STORE_-1205974532', u'INDIRECT_-1205970635'), ('const-64', u'INT_MULT_-1205990307'), (u'CALL_-1205973319', u'INDIRECT_-1205968587'), (u'STORE_-1205972637', u'INDIRECT_-1205968961'), (u'STORE_-1205974526', u'INDIRECT_-1205970446'), (u'INT_OR_-1205993224', u'INT_ADD_-1205992824'), ('const-56', u'INT_SUB_-1205974086'), (u'INT_AND_-1205988788', u'INT_XOR_-1205988737'), (u'INDIRECT_-1205971606', u'MULTIEQUAL_-1205971535'), (u'INT_MULT_-1205974715', u'INT_OR_-1205974718'), (u'STORE_-1205972552', u'INDIRECT_-1205970813'), (u'INDIRECT_-1205971458', u'COPY_-1205971515'), (u'STORE_-1205972757', u'INDIRECT_-1205969951'), ('const-256', u'INT_MULT_-1205979365'), (u'INT_ADD_-1205985443', u'INT_RIGHT_-1205984894'), (u'INT_OR_-1205990982', u'INT_ADD_-1205990797'), (u'STORE_-1205974670', u'INDIRECT_-1205971633'), ('const-18', u'PTRADD_-1205967778'), (u'STORE_-1205972724', u'INDIRECT_-1205969593'), (u'CALL_-1205993328', u'INDIRECT_-1205975494'), (u'INT_ADD_-1205982124', u'INT_NEGATE_-1205981035'), ('const-24', u'INT_RIGHT_-1205979369'), (u'INDIRECT_-1205969065', u'MULTIEQUAL_-1205969059'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205975093'), (u'INT_RIGHT_-1205990105', u'INT_OR_-1205990104'), ('const-1548603684', u'INT_ADD_-1205986893'), ('const-20', u'INT_RIGHT_-1205986965'), (u'CALL_-1205974449', u'INDIRECT_-1205971092'), (u'STORE_-1205973431', u'INDIRECT_-1205970141'), (u'INT_ADD_-1205981206', u'INT_MULT_-1205981168'), (u'INT_RIGHT_-1205978745', u'INT_OR_-1205978744'), (u'INT_ADD_-1205975497', u'INT_RIGHT_-1205975329'), (u'STORE_-1205974664', u'INDIRECT_-1205970156'), (u'INT_MULT_-1205987281', u'INT_OR_-1205987284'), (u'INT_ADD_-1205977432', u'INT_RIGHT_-1205977374'), (u'STORE_-1205972662', u'INDIRECT_-1205969349'), (u'INT_OR_-1205988707', u'INT_ADD_-1205988169'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205992050'), (u'INDIRECT_-1205970279', u'MULTIEQUAL_-1205970163'), (u'INDIRECT_-1205970318', u'MULTIEQUAL_-1205970058'), (u'INDIRECT_-1205971199', u'MULTIEQUAL_-1205971112'), (u'STORE_-1205973590', u'INDIRECT_-1205971505'), (u'STORE_-1205973835', u'INDIRECT_-1205971512'), (u'PTRADD_-1205968276', u'CALL_-1205972510'), (u'STORE_-1205972643', u'INDIRECT_-1205970254'), (u'INT_RIGHT_-1205977374', u'INT_OR_-1205977373'), (u'INT_XOR_-1205989033', u'INT_AND_-1205988980'), (u'INT_ADD_-1205988576', u'INT_XOR_-1205988154'), (u'INT_MULT_-1205981456', u'INT_OR_-1205981459'), (u'STORE_-1205972662', u'INDIRECT_-1205969993'), (u'INDIRECT_-1205968756', u'MULTIEQUAL_-1205968738'), (u'STORE_-1205974544', u'INDIRECT_-1205970461'), (u'STORE_-1205972757', u'INDIRECT_-1205969583'), (u'STORE_-1205973695', u'INDIRECT_-1205971279'), (u'INDIRECT_-1205977881', u'INT_ADD_-1205978483'), (u'INT_OR_-1205991838', u'INT_ADD_-1205990402'), (u'INT_RIGHT_-1205980020', u'INT_OR_-1205980019'), (u'INT_AND_-1205986877', u'INT_XOR_-1205986858'), (u'COPY_-1205968332', u'MULTIEQUAL_-1205968625'), (u'STORE_-1205973835', u'INDIRECT_-1205971604'), (u'INT_OR_-1205980801', u'INT_ADD_-1205980804'), (u'INT_ADD_-1205973733', u'MULTIEQUAL_-1205972421'), (u'INT_ADD_-1205976419', u'INT_MULT_-1205976163'), (u'INDIRECT_-1205968960', u'MULTIEQUAL_-1205968336'), (u'INT_ADD_-1205991597', u'INT_MULT_-1205991575'), ('const-20', u'INT_RIGHT_-1205982934'), (u'INDIRECT_-1205970997', u'MULTIEQUAL_-1205970991'), (u'STORE_-1205973534', u'INDIRECT_-1205971105'), (u'STORE_-1205972735', u'INDIRECT_-1205969482'), (u'INT_RIGHT_-1205978290', u'INT_OR_-1205978289'), (u'INDIRECT_-1205971891', u'MULTIEQUAL_-1205971870'), (u'STORE_-1205973583', u'INDIRECT_-1205970120'), (u'INT_ADD_-1205990963', u'INT_XOR_-1205990938'), (u'STORE_-1205973424', u'INDIRECT_-1205969952'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970668'), (u'INT_ADD_-1205992654', u'INT_ADD_-1205992644'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968423'), (u'STORE_-1205974532', u'INDIRECT_-1205970175'), (u'SUBPIECE_-1205968394', u'CAST_-1205967668'), (u'INDIRECT_-1205978157', u'MULTIEQUAL_-1205978083'), (u'INT_OR_-1205991838', u'INT_ADD_-1205990458'), (u'INT_OR_-1205992615', u'INT_ADD_-1205992242'), (u'STORE_-1205974526', u'INDIRECT_-1205971734'), (u'INT_ADD_-1205980636', u'INT_XOR_-1205980151'), (u'INT_ADD_-1205992778', u'INT_OR_-1205992689'), (u'INDIRECT_-1205977973', u'INT_ADD_-1205976217'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205974601'), (u'INDIRECT_-1205969988', u'MULTIEQUAL_-1205969272'), ('const-22', u'INT_RIGHT_-1205978064'), (u'INT_ADD_-1205983166', u'INT_ADD_-1205983004'), (u'STORE_-1205972789', u'INDIRECT_-1205968965'), (u'INT_NEGATE_-1205983631', u'INT_OR_-1205983484'), ('const-1', u'PTRADD_-1205973635'), (u'INT_OR_-1205981427', u'INT_ADD_-1205981174'), (u'INT_RIGHT_-1205986965', u'INT_OR_-1205986964'), (u'INT_ADD_-1205980293', u'INT_XOR_-1205979975'), (u'STORE_-1205972666', u'INDIRECT_-1205970676'), (u'INT_ADD_-1205989210', u'INT_RIGHT_-1205988458'), (u'INT_RIGHT_-1205977925', u'INT_OR_-1205977924'), ('const-512', u'INT_MULT_-1205991113'), (u'INT_NEGATE_-1205983751', u'INT_OR_-1205983586'), (u'LOAD_-1205974338', u'INT_ADD_-1205968321'), (u'INT_OR_-1205990572', u'INT_XOR_-1205990539'), (u'STORE_-1205973627', u'INDIRECT_-1205969592'), (u'INDIRECT_-1205971000', u'MULTIEQUAL_-1205970301'), (u'STORE_-1205973835', u'INDIRECT_-1205970316'), (u'STORE_-1205974676', u'INDIRECT_-1205971638'), (u'STORE_-1205973424', u'INDIRECT_-1205970596'), (u'INDIRECT_-1205970252', u'MULTIEQUAL_-1205970241'), (u'STORE_-1205972724', u'INDIRECT_-1205971249'), (u'INT_OR_-1205977908', u'INT_ADD_-1205977562'), (u'INT_ADD_-1205984720', u'INT_RIGHT_-1205984702'), (u'COPY_-1205967705', u'STORE_-1205972735'), (u'INT_OR_-1205987852', u'INT_XOR_-1205987700'), (u'INDIRECT_-1205971178', u'MULTIEQUAL_-1205971083'), (u'INT_XOR_-1205979694', u'INT_ADD_-1205979663'), ('const-26', u'INT_RIGHT_-1205979119'), (u'INT_ADD_-1205982322', u'INT_ADD_-1205982166'), (u'MULTIEQUAL_-1205970860', u'COPY_-1205970974'), (u'STORE_-1205974676', u'INDIRECT_-1205970166'), (u'INT_OR_-1205976672', u'INT_ADD_-1205976393'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205983832'), ('const-2053994217', u'INT_ADD_-1205978689'), (u'STORE_-1205974152', u'INDIRECT_-1205971523'), (u'INT_ADD_-1205988326', u'INT_MULT_-1205988304'), (u'STORE_-1205973661', u'INDIRECT_-1205971170'), (u'INT_OR_-1205983600', u'INT_ADD_-1205983034'), (u'CAST_-1205967858', u'INT_ADD_-1205973396'), (u'STORE_-1205972571', u'INDIRECT_-1205970220'), ('const-1', u'PTRADD_-1205973751'), ('const-417', u'STORE_-1205972670'), (u'INT_MULT_-1205991385', u'INT_OR_-1205991388'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968421'), (u'STORE_-1205973424', u'INDIRECT_-1205969400'), (u'STORE_-1205973410', u'INDIRECT_-1205971230'), (u'INT_RIGHT_-1205989334', u'INT_OR_-1205989333'), (u'INT_ADD_-1205975145', u'INT_ADD_-1205975125'), (u'INT_AND_-1205989967', u'INT_XOR_-1205989948'), (u'INDIRECT_-1205969365', u'MULTIEQUAL_-1205969274'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970116'), (u'INT_MULT_-1205982748', u'INT_OR_-1205982751'), (u'INT_MULT_-1205986449', u'INT_OR_-1205986452'), (u'CALL_-1205973319', u'INDIRECT_-1205969765'), (u'STORE_-1205972713', u'INDIRECT_-1205969004'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205984106'), (u'INT_ADD_-1205973403', u'CAST_-1205967863'), ('const-22', u'INT_RIGHT_-1205986233'), (u'INT_OR_-1205991466', u'INT_ADD_-1205991245'), (u'INT_ADD_-1205992566', u'INT_OR_-1205992441'), (u'CALL_-1205973319', u'INDIRECT_-1205969673'), (u'INDIRECT_-1205971276', u'MULTIEQUAL_-1205970560'), ('const-61', u'INT_NOTEQUAL_-1205972784'), (u'STORE_-1205973424', u'INDIRECT_-1205969216'), (u'INDIRECT_-1205975613', u'INT_ADD_-1205977738'), (u'STORE_-1205973859', u'INDIRECT_-1205970325'), (u'INT_OR_-1205976448', u'INT_ADD_-1205976117'), (u'INDIRECT_-1205970940', u'MULTIEQUAL_-1205970853'), (u'INT_MULT_-1205989931', u'INT_OR_-1205989934'), (u'STORE_-1205974670', u'INDIRECT_-1205970805'), (u'STORE_-1205973417', u'INDIRECT_-1205970131'), (u'INDIRECT_-1205970299', u'MULTIEQUAL_-1205968168'), (u'STORE_-1205974544', u'INDIRECT_-1205970737'), (u'STORE_-1205973604', u'INDIRECT_-1205971055'), (u'STORE_-1205974152', u'INDIRECT_-1205971431'), (u'STORE_-1205973452', u'INDIRECT_-1205970064'), (u'MULTIEQUAL_-1205970025', u'CALL_-1205972994'), (u'INT_ADD_-1205978334', u'INT_MULT_-1205978286'), (u'INDIRECT_-1205969028', u'MULTIEQUAL_-1205968902'), (u'STORE_-1205973417', u'INDIRECT_-1205969303'), (u'CALL_-1205973026', u'INDIRECT_-1205968603'), (u'INT_ADD_-1205990061', u'INT_ADD_-1205990025'), (u'INT_OR_-1205992689', u'INT_XOR_-1205992629'), (u'INT_MULT_-1205978893', u'INT_OR_-1205978896'), (u'INDIRECT_-1205968448', u'MULTIEQUAL_-1205968919'), (u'STORE_-1205973417', u'INDIRECT_-1205970039'), (u'CAST_-1205967784', u'CBRANCH_-1205973237'), (u'CALL_-1205973395', u'INDIRECT_-1205968246'), (u'INT_MULT_-1205980531', u'INT_OR_-1205980534'), ('tmp_55346', u'MULTIEQUAL_-1205975529'), (u'LOAD_-1205993258', u'INT_XOR_-1205993175'), ('const-1024', u'INT_MULT_-1205978060'), (u'INT_MULT_-1205981744', u'INT_OR_-1205981747'), (u'STORE_-1205973661', u'INDIRECT_-1205969698'), (u'INDIRECT_-1205970083', u'MULTIEQUAL_-1205968165'), (u'INDIRECT_-1205970632', u'MULTIEQUAL_-1205969933'), (u'INDIRECT_-1205970724', u'MULTIEQUAL_-1205970216'), ('const-17', u'INT_RIGHT_-1205992482'), (u'INT_ADD_-1205976932', u'INT_OR_-1205976869'), ('const-4096', u'INT_MULT_-1205988646'), (u'INT_MULT_-1205986121', u'INT_OR_-1205986124'), (u'INT_OR_-1205977924', u'INT_ADD_-1205977927'), (u'INDIRECT_-1205971330', u'MULTIEQUAL_-1205971070'), (u'STORE_-1205972664', u'INDIRECT_-1205970546'), (u'INT_ADD_-1205986100', u'INT_MULT_-1205985563'), (u'INT_ADD_-1205980293', u'INT_AND_-1205980130'), (u'INT_ADD_-1205992282', u'INT_MULT_-1205992158'), (u'INT_ADD_-1205989550', u'INT_RIGHT_-1205989114'), (u'INT_OR_-1205979987', u'INT_ADD_-1205979990'), (u'INT_MULT_-1205979051', u'INT_OR_-1205979054'), (u'INT_ADD_-1205990159', u'INT_ADD_-1205990139'), (u'INT_OR_-1205978625', u'INT_XOR_-1205978551'), (u'INT_ADD_-1205977366', u'INT_MULT_-1205977334'), (u'STORE_-1205972530', u'INDIRECT_-1205970160'), (u'INDIRECT_-1205970574', u'MULTIEQUAL_-1205970524'), (u'MULTIEQUAL_-1205972447', u'PTRADD_-1205973567'), (u'INDIRECT_-1205969896', u'MULTIEQUAL_-1205969197'), (u'INT_RIGHT_-1205993225', u'INT_OR_-1205993224'), ('const-1024', u'INT_MULT_-1205976730'), (u'STORE_-1205974676', u'INDIRECT_-1205971546'), (u'INDIRECT_-1205970923', u'MULTIEQUAL_-1205970807'), (u'STORE_-1205972789', u'INDIRECT_-1205969425'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967590'), (u'INDIRECT_-1205968246', u'MULTIEQUAL_-1205968228'), (u'STORE_-1205972782', u'INDIRECT_-1205970166'), (u'INT_AND_-1205988183', u'INT_XOR_-1205988154'), (u'INT_XOR_-1205990638', u'INT_ADD_-1205990589'), (u'INT_ADD_-1205992282', u'INT_XOR_-1205992247'), (u'STORE_-1205974161', u'INDIRECT_-1205971253'), ('const-1024', u'INT_MULT_-1205985833'), ('const-22', u'INT_RIGHT_-1205974881'), (u'INDIRECT_-1205971092', u'MULTIEQUAL_-1205970393'), (u'STORE_-1205973445', u'INDIRECT_-1205970795'), (u'COPY_-1205967687', u'STORE_-1205972713'), (u'INDIRECT_-1205969347', u'MULTIEQUAL_-1205968157'), (u'CALL_-1205972582', u'INDIRECT_-1205968425'), ('const-24', u'INT_RIGHT_-1205990001'), (u'STORE_-1205974532', u'INDIRECT_-1205971463'), (u'MULTIEQUAL_-1205968998', u'COPY_-1205969133'), ('const-22', u'INT_RIGHT_-1205990526'), (u'INT_RIGHT_-1205985567', u'INT_OR_-1205985566'), (u'INT_NOTEQUAL_-1205974162', u'CBRANCH_-1205974115'), (u'STORE_-1205973583', u'INDIRECT_-1205969292'), (u'STORE_-1205972735', u'INDIRECT_-1205968838'), (u'INT_AND_-1205978255', u'INT_XOR_-1205978214'), (u'STORE_-1205974161', u'INDIRECT_-1205970333'), (u'INDIRECT_-1205971734', u'COPY_-1205971791'), (u'STORE_-1205973604', u'INDIRECT_-1205970779'), (u'INDIRECT_-1205970445', u'MULTIEQUAL_-1205970439'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970028'), (u'INT_XOR_-1205986652', u'INT_ADD_-1205986647'), (u'INT_XOR_-1205980438', u'INT_AND_-1205980369'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205990715'), ('const-22', u'INT_RIGHT_-1205975235'), (u'STORE_-1205973410', u'INDIRECT_-1205970586'), (u'INT_MULT_-1205981946', u'INT_OR_-1205981949'), ('const-25', u'INT_RIGHT_-1205982592'), (u'STORE_-1205973445', u'INDIRECT_-1205969231'), (u'INDIRECT_-1205970035', u'MULTIEQUAL_-1205970431'), (u'STORE_-1205973424', u'INDIRECT_-1205971148'), (u'STORE_-1205972561', u'INDIRECT_-1205969806'), (u'STORE_-1205973417', u'INDIRECT_-1205969211'), (u'MULTIEQUAL_-1205972529', u'MULTIEQUAL_-1205972402'), (u'CALL_-1205973026', u'INDIRECT_-1205968416'), (u'INT_ADD_-1205988356', u'INT_ADD_-1205988346'), (u'STORE_-1205972789', u'INDIRECT_-1205970069'), (u'CALL_-1205972582', u'INDIRECT_-1205968340'), (u'INT_ADD_-1205993002', u'INT_ADD_-1205992980'), (u'INT_MULT_-1205988756', u'INT_OR_-1205988759'), (u'INT_RIGHT_-1205985837', u'INT_OR_-1205985836'), (u'INT_ADD_-1205993258', u'CAST_-1205975034'), (u'INT_MULT_-1205984646', u'INT_OR_-1205984649'), (u'STORE_-1205972724', u'INDIRECT_-1205970881'), (u'INDIRECT_-1205969224', u'COPY_-1205967687'), (u'INT_MULT_-1205979604', u'INT_OR_-1205979607'), (u'INT_ADD_-1205975077', u'INT_OR_-1205974866'), (u'STORE_-1205974550', u'INDIRECT_-1205970374'), (u'BOOL_NEGATE_-1205968434', u'CBRANCH_-1205974341'), (u'INT_ADD_-1205991581', u'INT_RIGHT_-1205991389'), (u'INT_RIGHT_-1205968019', u'SUBPIECE_-1205973358'), (u'INDIRECT_-1205970667', u'MULTIEQUAL_-1205968172'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205988878'), (u'SUBPIECE_-1205973351', u'STORE_-1205973410'), (u'INT_ADD_-1205982658', u'INT_ADD_-1205982616'), (u'STORE_-1205973534', u'INDIRECT_-1205969817'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968491'), (u'STORE_-1205973445', u'INDIRECT_-1205969139'), (u'INT_OR_-1205985102', u'INT_ADD_-1205985105'), (u'CALL_-1205972973', u'INDIRECT_-1205968501'), (u'INDIRECT_-1205971218', u'MULTIEQUAL_-1205971168'), ('const-22', u'INT_RIGHT_-1205980164'), (u'INDIRECT_-1205969164', u'MULTIEQUAL_-1205968731'), (u'INDIRECT_-1205971698', u'MULTIEQUAL_-1205971438'), (u'STORE_-1205973597', u'INDIRECT_-1205970590'), (u'STORE_-1205974664', u'INDIRECT_-1205969604'), (u'INT_XOR_-1205991496', u'INT_ADD_-1205991459'), ('const-32768', u'INT_MULT_-1205984698'), (u'INT_OR_-1205991148', u'INT_ADD_-1205990933'), (u'INT_ADD_-1205988576', u'INT_RIGHT_-1205987983'), ('const-27', u'INT_RIGHT_-1205976842'), (u'STORE_-1205972789', u'INDIRECT_-1205970989'), ('const-1024', u'INT_MULT_-1205990522'), (u'INDIRECT_-1205969672', u'MULTIEQUAL_-1205969622'), (u'STORE_-1205973452', u'INDIRECT_-1205970892'), ('const-22', u'INT_RIGHT_-1205991061'), (u'STORE_-1205972724', u'INDIRECT_-1205968949'), (u'INT_ADD_-1205981998', u'INT_ADD_-1205981978'), (u'INT_OR_-1205979517', u'INT_AND_-1205979458'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970460'), (u'INT_ADD_-1205981358', u'INT_MULT_-1205981320'), (u'INDIRECT_-1205971384', u'MULTIEQUAL_-1205971334'), (u'STORE_-1205972840', u'INDIRECT_-1205969267'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970450'), (u'INDIRECT_-1205978341', u'INT_ADD_-1205988279'), (u'INDIRECT_-1205971368', u'MULTIEQUAL_-1205970860'), (u'INT_OR_-1205976769', u'INT_ADD_-1205975077'), (u'INT_XOR_-1205984689', u'INT_ADD_-1205984684'), (u'STORE_-1205974129', u'INDIRECT_-1205970318'), (u'STORE_-1205973627', u'INDIRECT_-1205971156'), (u'INT_OR_-1205991978', u'INT_XOR_-1205991852'), ('const-20', u'INT_RIGHT_-1205977768'), (u'INT_OR_-1205977373', u'INT_NEGATE_-1205977352'), (u'INT_ADD_-1205977340', u'INT_RIGHT_-1205977322'), (u'STORE_-1205974538', u'INDIRECT_-1205970916'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205980579'), ('const-21', u'INT_RIGHT_-1205974945'), (u'INT_ADD_-1205992716', u'INT_ADD_-1205992706'), ('const-27', u'INT_RIGHT_-1205980291'), ('const-1024', u'INT_MULT_-1205989582'), (u'INDIRECT_-1205971421', u'MULTIEQUAL_-1205971361'), (u'CALL_-1205972973', u'INDIRECT_-1205968518'), (u'INT_ADD_-1205982124', u'INT_RIGHT_-1205980618'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970441'), (u'INT_MULT_-1205982820', u'INT_OR_-1205982823'), (u'INT_MULT_-1205976163', u'INT_OR_-1205976166'), (u'INT_ADD_-1205987803', u'INT_XOR_-1205987610'), (u'INDIRECT_-1205970325', u'MULTIEQUAL_-1205970276'), ('const-1', u'INT_ADD_-1205973733'), (u'INDIRECT_-1205970777', u'MULTIEQUAL_-1205970676'), (u'INT_MULT_-1205976111', u'INT_OR_-1205976114'), (u'INDIRECT_-1205968881', u'MULTIEQUAL_-1205968875'), ('const-1024', u'INT_MULT_-1205987641'), ('tmp_34825', u'CBRANCH_-1205974120'), (u'INDIRECT_-1205970024', u'COPY_-1205970080'), (u'INT_OR_-1205983236', u'INT_XOR_-1205983228'), (u'INT_MULT_-1205984890', u'INT_OR_-1205984893'), ('const-22', u'INT_RIGHT_-1205975059'), (u'STORE_-1205973555', u'INDIRECT_-1205970930'), (u'INT_XOR_-1205990782', u'INT_XOR_-1205990756'), (u'INDIRECT_-1205971606', u'MULTIEQUAL_-1205971069'), (u'INT_ADD_-1205974684', u'STORE_-1205974676'), (u'LOAD_-1205992173', u'INT_ADD_-1205974694'), (u'INT_NEGATE_-1205975183', u'INT_OR_-1205975096'), (u'INT_ADD_-1205981646', u'INT_XOR_-1205981363'), ('const-1024', u'INT_MULT_-1205975929'), (u'INT_ADD_-1205978503', u'INT_AND_-1205978467'), (u'INT_AND_-1205979713', u'INT_XOR_-1205979694'), (u'INDIRECT_-1205970095', u'MULTIEQUAL_-1205969979'), (u'CALL_-1205972510', u'INDIRECT_-1205969207'), (u'INT_RIGHT_-1205979560', u'INT_OR_-1205979559'), (u'STORE_-1205974544', u'INDIRECT_-1205970185'), (u'STORE_-1205973555', u'INDIRECT_-1205969274'), ('const-13', u'INT_ADD_-1205967858'), (u'INDIRECT_-1205970095', u'MULTIEQUAL_-1205970008'), (u'CALL_-1205973319', u'INDIRECT_-1205969581'), (u'COPY_-1205968350', u'MULTIEQUAL_-1205968659'), ('const-1024', u'INT_MULT_-1205976163'), (u'INT_OR_-1205974750', u'INT_ADD_-1205974753'), (u'CALL_-1205973395', u'INDIRECT_-1205969430'), (u'INT_ADD_-1205990885', u'INT_MULT_-1205990739'), (u'INT_ADD_-1205984278', u'INT_ADD_-1205984258'), (u'INDIRECT_-1205970804', u'MULTIEQUAL_-1205970793'), ('const-1024', u'INT_MULT_-1205987921'), (u'STORE_-1205972757', u'INDIRECT_-1205970227'), (u'STORE_-1205973661', u'INDIRECT_-1205969974'), ('const-32', u'INT_MULT_-1205982358'), (u'STORE_-1205973424', u'INDIRECT_-1205969768'), (u'INT_MULT_-1205983180', u'INT_OR_-1205983183'), ('const-1859775393', u'INT_ADD_-1205985379'), (u'INT_ADD_-1205988910', u'INT_RIGHT_-1205988886'), ('const-21', u'INT_RIGHT_-1205976033'), (u'INDIRECT_-1205975596', u'INT_ADD_-1205985657'), (u'INT_XOR_-1205987526', u'INT_AND_-1205987505'), (u'STORE_-1205973604', u'INDIRECT_-1205969491'), (u'INT_XOR_-1205990184', u'INT_AND_-1205990163'), ('const-0', u'SUBPIECE_-1205968394'), (u'LOAD_-1205992081', u'INT_ADD_-1205991963'), (u'INT_ADD_-1205983543', u'INT_MULT_-1205983495'), (u'STORE_-1205973417', u'INDIRECT_-1205971051'), (u'STORE_-1205974532', u'INDIRECT_-1205969531'), (u'INT_MULT_-1205975325', u'INT_OR_-1205975328'), (u'STORE_-1205974129', u'INDIRECT_-1205971238'), (u'INDIRECT_-1205969430', u'MULTIEQUAL_-1205969337'), (u'INT_NEGATE_-1205992526', u'INT_OR_-1205992395'), (u'MULTIEQUAL_-1205969550', u'COPY_-1205969685'), (u'INDIRECT_-1205970528', u'MULTIEQUAL_-1205970517'), (u'INT_ADD_-1205976237', u'INT_MULT_-1205976179'), (u'INT_ADD_-1205986750', u'INT_MULT_-1205986728'), (u'STORE_-1205974664', u'INDIRECT_-1205970616'), (u'INT_ADD_-1205975847', u'INT_RIGHT_-1205975807'), (u'INDIRECT_-1205970484', u'COPY_-1205970540'), (u'INT_AND_-1205978364', u'INT_XOR_-1205978345'), (u'STORE_-1205973431', u'INDIRECT_-1205969405'), (u'INT_ADD_-1205990735', u'INT_RIGHT_-1205990697'), (u'INT_OR_-1205988134', u'INT_ADD_-1205987757'), (u'COPY_-1205968326', u'MULTIEQUAL_-1205969106'), (u'INDIRECT_-1205970359', u'MULTIEQUAL_-1205968168'), (u'STORE_-1205973583', u'INDIRECT_-1205971132'), ('const-22', u'INT_RIGHT_-1205980451'), (u'INT_OR_-1205979836', u'INT_XOR_-1205979694'), (u'SUBPIECE_-1205968394', u'PTRADD_-1205968276'), (u'INT_ADD_-1205985342', u'INT_NEGATE_-1205985216'), (u'INDIRECT_-1205971291', u'MULTIEQUAL_-1205971175'), (u'INT_ADD_-1205991607', u'INT_OR_-1205990572'), ('const-11', u'INT_ADD_-1205967900'), ('const-0', u'SUBPIECE_-1205973372'), (u'INT_RIGHT_-1205981172', u'INT_OR_-1205981171'), (u'INT_XOR_-1205988617', u'INT_AND_-1205988586'), ('const-4294967188', u'PTRSUB_-1205975200'), (u'INT_MULT_-1205988704', u'INT_OR_-1205988707'), (u'STORE_-1205972735', u'INDIRECT_-1205970954'), (u'INT_XOR_-1205992515', u'INT_ADD_-1205992500'), (u'INT_RIGHT_-1205989586', u'INT_OR_-1205989585'), (u'INT_RIGHT_-1205987645', u'INT_OR_-1205987644'), (u'STORE_-1205974161', u'INDIRECT_-1205969413'), (u'MULTIEQUAL_-1205970339', u'MULTIEQUAL_-1205970239'), (u'INT_OR_-1205989810', u'INT_ADD_-1205989400'), (u'INT_XOR_-1205979975', u'INT_AND_-1205979938'), (u'INT_ADD_-1205975093', u'INT_ADD_-1205975051'), (u'INT_ADD_-1205975077', u'INT_MULT_-1205974688'), (u'STORE_-1205973739', u'INDIRECT_-1205971016'), (u'INDIRECT_-1205968790', u'MULTIEQUAL_-1205968772'), (u'STORE_-1205973555', u'INDIRECT_-1205970470'), (u'INT_OR_-1205987924', u'INT_ADD_-1205987491'), (u'INT_ADD_-1205980887', u'INT_ADD_-1205980867'), ('const-21', u'INT_RIGHT_-1205991781'), (u'INDIRECT_-1205971298', u'MULTIEQUAL_-1205971254'), (u'STORE_-1205972735', u'INDIRECT_-1205970678'), (u'INT_ADD_-1205991381', u'INT_MULT_-1205991347'), (u'INDIRECT_-1205969130', u'MULTIEQUAL_-1205969004'), (u'INT_XOR_-1205979000', u'INT_AND_-1205978983'), (u'LOAD_-1205993274', u'INT_ADD_-1205974572'), ('const-24', u'INT_RIGHT_-1205979988'), (u'INT_ADD_-1205992566', u'INT_XOR_-1205992515'), (u'MULTIEQUAL_-1205970308', u'COPY_-1205970422'), (u'INT_ADD_-1205973417', u'CAST_-1205967875'), (u'STORE_-1205972662', u'INDIRECT_-1205968981'), (u'INT_OR_-1205993224', u'INT_NEGATE_-1205993208'), (u'INT_MULT_-1205976029', u'INT_OR_-1205976032'), (u'CAST_-1205967893', u'INT_ADD_-1205973438'), (u'CALL_-1205973026', u'INDIRECT_-1205968518'), ('const-0', u'STORE_-1205972840'), (u'INT_ADD_-1205977432', u'INT_XOR_-1205977397'), (u'COPY_-1205968326', u'MULTIEQUAL_-1205968608'), (u'INDIRECT_-1205970469', u'MULTIEQUAL_-1205970378'), (u'INT_OR_-1205979788', u'INT_ADD_-1205979193'), (u'INT_AND_-1205990065', u'INT_XOR_-1205990046'), (u'INT_AND_-1205979229', u'INT_XOR_-1205979178'), (u'INT_ADD_-1205978087', u'INT_RIGHT_-1205976541'), (u'LOAD_-1205974338', u'INT_ADD_-1205967942'), (u'CALLIND_-1205972613', u'INDIRECT_-1205969656'), (u'STORE_-1205972561', u'INDIRECT_-1205970634'), (u'STORE_-1205973590', u'INDIRECT_-1205971413'), (u'INT_ADD_-1205978010', u'INT_RIGHT_-1205977925'), ('tmp_55341', u'MULTIEQUAL_-1205975444'), (u'MULTIEQUAL_-1205968178', u'MULTIEQUAL_-1205971224'), (u'INT_ADD_-1205989226', u'INT_RIGHT_-1205989208'), (u'STORE_-1205972724', u'INDIRECT_-1205970605'), (u'STORE_-1205973590', u'INDIRECT_-1205969573'), (u'CALL_-1205993328', u'INDIRECT_-1205976501'), (u'LOAD_-1205992219', u'INT_ADD_-1205992050'), (u'INT_ADD_-1205985204', u'INT_OR_-1205985150'), (u'INT_ADD_-1205990428', u'INT_ADD_-1205990402'), (u'INDIRECT_-1205971429', u'MULTIEQUAL_-1205971380'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205990933'), (u'PTRADD_-1205967585', u'STORE_-1205972655'), (u'CALL_-1205972994', u'INDIRECT_-1205968671'), (u'INT_ADD_-1205987103', u'INT_XOR_-1205986904'), (u'INDIRECT_-1205969550', u'MULTIEQUAL_-1205969506'), (u'STORE_-1205972571', u'INDIRECT_-1205969116'), (u'INT_OR_-1205980534', u'INT_ADD_-1205979990'), (u'CALL_-1205974449', u'INDIRECT_-1205970816'), ('const-1', u'PTRADD_-1205973775'), (u'INT_ADD_-1205976844', u'INT_MULT_-1205976730'), (u'INT_OR_-1205990836', u'INT_XOR_-1205990782'), ('const-22', u'INT_RIGHT_-1205987237'), (u'INT_MULT_-1205985198', u'INT_OR_-1205985201'), (u'INDIRECT_-1205970188', u'MULTIEQUAL_-1205970138'), (u'INDIRECT_-1205969827', u'MULTIEQUAL_-1205969795'), ('const-22', u'INT_RIGHT_-1205993225'), (u'MULTIEQUAL_-1205970891', u'MULTIEQUAL_-1205970828'), (u'INT_MULT_-1205988219', u'INT_OR_-1205988222'), ('const-32', u'INT_MULT_-1205979875'), (u'INDIRECT_-1205970262', u'COPY_-1205970319'), (u'STORE_-1205972713', u'INDIRECT_-1205970476'), (u'INDIRECT_-1205971460', u'MULTIEQUAL_-1205970952'), (u'STORE_-1205973763', u'INDIRECT_-1205969277'), (u'INDIRECT_-1205969380', u'COPY_-1205969436'), (u'INT_OR_-1205992615', u'INT_NEGATE_-1205992594'), (u'INT_OR_-1205992465', u'INT_NEGATE_-1205992454'), (u'MULTIEQUAL_-1205972301', u'INT_RIGHT_-1205968038'), (u'INDIRECT_-1205968920', u'COPY_-1205968976'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205990569'), ('const-1024', u'INT_MULT_-1205977618'), (u'STORE_-1205974129', u'INDIRECT_-1205970502'), ('const-4', u'PTRADD_-1205973537'), (u'CAST_-1205967578', u'MULTIEQUAL_-1205972061'), (u'INT_XOR_-1205991260', u'INT_XOR_-1205991250'), (u'CAST_-1205974634', u'LOAD_-1205992251'), (u'INDIRECT_-1205970356', u'MULTIEQUAL_-1205969640'), (u'STORE_-1205973859', u'INDIRECT_-1205970141'), (u'INDIRECT_-1205975630', u'INT_ADD_-1205989184'), (u'INDIRECT_-1205970555', u'MULTIEQUAL_-1205970468'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970300'), ('const-256', u'INT_MULT_-1205991269'), ('const-70', u'INT_ADD_-1205973417'), ('const-417', u'STORE_-1205973763'), ('tmp_37495', u'CBRANCH_-1205972775'), (u'INT_OR_-1205975516', u'INT_ADD_-1205975363'), (u'INDIRECT_-1205969931', u'MULTIEQUAL_-1205968164'), (u'MULTIEQUAL_-1205969021', u'MULTIEQUAL_-1205968828'), (u'INT_MULT_-1205977634', u'INT_OR_-1205977637'), (u'STORE_-1205974682', u'INDIRECT_-1205971827'), (u'INT_ADD_-1205983411', u'INT_ADD_-1205983401'), (u'STORE_-1205973445', u'INDIRECT_-1205970703'), (u'INDIRECT_-1205969622', u'MULTIEQUAL_-1205969611'), ('const-1024', u'INT_MULT_-1205976195'), ('tmp_40666', u'PTRSUB_-1205968369'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205983044'), (u'INDIRECT_-1205969115', u'MULTIEQUAL_-1205969511'), (u'MULTIEQUAL_-1205968834', u'MULTIEQUAL_-1205968641'), (u'INDIRECT_-1205969773', u'MULTIEQUAL_-1205969724'), (u'INT_OR_-1205983616', u'INT_ADD_-1205983186'), (u'STORE_-1205973695', u'INDIRECT_-1205971555'), (u'INT_AND_-1205989502', u'INT_XOR_-1205989437'), ('const-64', u'INT_MULT_-1205984510'), ('const-417', u'STORE_-1205973604'), (u'INDIRECT_-1205970032', u'MULTIEQUAL_-1205969979'), (u'INT_ADD_-1205979193', u'INT_ADD_-1205979153'), (u'INT_OR_-1205986932', u'INT_ADD_-1205986667'), (u'INDIRECT_-1205969317', u'MULTIEQUAL_-1205969243'), (u'INDIRECT_-1205969553', u'MULTIEQUAL_-1205969503'), (u'INDIRECT_-1205975426', u'INT_ADD_-1205985897'), (u'INT_NEGATE_-1205982970', u'INT_OR_-1205982725'), (u'INT_MULT_-1205985715', u'INT_OR_-1205985718'), (u'INT_ADD_-1205992664', u'INT_XOR_-1205992629'), ('const-1024', u'INT_MULT_-1205982268'), (u'INT_MULT_-1205992658', u'INT_OR_-1205992661'), (u'INT_MULT_-1205986929', u'INT_OR_-1205986932'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205978483'), (u'INT_ADD_-1205977340', u'INT_MULT_-1205977318'), ('const-26', u'INT_RIGHT_-1205986732'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968301'), (u'INDIRECT_-1205969062', u'MULTIEQUAL_-1205968629'), (u'INDIRECT_-1205975460', u'INT_ADD_-1205975477'), (u'STORE_-1205974670', u'INDIRECT_-1205971265'), (u'STORE_-1205972782', u'INDIRECT_-1205969890'), (u'CALL_-1205972582', u'INDIRECT_-1205968289'), ('const-59', u'INT_NOTEQUAL_-1205972668'), (u'STORE_-1205973417', u'INDIRECT_-1205969119'), (u'INT_ADD_-1205990003', u'INT_XOR_-1205989890'), (u'INT_ADD_-1205983776', u'INT_NEGATE_-1205983579'), (u'MULTIEQUAL_-1205969511', u'MULTIEQUAL_-1205969429'), (u'INDIRECT_-1205969154', u'MULTIEQUAL_-1205969059'), (u'INT_ADD_-1205985240', u'INT_RIGHT_-1205985029'), (u'INT_ADD_-1205976834', u'INT_ADD_-1205976824'), (u'MULTIEQUAL_-1205969480', u'COPY_-1205969594'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967630'), (u'INT_ADD_-1205976003', u'INT_RIGHT_-1205975823'), (u'INT_XOR_-1205983939', u'INT_ADD_-1205983934'), (u'INDIRECT_-1205970767', u'MULTIEQUAL_-1205970717'), (u'INDIRECT_-1205970562', u'MULTIEQUAL_-1205970518'), (u'INDIRECT_-1205975579', u'INT_ADD_-1205989725'), (u'INT_ADD_-1205990669', u'INT_ADD_-1205990659'), (u'INT_ADD_-1205976419', u'INT_XOR_-1205976378'), (u'CALL_-1205974449', u'INDIRECT_-1205969062'), (u'INT_ADD_-1205986610', u'INT_MULT_-1205986578'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205970948'), (u'INDIRECT_-1205969737', u'MULTIEQUAL_-1205969687'), (u'CALL_-1205972994', u'INDIRECT_-1205969911'), (u'INT_OR_-1205979639', u'INT_ADD_-1205979015'), (u'INDIRECT_-1205970219', u'MULTIEQUAL_-1205970615'), (u'INDIRECT_-1205971329', u'MULTIEQUAL_-1205971228'), (u'STORE_-1205974538', u'INDIRECT_-1205971744'), (u'LOAD_-1205974405', u'MULTIEQUAL_-1205968710'), (u'INT_ADD_-1205990237', u'INT_RIGHT_-1205990197'), (u'STORE_-1205974616', u'INDIRECT_-1205970675'), (u'INDIRECT_-1205970961', u'MULTIEQUAL_-1205970860'), (u'INT_ADD_-1205982364', u'INT_MULT_-1205981874'), ('tmp_55398', u'MULTIEQUAL_-1205977255'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205976217'), (u'INDIRECT_-1205970739', u'MULTIEQUAL_-1205970623'), (u'INT_OR_-1205975604', u'INT_ADD_-1205975399'), (u'STORE_-1205972637', u'INDIRECT_-1205970893'), (u'INT_MULT_-1205983311', u'INT_OR_-1205983314'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205977278'), (u'INT_OR_-1205984261', u'INT_XOR_-1205984243'), (u'STORE_-1205973763', u'INDIRECT_-1205969737'), (u'INDIRECT_-1205971476', u'MULTIEQUAL_-1205971426'), (u'INT_OR_-1205983077', u'INT_ADD_-1205982780'), (u'INDIRECT_-1205969715', u'MULTIEQUAL_-1205968161'), (u'STORE_-1205972561', u'INDIRECT_-1205969622'), (u'MULTIEQUAL_-1205971167', u'MULTIEQUAL_-1205971067'), (u'INT_ADD_-1205992412', u'INT_ADD_-1205992386'), (u'INDIRECT_-1205971402', u'MULTIEQUAL_-1205971352'), (u'INT_XOR_-1205987224', u'INT_AND_-1205987181'), (u'INT_NEGATE_-1205977058', u'INT_OR_-1205976987'), (u'INDIRECT_-1205968348', u'MULTIEQUAL_-1205968336'), (u'INDIRECT_-1205968348', u'MULTIEQUAL_-1205968336'), (u'INT_NOTEQUAL_-1205973959', u'CBRANCH_-1205973957'), (u'MULTIEQUAL_-1205968987', u'MULTIEQUAL_-1205968794'), (u'INT_AND_-1205978467', u'INT_XOR_-1205978448'), ('tmp_37986', u'BRANCH_-1205972492'), (u'INT_ADD_-1205983339', u'INT_OR_-1205983053'), (u'STORE_-1205973452', u'INDIRECT_-1205969144'), (u'STORE_-1205974159', u'INDIRECT_-1205971436'), (u'INT_RIGHT_-1205981292', u'INT_OR_-1205981291'), (u'MULTIEQUAL_-1205972483', u'PTRADD_-1205973703'), (u'STORE_-1205973627', u'INDIRECT_-1205970052'), (u'INT_RIGHT_-1205983499', u'INT_OR_-1205983498'), (u'CALL_-1205973026', u'INDIRECT_-1205968552'), ('const-8192', u'INT_MULT_-1205975023'), (u'MULTIEQUAL_-1205970155', u'MULTIEQUAL_-1205970092'), (u'INT_AND_-1205974049', u'INT_NOTEQUAL_-1205974009'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205986173'), (u'INT_ADD_-1205967837', u'INT_ADD_-1205972547'), (u'INDIRECT_-1205971311', u'MULTIEQUAL_-1205968179'), (u'STORE_-1205972643', u'INDIRECT_-1205968874'), (u'INT_ADD_-1205987599', u'INT_ADD_-1205987589'), (u'INT_ADD_-1205976325', u'INT_MULT_-1205976013'), (u'STORE_-1205972782', u'INDIRECT_-1205970902'), ('const-17', u'INT_RIGHT_-1205980493'), (u'LOAD_-1205993274', u'INT_RIGHT_-1205993225'), (u'INT_OR_-1205985852', u'INT_ADD_-1205985443'), (u'INT_OR_-1205991060', u'INT_ADD_-1205990885'), (u'STORE_-1205973417', u'INDIRECT_-1205969579'), (u'INT_XOR_-1205988154', u'INT_ADD_-1205988127'), (u'INT_XOR_-1205988381', u'INT_AND_-1205988360'), (u'STORE_-1205972637', u'INDIRECT_-1205970341'), (u'INT_ADD_-1205987589', u'INT_ADD_-1205987501'), ('const-22', u'INT_RIGHT_-1205987149'), (u'INT_MULT_-1205974941', u'INT_OR_-1205974944'), (u'INT_ADD_-1205989064', u'INT_XOR_-1205988815'), (u'INT_RIGHT_-1205992368', u'INT_OR_-1205992367'), (u'INT_ADD_-1205989683', u'INT_XOR_-1205989259'), (u'INT_XOR_-1205992923', u'INT_ADD_-1205992896'), (u'STORE_-1205974664', u'INDIRECT_-1205971076'), (u'STORE_-1205973583', u'INDIRECT_-1205970212'), (u'MULTIEQUAL_-1205971320', u'COPY_-1205971434'), (u'INT_ADD_-1205988920', u'INT_MULT_-1205988856'), (u'MULTIEQUAL_-1205970431', u'MULTIEQUAL_-1205970340'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205977422'), (u'INDIRECT_-1205970747', u'MULTIEQUAL_-1205970715'), (u'INT_OR_-1205977429', u'INT_ADD_-1205977432'), (u'STORE_-1205972713', u'INDIRECT_-1205969740'), (u'STORE_-1205972608', u'INDIRECT_-1205969091'), (u'STORE_-1205973695', u'INDIRECT_-1205971463'), (u'INT_ADD_-1205980146', u'INT_ADD_-1205980080'), (u'INT_OR_-1205989810', u'INT_XOR_-1205989663'), (u'STORE_-1205973431', u'INDIRECT_-1205970877'), (u'INT_ADD_-1205985505', u'INT_ADD_-1205985475'), (u'INT_NEGATE_-1205992310', u'INT_OR_-1205992093'), (u'STORE_-1205972713', u'INDIRECT_-1205970016'), (u'MULTIEQUAL_-1205971075', u'MULTIEQUAL_-1205970975'), (u'INT_XOR_-1205975462', u'INT_ADD_-1205975457'), (u'INT_RIGHT_-1205976307', u'INT_OR_-1205976306'), ('const-8', u'INT_MULT_-1205974227'), (u'MULTIEQUAL_-1205970523', u'MULTIEQUAL_-1205970423'), (u'MULTIEQUAL_-1205972061', u'PTRADD_-1205967625'), (u'INT_ADD_-1205985465', u'INT_MULT_-1205985437'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205991167'), (u'INT_OR_-1205990794', u'INT_ADD_-1205990797'), ('const-76', u'INT_ADD_-1205974661'), (u'STORE_-1205973576', u'INDIRECT_-1205970023'), (u'STORE_-1205973811', u'INDIRECT_-1205970491'), (u'INDIRECT_-1205975647', u'INT_ADD_-1205982872'), (u'INT_RIGHT_-1205990245', u'INT_OR_-1205990244'), (u'INT_ADD_-1205991141', u'INT_MULT_-1205991113'), (u'INT_ADD_-1205974911', u'INT_ADD_-1205974737'), (u'STORE_-1205972664', u'INDIRECT_-1205969994'), (u'INT_XOR_-1205975946', u'INT_ADD_-1205975909'), (u'INT_OR_-1205986057', u'INT_XOR_-1205986039'), (u'INT_RIGHT_-1205979289', u'INT_OR_-1205979288'), (u'INDIRECT_-1205970267', u'MULTIEQUAL_-1205968167'), (u'STORE_-1205973452', u'INDIRECT_-1205970340'), (u'STORE_-1205972724', u'INDIRECT_-1205970789'), (u'INDIRECT_-1205968535', u'MULTIEQUAL_-1205968523'), (u'INDIRECT_-1205968535', u'MULTIEQUAL_-1205968523'), (u'INT_RIGHT_-1205977338', u'INT_OR_-1205977337'), ('const-20', u'INT_RIGHT_-1205983499'), (u'INDIRECT_-1205968909', u'MULTIEQUAL_-1205968476'), (u'INT_ADD_-1205991995', u'INT_MULT_-1205991957'), (u'INT_AND_-1205979938', u'INT_XOR_-1205979918'), (u'STORE_-1205973787', u'INDIRECT_-1205971494'), (u'STORE_-1205974550', u'INDIRECT_-1205971294'), (u'INT_ADD_-1205977859', u'INT_AND_-1205976617'), ('const-23', u'INT_RIGHT_-1205980634'), (u'STORE_-1205973763', u'INDIRECT_-1205971025'), (u'MULTIEQUAL_-1205969603', u'MULTIEQUAL_-1205969503'), (u'INT_XOR_-1205991668', u'INT_XOR_-1205991628'), (u'INDIRECT_-1205970473', u'MULTIEQUAL_-1205970423'), (u'INT_ADD_-1205988412', u'INT_XOR_-1205988096'), (u'STORE_-1205973739', u'INDIRECT_-1205970188'), (u'INT_ADD_-1205992608', u'INT_RIGHT_-1205992564'), (u'STORE_-1205972662', u'INDIRECT_-1205970729'), (u'INT_ADD_-1205988862', u'INT_MULT_-1205988518'), (u'PTRADD_-1205968337', u'LOAD_-1205974338'), (u'CALL_-1205974449', u'INDIRECT_-1205969181'), (u'STORE_-1205973534', u'INDIRECT_-1205971473'), (u'INDIRECT_-1205969162', u'MULTIEQUAL_-1205969151'), (u'MULTIEQUAL_-1205970063', u'MULTIEQUAL_-1205970000'), (u'CALL_-1205972973', u'INDIRECT_-1205968280'), (u'INT_RIGHT_-1205981796', u'INT_OR_-1205981795'), (u'INT_ADD_-1205984516', u'INT_MULT_-1205983597'), ('const-1024', u'INT_MULT_-1205989807'), (u'STORE_-1205972666', u'INDIRECT_-1205969020'), (u'STORE_-1205974670', u'INDIRECT_-1205970161'), ('const-26', u'INT_RIGHT_-1205983515'), (u'INT_ADD_-1205990885', u'INT_XOR_-1205990782'), (u'INDIRECT_-1205969564', u'COPY_-1205969620'), (u'CALLIND_-1205972613', u'INDIRECT_-1205968389'), (u'INT_ADD_-1205992870', u'INT_XOR_-1205992809'), (u'STORE_-1205974664', u'INDIRECT_-1205971260'), ('const-1024', u'INT_MULT_-1205975325'), (u'INDIRECT_-1205975562', u'INT_ADD_-1205990293'), (u'STORE_-1205972789', u'INDIRECT_-1205970529'), (u'INT_ADD_-1205974207', u'STORE_-1205974152'), (u'INT_OR_-1205976416', u'INT_ADD_-1205976419'), (u'INT_OR_-1205982231', u'INT_XOR_-1205982197'), (u'INDIRECT_-1205969712', u'MULTIEQUAL_-1205968996'), (u'INDIRECT_-1205970316', u'MULTIEQUAL_-1205970266'), (u'INT_AND_-1205980698', u'INT_XOR_-1205980657'), ('const-22', u'INT_RIGHT_-1205983601'), (u'CALL_-1205972510', u'INDIRECT_-1205970679'), ('const-1024', u'INT_MULT_-1205984582'), (u'INT_ADD_-1205984652', u'INT_OR_-1205984571'), (u'INDIRECT_-1205971182', u'COPY_-1205971239'), (u'INT_ADD_-1205991245', u'INT_ADD_-1205991213'), (u'INT_ADD_-1205975197', u'INT_MULT_-1205975071'), (u'INT_ADD_-1205986600', u'INT_ADD_-1205986554'), (u'COPY_-1205968045', u'MULTIEQUAL_-1205968182'), ('const-1024', u'INT_MULT_-1205991301'), (u'INT_OR_-1205975234', u'INT_ADD_-1205974684'), (u'STORE_-1205973424', u'INDIRECT_-1205969584'), (u'CALL_-1205972510', u'INDIRECT_-1205971139'), (u'INDIRECT_-1205968994', u'MULTIEQUAL_-1205968561'), (u'INT_XOR_-1205978868', u'INT_AND_-1205978819'), (u'INT_NEGATE_-1205984670', u'INT_OR_-1205984261'), (u'STORE_-1205974682', u'INDIRECT_-1205970355'), (u'CALL_-1205973026', u'INDIRECT_-1205970020'), ('const-344', u'CALL_-1205972582'), (u'INT_MULT_-1205990117', u'INT_OR_-1205990120'), ('const-32', u'INT_MULT_-1205978081'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205983411'), (u'INDIRECT_-1205970896', u'MULTIEQUAL_-1205970885'), (u'INT_ADD_-1205984923', u'INT_OR_-1205984759'), ('const-0', u'STORE_-1205973811'), (u'INDIRECT_-1205975494', u'INT_ADD_-1205983655'), (u'MULTIEQUAL_-1205970286', u'COPY_-1205970421'), (u'STORE_-1205974676', u'INDIRECT_-1205970442'), (u'INT_ADD_-1205977072', u'INT_MULT_-1205977040'), (u'CALL_-1205973319', u'INDIRECT_-1205969213'), (u'INDIRECT_-1205975919', u'INT_ADD_-1205993264'), ('const-22', u'INT_RIGHT_-1205985324'), (u'INT_ADD_-1205987567', u'INT_MULT_-1205986297'), (u'INT_ADD_-1205980309', u'INT_RIGHT_-1205980190'), (u'INT_ADD_-1205979163', u'INT_MULT_-1205979009'), (u'INDIRECT_-1205969028', u'MULTIEQUAL_-1205968387'), (u'STORE_-1205972530', u'INDIRECT_-1205968872'), (u'INT_OR_-1205977177', u'INT_NEGATE_-1205977140'), (u'CALL_-1205972973', u'INDIRECT_-1205968654'), (u'CALLIND_-1205972613', u'INDIRECT_-1205970760'), (u'CAST_-1205968296', u'STORE_-1205974550'), ('const-0', u'STORE_-1205972561'), (u'INDIRECT_-1205970973', u'MULTIEQUAL_-1205970899'), (u'STORE_-1205974129', u'INDIRECT_-1205969858'), (u'MULTIEQUAL_-1205972510', u'PTRADD_-1205973775'), (u'INT_ADD_-1205985721', u'INT_RIGHT_-1205984993'), (u'INT_MULT_-1205991269', u'INT_OR_-1205991272'), (u'INDIRECT_-1205969405', u'MULTIEQUAL_-1205969356'), (u'INT_XOR_-1205990086', u'INT_AND_-1205990065'), (u'MULTIEQUAL_-1205968817', u'MULTIEQUAL_-1205968624'), (u'INT_ADD_-1205990797', u'INT_MULT_-1205990522'), (u'INT_OR_-1205991680', u'INT_ADD_-1205991683'), (u'STORE_-1205973859', u'INDIRECT_-1205971521'), (u'INT_ADD_-1205978380', u'INT_ADD_-1205978360'), (u'INT_ADD_-1205975197', u'INT_RIGHT_-1205975075'), (u'INT_XOR_-1205985480', u'INT_ADD_-1205985465'), (u'INDIRECT_-1205970543', u'MULTIEQUAL_-1205968170'), (u'STORE_-1205972655', u'INDIRECT_-1205968792'), (u'INDIRECT_-1205978249', u'INT_ADD_-1205983745'), (u'CALL_-1205993328', u'INDIRECT_-1205975426'), (u'INT_OR_-1205986124', u'INT_ADD_-1205986127'), (u'INT_LEFT_-1205993224', u'INT_OR_-1205993224'), (u'INT_ADD_-1205976932', u'INT_MULT_-1205976890'), (u'STORE_-1205973597', u'INDIRECT_-1205969854'), (u'INT_ADD_-1205983934', u'INT_MULT_-1205983912'), (u'INDIRECT_-1205968654', u'MULTIEQUAL_-1205968636'), ('const-22', u'INT_RIGHT_-1205989811'), (u'INT_OR_-1205979336', u'INT_XOR_-1205979178'), ('const-0', u'SUBPIECE_-1205973393'), ('tmp_55407', u'MULTIEQUAL_-1205978083'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205967996'), ('const-19', u'INT_RIGHT_-1205982122'), ('const-24', u'INT_RIGHT_-1205977126'), (u'INDIRECT_-1205968604', u'MULTIEQUAL_-1205968578'), ('const-1024', u'INT_MULT_-1205986701'), (u'CALL_-1205972582', u'INDIRECT_-1205968544'), (u'CALL_-1205973395', u'INDIRECT_-1205968603'), (u'STORE_-1205973410', u'INDIRECT_-1205971414'), (u'INDIRECT_-1205968467', u'MULTIEQUAL_-1205968455'), (u'INDIRECT_-1205968467', u'MULTIEQUAL_-1205968455'), (u'INT_ADD_-1205976581', u'INT_XOR_-1205976404'), (u'INT_MULT_-1205990605', u'INT_OR_-1205990608'), (u'INT_OR_-1205990342', u'INT_ADD_-1205990123'), (u'INT_MULT_-1205991437', u'INT_OR_-1205991440'), (u'INT_ADD_-1205990797', u'INT_RIGHT_-1205990526'), ('const-0', u'STORE_-1205972782'), (u'CALL_-1205972994', u'INDIRECT_-1205970003'), (u'INT_OR_-1205992935', u'INT_ADD_-1205992566'), (u'INDIRECT_-1205971337', u'MULTIEQUAL_-1205971288'), (u'INT_OR_-1205987998', u'INT_ADD_-1205988001'), (u'INDIRECT_-1205970166', u'MULTIEQUAL_-1205970073'), (u'STORE_-1205973452', u'INDIRECT_-1205970432'), (u'INDIRECT_-1205971015', u'MULTIEQUAL_-1205970928'), (u'INDIRECT_-1205976593', u'MULTIEQUAL_-1205976519'), (u'INT_RIGHT_-1205987623', u'INT_OR_-1205987622'), (u'STORE_-1205972670', u'INDIRECT_-1205970459'), (u'INT_ADD_-1205987255', u'INT_XOR_-1205987004'), (u'INT_ADD_-1205983832', u'INT_ADD_-1205983802'), (u'CALL_-1205972994', u'INDIRECT_-1205968688'), (u'INDIRECT_-1205970134', u'MULTIEQUAL_-1205969597'), (u'STORE_-1205973835', u'INDIRECT_-1205971144'), (u'INT_OR_-1205988521', u'INT_XOR_-1205988331'), (u'INT_XOR_-1205978303', u'INT_AND_-1205978255'), (u'CALL_-1205993328', u'INDIRECT_-1205978525'), (u'STORE_-1205973410', u'INDIRECT_-1205970310'), (u'INDIRECT_-1205970082', u'MULTIEQUAL_-1205970071'), (u'STORE_-1205974129', u'INDIRECT_-1205970778'), (u'INT_OR_-1205975672', u'INT_XOR_-1205975638'), ('const-0', u'STORE_-1205973576'), (u'INT_OR_-1205974553', u'INT_ADD_-1205974556'), ('const-22', u'INT_RIGHT_-1205978316'), ('const-1', u'PTRADD_-1205973574'), (u'INT_MULT_-1205989807', u'INT_OR_-1205989810'), (u'MULTIEQUAL_-1205970247', u'MULTIEQUAL_-1205970156'), (u'CALL_-1205993328', u'INDIRECT_-1205976157'), (u'INT_ADD_-1205978087', u'INT_AND_-1205977963'), (u'MULTIEQUAL_-1205971259', u'MULTIEQUAL_-1205971186'), (u'INT_OR_-1205980769', u'INT_AND_-1205980698'), (u'STORE_-1205972840', u'INDIRECT_-1205969083'), (u'INT_ADD_-1205976035', u'INT_MULT_-1205975965'), (u'INT_ADD_-1205979121', u'INT_RIGHT_-1205979055'), (u'INT_RIGHT_-1205977430', u'INT_OR_-1205977429'), (u'STORE_-1205973576', u'INDIRECT_-1205970667'), (u'INT_ADD_-1205981462', u'INT_RIGHT_-1205981015'), (u'MULTIEQUAL_-1205968176', u'MULTIEQUAL_-1205971040'), (u'SUBPIECE_-1205971999', u'CALL_-1205972582'), ('const-13478793', u'CALLOTHER_-1205972575'), (u'INDIRECT_-1205969580', u'MULTIEQUAL_-1205969530'), (u'INT_ADD_-1205984238', u'INT_MULT_-1205984216'), (u'INT_ADD_-1205975769', u'INT_MULT_-1205975725'), (u'INDIRECT_-1205977237', u'MULTIEQUAL_-1205977163'), (u'INT_ADD_-1205979015', u'INT_MULT_-1205978741'), (u'INT_ADD_-1205987767', u'INT_RIGHT_-1205985837'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205982018'), (u'INDIRECT_-1205971035', u'MULTIEQUAL_-1205968176'), (u'INDIRECT_-1205968774', u'MULTIEQUAL_-1205968789'), (u'STORE_-1205974670', u'INDIRECT_-1205970989'), (u'INT_ADD_-1205987135', u'INT_RIGHT_-1205987101'), (u'COPY_-1205968225', u'MULTIEQUAL_-1205972492'), (u'CALL_-1205972582', u'INDIRECT_-1205970653'), (u'STORE_-1205974664', u'INDIRECT_-1205970248'), (u'INDIRECT_-1205970127', u'MULTIEQUAL_-1205970523'), ('const-1024', u'INT_MULT_-1205987401'), (u'INT_ADD_-1205991141', u'INT_RIGHT_-1205991117'), (u'STORE_-1205973438', u'INDIRECT_-1205971342'), (u'INT_MULT_-1205989693', u'INT_OR_-1205989696'), ('const-128', u'INT_MULT_-1205992276'), (u'INT_MULT_-1205991559', u'INT_OR_-1205991562'), (u'INT_ADD_-1205984704', u'INT_OR_-1205984413'), (u'INT_OR_-1205988134', u'INT_ADD_-1205987767'), (u'STORE_-1205973452', u'INDIRECT_-1205969880'), (u'INT_ADD_-1205977859', u'INT_OR_-1205977695'), (u'INT_OR_-1205992935', u'INT_NEGATE_-1205992882'), (u'INT_ADD_-1205984368', u'INT_OR_-1205984261'), (u'INDIRECT_-1205975681', u'INT_ADD_-1205981556'), (u'INT_XOR_-1205989762', u'INT_AND_-1205989735'), ('const-24', u'INT_RIGHT_-1205980802'), (u'INDIRECT_-1205969582', u'MULTIEQUAL_-1205969511'), (u'INDIRECT_-1205975477', u'INT_ADD_-1205990771'), (u'INDIRECT_-1205971422', u'MULTIEQUAL_-1205971351'), ('const-19', u'INT_RIGHT_-1205977044'), (u'INT_OR_-1205981014', u'INT_ADD_-1205980355'), (u'INT_ADD_-1205984368', u'INT_MULT_-1205983613'), (u'INDIRECT_-1205975545', u'INT_ADD_-1205987045'), (u'INT_ADD_-1205992964', u'INT_XOR_-1205992923'), (u'STORE_-1205973438', u'INDIRECT_-1205969594'), (u'STORE_-1205973410', u'INDIRECT_-1205969666'), (u'INT_OR_-1205990342', u'INT_XOR_-1205990298'), (u'INT_AND_-1205977963', u'INT_XOR_-1205977938'), (u'INT_RIGHT_-1205991227', u'INT_OR_-1205991226'), (u'PTRADD_-1205968070', u'STORE_-1205973555'), ('const-417', u'LOAD_-1205993137'), (u'INDIRECT_-1205969286', u'MULTIEQUAL_-1205969236'), (u'STORE_-1205972561', u'INDIRECT_-1205970266'), (u'STORE_-1205973410', u'INDIRECT_-1205969850'), (u'STORE_-1205974129', u'INDIRECT_-1205969674'), (u'INT_OR_-1205975572', u'INT_ADD_-1205975575'), (u'STORE_-1205973431', u'INDIRECT_-1205969681'), (u'INT_ADD_-1205977588', u'INT_ADD_-1205977562'), (u'INDIRECT_-1205971107', u'MULTIEQUAL_-1205970991'), (u'INT_RIGHT_-1205990905', u'INT_OR_-1205990904'), (u'INDIRECT_-1205975511', u'INT_ADD_-1205989875'), ('const-10', u'INT_LEFT_-1205991890'), (u'STORE_-1205974526', u'INDIRECT_-1205971366'), (u'INDIRECT_-1205975528', u'INT_ADD_-1205986687'), (u'INT_MULT_-1205990307', u'INT_OR_-1205990310'), (u'INDIRECT_-1205968620', u'MULTIEQUAL_-1205968602'), (u'INT_RIGHT_-1205982502', u'INT_OR_-1205982501'), (u'CALL_-1205974449', u'INDIRECT_-1205970540'), (u'STORE_-1205972571', u'INDIRECT_-1205969392'), (u'INT_OR_-1205988222', u'INT_ADD_-1205987589'), (u'INT_MULT_-1205979801', u'INT_OR_-1205979804'), (u'INDIRECT_-1205969198', u'MULTIEQUAL_-1205968765'), (u'STORE_-1205973555', u'INDIRECT_-1205971022'), (u'INT_ADD_-1205990659', u'INT_MULT_-1205990605'), ('const-417', u'LOAD_-1205993280'), ('const-128', u'INT_MULT_-1205986831'), (u'INT_ADD_-1205980293', u'INT_MULT_-1205979833')]
| null | null |
00010000
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid FUN_00010000(int param_1,int param_2)\n\n{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void FUN_00010000(int param_1,int param_2)\n\n{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "FUN_00010000(int param_1,int param_2)" identifier (parameter_list "(int param_1,int param_2)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { (declaration "undefined8 uVar1;" type_identifier identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (declaration "undefined4 uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "undefined4 *puVar6;" type_identifier (pointer_declarator "*puVar6" * identifier) ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "undefined1 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "undefined1 *puVar11;" type_identifier (pointer_declarator "*puVar11" * identifier) ;) (declaration "int extraout_r1;" primitive_type identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "uint uVar13;" type_identifier identifier ;) (declaration "uint uVar14;" type_identifier identifier ;) (declaration "uint uVar15;" type_identifier identifier ;) (declaration "uint uVar16;" type_identifier identifier ;) (declaration "uint *puVar17;" type_identifier (pointer_declarator "*puVar17" * identifier) ;) (declaration "uint *puVar18;" type_identifier (pointer_declarator "*puVar18" * identifier) ;) (declaration "uint uVar19;" type_identifier identifier ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "int iVar21;" primitive_type identifier ;) (declaration "int iVar22;" primitive_type identifier ;) (declaration "int iVar23;" primitive_type identifier ;) (declaration "int iVar24;" primitive_type identifier ;) (declaration "uint uVar25;" type_identifier identifier ;) (declaration "uint *puVar26;" type_identifier (pointer_declarator "*puVar26" * identifier) ;) (declaration "uint uVar27;" type_identifier identifier ;) (declaration "uint uVar28;" type_identifier identifier ;) (declaration "uint uVar29;" type_identifier identifier ;) (declaration "uint uVar30;" type_identifier identifier ;) (declaration "uint uVar31;" type_identifier identifier ;) (declaration "uint uVar32;" type_identifier identifier ;) (declaration "undefined4 uVar33;" type_identifier identifier ;) (declaration "code *UNRECOVERED_JUMPTABLE;" type_identifier (pointer_declarator "*UNRECOVERED_JUMPTABLE" * identifier) ;) (declaration "bool bVar34;" primitive_type identifier ;) (declaration "undefined1 uVar35;" type_identifier identifier ;) (declaration "undefined8 uVar36;" type_identifier identifier ;) (declaration "uint uStack_e0;" type_identifier identifier ;) (declaration "int iStack_dc;" primitive_type identifier ;) (declaration "uint uStack_d8;" type_identifier identifier ;) (declaration "int iStack_d4;" primitive_type identifier ;) (declaration "uint uStack_d0;" type_identifier identifier ;) (declaration "uint uStack_cc;" type_identifier identifier ;) (declaration "int iStack_c8;" primitive_type identifier ;) (declaration "int iStack_c4;" primitive_type identifier ;) (declaration "uint uStack_c0;" type_identifier identifier ;) (declaration "undefined4 uStack_bc;" type_identifier identifier ;) (declaration "uint uStack_b8;" type_identifier identifier ;) (declaration "uint uStack_b4;" type_identifier identifier ;) (declaration "uint uStack_b0;" type_identifier identifier ;) (declaration "uint uStack_ac;" type_identifier identifier ;) (declaration "int local_a8;" primitive_type identifier ;) (declaration "int iStack_a4;" primitive_type identifier ;) (declaration "uint uStack_a0;" type_identifier identifier ;) (declaration "int iStack_9c;" primitive_type identifier ;) (declaration "int iStack_98;" primitive_type identifier ;) (declaration "uint uStack_94;" type_identifier identifier ;) (declaration "uint uStack_90;" type_identifier identifier ;) (declaration "uint uStack_8c;" type_identifier identifier ;) (declaration "int iStack_88;" primitive_type identifier ;) (declaration "uint uStack_84;" type_identifier identifier ;) (declaration "uint uStack_80;" type_identifier identifier ;) (declaration "uint uStack_7c;" type_identifier identifier ;) (declaration "uint uStack_78;" type_identifier identifier ;) (declaration "uint uStack_74;" type_identifier identifier ;) (declaration "uint uStack_6c;" type_identifier identifier ;) (declaration "int iStack_68;" primitive_type identifier ;) (declaration "int iStack_64;" primitive_type identifier ;) (declaration "int iStack_60;" primitive_type identifier ;) (declaration "int iStack_5c;" primitive_type identifier ;) (declaration "int iStack_58;" primitive_type identifier ;) (declaration "int iStack_54;" primitive_type identifier ;) (declaration "int iStack_50;" primitive_type identifier ;) (declaration "int iStack_4c;" primitive_type identifier ;) (declaration "int iStack_48;" primitive_type identifier ;) (declaration "int iStack_44;" primitive_type identifier ;) (declaration "int iStack_40;" primitive_type identifier ;) (declaration "int iStack_3c;" primitive_type identifier ;) (declaration "int iStack_38;" primitive_type identifier ;) (declaration "int iStack_34;" primitive_type identifier ;) (declaration "int iStack_30;" primitive_type identifier ;) (declaration "uint local_2c [2];" type_identifier (array_declarator "local_2c [2]" identifier [ number_literal ]) ;) (expression_statement "local_2c[0] = *DAT_00011004;" (assignment_expression "local_2c[0] = *DAT_00011004" (subscript_expression "local_2c[0]" identifier [ number_literal ]) = (pointer_expression "*DAT_00011004" * identifier)) ;) (expression_statement "puVar17 = &uStack_6c;" (assignment_expression "puVar17 = &uStack_6c" identifier = (pointer_expression "&uStack_6c" & identifier)) ;) (expression_statement "local_a8 = param_1;" (assignment_expression "local_a8 = param_1" identifier = identifier) ;) (do_statement "do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);" do (compound_statement "{\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n }" { (expression_statement "puVar18 = puVar17 + 1;" (assignment_expression "puVar18 = puVar17 + 1" identifier = (binary_expression "puVar17 + 1" identifier + number_literal)) ;) (expression_statement "FUN_00010034(puVar17,param_2);" (call_expression "FUN_00010034(puVar17,param_2)" identifier (argument_list "(puVar17,param_2)" ( identifier , identifier ))) ;) (expression_statement "uVar16 = local_2c[0];" (assignment_expression "uVar16 = local_2c[0]" identifier = (subscript_expression "local_2c[0]" identifier [ number_literal ])) ;) (expression_statement "puVar26 = DAT_00011028;" (assignment_expression "puVar26 = DAT_00011028" identifier = identifier) ;) (expression_statement "param_2 = param_2 + 4;" (assignment_expression "param_2 = param_2 + 4" identifier = (binary_expression "param_2 + 4" identifier + number_literal)) ;) (expression_statement "puVar17 = puVar18;" (assignment_expression "puVar17 = puVar18" identifier = identifier) ;) }) while (parenthesized_expression "(local_2c != puVar18)" ( (binary_expression "local_2c != puVar18" identifier != identifier) )) ;) (expression_statement "uVar27 = *(uint *)(local_a8 + 0x6c);" (assignment_expression "uVar27 = *(uint *)(local_a8 + 0x6c)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x6c)" * (cast_expression "(uint *)(local_a8 + 0x6c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x6c)" ( (binary_expression "local_a8 + 0x6c" identifier + number_literal) ))))) ;) (expression_statement "uVar12 = *(uint *)(local_a8 + 0x68);" (assignment_expression "uVar12 = *(uint *)(local_a8 + 0x68)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x68)" * (cast_expression "(uint *)(local_a8 + 0x68)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x68)" ( (binary_expression "local_a8 + 0x68" identifier + number_literal) ))))) ;) (expression_statement "uStack_94 = *(uint *)(local_a8 + 100);" (assignment_expression "uStack_94 = *(uint *)(local_a8 + 100)" identifier = (pointer_expression "*(uint *)(local_a8 + 100)" * (cast_expression "(uint *)(local_a8 + 100)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 100)" ( (binary_expression "local_a8 + 100" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = uVar12 >> 0x16 | uVar12 << 10;" (assignment_expression "uVar28 = uVar12 >> 0x16 | uVar12 << 10" identifier = (binary_expression "uVar12 >> 0x16 | uVar12 << 10" (binary_expression "uVar12 >> 0x16" identifier >> number_literal) | (binary_expression "uVar12 << 10" identifier << number_literal))) ;) (expression_statement "iStack_98 = *(int *)(local_a8 + 0x60);" (assignment_expression "iStack_98 = *(int *)(local_a8 + 0x60)" identifier = (pointer_expression "*(int *)(local_a8 + 0x60)" * (cast_expression "(int *)(local_a8 + 0x60)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x60)" ( (binary_expression "local_a8 + 0x60" identifier + number_literal) ))))) ;) (expression_statement "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;" (assignment_expression "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10" identifier = (binary_expression "uStack_94 >> 0x16 | uStack_94 << 10" (binary_expression "uStack_94 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_94 << 10" identifier << number_literal))) ;) (expression_statement "iVar23 = *(int *)(local_a8 + 0x70);" (assignment_expression "iVar23 = *(int *)(local_a8 + 0x70)" identifier = (pointer_expression "*(int *)(local_a8 + 0x70)" * (cast_expression "(int *)(local_a8 + 0x70)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x70)" ( (binary_expression "local_a8 + 0x70" identifier + number_literal) ))))) ;) (expression_statement "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;" (assignment_expression "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" identifier = (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58" (parenthesized_expression "((~uVar27 | uVar12) ^ uStack_94)" ( (binary_expression "(~uVar27 | uVar12) ^ uStack_94" (parenthesized_expression "(~uVar27 | uVar12)" ( (binary_expression "~uVar27 | uVar12" (unary_expression "~uVar27" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier = (binary_expression "iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier + (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" ( (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" identifier >> number_literal) | (binary_expression "uVar13 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;" (assignment_expression "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400" identifier = (binary_expression "uVar7 >> 0x16 | uVar7 * 0x400" (binary_expression "uVar7 >> 0x16" identifier >> number_literal) | (binary_expression "uVar7 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;" (assignment_expression "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" identifier = (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34" (parenthesized_expression "((~uVar28 | uStack_94) ^ uVar7)" ( (binary_expression "(~uVar28 | uStack_94) ^ uVar7" (parenthesized_expression "(~uVar28 | uStack_94)" ( (binary_expression "~uVar28 | uStack_94" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;" (assignment_expression "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" identifier = (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50" (parenthesized_expression "((~uVar29 | uVar7) ^ uVar15)" ( (binary_expression "(~uVar29 | uVar7) ^ uVar15" (parenthesized_expression "(~uVar29 | uVar7)" ( (binary_expression "~uVar29 | uVar7" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c" (parenthesized_expression "((~uVar13 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar13 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar13 | uVar15)" ( (binary_expression "~uVar13 | uVar15" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48" (parenthesized_expression "((~uVar19 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar19 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar8)" ( (binary_expression "~uVar19 | uVar8" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" identifier = (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64" (parenthesized_expression "((~uVar7 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar7 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar7 | uVar15)" ( (binary_expression "~uVar7 | uVar15" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" identifier = (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40" (parenthesized_expression "((~uVar28 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar28 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar28 | uVar8)" ( (binary_expression "~uVar28 | uVar8" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);" (assignment_expression "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" identifier + (parenthesized_expression "(uVar19 >> 0x11 | uVar19 * 0x8000)" ( (binary_expression "uVar19 >> 0x11 | uVar19 * 0x8000" (binary_expression "uVar19 >> 0x11" identifier >> number_literal) | (binary_expression "uVar19 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" identifier = (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c" (parenthesized_expression "((~uVar29 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar29 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar29 | uVar15)" ( (binary_expression "~uVar29 | uVar15" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar13 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar13 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar8)" ( (binary_expression "~uVar13 | uVar8" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uStack_b4 = *(uint *)(local_a8 + 0x54);" (assignment_expression "uStack_b4 = *(uint *)(local_a8 + 0x54)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x54)" * (cast_expression "(uint *)(local_a8 + 0x54)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x54)" ( (binary_expression "local_a8 + 0x54" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;" (assignment_expression "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54" (parenthesized_expression "((~uVar19 | uVar15) ^ uVar30)" ( (binary_expression "(~uVar19 | uVar15) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar15)" ( (binary_expression "~uVar19 | uVar15" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "iStack_a4 = *(int *)(local_a8 + 0x4c);" (assignment_expression "iStack_a4 = *(int *)(local_a8 + 0x4c)" identifier = (pointer_expression "*(int *)(local_a8 + 0x4c)" * (cast_expression "(int *)(local_a8 + 0x4c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x4c)" ( (binary_expression "local_a8 + 0x4c" identifier + number_literal) ))))) ;) (expression_statement "uStack_b8 = *(uint *)(local_a8 + 0x50);" (assignment_expression "uStack_b8 = *(uint *)(local_a8 + 0x50)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x50)" * (cast_expression "(uint *)(local_a8 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x50)" ( (binary_expression "local_a8 + 0x50" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_b0 = *(uint *)(local_a8 + 0x58);" (assignment_expression "uStack_b0 = *(uint *)(local_a8 + 0x58)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x58)" * (cast_expression "(uint *)(local_a8 + 0x58)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x58)" ( (binary_expression "local_a8 + 0x58" identifier + number_literal) ))))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "iStack_9c = *(int *)(local_a8 + 0x5c);" (assignment_expression "iStack_9c = *(int *)(local_a8 + 0x5c)" identifier = (pointer_expression "*(int *)(local_a8 + 0x5c)" * (cast_expression "(int *)(local_a8 + 0x5c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x5c)" ( (binary_expression "local_a8 + 0x5c" identifier + number_literal) ))))) ;) (expression_statement "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;" (assignment_expression "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" identifier = (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c" (parenthesized_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0)" ( (binary_expression "uStack_b8 ^ uStack_b4 ^ uStack_b0" (binary_expression "uStack_b8 ^ uStack_b4" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier = (binary_expression "iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" identifier = (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30" (parenthesized_expression "((~uVar7 | uVar30) ^ uVar15)" ( (binary_expression "(~uVar7 | uVar30) ^ uVar15" (parenthesized_expression "(~uVar7 | uVar30)" ( (binary_expression "~uVar7 | uVar30" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier + (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" ( (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" identifier >> number_literal) | (binary_expression "uVar13 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;" (assignment_expression "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10" identifier = (binary_expression "uStack_b4 >> 0x16 | uStack_b4 << 10" (binary_expression "uStack_b4 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_b4 << 10" identifier << number_literal))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" identifier = (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar31)" ( (binary_expression "(~uVar28 | uVar15) ^ uVar31" (parenthesized_expression "(~uVar28 | uVar15)" ( (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier + (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" ( (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" identifier >> number_literal) | (binary_expression "uVar19 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;" (assignment_expression "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" identifier = (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68" (parenthesized_expression "(uStack_b8 ^ uVar13 ^ uVar5)" ( (binary_expression "uStack_b8 ^ uVar13 ^ uVar5" (binary_expression "uStack_b8 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;" (assignment_expression "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10" identifier = (binary_expression "uStack_b8 >> 0x16 | uStack_b8 << 10" (binary_expression "uStack_b8 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_b8 << 10" identifier << number_literal))) ;) (expression_statement "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" identifier = (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68" (parenthesized_expression "((~uVar29 | uVar31) ^ uVar14)" ( (binary_expression "(~uVar29 | uVar31) ^ uVar14" (parenthesized_expression "(~uVar29 | uVar31)" ( (binary_expression "~uVar29 | uVar31" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier + (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" ( (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" identifier >> number_literal) | (binary_expression "uVar7 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;" (assignment_expression "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" identifier = (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar5 ^ uVar15 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar15 ^ uVar9" (binary_expression "uVar5 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400" identifier = (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" identifier >> number_literal) | (binary_expression "uVar32 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);" (assignment_expression "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" identifier + (parenthesized_expression "(uVar13 >> 0x14 | uVar13 * 0x1000)" ( (binary_expression "uVar13 >> 0x14 | uVar13 * 0x1000" (binary_expression "uVar13 >> 0x14" identifier >> number_literal) | (binary_expression "uVar13 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" identifier = (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar30 ^ uVar9" (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;" (assignment_expression "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" identifier = (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar13 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar13 ^ uVar31" (binary_expression "uVar9 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;" (assignment_expression "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" identifier = (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54" (parenthesized_expression "(uVar31 ^ uVar15 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar15 ^ uVar9" (binary_expression "uVar31 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" identifier = (binary_expression "uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" identifier + (parenthesized_expression "(uVar30 >> 0x19 | uVar30 * 0x80)" ( (binary_expression "uVar30 >> 0x19 | uVar30 * 0x80" (binary_expression "uVar30 >> 0x19" identifier >> number_literal) | (binary_expression "uVar30 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier + (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" ( (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" identifier >> number_literal) | (binary_expression "uVar13 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" identifier = (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar20)" ( (binary_expression "uVar31 ^ uVar30 ^ uVar20" (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);" (assignment_expression "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" identifier + (parenthesized_expression "(uVar15 >> 0x15 | uVar15 * 0x800)" ( (binary_expression "uVar15 >> 0x15 | uVar15 * 0x800" (binary_expression "uVar15 >> 0x15" identifier >> number_literal) | (binary_expression "uVar15 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;" (assignment_expression "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" identifier = (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar20 ^ uVar13 ^ uVar9)" ( (binary_expression "uVar20 ^ uVar13 ^ uVar9" (binary_expression "uVar20 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier + (parenthesized_expression "(uVar5 >> 0x13 | uVar5 * 0x2000)" ( (binary_expression "uVar5 >> 0x13 | uVar5 * 0x2000" (binary_expression "uVar5 >> 0x13" identifier >> number_literal) | (binary_expression "uVar5 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;" (assignment_expression "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" identifier = (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44" (parenthesized_expression "(uVar9 ^ uVar15 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar15 ^ uVar31" (binary_expression "uVar9 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;" (assignment_expression "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" identifier = (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40" (parenthesized_expression "(uVar31 ^ uVar5 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar5 ^ uVar9" (binary_expression "uVar31 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" identifier = (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar30 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar30 ^ uVar31" (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier + (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" ( (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar15 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44" (parenthesized_expression "((~uVar8 | uVar14) ^ uVar32)" ( (binary_expression "(~uVar8 | uVar14) ^ uVar32" (parenthesized_expression "(~uVar8 | uVar14)" ( (binary_expression "~uVar8 | uVar14" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier + (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" ( (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" identifier >> number_literal) | (binary_expression "uVar28 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;" (assignment_expression "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" identifier = (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38" (parenthesized_expression "(uVar31 ^ uVar13 ^ uVar20)" ( (binary_expression "uVar31 ^ uVar13 ^ uVar20" (binary_expression "uVar31 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60" (parenthesized_expression "((~uVar19 | uVar32) ^ uVar25)" ( (binary_expression "(~uVar19 | uVar32) ^ uVar25" (parenthesized_expression "(~uVar19 | uVar32)" ( (binary_expression "~uVar19 | uVar32" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);" (assignment_expression "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" identifier = (binary_expression "uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" identifier + (parenthesized_expression "(uVar15 >> 0x19 | uVar15 * 0x80)" ( (binary_expression "uVar15 >> 0x19 | uVar15 * 0x80" (binary_expression "uVar15 >> 0x19" identifier >> number_literal) | (binary_expression "uVar15 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier + (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" ( (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" identifier >> number_literal) | (binary_expression "uVar29 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;" (assignment_expression "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" identifier = (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34" (parenthesized_expression "(uVar20 ^ uVar28 ^ uVar14)" ( (binary_expression "uVar20 ^ uVar28 ^ uVar14" (binary_expression "uVar20 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier + (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" ( (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" identifier >> number_literal) | (binary_expression "uVar29 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" identifier = (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar25) ^ uVar9)" ( (binary_expression "(~uVar7 | uVar25) ^ uVar9" (parenthesized_expression "(~uVar7 | uVar25)" ( (binary_expression "~uVar7 | uVar25" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);" (assignment_expression "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier + (parenthesized_expression "(uVar8 >> 0x1a | uVar8 * 0x40)" ( (binary_expression "uVar8 >> 0x1a | uVar8 * 0x40" (binary_expression "uVar8 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar8 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;" (assignment_expression "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" identifier = (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29)" ( (binary_expression "(uVar32 ^ uVar29) & uVar30 ^ uVar29" (binary_expression "(uVar32 ^ uVar29) & uVar30" (parenthesized_expression "(uVar32 ^ uVar29)" ( (binary_expression "uVar32 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400" identifier = (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" identifier >> number_literal) | (binary_expression "uVar32 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);" (assignment_expression "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier = (binary_expression "uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier + (parenthesized_expression "(uVar5 >> 0x19 | uVar5 * 0x80)" ( (binary_expression "uVar5 >> 0x19 | uVar5 * 0x80" (binary_expression "uVar5 >> 0x19" identifier >> number_literal) | (binary_expression "uVar5 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;" (assignment_expression "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c" (parenthesized_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar30 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar30 ^ uVar15) & uVar31" (parenthesized_expression "(uVar30 ^ uVar15)" ( (binary_expression "uVar30 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);" (assignment_expression "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier = (binary_expression "uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier + (parenthesized_expression "(uVar5 >> 0x1a | uVar5 * 0x40)" ( (binary_expression "uVar5 >> 0x1a | uVar5 * 0x40" (binary_expression "uVar5 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar5 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5)" ( (binary_expression "(uVar31 ^ uVar5) & uVar20 ^ uVar5" (binary_expression "(uVar31 ^ uVar5) & uVar20" (parenthesized_expression "(uVar31 ^ uVar5)" ( (binary_expression "uVar31 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30)" ( (binary_expression "(uVar20 ^ uVar30) & uVar31 ^ uVar30" (binary_expression "(uVar20 ^ uVar30) & uVar31" (parenthesized_expression "(uVar20 ^ uVar30)" ( (binary_expression "uVar20 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" identifier + (parenthesized_expression "(uVar15 >> 0x13 | uVar15 * 0x2000)" ( (binary_expression "uVar15 >> 0x13 | uVar15 * 0x2000" (binary_expression "uVar15 >> 0x13" identifier >> number_literal) | (binary_expression "uVar15 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;" (assignment_expression "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" identifier = (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44" (parenthesized_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29)" ( (binary_expression "(uVar31 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar20" (parenthesized_expression "(uVar31 ^ uVar29)" ( (binary_expression "uVar31 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier + (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" ( (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" identifier >> number_literal) | (binary_expression "uVar5 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;" (assignment_expression "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" identifier = (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar8 ^ uVar32)" ( (binary_expression "uVar14 ^ uVar8 ^ uVar32" (binary_expression "uVar14 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;" (assignment_expression "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" identifier = (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar20 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar20 ^ uVar15) & uVar31" (parenthesized_expression "(uVar20 ^ uVar15)" ( (binary_expression "uVar20 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);" (assignment_expression "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier = (binary_expression "uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier + (parenthesized_expression "(uVar5 >> 0x17 | uVar5 * 0x200)" ( (binary_expression "uVar5 >> 0x17 | uVar5 * 0x200" (binary_expression "uVar5 >> 0x17" identifier >> number_literal) | (binary_expression "uVar5 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54" (parenthesized_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9)" ( (binary_expression "(uVar28 ^ uVar9) & uVar13 ^ uVar9" (binary_expression "(uVar28 ^ uVar9) & uVar13" (parenthesized_expression "(uVar28 ^ uVar9)" ( (binary_expression "uVar28 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30" (parenthesized_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8)" ( (binary_expression "(uVar31 ^ uVar8) & uVar5 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar5" (parenthesized_expression "(uVar31 ^ uVar8)" ( (binary_expression "uVar31 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" identifier = (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28)" ( (binary_expression "(uVar28 ^ uVar30) & uVar29 ^ uVar28" (binary_expression "(uVar28 ^ uVar30) & uVar29" (parenthesized_expression "(uVar28 ^ uVar30)" ( (binary_expression "uVar28 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier + (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" ( (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" identifier >> number_literal) | (binary_expression "uVar7 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19)" ( (binary_expression "(uVar5 ^ uVar19) & uVar20 ^ uVar19" (binary_expression "(uVar5 ^ uVar19) & uVar20" (parenthesized_expression "(uVar5 ^ uVar19)" ( (binary_expression "uVar5 ^ uVar19" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" identifier + (parenthesized_expression "(uVar15 >> 0x11 | uVar15 * 0x8000)" ( (binary_expression "uVar15 >> 0x11 | uVar15 * 0x8000" (binary_expression "uVar15 >> 0x11" identifier >> number_literal) | (binary_expression "uVar15 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;" (assignment_expression "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400" identifier = (binary_expression "uVar28 >> 0x16 | uVar28 * 0x400" (binary_expression "uVar28 >> 0x16" identifier >> number_literal) | (binary_expression "uVar28 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c" (parenthesized_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7)" ( (binary_expression "(uVar20 ^ uVar7) & uVar5 ^ uVar7" (binary_expression "(uVar20 ^ uVar7) & uVar5" (parenthesized_expression "(uVar20 ^ uVar7)" ( (binary_expression "uVar20 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60" (parenthesized_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar28" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" identifier = (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13)" ( (binary_expression "(uVar5 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar5 ^ uVar13) & uVar31" (parenthesized_expression "(uVar5 ^ uVar13)" ( (binary_expression "uVar5 ^ uVar13" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;" (assignment_expression "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" identifier = (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50" (parenthesized_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar25) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar25) & uVar8" (parenthesized_expression "(uVar14 ^ uVar25)" ( (binary_expression "uVar14 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;" (assignment_expression "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" identifier = (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48" (parenthesized_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15)" ( (binary_expression "(uVar31 ^ uVar15) & uVar9 ^ uVar15" (binary_expression "(uVar31 ^ uVar15) & uVar9" (parenthesized_expression "(uVar31 ^ uVar15)" ( (binary_expression "uVar31 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;" (assignment_expression "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58" (parenthesized_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar20" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier + (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" ( (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" identifier >> number_literal) | (binary_expression "uVar13 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c" (parenthesized_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar5) & uVar19 ^ uVar25" (binary_expression "(uVar25 ^ uVar5) & uVar19" (parenthesized_expression "(uVar25 ^ uVar5)" ( (binary_expression "uVar25 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;" (assignment_expression "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" identifier = (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" ( (binary_expression "uVar5 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier = (binary_expression "uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier + (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" ( (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" identifier >> number_literal) | (binary_expression "uVar7 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;" (assignment_expression "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64" (parenthesized_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13)" ( (binary_expression "(uVar20 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar20 ^ uVar13) & uVar31" (parenthesized_expression "(uVar20 ^ uVar13)" ( (binary_expression "uVar20 ^ uVar13" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58" (parenthesized_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar9) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar7" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34" (parenthesized_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8)" ( (binary_expression "(uVar31 ^ uVar8) & uVar14 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar14" (parenthesized_expression "(uVar31 ^ uVar8)" ( (binary_expression "uVar31 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;" (assignment_expression "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" identifier = (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40" (parenthesized_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar14 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar14 ^ uVar15) & uVar31" (parenthesized_expression "(uVar14 ^ uVar15)" ( (binary_expression "uVar14 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" ( (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29)" ( (binary_expression "(uVar31 ^ uVar29) & uVar14 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar14" (parenthesized_expression "(uVar31 ^ uVar29)" ( (binary_expression "uVar31 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" identifier = (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" ( (binary_expression "uVar5 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier + (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" ( (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" identifier >> number_literal) | (binary_expression "uVar8 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier = (binary_expression "uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier + (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" ( (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" identifier >> number_literal) | (binary_expression "uVar19 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30" (parenthesized_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar8) & uVar19 ^ uVar30" (binary_expression "(uVar30 ^ uVar8) & uVar19" (parenthesized_expression "(uVar30 ^ uVar8)" ( (binary_expression "uVar30 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" ( (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" ( (binary_expression "uVar8 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;" (assignment_expression "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar9) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar28" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;" (assignment_expression "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" ( (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier + (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" ( (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar19 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar8) & uVar19 ^ uVar5" (binary_expression "(uVar5 ^ uVar8) & uVar19" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;" (assignment_expression "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" identifier = (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar14 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar14 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar14 | uVar20)" ( (binary_expression "~uVar14 | uVar20" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" ( (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" ( (binary_expression "uVar8 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier + (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" ( (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" identifier >> number_literal) | (binary_expression "uVar13 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" identifier = (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44" (parenthesized_expression "((~uVar20 | uVar15) ^ uVar13)" ( (binary_expression "(~uVar20 | uVar15) ^ uVar13" (parenthesized_expression "(~uVar20 | uVar15)" ( (binary_expression "~uVar20 | uVar15" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" identifier = (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64" (parenthesized_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8)" ( (binary_expression "uVar30 ^ (uVar30 ^ uVar9) & uVar8" identifier ^ (binary_expression "(uVar30 ^ uVar9) & uVar8" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier)) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier + (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" ( (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" identifier >> number_literal) | (binary_expression "uVar19 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" identifier = (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" ( (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier + (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" ( (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar28 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" identifier = (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar28)" ( (binary_expression "(~uVar5 | uVar30) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar30)" ( (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30" (parenthesized_expression "((~uVar9 | uVar25) ^ uVar19)" ( (binary_expression "(~uVar9 | uVar25) ^ uVar19" (parenthesized_expression "(~uVar9 | uVar25)" ( (binary_expression "~uVar9 | uVar25" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar25 | uVar14) ^ uVar13)" ( (binary_expression "(~uVar25 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar25 | uVar14)" ( (binary_expression "~uVar25 | uVar14" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar30 | uVar15) ^ uVar7)" ( (binary_expression "(~uVar30 | uVar15) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar15)" ( (binary_expression "~uVar30 | uVar15" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier + (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" ( (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" identifier >> number_literal) | (binary_expression "uVar29 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" identifier = (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" ( (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;" (assignment_expression "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" identifier = (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar31 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar31 | uVar20)" ( (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" identifier = (binary_expression "uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" identifier + (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" ( (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" identifier >> number_literal) | (binary_expression "uVar13 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" identifier = (binary_expression "uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" identifier + (parenthesized_expression "(uVar30 >> 0x17 | uVar30 * 0x200)" ( (binary_expression "uVar30 >> 0x17 | uVar30 * 0x200" (binary_expression "uVar30 >> 0x17" identifier >> number_literal) | (binary_expression "uVar30 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;" (assignment_expression "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" identifier = (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar13)" ( (binary_expression "(~uVar5 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar30)" ( (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" identifier = (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68" (parenthesized_expression "((~uVar30 | uVar9) ^ uVar19)" ( (binary_expression "(~uVar30 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar30 | uVar9)" ( (binary_expression "~uVar30 | uVar9" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);" (assignment_expression "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" identifier + (parenthesized_expression "(uVar29 >> 0x11 | uVar29 * 0x8000)" ( (binary_expression "uVar29 >> 0x11 | uVar29 * 0x8000" (binary_expression "uVar29 >> 0x11" identifier >> number_literal) | (binary_expression "uVar29 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" ( (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" ( (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar29)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar29" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier = (binary_expression "uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier + (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" ( (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar28 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;" (assignment_expression "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" identifier = (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar9 | uVar15) ^ uVar28)" ( (binary_expression "(~uVar9 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar9 | uVar15)" ( (binary_expression "~uVar9 | uVar15" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" identifier = (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50" (parenthesized_expression "((~uVar15 | uVar8) ^ uVar13)" ( (binary_expression "(~uVar15 | uVar8) ^ uVar13" (parenthesized_expression "(~uVar15 | uVar8)" ( (binary_expression "~uVar15 | uVar8" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier + (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" ( (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" identifier >> number_literal) | (binary_expression "uVar19 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar19)" ( (binary_expression "(~uVar31 | uVar20) ^ uVar19" (parenthesized_expression "(~uVar31 | uVar20)" ( (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" identifier = (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" ( (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" ( (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier + (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" ( (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" identifier >> number_literal) | (binary_expression "uVar29 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" identifier = (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar8 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar8 | uVar5)" ( (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" identifier + (parenthesized_expression "(uVar28 >> 0x13 | uVar28 * 0x2000)" ( (binary_expression "uVar28 >> 0x13 | uVar28 * 0x2000" (binary_expression "uVar28 >> 0x13" identifier >> number_literal) | (binary_expression "uVar28 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;" (assignment_expression "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" identifier = (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54" (parenthesized_expression "((~uVar5 | uVar15) ^ uVar28)" ( (binary_expression "(~uVar5 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar15)" ( (binary_expression "~uVar5 | uVar15" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);" (assignment_expression "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" identifier + (parenthesized_expression "(uVar13 >> 0x1a | uVar13 * 0x40)" ( (binary_expression "uVar13 >> 0x1a | uVar13 * 0x40" (binary_expression "uVar13 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar13 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;" (assignment_expression "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar31 | uVar30) ^ uVar13)" ( (binary_expression "(~uVar31 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar31 | uVar30)" ( (binary_expression "~uVar31 | uVar30" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38" (parenthesized_expression "((~uVar15 | uVar9) ^ uVar19)" ( (binary_expression "(~uVar15 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar15 | uVar9)" ( (binary_expression "~uVar15 | uVar9" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" identifier + (parenthesized_expression "(uVar29 >> 0x1b | uVar29 * 0x20)" ( (binary_expression "uVar29 >> 0x1b | uVar29 * 0x20" (binary_expression "uVar29 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar29 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" identifier = (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40" (parenthesized_expression "((~uVar9 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar9 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar9 | uVar5)" ( (binary_expression "~uVar9 | uVar5" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c" (parenthesized_expression "((~uVar30 | uVar25) ^ uVar7)" ( (binary_expression "(~uVar30 | uVar25) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar25)" ( (binary_expression "~uVar30 | uVar25" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;" (assignment_expression "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" identifier = (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar25 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar25 | uVar20)" ( (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" identifier = (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar5 | uVar14) ^ uVar13)" ( (binary_expression "(~uVar5 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar14)" ( (binary_expression "~uVar5 | uVar14" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier = (binary_expression "uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier + (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" ( (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" identifier >> number_literal) | (binary_expression "uVar19 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c" (parenthesized_expression "((~uVar14 | uVar30) ^ uVar19)" ( (binary_expression "(~uVar14 | uVar30) ^ uVar19" (parenthesized_expression "(~uVar14 | uVar30)" ( (binary_expression "~uVar14 | uVar30" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;" (assignment_expression "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" identifier = (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" ( (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier + (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" ( (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" identifier >> number_literal) | (binary_expression "uVar7 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;" (assignment_expression "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" identifier = (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c" (parenthesized_expression "((~uVar31 | uVar25) ^ uVar15)" ( (binary_expression "(~uVar31 | uVar25) ^ uVar15" (parenthesized_expression "(~uVar31 | uVar25)" ( (binary_expression "~uVar31 | uVar25" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);" (assignment_expression "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" identifier + (parenthesized_expression "(uVar9 >> 0x13 | uVar9 * 0x2000)" ( (binary_expression "uVar9 >> 0x13 | uVar9 * 0x2000" (binary_expression "uVar9 >> 0x13" identifier >> number_literal) | (binary_expression "uVar9 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" identifier = (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier + (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" ( (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" identifier >> number_literal) | (binary_expression "uVar7 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" identifier = (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier + (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" ( (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" identifier >> number_literal) | (binary_expression "uVar19 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" identifier + (parenthesized_expression "(uVar28 >> 0x17 | uVar28 * 0x200)" ( (binary_expression "uVar28 >> 0x17 | uVar28 * 0x200" (binary_expression "uVar28 >> 0x17" identifier >> number_literal) | (binary_expression "uVar28 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar29)" ( (binary_expression "(~uVar25 | uVar20) ^ uVar29" (parenthesized_expression "(~uVar25 | uVar20)" ( (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;" (assignment_expression "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" identifier = (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" ( (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" identifier = (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar14) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar14) & uVar28" (parenthesized_expression "(uVar5 ^ uVar14)" ( (binary_expression "uVar5 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier + (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" ( (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" identifier >> number_literal) | (binary_expression "uVar19 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" identifier = (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38" (parenthesized_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar9) & uVar19 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar19" (parenthesized_expression "(uVar14 ^ uVar9)" ( (binary_expression "uVar14 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;" (assignment_expression "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" identifier = (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7)" ( (binary_expression "(uVar31 ^ uVar7) & uVar29 ^ uVar7" (binary_expression "(uVar31 ^ uVar7) & uVar29" (parenthesized_expression "(uVar31 ^ uVar7)" ( (binary_expression "uVar31 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" identifier = (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15)" ( (binary_expression "(uVar29 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar29 ^ uVar15) & uVar5" (parenthesized_expression "(uVar29 ^ uVar15)" ( (binary_expression "uVar29 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;" (assignment_expression "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60" (parenthesized_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar13" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;" (assignment_expression "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400" identifier = (binary_expression "uVar29 >> 0x16 | uVar29 * 0x400" (binary_expression "uVar29 >> 0x16" identifier >> number_literal) | (binary_expression "uVar29 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);" (assignment_expression "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" identifier + (parenthesized_expression "(uVar14 >> 0x12 | uVar14 * 0x4000)" ( (binary_expression "uVar14 >> 0x12 | uVar14 * 0x4000" (binary_expression "uVar14 >> 0x12" identifier >> number_literal) | (binary_expression "uVar14 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;" (assignment_expression "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" identifier = (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28)" ( (binary_expression "(uVar5 ^ uVar28) & uVar31 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar31" (parenthesized_expression "(uVar5 ^ uVar28)" ( (binary_expression "uVar5 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;" (assignment_expression "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50" (parenthesized_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar29 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar29" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier = (binary_expression "uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier + (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" ( (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" identifier >> number_literal) | (binary_expression "uVar7 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" identifier = (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68" (parenthesized_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19)" ( (binary_expression "(uVar31 ^ uVar19) & uVar5 ^ uVar19" (binary_expression "(uVar31 ^ uVar19) & uVar5" (parenthesized_expression "(uVar31 ^ uVar19)" ( (binary_expression "uVar31 ^ uVar19" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" identifier = (binary_expression "uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" identifier + (parenthesized_expression "(uVar9 >> 0x1b | uVar9 * 0x20)" ( (binary_expression "uVar9 >> 0x1b | uVar9 * 0x20" (binary_expression "uVar9 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar9 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;" (assignment_expression "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" identifier = (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30" (parenthesized_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar20) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar20) & uVar8" (parenthesized_expression "(uVar14 ^ uVar20)" ( (binary_expression "uVar14 ^ uVar20" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7)" ( (binary_expression "(uVar5 ^ uVar7) & uVar15 ^ uVar7" (binary_expression "(uVar5 ^ uVar7) & uVar15" (parenthesized_expression "(uVar5 ^ uVar7)" ( (binary_expression "uVar5 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier = (binary_expression "uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;" (assignment_expression "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" identifier = (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" ( (binary_expression "uVar15 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;" (assignment_expression "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" identifier = (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34" (parenthesized_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20)" ( (binary_expression "(uVar20 ^ uVar31) & uVar13 ^ uVar20" (binary_expression "(uVar20 ^ uVar31) & uVar13" (parenthesized_expression "(uVar20 ^ uVar31)" ( (binary_expression "uVar20 ^ uVar31" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier + (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" ( (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" identifier >> number_literal) | (binary_expression "uVar19 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;" (assignment_expression "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" identifier = (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58" (parenthesized_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31)" ( (binary_expression "(uVar31 ^ uVar30) & uVar19 ^ uVar31" (binary_expression "(uVar31 ^ uVar30) & uVar19" (parenthesized_expression "(uVar31 ^ uVar30)" ( (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier + (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" ( (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar15 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8)" ( (binary_expression "(uVar5 ^ uVar8) & uVar15 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar15" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier + (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" ( (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" identifier >> number_literal) | (binary_expression "uVar28 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;" (assignment_expression "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" identifier = (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" ( (binary_expression "uVar15 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);" (assignment_expression "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" identifier + (parenthesized_expression "(uVar29 >> 0x1a | uVar29 * 0x40)" ( (binary_expression "uVar29 >> 0x1a | uVar29 * 0x40" (binary_expression "uVar29 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar29 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" identifier + (parenthesized_expression "(uVar15 >> 0x17 | uVar15 * 0x200)" ( (binary_expression "uVar15 >> 0x17 | uVar15 * 0x200" (binary_expression "uVar15 >> 0x17" identifier >> number_literal) | (binary_expression "uVar15 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64" (parenthesized_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8)" ( (binary_expression "(uVar5 ^ uVar8) & uVar9 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar9" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" identifier = (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38" (parenthesized_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15)" ( (binary_expression "(uVar9 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar9 ^ uVar15) & uVar5" (parenthesized_expression "(uVar9 ^ uVar15)" ( (binary_expression "uVar9 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier + (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" ( (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" identifier >> number_literal) | (binary_expression "uVar29 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" identifier = (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar5 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar9" (parenthesized_expression "(uVar5 ^ uVar28)" ( (binary_expression "uVar5 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier + (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" ( (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" identifier >> number_literal) | (binary_expression "uVar8 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" identifier = (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uStack_84 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uStack_84" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54" (parenthesized_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar8 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar8" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" identifier + (parenthesized_expression "(uVar13 >> 0x1b | uVar13 * 0x20)" ( (binary_expression "uVar13 >> 0x1b | uVar13 * 0x20" (binary_expression "uVar13 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar13 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" identifier = (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44" (parenthesized_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15)" ( (binary_expression "(uStack_84 ^ uVar15) & uStack_80 ^ uVar15" (binary_expression "(uStack_84 ^ uVar15) & uStack_80" (parenthesized_expression "(uStack_84 ^ uVar15)" ( (binary_expression "uStack_84 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;" (assignment_expression "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" identifier = (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64" (parenthesized_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar9) & uVar13 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar13" (parenthesized_expression "(uVar14 ^ uVar9)" ( (binary_expression "uVar14 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;" (assignment_expression "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400" identifier = (binary_expression "uStack_7c >> 0x16 | uStack_7c * 0x400" (binary_expression "uStack_7c >> 0x16" identifier >> number_literal) | (binary_expression "uStack_7c * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c" (parenthesized_expression "((~uVar7 | uStack_7c) ^ uVar5)" ( (binary_expression "(~uVar7 | uStack_7c) ^ uVar5" (parenthesized_expression "(~uVar7 | uStack_7c)" ( (binary_expression "~uVar7 | uStack_7c" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);" (assignment_expression "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier + (parenthesized_expression "(uVar8 >> 0x17 | uVar8 * 0x200)" ( (binary_expression "uVar8 >> 0x17 | uVar8 * 0x200" (binary_expression "uVar8 >> 0x17" identifier >> number_literal) | (binary_expression "uVar8 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c" (parenthesized_expression "((~uVar28 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar28 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar28 | uVar5)" ( (binary_expression "~uVar28 | uVar5" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" identifier = (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58" (parenthesized_expression "((~uVar19 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar19 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar19 | uVar30)" ( (binary_expression "~uVar19 | uVar30" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" identifier = (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar8 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar8 | uVar5)" ( (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;" (assignment_expression "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" identifier = (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50" (parenthesized_expression "((~uVar13 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar13 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar30)" ( (binary_expression "~uVar13 | uVar30" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier + (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" ( (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar19 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" ( (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64" (parenthesized_expression "((~uVar28 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar28 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar30)" ( (binary_expression "~uVar28 | uVar30" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier + (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" ( (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" identifier >> number_literal) | (binary_expression "uVar13 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" identifier = (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar19 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar5)" ( (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);" (assignment_expression "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" identifier + (parenthesized_expression "(uVar7 >> 0x14 | uVar7 * 0x1000)" ( (binary_expression "uVar7 >> 0x14 | uVar7 * 0x1000" (binary_expression "uVar7 >> 0x14" identifier >> number_literal) | (binary_expression "uVar7 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" identifier = (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34" (parenthesized_expression "((~uVar8 | uVar30) ^ uVar14)" ( (binary_expression "(~uVar8 | uVar30) ^ uVar14" (parenthesized_expression "(~uVar8 | uVar30)" ( (binary_expression "~uVar8 | uVar30" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier + (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" ( (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar28 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;" (assignment_expression "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" identifier = (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68" (parenthesized_expression "((~uVar13 | uVar14) ^ uVar5)" ( (binary_expression "(~uVar13 | uVar14) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar14)" ( (binary_expression "~uVar13 | uVar14" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_74 = ~uStack_78;" (assignment_expression "uStack_74 = ~uStack_78" identifier = (unary_expression "~uStack_78" ~ identifier)) ;) (expression_statement "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;" (assignment_expression "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400" identifier = (binary_expression "uStack_84 >> 0x16 | uStack_84 * 0x400" (binary_expression "uStack_84 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_84 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" identifier = (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34" (parenthesized_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28)" ( (binary_expression "(uStack_80 ^ uVar28) & uStack_7c ^ uVar28" (binary_expression "(uStack_80 ^ uVar28) & uStack_7c" (parenthesized_expression "(uStack_80 ^ uVar28)" ( (binary_expression "uStack_80 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;" (assignment_expression "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400" identifier = (binary_expression "uStack_80 >> 0x16 | uStack_80 * 0x400" (binary_expression "uStack_80 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_80 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" ( (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" identifier = (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar29 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar29 ^ uVar14" (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" identifier + (parenthesized_expression "(uVar15 >> 0x18 | uVar15 * 0x100)" ( (binary_expression "uVar15 >> 0x18 | uVar15 * 0x100" (binary_expression "uVar15 >> 0x18" identifier >> number_literal) | (binary_expression "uVar15 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier + (parenthesized_expression "(uVar8 >> 0x13 | uVar8 * 0x2000)" ( (binary_expression "uVar8 >> 0x13 | uVar8 * 0x2000" (binary_expression "uVar8 >> 0x13" identifier >> number_literal) | (binary_expression "uVar8 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;" (assignment_expression "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" identifier = (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar19 ^ uVar31)" ( (binary_expression "uVar14 ^ uVar19 ^ uVar31" (binary_expression "uVar14 ^ uVar19" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier + (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" ( (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar28 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;" (assignment_expression "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" identifier = (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c" (parenthesized_expression "((~uStack_a0 | uVar30) ^ uVar15)" ( (binary_expression "(~uStack_a0 | uVar30) ^ uVar15" (parenthesized_expression "(~uStack_a0 | uVar30)" ( (binary_expression "~uStack_a0 | uVar30" (unary_expression "~uStack_a0" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier + (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" ( (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" identifier >> number_literal) | (binary_expression "uVar8 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;" (assignment_expression "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" identifier = (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44" (parenthesized_expression "(uVar31 ^ uVar28 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar28 ^ uVar9" (binary_expression "uVar31 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier + (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" ( (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" identifier >> number_literal) | (binary_expression "uVar29 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;" (assignment_expression "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" identifier = (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40" (parenthesized_expression "((uStack_74 | uVar15) ^ uVar5)" ( (binary_expression "(uStack_74 | uVar15) ^ uVar5" (parenthesized_expression "(uStack_74 | uVar15)" ( (binary_expression "uStack_74 | uVar15" identifier | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;" (assignment_expression "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" identifier = (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);" (assignment_expression "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" identifier = (binary_expression "uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" identifier + (parenthesized_expression "(uVar29 >> 0x15 | uVar29 * 0x800)" ( (binary_expression "uVar29 >> 0x15 | uVar29 * 0x800" (binary_expression "uVar29 >> 0x15" identifier >> number_literal) | (binary_expression "uVar29 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;" (assignment_expression "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" identifier = (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;" (assignment_expression "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;" (assignment_expression "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" identifier = (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c" (parenthesized_expression "(uVar14 ^ uVar28 ^ uVar8)" ( (binary_expression "uVar14 ^ uVar28 ^ uVar8" (binary_expression "uVar14 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;" (assignment_expression "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" identifier = (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50" (parenthesized_expression "(uVar8 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar8 ^ uVar29 ^ uVar9" (binary_expression "uVar8 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier = (binary_expression "uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;" (assignment_expression "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar30" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" identifier + (parenthesized_expression "(uVar28 >> 0x18 | uVar28 * 0x100)" ( (binary_expression "uVar28 >> 0x18 | uVar28 * 0x100" (binary_expression "uVar28 >> 0x18" identifier >> number_literal) | (binary_expression "uVar28 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;" (assignment_expression "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" identifier = (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar30 ^ uVar8 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar8 ^ uVar9" (binary_expression "uVar30 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;" (assignment_expression "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" identifier = (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38" (parenthesized_expression "(uVar9 ^ uVar28 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar28 ^ uVar14" (binary_expression "uVar9 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;" (assignment_expression "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" identifier = (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34" (parenthesized_expression "(uVar14 ^ uVar29 ^ uVar30)" ( (binary_expression "uVar14 ^ uVar29 ^ uVar30" (binary_expression "uVar14 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;" (assignment_expression "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" identifier = (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c" (parenthesized_expression "(uVar30 ^ uVar7 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar7 ^ uVar9" (binary_expression "uVar30 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;" (assignment_expression "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" identifier = (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54" (parenthesized_expression "((~uVar13 | uVar5) ^ uVar15)" ( (binary_expression "(~uVar13 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar5)" ( (binary_expression "~uVar13 | uVar5" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);" (assignment_expression "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" identifier + (parenthesized_expression "(uVar30 >> 0x11 | uVar30 * 0x8000)" ( (binary_expression "uVar30 >> 0x11 | uVar30 * 0x8000" (binary_expression "uVar30 >> 0x11" identifier >> number_literal) | (binary_expression "uVar30 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;" (assignment_expression "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" identifier = (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);" (assignment_expression "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" identifier + (parenthesized_expression "(uVar14 >> 0x13 | uVar14 * 0x2000)" ( (binary_expression "uVar14 >> 0x13 | uVar14 * 0x2000" (binary_expression "uVar14 >> 0x13" identifier >> number_literal) | (binary_expression "uVar14 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;" (assignment_expression "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" identifier = (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar5)" ( (binary_expression "(~uVar28 | uVar15) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar15)" ( (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;" (assignment_expression "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" identifier = (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;" (assignment_expression "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar15)" ( (binary_expression "(~uVar19 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar5)" ( (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;" (assignment_expression "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);" (assignment_expression "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" (pointer_expression "*(uint *)(local_a8 + 0x58)" * (cast_expression "(uint *)(local_a8 + 0x58)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x58)" ( (binary_expression "local_a8 + 0x58" identifier + number_literal) )))) = (binary_expression "uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" identifier + (parenthesized_expression "(uVar5 >> 0x16 | uVar5 * 0x400)" ( (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;" (assignment_expression "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28" (pointer_expression "*(uint *)(local_a8 + 0x4c)" * (cast_expression "(uint *)(local_a8 + 0x4c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x4c)" ( (binary_expression "local_a8 + 0x4c" identifier + number_literal) )))) = (binary_expression "iStack_a4 + uVar28" identifier + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (pointer_expression "*(uint *)(local_a8 + 0x50)" * (cast_expression "(uint *)(local_a8 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x50)" ( (binary_expression "local_a8 + 0x50" identifier + number_literal) )))) = (binary_expression "uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (binary_expression "uStack_b8 + uVar28" identifier + identifier) + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;" (assignment_expression "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29" (pointer_expression "*(uint *)(local_a8 + 0x60)" * (cast_expression "(uint *)(local_a8 + 0x60)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x60)" ( (binary_expression "local_a8 + 0x60" identifier + number_literal) )))) = (binary_expression "iStack_98 + uVar29" identifier + identifier)) ;) (expression_statement "uVar28 = *puVar26;" (assignment_expression "uVar28 = *puVar26" identifier = (pointer_expression "*puVar26" * identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;" (assignment_expression "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15" (pointer_expression "*(uint *)(local_a8 + 0x54)" * (cast_expression "(uint *)(local_a8 + 0x54)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x54)" ( (binary_expression "local_a8 + 0x54" identifier + number_literal) )))) = (binary_expression "uStack_b4 + uVar15" identifier + identifier)) ;) (expression_statement "iVar21 = iStack_9c + uVar7;" (assignment_expression "iVar21 = iStack_9c + uVar7" identifier = (binary_expression "iStack_9c + uVar7" identifier + identifier)) ;) (expression_statement "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);" (assignment_expression "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" identifier = (binary_expression "uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" identifier + (parenthesized_expression "(uVar9 >> 0x16 | uVar9 * 0x400)" ( (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal)) )))) ;) (expression_statement "*(int *)(local_a8 + 0x5c) = iVar21;" (assignment_expression "*(int *)(local_a8 + 0x5c) = iVar21" (pointer_expression "*(int *)(local_a8 + 0x5c)" * (cast_expression "(int *)(local_a8 + 0x5c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x5c)" ( (binary_expression "local_a8 + 0x5c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (pointer_expression "*(uint *)(local_a8 + 100)" * (cast_expression "(uint *)(local_a8 + 100)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 100)" ( (binary_expression "local_a8 + 100" identifier + number_literal) )))) = (binary_expression "uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (binary_expression "uStack_94 + uVar29" identifier + identifier) + (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" ( (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" identifier >> number_literal) | (binary_expression "uVar13 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19;" (assignment_expression "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19" (pointer_expression "*(uint *)(local_a8 + 0x70)" * (cast_expression "(uint *)(local_a8 + 0x70)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x70)" ( (binary_expression "local_a8 + 0x70" identifier + number_literal) )))) = (binary_expression "iVar23 + uVar19" identifier + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14;" (assignment_expression "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14" (pointer_expression "*(uint *)(local_a8 + 0x68)" * (cast_expression "(uint *)(local_a8 + 0x68)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x68)" ( (binary_expression "local_a8 + 0x68" identifier + number_literal) )))) = (binary_expression "uVar12 + uVar14" identifier + identifier)) ;) (expression_statement "*(int *)(local_a8 + 0x6c) = iVar24;" (assignment_expression "*(int *)(local_a8 + 0x6c) = iVar24" (pointer_expression "*(int *)(local_a8 + 0x6c)" * (cast_expression "(int *)(local_a8 + 0x6c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x6c)" ( (binary_expression "local_a8 + 0x6c" identifier + number_literal) )))) = identifier) ;) (if_statement "if (local_2c[0] == uVar28) {\n return;\n }" if (parenthesized_expression "(local_2c[0] == uVar28)" ( (binary_expression "local_2c[0] == uVar28" (subscript_expression "local_2c[0]" identifier [ number_literal ]) == identifier) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "uVar33 = 0x11abc;" (assignment_expression "uVar33 = 0x11abc" identifier = number_literal) ;) (expression_statement "uStack_ac = uVar19;" (assignment_expression "uStack_ac = uVar19" identifier = identifier) ;) (expression_statement "uStack_90 = uVar12;" (assignment_expression "uStack_90 = uVar12" identifier = identifier) ;) (expression_statement "uStack_8c = uVar27;" (assignment_expression "uStack_8c = uVar27" identifier = identifier) ;) (expression_statement "iStack_88 = iVar23;" (assignment_expression "iStack_88 = iVar23" identifier = identifier) ;) (expression_statement "uVar36 = FUN_00011ab8(0);" (assignment_expression "uVar36 = FUN_00011ab8(0)" identifier = (call_expression "FUN_00011ab8(0)" identifier (argument_list "(0)" ( number_literal )))) ;) (expression_statement "piVar2 = piRam00011d3c;" (assignment_expression "piVar2 = piRam00011d3c" identifier = identifier) ;) (expression_statement "iVar22 = (int)((ulonglong)uVar36 >> 0x20);" (assignment_expression "iVar22 = (int)((ulonglong)uVar36 >> 0x20)" identifier = (cast_expression "(int)((ulonglong)uVar36 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar36 >> 0x20)" ( (binary_expression "(ulonglong)uVar36 >> 0x20" (cast_expression "(ulonglong)uVar36" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "puVar17 = (uint *)uVar36;" (assignment_expression "puVar17 = (uint *)uVar36" identifier = (cast_expression "(uint *)uVar36" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) (expression_statement "uStack_d8 = uVar16;" (assignment_expression "uStack_d8 = uVar16" identifier = identifier) ;) (expression_statement "iStack_dc = *piRam00011d3c;" (assignment_expression "iStack_dc = *piRam00011d3c" identifier = (pointer_expression "*piRam00011d3c" * identifier)) ;) (expression_statement "uVar35 = puVar17 == (uint *)0x0;" (assignment_expression "uVar35 = puVar17 == (uint *)0x0" identifier = (binary_expression "puVar17 == (uint *)0x0" identifier == (cast_expression "(uint *)0x0" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ;) (expression_statement "iStack_d4 = iVar21;" (assignment_expression "iStack_d4 = iVar21" identifier = identifier) ;) (expression_statement "uStack_d0 = uVar27;" (assignment_expression "uStack_d0 = uVar27" identifier = identifier) ;) (expression_statement "uStack_cc = uVar19;" (assignment_expression "uStack_cc = uVar19" identifier = identifier) ;) (expression_statement "iStack_c8 = iVar24;" (assignment_expression "iStack_c8 = iVar24" identifier = identifier) ;) (expression_statement "iStack_c4 = iVar23;" (assignment_expression "iStack_c4 = iVar23" identifier = identifier) ;) (expression_statement "uStack_c0 = uVar12;" (assignment_expression "uStack_c0 = uVar12" identifier = identifier) ;) (expression_statement "uStack_bc = uVar33;" (assignment_expression "uStack_bc = uVar33" identifier = identifier) ;) (expression_statement "uVar1 = CONCAT44(iVar21,puVar17);" (assignment_expression "uVar1 = CONCAT44(iVar21,puVar17)" identifier = (call_expression "CONCAT44(iVar21,puVar17)" identifier (argument_list "(iVar21,puVar17)" ( identifier , identifier )))) ;) (if_statement "if ((bool)uVar35) goto LAB_00011d2c;" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (goto_statement "goto LAB_00011d2c;" goto statement_identifier ;)) (expression_statement "uVar35 = iVar22 == 0;" (assignment_expression "uVar35 = iVar22 == 0" identifier = (binary_expression "iVar22 == 0" identifier == number_literal)) ;) (if_statement "if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" if (parenthesized_expression "(!(bool)uVar35)" ( (unary_expression "!(bool)uVar35" ! (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier)) )) (compound_statement "{\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" { (expression_statement "uVar28 = puVar17[0x12];" (assignment_expression "uVar28 = puVar17[0x12]" identifier = (subscript_expression "puVar17[0x12]" identifier [ number_literal ])) ;) (if_statement "if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }" if (parenthesized_expression "(uVar28 < 0x40)" ( (binary_expression "uVar28 < 0x40" identifier < number_literal) )) (compound_statement "{\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }" { (expression_statement "uVar29 = *puVar17 + uVar28 * 8;" (assignment_expression "uVar29 = *puVar17 + uVar28 * 8" identifier = (binary_expression "*puVar17 + uVar28 * 8" (pointer_expression "*puVar17" * identifier) + (binary_expression "uVar28 * 8" identifier * number_literal))) ;) (expression_statement "uVar16 = uVar28 + 1;" (assignment_expression "uVar16 = uVar28 + 1" identifier = (binary_expression "uVar28 + 1" identifier + number_literal)) ;) (expression_statement "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);" (assignment_expression "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" identifier = (binary_expression "puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" (subscript_expression "puVar17[1]" identifier [ number_literal ]) + (cast_expression "(uint)CARRY4(*puVar17,uVar28 * 8)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(*puVar17,uVar28 * 8)" identifier (argument_list "(*puVar17,uVar28 * 8)" ( (pointer_expression "*puVar17" * identifier) , (binary_expression "uVar28 * 8" identifier * number_literal) )))))) ;) (expression_statement "*puVar17 = uVar29;" (assignment_expression "*puVar17 = uVar29" (pointer_expression "*puVar17" * identifier) = identifier) ;) (expression_statement "puVar17[1] = uVar13;" (assignment_expression "puVar17[1] = uVar13" (subscript_expression "puVar17[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar17[0x12] = uVar16;" (assignment_expression "puVar17[0x12] = uVar16" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = identifier) ;) (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 8)" ( (binary_expression "(int)puVar17 + uVar28 + 8" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" if (parenthesized_expression "(uVar16 < 0x39)" ( (binary_expression "uVar16 < 0x39" identifier < number_literal) )) (compound_statement "{\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }" { (if_statement "if (uVar16 != 0x38) goto LAB_00011b2c;" if (parenthesized_expression "(uVar16 != 0x38)" ( (binary_expression "uVar16 != 0x38" identifier != number_literal) )) (goto_statement "goto LAB_00011b2c;" goto statement_identifier ;)) }) (else_clause "else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" else (compound_statement "{\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" { (if_statement "if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" if (parenthesized_expression "(uVar16 != 0x40)" ( (binary_expression "uVar16 != 0x40" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 9)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 9)" ( (binary_expression "(int)puVar17 + uVar28 + 9" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3e)" ( (binary_expression "uVar28 != 0x3e" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 10)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 10)" ( (binary_expression "(int)puVar17 + uVar28 + 10" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3d)" ( (binary_expression "uVar28 != 0x3d" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xb)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xb)" ( (binary_expression "(int)puVar17 + uVar28 + 0xb" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3c)" ( (binary_expression "uVar28 != 0x3c" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xc)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xc)" ( (binary_expression "(int)puVar17 + uVar28 + 0xc" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" if (parenthesized_expression "(uVar28 != 0x3b)" ( (binary_expression "uVar28 != 0x3b" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xd)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xd)" ( (binary_expression "(int)puVar17 + uVar28 + 0xd" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" if (parenthesized_expression "((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38))" ( (binary_expression "(uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" (parenthesized_expression "(uVar28 != 0x3a)" ( (binary_expression "uVar28 != 0x3a" identifier != number_literal) )) && (parenthesized_expression "(*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" ( (comma_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xe)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xe)" ( (binary_expression "(int)puVar17 + uVar28 + 0xe" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) , (binary_expression "uVar28 == 0x38" identifier == number_literal)) ))) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + 0x47) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + 0x47) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + 0x47)" * (cast_expression "(undefined1 *)((int)puVar17 + 0x47)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x47)" ( (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = number_literal) ;) })) })) })) })) })) (expression_statement "puVar17[0x12] = 0x40;" (assignment_expression "puVar17[0x12] = 0x40" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = number_literal) ;) })) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" identifier (argument_list "(puVar17,puVar17 + 2)" ( identifier , (binary_expression "puVar17 + 2" identifier + number_literal) ))) ;) (expression_statement "uVar16 = 0;" (assignment_expression "uVar16 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;" statement_identifier : (expression_statement "uVar28 = 0x38 - uVar16 & 7;" (assignment_expression "uVar28 = 0x38 - uVar16 & 7" identifier = (binary_expression "0x38 - uVar16 & 7" (binary_expression "0x38 - uVar16" number_literal - identifier) & number_literal)) ;)) (expression_statement "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);" (assignment_expression "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8)" identifier = (cast_expression "(undefined1 *)((int)puVar17 + uVar16 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar16 + 8)" ( (binary_expression "(int)puVar17 + uVar16 + 8" (binary_expression "(int)puVar17 + uVar16" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) ;) (if_statement "if (uVar28 == 0) goto LAB_00011bb0;" if (parenthesized_expression "(uVar28 == 0)" ( (binary_expression "uVar28 == 0" identifier == number_literal) )) (goto_statement "goto LAB_00011bb0;" goto statement_identifier ;)) (if_statement "if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 1)" ( (binary_expression "uVar28 != 1" identifier != number_literal) )) (compound_statement "{\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (expression_statement "puVar11 = puVar10;" (assignment_expression "puVar11 = puVar10" identifier = identifier) ;) (if_statement "if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 2)" ( (binary_expression "uVar28 != 2" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (if_statement "if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 3)" ( (binary_expression "uVar28 != 3" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (if_statement "if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 4)" ( (binary_expression "uVar28 != 4" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (if_statement "if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 5)" ( (binary_expression "uVar28 != 5" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (if_statement "if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 6)" ( (binary_expression "uVar28 != 6" identifier != number_literal) )) (compound_statement "{\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) (expression_statement "puVar10 = puVar10 + 1;" (assignment_expression "puVar10 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (for_statement "for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" for ( (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ; (binary_expression "uVar16 != 0x38" identifier != number_literal) ; (assignment_expression "uVar16 = uVar16 + 8" identifier = (binary_expression "uVar16 + 8" identifier + number_literal)) ) (compound_statement "{\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" { (labeled_statement "LAB_00011bb0:\n *puVar10 = 0;" statement_identifier : (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;)) (expression_statement "puVar10[1] = 0;" (assignment_expression "puVar10[1] = 0" (subscript_expression "puVar10[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[2] = 0;" (assignment_expression "puVar10[2] = 0" (subscript_expression "puVar10[2]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[3] = 0;" (assignment_expression "puVar10[3] = 0" (subscript_expression "puVar10[3]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[4] = 0;" (assignment_expression "puVar10[4] = 0" (subscript_expression "puVar10[4]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[5] = 0;" (assignment_expression "puVar10[5] = 0" (subscript_expression "puVar10[5]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[6] = 0;" (assignment_expression "puVar10[6] = 0" (subscript_expression "puVar10[6]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[7] = 0;" (assignment_expression "puVar10[7] = 0" (subscript_expression "puVar10[7]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10 = puVar10 + 8;" (assignment_expression "puVar10 = puVar10 + 8" identifier = (binary_expression "puVar10 + 8" identifier + number_literal)) ;) })) (expression_statement "uVar29 = *puVar17;" (assignment_expression "uVar29 = *puVar17" identifier = (pointer_expression "*puVar17" * identifier)) ;) (expression_statement "uVar13 = puVar17[1];" (assignment_expression "uVar13 = puVar17[1]" identifier = (subscript_expression "puVar17[1]" identifier [ number_literal ])) ;) (expression_statement "puVar17[0x12] = 0x38;" (assignment_expression "puVar17[0x12] = 0x38" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = number_literal) ;) }))) (expression_statement "*(char *)(puVar17 + 0x10) = (char)uVar29;" (assignment_expression "*(char *)(puVar17 + 0x10) = (char)uVar29" (pointer_expression "*(char *)(puVar17 + 0x10)" * (cast_expression "(char *)(puVar17 + 0x10)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar17 + 0x10)" ( (binary_expression "puVar17 + 0x10" identifier + number_literal) )))) = (cast_expression "(char)uVar29" ( (type_descriptor "char" primitive_type) ) identifier)) ;) (expression_statement "uVar16 = uVar29 >> 0x10;" (assignment_expression "uVar16 = uVar29 >> 0x10" identifier = (binary_expression "uVar29 >> 0x10" identifier >> number_literal)) ;) (expression_statement "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x47)" * (cast_expression "(char *)((int)puVar17 + 0x47)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x47)" ( (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 0x18)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 0x18)" ( (binary_expression "uVar13 >> 0x18" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x43)" * (cast_expression "(char *)((int)puVar17 + 0x43)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x43)" ( (binary_expression "(int)puVar17 + 0x43" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 0x18)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 0x18)" ( (binary_expression "uVar29 >> 0x18" identifier >> number_literal) )))) ;) (expression_statement "*(char *)(puVar17 + 0x11) = (char)uVar13;" (assignment_expression "*(char *)(puVar17 + 0x11) = (char)uVar13" (pointer_expression "*(char *)(puVar17 + 0x11)" * (cast_expression "(char *)(puVar17 + 0x11)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar17 + 0x11)" ( (binary_expression "puVar17 + 0x11" identifier + number_literal) )))) = (cast_expression "(char)uVar13" ( (type_descriptor "char" primitive_type) ) identifier)) ;) (expression_statement "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x46)" * (cast_expression "(char *)((int)puVar17 + 0x46)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x46)" ( (binary_expression "(int)puVar17 + 0x46" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 0x10)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 0x10)" ( (binary_expression "uVar13 >> 0x10" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x45)" * (cast_expression "(char *)((int)puVar17 + 0x45)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x45)" ( (binary_expression "(int)puVar17 + 0x45" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 8)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 8)" ( (binary_expression "uVar13 >> 8" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x42)" * (cast_expression "(char *)((int)puVar17 + 0x42)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x42)" ( (binary_expression "(int)puVar17 + 0x42" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 0x10)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 0x10)" ( (binary_expression "uVar29 >> 0x10" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x41)" * (cast_expression "(char *)((int)puVar17 + 0x41)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x41)" ( (binary_expression "(int)puVar17 + 0x41" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 8)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 8)" ( (binary_expression "uVar29 >> 8" identifier >> number_literal) )))) ;) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" identifier (argument_list "(puVar17,puVar17 + 2)" ( identifier , (binary_expression "puVar17 + 2" identifier + number_literal) ))) ;) (expression_statement "puVar26 = puVar17 + 0x12;" (assignment_expression "puVar26 = puVar17 + 0x12" identifier = (binary_expression "puVar17 + 0x12" identifier + number_literal)) ;) (do_statement "do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);" do (compound_statement "{\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n }" { (expression_statement "puVar26 = puVar26 + 1;" (assignment_expression "puVar26 = puVar26 + 1" identifier = (binary_expression "puVar26 + 1" identifier + number_literal)) ;) (expression_statement "uStack_e0 = *puVar26;" (assignment_expression "uStack_e0 = *puVar26" identifier = (pointer_expression "*puVar26" * identifier)) ;) (expression_statement "FUN_00011c4c(iVar22,&uStack_e0,4);" (call_expression "FUN_00011c4c(iVar22,&uStack_e0,4)" identifier (argument_list "(iVar22,&uStack_e0,4)" ( identifier , (pointer_expression "&uStack_e0" & identifier) , number_literal ))) ;) (expression_statement "iVar22 = iVar22 + 4;" (assignment_expression "iVar22 = iVar22 + 4" identifier = (binary_expression "iVar22 + 4" identifier + number_literal)) ;) (expression_statement "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);" (assignment_expression "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c)" identifier = (call_expression "CONCAT44(iVar22,puVar17 + 0x1c)" identifier (argument_list "(iVar22,puVar17 + 0x1c)" ( identifier , (binary_expression "puVar17 + 0x1c" identifier + number_literal) )))) ;) }) while (parenthesized_expression "(puVar17 + 0x1c != puVar26)" ( (binary_expression "puVar17 + 0x1c != puVar26" (binary_expression "puVar17 + 0x1c" identifier + number_literal) != identifier) )) ;) (expression_statement "uVar33 = 0;" (assignment_expression "uVar33 = 0" identifier = number_literal) ;) }) (else_clause "else {\n uVar33 = 0x10;\n }" else (compound_statement "{\n uVar33 = 0x10;\n }" { (expression_statement "uVar33 = 0x10;" (assignment_expression "uVar33 = 0x10" identifier = number_literal) ;) }))) (expression_statement "uVar35 = iStack_dc == *piVar2;" (assignment_expression "uVar35 = iStack_dc == *piVar2" identifier = (binary_expression "iStack_dc == *piVar2" identifier == (pointer_expression "*piVar2" * identifier))) ;) (if_statement "if ((bool)uVar35) {\n return;\n }" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_00011d18(uVar33);" (call_expression "FUN_00011d18(uVar33)" identifier (argument_list "(uVar33)" ( identifier ))) ;) })) (expression_statement "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);" (call_expression "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c)" identifier (argument_list "(uRam00011d44,uRam00011d40,0x17c)" ( identifier , identifier , number_literal ))) ;) (expression_statement "uVar1 = uVar36;" (assignment_expression "uVar1 = uVar36" identifier = identifier) ;) (labeled_statement "LAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);" statement_identifier : (expression_statement "iVar21 = (int)((ulonglong)uVar1 >> 0x20);" (assignment_expression "iVar21 = (int)((ulonglong)uVar1 >> 0x20)" identifier = (cast_expression "(int)((ulonglong)uVar1 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar1 >> 0x20)" ( (binary_expression "(ulonglong)uVar1 >> 0x20" (cast_expression "(ulonglong)uVar1" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;)) (expression_statement "UNRECOVERED_JUMPTABLE = (code *)0x11d3c;" (assignment_expression "UNRECOVERED_JUMPTABLE = (code *)0x11d3c" identifier = (cast_expression "(code *)0x11d3c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);" (assignment_expression "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" identifier = (cast_expression "(undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" identifier (argument_list "(uRam00011d4c,uRam00011d40,uRam00011d48)" ( identifier , identifier , identifier ))))) ;) (expression_statement "uVar33 = uRam00011de0;" (assignment_expression "uVar33 = uRam00011de0" identifier = identifier) ;) (if_statement "if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (compound_statement "{\n puVar6 = (undefined4 *)0x0;\n }" { (expression_statement "puVar6 = (undefined4 *)0x0;" (assignment_expression "puVar6 = (undefined4 *)0x0" identifier = (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) })) (expression_statement "bVar34 = false;" (assignment_expression "bVar34 = false" identifier = false) ;) (if_statement "if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" if (parenthesized_expression "(puVar6 != (undefined4 *)0x0)" ( (binary_expression "puVar6 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" { (expression_statement "puVar6[0x14] = uRam00011ddc;" (assignment_expression "puVar6[0x14] = uRam00011ddc" (subscript_expression "puVar6[0x14]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar4 = DAT_00011dec;" (assignment_expression "uVar4 = DAT_00011dec" identifier = identifier) ;) (expression_statement "uVar3 = DAT_00011de8;" (assignment_expression "uVar3 = DAT_00011de8" identifier = identifier) ;) (expression_statement "iVar21 = DAT_00011de4;" (assignment_expression "iVar21 = DAT_00011de4" identifier = identifier) ;) (expression_statement "puVar6[0x13] = uVar33;" (assignment_expression "puVar6[0x13] = uVar33" (subscript_expression "puVar6[0x13]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar33 = DAT_00011df0;" (assignment_expression "uVar33 = DAT_00011df0" identifier = identifier) ;) (expression_statement "puVar6[0x18] = iVar21;" (assignment_expression "puVar6[0x18] = iVar21" (subscript_expression "puVar6[0x18]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x15] = uVar3;" (assignment_expression "puVar6[0x15] = uVar3" (subscript_expression "puVar6[0x15]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x16] = uVar4;" (assignment_expression "puVar6[0x16] = uVar4" (subscript_expression "puVar6[0x16]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar4 = DAT_00011df8;" (assignment_expression "uVar4 = DAT_00011df8" identifier = identifier) ;) (expression_statement "uVar3 = DAT_00011df4;" (assignment_expression "uVar3 = DAT_00011df4" identifier = identifier) ;) (expression_statement "puVar6[0x17] = uVar33;" (assignment_expression "puVar6[0x17] = uVar33" (subscript_expression "puVar6[0x17]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar33 = DAT_00011dfc;" (assignment_expression "uVar33 = DAT_00011dfc" identifier = identifier) ;) (expression_statement "puVar6[0x12] = 0;" (assignment_expression "puVar6[0x12] = 0" (subscript_expression "puVar6[0x12]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "*puVar6 = 0;" (assignment_expression "*puVar6 = 0" (pointer_expression "*puVar6" * identifier) = number_literal) ;) (expression_statement "puVar6[1] = 0;" (assignment_expression "puVar6[1] = 0" (subscript_expression "puVar6[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar6[0x19] = uVar3;" (assignment_expression "puVar6[0x19] = uVar3" (subscript_expression "puVar6[0x19]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1a] = uVar4;" (assignment_expression "puVar6[0x1a] = uVar4" (subscript_expression "puVar6[0x1a]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1b] = uVar33;" (assignment_expression "puVar6[0x1b] = uVar33" (subscript_expression "puVar6[0x1b]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1c] = iVar21 + -0x3a271401;" (assignment_expression "puVar6[0x1c] = iVar21 + -0x3a271401" (subscript_expression "puVar6[0x1c]" identifier [ number_literal ]) = (binary_expression "iVar21 + -0x3a271401" identifier + number_literal)) ;) comment comment (expression_statement "(*UNRECOVERED_JUMPTABLE)();" (call_expression "(*UNRECOVERED_JUMPTABLE)()" (parenthesized_expression "(*UNRECOVERED_JUMPTABLE)" ( (pointer_expression "*UNRECOVERED_JUMPTABLE" * identifier) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })) (expression_statement "uVar35 = 0x58;" (assignment_expression "uVar35 = 0x58" identifier = number_literal) ;) (expression_statement "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);" (call_expression "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" identifier (argument_list "(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" ( identifier , identifier , number_literal , number_literal , identifier , identifier , (cast_expression "(int)uVar1" ( (type_descriptor "int" primitive_type) ) identifier) ))) ;) (expression_statement "software_interrupt(0xcdab89);" (call_expression "software_interrupt(0xcdab89)" identifier (argument_list "(0xcdab89)" ( number_literal ))) ;) (if_statement "if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" if (parenthesized_expression "(bVar34)" ( identifier )) (compound_statement "{\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" { (expression_statement "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;" (assignment_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35" (pointer_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40)" * (cast_expression "(undefined1 *)(iVar21 + extraout_r1 * -0x40)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar21 + extraout_r1 * -0x40)" ( (binary_expression "iVar21 + extraout_r1 * -0x40" identifier + (binary_expression "extraout_r1 * -0x40" identifier * number_literal)) )))) = identifier) ;) })) comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n\nint rmd320_compress(hash_state *md,uchar *buf)\n\n{\n ulong32 *puVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n ulong32 *__dest;\n ulong32 *puVar11;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n ulong32 uVar16;\n ulong32 uVar17;\n uint uVar18;\n ulong32 uVar19;\n uint uVar20;\n uint uVar21;\n uint uVar22;\n uint uVar23;\n ulong32 uVar24;\n uint uVar25;\n uint uVar26;\n uint uVar27;\n ulong32 X [16];\n ulong32 local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n __dest = X;\n do {\n puVar11 = __dest + 1;\n memcpy(__dest,buf,4);\n puVar1 = DAT_00011028;\n buf = buf + 4;\n __dest = puVar11;\n } while (local_2c != puVar11);\n uVar21 = (md->rmd320).state[8];\n uVar7 = (md->rmd256).state[7];\n uVar18 = (md->rmd256).state[6];\n uVar22 = uVar7 >> 0x16 | uVar7 << 10;\n uVar16 = (md->rmd256).state[5];\n uVar23 = uVar18 >> 0x16 | uVar18 << 10;\n uVar17 = (md->rmd320).state[9];\n uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16;\n uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar4 >> 0x16 | uVar4 * 0x400;\n uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17;\n uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar12 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21;\n uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22;\n uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23;\n uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8;\n uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12;\n uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000);\n uVar12 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4;\n uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22;\n uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar13 = (md->rmd128).state[2];\n uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23;\n uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar19 = (md->rmd128).state[0];\n uVar2 = (md->md2).curlen;\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar14 = (md->rmd128).state[3];\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar24 = (md->rmd160).state[4];\n uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19;\n uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8;\n uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar13 >> 0x16 | uVar13 << 10;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12;\n uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar2 >> 0x16 | uVar2 << 10;\n uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4;\n uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14;\n uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8;\n uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10;\n uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3;\n uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25;\n uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80);\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8;\n uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10;\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800);\n uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000);\n uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25;\n uVar3 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22;\n uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3;\n uVar22 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23;\n uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80);\n uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25;\n uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5;\n uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22;\n uVar10 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80);\n uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5;\n uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40);\n uVar3 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23;\n uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3;\n uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800);\n uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200);\n uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12;\n uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23;\n uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4;\n uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10;\n uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000);\n uVar22 = uVar22 >> 0x16 | uVar22 * 0x400;\n uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5;\n uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8;\n uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar8 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5;\n uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10;\n uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23;\n uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22;\n uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5;\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4;\n uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8;\n uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12;\n uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4;\n uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10;\n uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8;\n uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23;\n uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12;\n uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8;\n uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4;\n uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5;\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar23 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22;\n uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12;\n uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8;\n uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4;\n uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23;\n uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000);\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5;\n uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22;\n uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8;\n uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4;\n uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23;\n uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22;\n uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12;\n uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8;\n uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4;\n uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22;\n uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5;\n uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8;\n uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12;\n uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23;\n uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23;\n uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000);\n uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22;\n uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200);\n uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5;\n uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10;\n uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4;\n uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8;\n uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5;\n uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22;\n uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar22 = uVar23 >> 0x16 | uVar23 * 0x400;\n uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4;\n uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12;\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10;\n uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8;\n uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22;\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40);\n uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12;\n uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23;\n uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4;\n uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5;\n uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22;\n uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23;\n uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200);\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22;\n uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23;\n uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5;\n uVar23 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10;\n uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8;\n uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22;\n uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5;\n uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8;\n uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4;\n uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5;\n uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8;\n uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4;\n uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23;\n uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000);\n uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000);\n uVar3 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23;\n uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4;\n uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5;\n uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000);\n uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20);\n uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23;\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5;\n uVar5 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10;\n uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23;\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12;\n uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000);\n uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5;\n uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22;\n uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10;\n uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8;\n uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3;\n (md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400);\n (md->rmd128).state[0] = uVar19 + uVar23;\n (md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40);\n (md->rmd256).state[5] = uVar16 + uVar12;\n uVar16 = *puVar1;\n (md->rmd128).state[2] = uVar13 + uVar5;\n (md->rmd160).state[4] = uVar24 + uVar22;\n (md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800);\n (md->rmd320).state[9] = uVar17 + uVar4;\n (md->rmd256).state[7] = uVar7 + uVar25;\n (md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400);\n if (local_2c[0] == uVar16) {\n return 0;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" comment (function_definition "int rmd320_compress(hash_state *md,uchar *buf)\n\n{\n ulong32 *puVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n ulong32 *__dest;\n ulong32 *puVar11;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n ulong32 uVar16;\n ulong32 uVar17;\n uint uVar18;\n ulong32 uVar19;\n uint uVar20;\n uint uVar21;\n uint uVar22;\n uint uVar23;\n ulong32 uVar24;\n uint uVar25;\n uint uVar26;\n uint uVar27;\n ulong32 X [16];\n ulong32 local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n __dest = X;\n do {\n puVar11 = __dest + 1;\n memcpy(__dest,buf,4);\n puVar1 = DAT_00011028;\n buf = buf + 4;\n __dest = puVar11;\n } while (local_2c != puVar11);\n uVar21 = (md->rmd320).state[8];\n uVar7 = (md->rmd256).state[7];\n uVar18 = (md->rmd256).state[6];\n uVar22 = uVar7 >> 0x16 | uVar7 << 10;\n uVar16 = (md->rmd256).state[5];\n uVar23 = uVar18 >> 0x16 | uVar18 << 10;\n uVar17 = (md->rmd320).state[9];\n uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16;\n uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar4 >> 0x16 | uVar4 * 0x400;\n uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17;\n uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar12 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21;\n uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22;\n uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23;\n uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8;\n uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12;\n uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000);\n uVar12 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4;\n uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22;\n uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar13 = (md->rmd128).state[2];\n uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23;\n uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar19 = (md->rmd128).state[0];\n uVar2 = (md->md2).curlen;\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar14 = (md->rmd128).state[3];\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar24 = (md->rmd160).state[4];\n uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19;\n uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8;\n uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar13 >> 0x16 | uVar13 << 10;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12;\n uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar2 >> 0x16 | uVar2 << 10;\n uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4;\n uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14;\n uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8;\n uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10;\n uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3;\n uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25;\n uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80);\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8;\n uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10;\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800);\n uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000);\n uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25;\n uVar3 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22;\n uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3;\n uVar22 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23;\n uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80);\n uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25;\n uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5;\n uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22;\n uVar10 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80);\n uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5;\n uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40);\n uVar3 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23;\n uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3;\n uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800);\n uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200);\n uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12;\n uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23;\n uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4;\n uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10;\n uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000);\n uVar22 = uVar22 >> 0x16 | uVar22 * 0x400;\n uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5;\n uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8;\n uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar8 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5;\n uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10;\n uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23;\n uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22;\n uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5;\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4;\n uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8;\n uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12;\n uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4;\n uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10;\n uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8;\n uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23;\n uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12;\n uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8;\n uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4;\n uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5;\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar23 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22;\n uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12;\n uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8;\n uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4;\n uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23;\n uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000);\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5;\n uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22;\n uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8;\n uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4;\n uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23;\n uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22;\n uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12;\n uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8;\n uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4;\n uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22;\n uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5;\n uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8;\n uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12;\n uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23;\n uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23;\n uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000);\n uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22;\n uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200);\n uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5;\n uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10;\n uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4;\n uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8;\n uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5;\n uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22;\n uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar22 = uVar23 >> 0x16 | uVar23 * 0x400;\n uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4;\n uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12;\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10;\n uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8;\n uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22;\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40);\n uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12;\n uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23;\n uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4;\n uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5;\n uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22;\n uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23;\n uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200);\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22;\n uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23;\n uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5;\n uVar23 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10;\n uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8;\n uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22;\n uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5;\n uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8;\n uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4;\n uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5;\n uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8;\n uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4;\n uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23;\n uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000);\n uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000);\n uVar3 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23;\n uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4;\n uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5;\n uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000);\n uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20);\n uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23;\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5;\n uVar5 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10;\n uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23;\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12;\n uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000);\n uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5;\n uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22;\n uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10;\n uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8;\n uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3;\n (md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400);\n (md->rmd128).state[0] = uVar19 + uVar23;\n (md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40);\n (md->rmd256).state[5] = uVar16 + uVar12;\n uVar16 = *puVar1;\n (md->rmd128).state[2] = uVar13 + uVar5;\n (md->rmd160).state[4] = uVar24 + uVar22;\n (md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800);\n (md->rmd320).state[9] = uVar17 + uVar4;\n (md->rmd256).state[7] = uVar7 + uVar25;\n (md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400);\n if (local_2c[0] == uVar16) {\n return 0;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "rmd320_compress(hash_state *md,uchar *buf)" identifier (parameter_list "(hash_state *md,uchar *buf)" ( (parameter_declaration "hash_state *md" type_identifier (pointer_declarator "*md" * identifier)) , (parameter_declaration "uchar *buf" type_identifier (pointer_declarator "*buf" * identifier)) ))) (compound_statement "{\n ulong32 *puVar1;\n uint uVar2;\n uint uVar3;\n uint uVar4;\n uint uVar5;\n uint uVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n uint uVar10;\n ulong32 *__dest;\n ulong32 *puVar11;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n ulong32 uVar16;\n ulong32 uVar17;\n uint uVar18;\n ulong32 uVar19;\n uint uVar20;\n uint uVar21;\n uint uVar22;\n uint uVar23;\n ulong32 uVar24;\n uint uVar25;\n uint uVar26;\n uint uVar27;\n ulong32 X [16];\n ulong32 local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n __dest = X;\n do {\n puVar11 = __dest + 1;\n memcpy(__dest,buf,4);\n puVar1 = DAT_00011028;\n buf = buf + 4;\n __dest = puVar11;\n } while (local_2c != puVar11);\n uVar21 = (md->rmd320).state[8];\n uVar7 = (md->rmd256).state[7];\n uVar18 = (md->rmd256).state[6];\n uVar22 = uVar7 >> 0x16 | uVar7 << 10;\n uVar16 = (md->rmd256).state[5];\n uVar23 = uVar18 >> 0x16 | uVar18 << 10;\n uVar17 = (md->rmd320).state[9];\n uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16;\n uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar4 >> 0x16 | uVar4 * 0x400;\n uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17;\n uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar12 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21;\n uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22;\n uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23;\n uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8;\n uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12;\n uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000);\n uVar12 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4;\n uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22;\n uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar13 = (md->rmd128).state[2];\n uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23;\n uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar19 = (md->rmd128).state[0];\n uVar2 = (md->md2).curlen;\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar14 = (md->rmd128).state[3];\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar24 = (md->rmd160).state[4];\n uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19;\n uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8;\n uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar13 >> 0x16 | uVar13 << 10;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12;\n uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar2 >> 0x16 | uVar2 << 10;\n uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4;\n uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14;\n uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8;\n uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10;\n uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3;\n uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25;\n uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80);\n uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8;\n uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10;\n uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800);\n uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000);\n uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25;\n uVar3 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000);\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22;\n uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3;\n uVar22 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23;\n uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80);\n uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25;\n uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5;\n uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22;\n uVar10 = uVar27 >> 0x16 | uVar27 * 0x400;\n uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80);\n uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5;\n uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40);\n uVar3 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23;\n uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3;\n uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800);\n uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200);\n uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12;\n uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23;\n uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4;\n uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10;\n uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000);\n uVar22 = uVar22 >> 0x16 | uVar22 * 0x400;\n uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5;\n uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8;\n uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar8 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8;\n uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5;\n uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10;\n uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200);\n uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23;\n uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80);\n uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22;\n uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5;\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4;\n uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8;\n uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12;\n uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4;\n uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10;\n uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8;\n uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23;\n uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12;\n uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);\n uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22;\n uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8;\n uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4;\n uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5;\n uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar23 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22;\n uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12;\n uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8;\n uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200);\n uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4;\n uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23;\n uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000);\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5;\n uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22;\n uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8;\n uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12;\n uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4;\n uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23;\n uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22;\n uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000);\n uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12;\n uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8;\n uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4;\n uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23;\n uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22;\n uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5;\n uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8;\n uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12;\n uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23;\n uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4;\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23;\n uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000);\n uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22;\n uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12;\n uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4;\n uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22;\n uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200);\n uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5;\n uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10;\n uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12;\n uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4;\n uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8;\n uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5;\n uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22;\n uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar22 = uVar23 >> 0x16 | uVar23 * 0x400;\n uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4;\n uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12;\n uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100);\n uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10;\n uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20);\n uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8;\n uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22;\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40);\n uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12;\n uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23;\n uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);\n uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar12 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4;\n uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5;\n uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22;\n uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);\n uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23;\n uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40);\n uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;\n uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5;\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200);\n uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22;\n uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23;\n uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200);\n uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5;\n uVar23 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);\n uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10;\n uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20);\n uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8;\n uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22;\n uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000);\n uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12;\n uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5;\n uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8;\n uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000);\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4;\n uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);\n uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);\n uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40);\n uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5;\n uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8;\n uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4;\n uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000);\n uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22;\n uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12;\n uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);\n uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23;\n uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5;\n uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000);\n uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000);\n uVar3 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23;\n uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);\n uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4;\n uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5;\n uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800);\n uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200);\n uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10;\n uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000);\n uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3;\n uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20);\n uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23;\n uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000);\n uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5;\n uVar5 = uVar3 >> 0x16 | uVar3 * 0x400;\n uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40);\n uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10;\n uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100);\n uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23;\n uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000);\n uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5;\n uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);\n uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3;\n uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);\n uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar3 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23;\n uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;\n uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12;\n uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000);\n uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5;\n uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);\n uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;\n uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22;\n uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10;\n uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20);\n uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8;\n uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3;\n (md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400);\n (md->rmd128).state[0] = uVar19 + uVar23;\n (md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40);\n (md->rmd256).state[5] = uVar16 + uVar12;\n uVar16 = *puVar1;\n (md->rmd128).state[2] = uVar13 + uVar5;\n (md->rmd160).state[4] = uVar24 + uVar22;\n (md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800);\n (md->rmd320).state[9] = uVar17 + uVar4;\n (md->rmd256).state[7] = uVar7 + uVar25;\n (md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400);\n if (local_2c[0] == uVar16) {\n return 0;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "ulong32 *puVar1;" type_identifier (pointer_declarator "*puVar1" * identifier) ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "uint uVar6;" type_identifier identifier ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "uint uVar10;" type_identifier identifier ;) (declaration "ulong32 *__dest;" type_identifier (pointer_declarator "*__dest" * identifier) ;) (declaration "ulong32 *puVar11;" type_identifier (pointer_declarator "*puVar11" * identifier) ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "uint uVar13;" type_identifier identifier ;) (declaration "uint uVar14;" type_identifier identifier ;) (declaration "uint uVar15;" type_identifier identifier ;) (declaration "ulong32 uVar16;" type_identifier identifier ;) (declaration "ulong32 uVar17;" type_identifier identifier ;) (declaration "uint uVar18;" type_identifier identifier ;) (declaration "ulong32 uVar19;" type_identifier identifier ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "uint uVar21;" type_identifier identifier ;) (declaration "uint uVar22;" type_identifier identifier ;) (declaration "uint uVar23;" type_identifier identifier ;) (declaration "ulong32 uVar24;" type_identifier identifier ;) (declaration "uint uVar25;" type_identifier identifier ;) (declaration "uint uVar26;" type_identifier identifier ;) (declaration "uint uVar27;" type_identifier identifier ;) (declaration "ulong32 X [16];" type_identifier (array_declarator "X [16]" identifier [ number_literal ]) ;) (declaration "ulong32 local_2c [2];" type_identifier (array_declarator "local_2c [2]" identifier [ number_literal ]) ;) (expression_statement "local_2c[0] = *DAT_00011004;" (assignment_expression "local_2c[0] = *DAT_00011004" (subscript_expression "local_2c[0]" identifier [ number_literal ]) = (pointer_expression "*DAT_00011004" * identifier)) ;) (expression_statement "__dest = X;" (assignment_expression "__dest = X" identifier = identifier) ;) (do_statement "do {\n puVar11 = __dest + 1;\n memcpy(__dest,buf,4);\n puVar1 = DAT_00011028;\n buf = buf + 4;\n __dest = puVar11;\n } while (local_2c != puVar11);" do (compound_statement "{\n puVar11 = __dest + 1;\n memcpy(__dest,buf,4);\n puVar1 = DAT_00011028;\n buf = buf + 4;\n __dest = puVar11;\n }" { (expression_statement "puVar11 = __dest + 1;" (assignment_expression "puVar11 = __dest + 1" identifier = (binary_expression "__dest + 1" identifier + number_literal)) ;) (expression_statement "memcpy(__dest,buf,4);" (call_expression "memcpy(__dest,buf,4)" identifier (argument_list "(__dest,buf,4)" ( identifier , identifier , number_literal ))) ;) (expression_statement "puVar1 = DAT_00011028;" (assignment_expression "puVar1 = DAT_00011028" identifier = identifier) ;) (expression_statement "buf = buf + 4;" (assignment_expression "buf = buf + 4" identifier = (binary_expression "buf + 4" identifier + number_literal)) ;) (expression_statement "__dest = puVar11;" (assignment_expression "__dest = puVar11" identifier = identifier) ;) }) while (parenthesized_expression "(local_2c != puVar11)" ( (binary_expression "local_2c != puVar11" identifier != identifier) )) ;) (expression_statement "uVar21 = (md->rmd320).state[8];" (assignment_expression "uVar21 = (md->rmd320).state[8]" identifier = (subscript_expression "(md->rmd320).state[8]" (field_expression "(md->rmd320).state" (parenthesized_expression "(md->rmd320)" ( (field_expression "md->rmd320" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar7 = (md->rmd256).state[7];" (assignment_expression "uVar7 = (md->rmd256).state[7]" identifier = (subscript_expression "(md->rmd256).state[7]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar18 = (md->rmd256).state[6];" (assignment_expression "uVar18 = (md->rmd256).state[6]" identifier = (subscript_expression "(md->rmd256).state[6]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar22 = uVar7 >> 0x16 | uVar7 << 10;" (assignment_expression "uVar22 = uVar7 >> 0x16 | uVar7 << 10" identifier = (binary_expression "uVar7 >> 0x16 | uVar7 << 10" (binary_expression "uVar7 >> 0x16" identifier >> number_literal) | (binary_expression "uVar7 << 10" identifier << number_literal))) ;) (expression_statement "uVar16 = (md->rmd256).state[5];" (assignment_expression "uVar16 = (md->rmd256).state[5]" identifier = (subscript_expression "(md->rmd256).state[5]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar23 = uVar18 >> 0x16 | uVar18 << 10;" (assignment_expression "uVar23 = uVar18 >> 0x16 | uVar18 << 10" identifier = (binary_expression "uVar18 >> 0x16 | uVar18 << 10" (binary_expression "uVar18 >> 0x16" identifier >> number_literal) | (binary_expression "uVar18 << 10" identifier << number_literal))) ;) (expression_statement "uVar17 = (md->rmd320).state[9];" (assignment_expression "uVar17 = (md->rmd320).state[9]" identifier = (subscript_expression "(md->rmd320).state[9]" (field_expression "(md->rmd320).state" (parenthesized_expression "(md->rmd320)" ( (field_expression "md->rmd320" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16;" (assignment_expression "uVar8 = ((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16" identifier = (binary_expression "((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008 + uVar16" (binary_expression "((~uVar21 | uVar7) ^ uVar18) + X[5] + DAT_00011008" (binary_expression "((~uVar21 | uVar7) ^ uVar18) + X[5]" (parenthesized_expression "((~uVar21 | uVar7) ^ uVar18)" ( (binary_expression "(~uVar21 | uVar7) ^ uVar18" (parenthesized_expression "(~uVar21 | uVar7)" ( (binary_expression "~uVar21 | uVar7" (unary_expression "~uVar21" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar4 = uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar17 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar4 >> 0x16 | uVar4 * 0x400;" (assignment_expression "uVar8 = uVar4 >> 0x16 | uVar4 * 0x400" identifier = (binary_expression "uVar4 >> 0x16 | uVar4 * 0x400" (binary_expression "uVar4 >> 0x16" identifier >> number_literal) | (binary_expression "uVar4 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17;" (assignment_expression "uVar12 = ((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17" identifier = (binary_expression "((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008 + uVar17" (binary_expression "((~uVar22 | uVar18) ^ uVar4) + X[0xe] + DAT_00011008" (binary_expression "((~uVar22 | uVar18) ^ uVar4) + X[0xe]" (parenthesized_expression "((~uVar22 | uVar18) ^ uVar4)" ( (binary_expression "(~uVar22 | uVar18) ^ uVar4" (parenthesized_expression "(~uVar22 | uVar18)" ( (binary_expression "~uVar22 | uVar18" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200);" (assignment_expression "uVar10 = uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier = (binary_expression "uVar21 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier + (parenthesized_expression "(uVar12 >> 0x17 | uVar12 * 0x200)" ( (binary_expression "uVar12 >> 0x17 | uVar12 * 0x200" (binary_expression "uVar12 >> 0x17" identifier >> number_literal) | (binary_expression "uVar12 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar12 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21;" (assignment_expression "uVar4 = ((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21" identifier = (binary_expression "((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008 + uVar21" (binary_expression "((~uVar23 | uVar4) ^ uVar10) + X[7] + DAT_00011008" (binary_expression "((~uVar23 | uVar4) ^ uVar10) + X[7]" (parenthesized_expression "((~uVar23 | uVar4) ^ uVar10)" ( (binary_expression "(~uVar23 | uVar4) ^ uVar10" (parenthesized_expression "(~uVar23 | uVar4)" ( (binary_expression "~uVar23 | uVar4" (unary_expression "~uVar23" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);" (assignment_expression "uVar5 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier + (parenthesized_expression "(uVar4 >> 0x17 | uVar4 * 0x200)" ( (binary_expression "uVar4 >> 0x17 | uVar4 * 0x200" (binary_expression "uVar4 >> 0x17" identifier >> number_literal) | (binary_expression "uVar4 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar4 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22;" (assignment_expression "uVar22 = ((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22" identifier = (binary_expression "((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008 + uVar22" (binary_expression "((~uVar8 | uVar10) ^ uVar5) + X[0] + DAT_00011008" (binary_expression "((~uVar8 | uVar10) ^ uVar5) + X[0]" (parenthesized_expression "((~uVar8 | uVar10) ^ uVar5)" ( (binary_expression "(~uVar8 | uVar10) ^ uVar5" (parenthesized_expression "(~uVar8 | uVar10)" ( (binary_expression "~uVar8 | uVar10" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800);" (assignment_expression "uVar10 = uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier + (parenthesized_expression "(uVar22 >> 0x15 | uVar22 * 0x800)" ( (binary_expression "uVar22 >> 0x15 | uVar22 * 0x800" (binary_expression "uVar22 >> 0x15" identifier >> number_literal) | (binary_expression "uVar22 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar22 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23;" (assignment_expression "uVar23 = ((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23" identifier = (binary_expression "((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008 + uVar23" (binary_expression "((~uVar12 | uVar5) ^ uVar10) + X[9] + DAT_00011008" (binary_expression "((~uVar12 | uVar5) ^ uVar10) + X[9]" (parenthesized_expression "((~uVar12 | uVar5) ^ uVar10)" ( (binary_expression "(~uVar12 | uVar5) ^ uVar10" (parenthesized_expression "(~uVar12 | uVar5)" ( (binary_expression "~uVar12 | uVar5" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000);" (assignment_expression "uVar5 = uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar23 >> 0x13 | uVar23 * 0x2000)" identifier + (parenthesized_expression "(uVar23 >> 0x13 | uVar23 * 0x2000)" ( (binary_expression "uVar23 >> 0x13 | uVar23 * 0x2000" (binary_expression "uVar23 >> 0x13" identifier >> number_literal) | (binary_expression "uVar23 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar23 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8;" (assignment_expression "uVar8 = ((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8" identifier = (binary_expression "((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008 + uVar8" (binary_expression "((~uVar4 | uVar10) ^ uVar5) + X[2] + DAT_00011008" (binary_expression "((~uVar4 | uVar10) ^ uVar5) + X[2]" (parenthesized_expression "((~uVar4 | uVar10) ^ uVar5)" ( (binary_expression "(~uVar4 | uVar10) ^ uVar5" (parenthesized_expression "(~uVar4 | uVar10)" ( (binary_expression "~uVar4 | uVar10" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000);" (assignment_expression "uVar10 = uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier + (parenthesized_expression "(uVar8 >> 0x11 | uVar8 * 0x8000)" ( (binary_expression "uVar8 >> 0x11 | uVar8 * 0x8000" (binary_expression "uVar8 >> 0x11" identifier >> number_literal) | (binary_expression "uVar8 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar8 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12;" (assignment_expression "uVar12 = ((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12" identifier = (binary_expression "((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008 + uVar12" (binary_expression "((~uVar22 | uVar5) ^ uVar10) + X[0xb] + DAT_00011008" (binary_expression "((~uVar22 | uVar5) ^ uVar10) + X[0xb]" (parenthesized_expression "((~uVar22 | uVar5) ^ uVar10)" ( (binary_expression "(~uVar22 | uVar5) ^ uVar10" (parenthesized_expression "(~uVar22 | uVar5)" ( (binary_expression "~uVar22 | uVar5" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000);" (assignment_expression "uVar5 = uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x11 | uVar12 * 0x8000)" identifier + (parenthesized_expression "(uVar12 >> 0x11 | uVar12 * 0x8000)" ( (binary_expression "uVar12 >> 0x11 | uVar12 * 0x8000" (binary_expression "uVar12 >> 0x11" identifier >> number_literal) | (binary_expression "uVar12 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar12 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4;" (assignment_expression "uVar4 = ((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4" identifier = (binary_expression "((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008 + uVar4" (binary_expression "((~uVar23 | uVar10) ^ uVar5) + X[4] + DAT_00011008" (binary_expression "((~uVar23 | uVar10) ^ uVar5) + X[4]" (parenthesized_expression "((~uVar23 | uVar10) ^ uVar5)" ( (binary_expression "(~uVar23 | uVar10) ^ uVar5" (parenthesized_expression "(~uVar23 | uVar10)" ( (binary_expression "~uVar23 | uVar10" (unary_expression "~uVar23" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);" (assignment_expression "uVar10 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20)" identifier + (parenthesized_expression "(uVar4 >> 0x1b | uVar4 * 0x20)" ( (binary_expression "uVar4 >> 0x1b | uVar4 * 0x20" (binary_expression "uVar4 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar4 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar4 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22;" (assignment_expression "uVar22 = ((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22" identifier = (binary_expression "((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008 + uVar22" (binary_expression "((~uVar8 | uVar5) ^ uVar10) + X[0xd] + DAT_00011008" (binary_expression "((~uVar8 | uVar5) ^ uVar10) + X[0xd]" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar10)" ( (binary_expression "(~uVar8 | uVar5) ^ uVar10" (parenthesized_expression "(~uVar8 | uVar5)" ( (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80);" (assignment_expression "uVar25 = uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier + (parenthesized_expression "(uVar22 >> 0x19 | uVar22 * 0x80)" ( (binary_expression "uVar22 >> 0x19 | uVar22 * 0x80" (binary_expression "uVar22 >> 0x19" identifier >> number_literal) | (binary_expression "uVar22 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = (md->rmd128).state[2];" (assignment_expression "uVar13 = (md->rmd128).state[2]" identifier = (subscript_expression "(md->rmd128).state[2]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23;" (assignment_expression "uVar22 = ((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23" identifier = (binary_expression "((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008 + uVar23" (binary_expression "((~uVar12 | uVar10) ^ uVar25) + X[6] + DAT_00011008" (binary_expression "((~uVar12 | uVar10) ^ uVar25) + X[6]" (parenthesized_expression "((~uVar12 | uVar10) ^ uVar25)" ( (binary_expression "(~uVar12 | uVar10) ^ uVar25" (parenthesized_expression "(~uVar12 | uVar10)" ( (binary_expression "~uVar12 | uVar10" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80);" (assignment_expression "uVar10 = uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier + (parenthesized_expression "(uVar22 >> 0x19 | uVar22 * 0x80)" ( (binary_expression "uVar22 >> 0x19 | uVar22 * 0x80" (binary_expression "uVar22 >> 0x19" identifier >> number_literal) | (binary_expression "uVar22 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = (md->rmd128).state[0];" (assignment_expression "uVar19 = (md->rmd128).state[0]" identifier = (subscript_expression "(md->rmd128).state[0]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar2 = (md->md2).curlen;" (assignment_expression "uVar2 = (md->md2).curlen" identifier = (field_expression "(md->md2).curlen" (parenthesized_expression "(md->md2)" ( (field_expression "md->md2" identifier -> field_identifier) )) . field_identifier)) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = (md->rmd128).state[3];" (assignment_expression "uVar14 = (md->rmd128).state[3]" identifier = (subscript_expression "(md->rmd128).state[3]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar24 = (md->rmd160).state[4];" (assignment_expression "uVar24 = (md->rmd160).state[4]" identifier = (subscript_expression "(md->rmd160).state[4]" (field_expression "(md->rmd160).state" (parenthesized_expression "(md->rmd160)" ( (field_expression "md->rmd160" identifier -> field_identifier) )) . field_identifier) [ number_literal ])) ;) (expression_statement "uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19;" (assignment_expression "uVar5 = (uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19" identifier = (binary_expression "(uVar2 ^ uVar13 ^ uVar14) + X[0] + uVar19" (binary_expression "(uVar2 ^ uVar13 ^ uVar14) + X[0]" (parenthesized_expression "(uVar2 ^ uVar13 ^ uVar14)" ( (binary_expression "uVar2 ^ uVar13 ^ uVar14" (binary_expression "uVar2 ^ uVar13" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar3 = uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier = (binary_expression "uVar24 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier + (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" ( (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" identifier >> number_literal) | (binary_expression "uVar5 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8;" (assignment_expression "uVar8 = ((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8" identifier = (binary_expression "((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008 + uVar8" (binary_expression "((~uVar4 | uVar25) ^ uVar10) + X[0xf] + DAT_00011008" (binary_expression "((~uVar4 | uVar25) ^ uVar10) + X[0xf]" (parenthesized_expression "((~uVar4 | uVar25) ^ uVar10)" ( (binary_expression "(~uVar4 | uVar25) ^ uVar10" (parenthesized_expression "(~uVar4 | uVar25)" ( (binary_expression "~uVar4 | uVar25" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar26 = uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar13 >> 0x16 | uVar13 << 10;" (assignment_expression "uVar8 = uVar13 >> 0x16 | uVar13 << 10" identifier = (binary_expression "uVar13 >> 0x16 | uVar13 << 10" (binary_expression "uVar13 >> 0x16" identifier >> number_literal) | (binary_expression "uVar13 << 10" identifier << number_literal))) ;) (expression_statement "uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar5 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12;" (assignment_expression "uVar12 = ((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12" identifier = (binary_expression "((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008 + uVar12" (binary_expression "((~uVar22 | uVar10) ^ uVar26) + X[8] + DAT_00011008" (binary_expression "((~uVar22 | uVar10) ^ uVar26) + X[8]" (parenthesized_expression "((~uVar22 | uVar10) ^ uVar26)" ( (binary_expression "(~uVar22 | uVar10) ^ uVar26" (parenthesized_expression "(~uVar22 | uVar10)" ( (binary_expression "~uVar22 | uVar10" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);" (assignment_expression "uVar9 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800)" identifier + (parenthesized_expression "(uVar12 >> 0x15 | uVar12 * 0x800)" ( (binary_expression "uVar12 >> 0x15 | uVar12 * 0x800" (binary_expression "uVar12 >> 0x15" identifier >> number_literal) | (binary_expression "uVar12 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24;" (assignment_expression "uVar25 = (uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24" identifier = (binary_expression "(uVar2 ^ uVar8 ^ uVar3) + X[1] + uVar24" (binary_expression "(uVar2 ^ uVar8 ^ uVar3) + X[1]" (parenthesized_expression "(uVar2 ^ uVar8 ^ uVar3)" ( (binary_expression "uVar2 ^ uVar8 ^ uVar3" (binary_expression "uVar2 ^ uVar8" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar2 >> 0x16 | uVar2 << 10;" (assignment_expression "uVar10 = uVar2 >> 0x16 | uVar2 << 10" identifier = (binary_expression "uVar2 >> 0x16 | uVar2 << 10" (binary_expression "uVar2 >> 0x16" identifier >> number_literal) | (binary_expression "uVar2 << 10" identifier << number_literal))) ;) (expression_statement "uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000);" (assignment_expression "uVar6 = uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000)" identifier = (binary_expression "uVar14 + (uVar25 >> 0x12 | uVar25 * 0x4000)" identifier + (parenthesized_expression "(uVar25 >> 0x12 | uVar25 * 0x4000)" ( (binary_expression "uVar25 >> 0x12 | uVar25 * 0x4000" (binary_expression "uVar25 >> 0x12" identifier >> number_literal) | (binary_expression "uVar25 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4;" (assignment_expression "uVar4 = ((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4" identifier = (binary_expression "((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008 + uVar4" (binary_expression "((~uVar23 | uVar26) ^ uVar9) + X[1] + DAT_00011008" (binary_expression "((~uVar23 | uVar26) ^ uVar9) + X[1]" (parenthesized_expression "((~uVar23 | uVar26) ^ uVar9)" ( (binary_expression "(~uVar23 | uVar26) ^ uVar9" (parenthesized_expression "(~uVar23 | uVar26)" ( (binary_expression "~uVar23 | uVar26" (unary_expression "~uVar23" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);" (assignment_expression "uVar27 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000)" identifier + (parenthesized_expression "(uVar4 >> 0x12 | uVar4 * 0x4000)" ( (binary_expression "uVar4 >> 0x12 | uVar4 * 0x4000" (binary_expression "uVar4 >> 0x12" identifier >> number_literal) | (binary_expression "uVar4 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14;" (assignment_expression "uVar4 = (uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14" identifier = (binary_expression "(uVar3 ^ uVar10 ^ uVar6) + X[2] + uVar14" (binary_expression "(uVar3 ^ uVar10 ^ uVar6) + X[2]" (parenthesized_expression "(uVar3 ^ uVar10 ^ uVar6)" ( (binary_expression "uVar3 ^ uVar10 ^ uVar6" (binary_expression "uVar3 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);" (assignment_expression "uVar26 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier + (parenthesized_expression "(uVar4 >> 0x11 | uVar4 * 0x8000)" ( (binary_expression "uVar4 >> 0x11 | uVar4 * 0x8000" (binary_expression "uVar4 >> 0x11" identifier >> number_literal) | (binary_expression "uVar4 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar27 >> 0x16 | uVar27 * 0x400;" (assignment_expression "uVar4 = uVar27 >> 0x16 | uVar27 * 0x400" identifier = (binary_expression "uVar27 >> 0x16 | uVar27 * 0x400" (binary_expression "uVar27 >> 0x16" identifier >> number_literal) | (binary_expression "uVar27 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar3 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar25 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8;" (assignment_expression "uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8" identifier = (binary_expression "(uVar6 ^ uVar3 ^ uVar26) + X[3] + uVar8" (binary_expression "(uVar6 ^ uVar3 ^ uVar26) + X[3]" (parenthesized_expression "(uVar6 ^ uVar3 ^ uVar26)" ( (binary_expression "uVar6 ^ uVar3 ^ uVar26" (binary_expression "uVar6 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uVar6 = uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier = (binary_expression "uVar10 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier + (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" ( (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" identifier >> number_literal) | (binary_expression "uVar8 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar8 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10;" (assignment_expression "uVar10 = (uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10" identifier = (binary_expression "(uVar26 ^ uVar25 ^ uVar6) + X[4] + uVar10" (binary_expression "(uVar26 ^ uVar25 ^ uVar6) + X[4]" (parenthesized_expression "(uVar26 ^ uVar25 ^ uVar6)" ( (binary_expression "uVar26 ^ uVar25 ^ uVar6" (binary_expression "uVar26 ^ uVar25" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20);" (assignment_expression "uVar26 = uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier + (parenthesized_expression "(uVar10 >> 0x1b | uVar10 * 0x20)" ( (binary_expression "uVar10 >> 0x1b | uVar10 * 0x20" (binary_expression "uVar10 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar10 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar10 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3;" (assignment_expression "uVar3 = (uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3" identifier = (binary_expression "(uVar6 ^ uVar8 ^ uVar26) + X[5] + uVar3" (binary_expression "(uVar6 ^ uVar8 ^ uVar26) + X[5]" (parenthesized_expression "(uVar6 ^ uVar8 ^ uVar26)" ( (binary_expression "uVar6 ^ uVar8 ^ uVar26" (binary_expression "uVar6 ^ uVar8" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100);" (assignment_expression "uVar6 = uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100)" identifier = (binary_expression "uVar25 + (uVar3 >> 0x18 | uVar3 * 0x100)" identifier + (parenthesized_expression "(uVar3 >> 0x18 | uVar3 * 0x100)" ( (binary_expression "uVar3 >> 0x18 | uVar3 * 0x100" (binary_expression "uVar3 >> 0x18" identifier >> number_literal) | (binary_expression "uVar3 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar3 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25;" (assignment_expression "uVar25 = (uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25" identifier = (binary_expression "(uVar26 ^ uVar10 ^ uVar6) + X[6] + uVar25" (binary_expression "(uVar26 ^ uVar10 ^ uVar6) + X[6]" (parenthesized_expression "(uVar26 ^ uVar10 ^ uVar6)" ( (binary_expression "uVar26 ^ uVar10 ^ uVar6" (binary_expression "uVar26 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80);" (assignment_expression "uVar26 = uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80)" identifier = (binary_expression "uVar8 + (uVar25 >> 0x19 | uVar25 * 0x80)" identifier + (parenthesized_expression "(uVar25 >> 0x19 | uVar25 * 0x80)" ( (binary_expression "uVar25 >> 0x19 | uVar25 * 0x80" (binary_expression "uVar25 >> 0x19" identifier >> number_literal) | (binary_expression "uVar25 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar25 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8;" (assignment_expression "uVar8 = (uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8" identifier = (binary_expression "(uVar6 ^ uVar3 ^ uVar26) + X[7] + uVar8" (binary_expression "(uVar6 ^ uVar3 ^ uVar26) + X[7]" (parenthesized_expression "(uVar6 ^ uVar3 ^ uVar26)" ( (binary_expression "uVar6 ^ uVar3 ^ uVar26" (binary_expression "uVar6 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);" (assignment_expression "uVar15 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier = (binary_expression "uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier + (parenthesized_expression "(uVar8 >> 0x17 | uVar8 * 0x200)" ( (binary_expression "uVar8 >> 0x17 | uVar8 * 0x200" (binary_expression "uVar8 >> 0x17" identifier >> number_literal) | (binary_expression "uVar8 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10;" (assignment_expression "uVar10 = (uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10" identifier = (binary_expression "(uVar26 ^ uVar25 ^ uVar15) + X[8] + uVar10" (binary_expression "(uVar26 ^ uVar25 ^ uVar15) + X[8]" (parenthesized_expression "(uVar26 ^ uVar25 ^ uVar15)" ( (binary_expression "uVar26 ^ uVar25 ^ uVar15" (binary_expression "uVar26 ^ uVar25" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar8 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar8 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800);" (assignment_expression "uVar6 = uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x15 | uVar10 * 0x800)" identifier + (parenthesized_expression "(uVar10 >> 0x15 | uVar10 * 0x800)" ( (binary_expression "uVar10 >> 0x15 | uVar10 * 0x800" (binary_expression "uVar10 >> 0x15" identifier >> number_literal) | (binary_expression "uVar10 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3;" (assignment_expression "uVar3 = (uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3" identifier = (binary_expression "(uVar15 ^ uVar8 ^ uVar6) + X[9] + uVar3" (binary_expression "(uVar15 ^ uVar8 ^ uVar6) + X[9]" (parenthesized_expression "(uVar15 ^ uVar8 ^ uVar6)" ( (binary_expression "uVar15 ^ uVar8 ^ uVar6" (binary_expression "uVar15 ^ uVar8" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000);" (assignment_expression "uVar26 = uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000)" identifier = (binary_expression "uVar25 + (uVar3 >> 0x13 | uVar3 * 0x2000)" identifier + (parenthesized_expression "(uVar3 >> 0x13 | uVar3 * 0x2000)" ( (binary_expression "uVar3 >> 0x13 | uVar3 * 0x2000" (binary_expression "uVar3 >> 0x13" identifier >> number_literal) | (binary_expression "uVar3 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25;" (assignment_expression "uVar25 = (uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25" identifier = (binary_expression "(uVar6 ^ uVar10 ^ uVar26) + X[10] + uVar25" (binary_expression "(uVar6 ^ uVar10 ^ uVar26) + X[10]" (parenthesized_expression "(uVar6 ^ uVar10 ^ uVar26)" ( (binary_expression "uVar6 ^ uVar10 ^ uVar26" (binary_expression "uVar6 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar3 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar3 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000);" (assignment_expression "uVar6 = uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000)" identifier = (binary_expression "uVar8 + (uVar25 >> 0x12 | uVar25 * 0x4000)" identifier + (parenthesized_expression "(uVar25 >> 0x12 | uVar25 * 0x4000)" ( (binary_expression "uVar25 >> 0x12 | uVar25 * 0x4000" (binary_expression "uVar25 >> 0x12" identifier >> number_literal) | (binary_expression "uVar25 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar25 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8;" (assignment_expression "uVar8 = (uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8" identifier = (binary_expression "(uVar26 ^ uVar3 ^ uVar6) + X[0xb] + uVar8" (binary_expression "(uVar26 ^ uVar3 ^ uVar6) + X[0xb]" (parenthesized_expression "(uVar26 ^ uVar3 ^ uVar6)" ( (binary_expression "uVar26 ^ uVar3 ^ uVar6" (binary_expression "uVar26 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000);" (assignment_expression "uVar26 = uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier = (binary_expression "uVar10 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier + (parenthesized_expression "(uVar8 >> 0x11 | uVar8 * 0x8000)" ( (binary_expression "uVar8 >> 0x11 | uVar8 * 0x8000" (binary_expression "uVar8 >> 0x11" identifier >> number_literal) | (binary_expression "uVar8 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10;" (assignment_expression "uVar10 = (uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10" identifier = (binary_expression "(uVar6 ^ uVar25 ^ uVar26) + X[0xc] + uVar10" (binary_expression "(uVar6 ^ uVar25 ^ uVar26) + X[0xc]" (parenthesized_expression "(uVar6 ^ uVar25 ^ uVar26)" ( (binary_expression "uVar6 ^ uVar25 ^ uVar26" (binary_expression "uVar6 ^ uVar25" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);" (assignment_expression "uVar15 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier + (parenthesized_expression "(uVar10 >> 0x1a | uVar10 * 0x40)" ( (binary_expression "uVar10 >> 0x1a | uVar10 * 0x40" (binary_expression "uVar10 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar10 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22;" (assignment_expression "uVar22 = ((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22" identifier = (binary_expression "((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008 + uVar22" (binary_expression "((~uVar5 | uVar9) ^ uVar27) + X[10] + DAT_00011008" (binary_expression "((~uVar5 | uVar9) ^ uVar27) + X[10]" (parenthesized_expression "((~uVar5 | uVar9) ^ uVar27)" ( (binary_expression "(~uVar5 | uVar9) ^ uVar27" (parenthesized_expression "(~uVar5 | uVar9)" ( (binary_expression "~uVar5 | uVar9" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);" (assignment_expression "uVar20 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000)" identifier + (parenthesized_expression "(uVar22 >> 0x12 | uVar22 * 0x4000)" ( (binary_expression "uVar22 >> 0x12 | uVar22 * 0x4000" (binary_expression "uVar22 >> 0x12" identifier >> number_literal) | (binary_expression "uVar22 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3;" (assignment_expression "uVar10 = (uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3" identifier = (binary_expression "(uVar26 ^ uVar8 ^ uVar15) + X[0xd] + uVar3" (binary_expression "(uVar26 ^ uVar8 ^ uVar15) + X[0xd]" (parenthesized_expression "(uVar26 ^ uVar8 ^ uVar15)" ( (binary_expression "uVar26 ^ uVar8 ^ uVar15" (binary_expression "uVar26 ^ uVar8" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar22 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar22 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23;" (assignment_expression "uVar23 = ((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23" identifier = (binary_expression "((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008 + uVar23" (binary_expression "((~uVar12 | uVar27) ^ uVar20) + X[3] + DAT_00011008" (binary_expression "((~uVar12 | uVar27) ^ uVar20) + X[3]" (parenthesized_expression "((~uVar12 | uVar27) ^ uVar20)" ( (binary_expression "(~uVar12 | uVar27) ^ uVar20" (parenthesized_expression "(~uVar12 | uVar27)" ( (binary_expression "~uVar12 | uVar27" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80);" (assignment_expression "uVar9 = uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80)" identifier = (binary_expression "uVar25 + (uVar10 >> 0x19 | uVar10 * 0x80)" identifier + (parenthesized_expression "(uVar10 >> 0x19 | uVar10 * 0x80)" ( (binary_expression "uVar10 >> 0x19 | uVar10 * 0x80" (binary_expression "uVar10 >> 0x19" identifier >> number_literal) | (binary_expression "uVar10 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);" (assignment_expression "uVar6 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000)" identifier = (binary_expression "uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000)" identifier + (parenthesized_expression "(uVar23 >> 0x14 | uVar23 * 0x1000)" ( (binary_expression "uVar23 >> 0x14 | uVar23 * 0x1000" (binary_expression "uVar23 >> 0x14" identifier >> number_literal) | (binary_expression "uVar23 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25;" (assignment_expression "uVar23 = (uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25" identifier = (binary_expression "(uVar15 ^ uVar22 ^ uVar9) + X[0xe] + uVar25" (binary_expression "(uVar15 ^ uVar22 ^ uVar9) + X[0xe]" (parenthesized_expression "(uVar15 ^ uVar22 ^ uVar9)" ( (binary_expression "uVar15 ^ uVar22 ^ uVar9" (binary_expression "uVar15 ^ uVar22" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200);" (assignment_expression "uVar27 = uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200)" identifier = (binary_expression "uVar8 + (uVar23 >> 0x17 | uVar23 * 0x200)" identifier + (parenthesized_expression "(uVar23 >> 0x17 | uVar23 * 0x200)" ( (binary_expression "uVar23 >> 0x17 | uVar23 * 0x200" (binary_expression "uVar23 >> 0x17" identifier >> number_literal) | (binary_expression "uVar23 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5;" (assignment_expression "uVar5 = ((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5" identifier = (binary_expression "((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008 + uVar5" (binary_expression "((~uVar4 | uVar20) ^ uVar6) + X[0xc] + DAT_00011008" (binary_expression "((~uVar4 | uVar20) ^ uVar6) + X[0xc]" (parenthesized_expression "((~uVar4 | uVar20) ^ uVar6)" ( (binary_expression "(~uVar4 | uVar20) ^ uVar6" (parenthesized_expression "(~uVar4 | uVar20)" ( (binary_expression "~uVar4 | uVar20" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40);" (assignment_expression "uVar25 = uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier = (binary_expression "uVar12 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier + (parenthesized_expression "(uVar5 >> 0x1a | uVar5 * 0x40)" ( (binary_expression "uVar5 >> 0x1a | uVar5 * 0x40" (binary_expression "uVar5 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar5 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22;" (assignment_expression "uVar3 = ((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22" identifier = (binary_expression "((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c + uVar22" (binary_expression "((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7] + DAT_0001100c" (binary_expression "((uVar27 ^ uVar23) & uVar25 ^ uVar23) + X[7]" (parenthesized_expression "((uVar27 ^ uVar23) & uVar25 ^ uVar23)" ( (binary_expression "(uVar27 ^ uVar23) & uVar25 ^ uVar23" (binary_expression "(uVar27 ^ uVar23) & uVar25" (parenthesized_expression "(uVar27 ^ uVar23)" ( (binary_expression "uVar27 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar27 >> 0x16 | uVar27 * 0x400;" (assignment_expression "uVar10 = uVar27 >> 0x16 | uVar27 * 0x400" identifier = (binary_expression "uVar27 >> 0x16 | uVar27 * 0x400" (binary_expression "uVar27 >> 0x16" identifier >> number_literal) | (binary_expression "uVar27 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80);" (assignment_expression "uVar26 = uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80)" identifier = (binary_expression "uVar5 + (uVar3 >> 0x19 | uVar3 * 0x80)" identifier + (parenthesized_expression "(uVar3 >> 0x19 | uVar3 * 0x80)" ( (binary_expression "uVar3 >> 0x19 | uVar3 * 0x80" (binary_expression "uVar3 >> 0x19" identifier >> number_literal) | (binary_expression "uVar3 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5;" (assignment_expression "uVar3 = ((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5" identifier = (binary_expression "((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c + uVar5" (binary_expression "((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4] + DAT_0001100c" (binary_expression "((uVar25 ^ uVar10) & uVar26 ^ uVar10) + X[4]" (parenthesized_expression "((uVar25 ^ uVar10) & uVar26 ^ uVar10)" ( (binary_expression "(uVar25 ^ uVar10) & uVar26 ^ uVar10" (binary_expression "(uVar25 ^ uVar10) & uVar26" (parenthesized_expression "(uVar25 ^ uVar10)" ( (binary_expression "uVar25 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40);" (assignment_expression "uVar15 = uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40)" identifier = (binary_expression "uVar23 + (uVar3 >> 0x1a | uVar3 * 0x40)" identifier + (parenthesized_expression "(uVar3 >> 0x1a | uVar3 * 0x40)" ( (binary_expression "uVar3 >> 0x1a | uVar3 * 0x40" (binary_expression "uVar3 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar3 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar3 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar25 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23;" (assignment_expression "uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23" identifier = (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c + uVar23" (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xd]" (parenthesized_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3)" ( (binary_expression "(uVar26 ^ uVar3) & uVar15 ^ uVar3" (binary_expression "(uVar26 ^ uVar3) & uVar15" (parenthesized_expression "(uVar26 ^ uVar3)" ( (binary_expression "uVar26 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);" (assignment_expression "uVar26 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier = (binary_expression "uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier + (parenthesized_expression "(uVar23 >> 0x18 | uVar23 * 0x100)" ( (binary_expression "uVar23 >> 0x18 | uVar23 * 0x100" (binary_expression "uVar23 >> 0x18" identifier >> number_literal) | (binary_expression "uVar23 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10;" (assignment_expression "uVar10 = ((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10" identifier = (binary_expression "((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c + uVar10" (binary_expression "((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1] + DAT_0001100c" (binary_expression "((uVar15 ^ uVar25) & uVar26 ^ uVar25) + X[1]" (parenthesized_expression "((uVar15 ^ uVar25) & uVar26 ^ uVar25)" ( (binary_expression "(uVar15 ^ uVar25) & uVar26 ^ uVar25" (binary_expression "(uVar15 ^ uVar25) & uVar26" (parenthesized_expression "(uVar15 ^ uVar25)" ( (binary_expression "uVar15 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000);" (assignment_expression "uVar15 = uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x13 | uVar10 * 0x2000)" identifier + (parenthesized_expression "(uVar10 >> 0x13 | uVar10 * 0x2000)" ( (binary_expression "uVar10 >> 0x13 | uVar10 * 0x2000" (binary_expression "uVar10 >> 0x13" identifier >> number_literal) | (binary_expression "uVar10 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3;" (assignment_expression "uVar3 = ((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3" identifier = (binary_expression "((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c + uVar3" (binary_expression "((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar23) & uVar15 ^ uVar23) + X[10]" (parenthesized_expression "((uVar26 ^ uVar23) & uVar15 ^ uVar23)" ( (binary_expression "(uVar26 ^ uVar23) & uVar15 ^ uVar23" (binary_expression "(uVar26 ^ uVar23) & uVar15" (parenthesized_expression "(uVar26 ^ uVar23)" ( (binary_expression "uVar26 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800);" (assignment_expression "uVar26 = uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800)" identifier = (binary_expression "uVar25 + (uVar3 >> 0x15 | uVar3 * 0x800)" identifier + (parenthesized_expression "(uVar3 >> 0x15 | uVar3 * 0x800)" ( (binary_expression "uVar3 >> 0x15 | uVar3 * 0x800" (binary_expression "uVar3 >> 0x15" identifier >> number_literal) | (binary_expression "uVar3 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8;" (assignment_expression "uVar5 = (uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar27) + X[0xf] + uVar8" (binary_expression "(uVar9 ^ uVar5 ^ uVar27) + X[0xf]" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar27)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar27" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar22 = uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uVar22 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25;" (assignment_expression "uVar3 = ((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25" identifier = (binary_expression "((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c + uVar25" (binary_expression "((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6] + DAT_0001100c" (binary_expression "((uVar15 ^ uVar10) & uVar26 ^ uVar10) + X[6]" (parenthesized_expression "((uVar15 ^ uVar10) & uVar26 ^ uVar10)" ( (binary_expression "(uVar15 ^ uVar10) & uVar26 ^ uVar10" (binary_expression "(uVar15 ^ uVar10) & uVar26" (parenthesized_expression "(uVar15 ^ uVar10)" ( (binary_expression "uVar15 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200);" (assignment_expression "uVar3 = uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200)" identifier = (binary_expression "uVar23 + (uVar3 >> 0x17 | uVar3 * 0x200)" identifier + (parenthesized_expression "(uVar3 >> 0x17 | uVar3 * 0x200)" ( (binary_expression "uVar3 >> 0x17 | uVar3 * 0x200" (binary_expression "uVar3 >> 0x17" identifier >> number_literal) | (binary_expression "uVar3 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12;" (assignment_expression "uVar12 = ((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12" identifier = (binary_expression "((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124 + uVar12" (binary_expression "((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6] + 0x5c4dd124" (binary_expression "((uVar22 ^ uVar6) & uVar8 ^ uVar6) + X[6]" (parenthesized_expression "((uVar22 ^ uVar6) & uVar8 ^ uVar6)" ( (binary_expression "(uVar22 ^ uVar6) & uVar8 ^ uVar6" (binary_expression "(uVar22 ^ uVar6) & uVar8" (parenthesized_expression "(uVar22 ^ uVar6)" ( (binary_expression "uVar22 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23;" (assignment_expression "uVar23 = ((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23" identifier = (binary_expression "((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c + uVar23" (binary_expression "((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar5) & uVar3 ^ uVar5) + X[0xf]" (parenthesized_expression "((uVar26 ^ uVar5) & uVar3 ^ uVar5)" ( (binary_expression "(uVar26 ^ uVar5) & uVar3 ^ uVar5" (binary_expression "(uVar26 ^ uVar5) & uVar3" (parenthesized_expression "(uVar26 ^ uVar5)" ( (binary_expression "uVar26 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80);" (assignment_expression "uVar15 = uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier = (binary_expression "uVar10 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier + (parenthesized_expression "(uVar23 >> 0x19 | uVar23 * 0x80)" ( (binary_expression "uVar23 >> 0x19 | uVar23 * 0x80" (binary_expression "uVar23 >> 0x19" identifier >> number_literal) | (binary_expression "uVar23 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200);" (assignment_expression "uVar25 = uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier + (parenthesized_expression "(uVar12 >> 0x17 | uVar12 * 0x200)" ( (binary_expression "uVar12 >> 0x17 | uVar12 * 0x200" (binary_expression "uVar12 >> 0x17" identifier >> number_literal) | (binary_expression "uVar12 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4;" (assignment_expression "uVar4 = ((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4" identifier = (binary_expression "((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124 + uVar4" (binary_expression "((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb] + 0x5c4dd124" (binary_expression "((uVar22 ^ uVar25) & uVar23 ^ uVar22) + X[0xb]" (parenthesized_expression "((uVar22 ^ uVar25) & uVar23 ^ uVar22)" ( (binary_expression "(uVar22 ^ uVar25) & uVar23 ^ uVar22" (binary_expression "(uVar22 ^ uVar25) & uVar23" (parenthesized_expression "(uVar22 ^ uVar25)" ( (binary_expression "uVar22 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000);" (assignment_expression "uVar9 = uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar4 >> 0x13 | uVar4 * 0x2000)" identifier + (parenthesized_expression "(uVar4 >> 0x13 | uVar4 * 0x2000)" ( (binary_expression "uVar4 >> 0x13 | uVar4 * 0x2000" (binary_expression "uVar4 >> 0x13" identifier >> number_literal) | (binary_expression "uVar4 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10;" (assignment_expression "uVar10 = ((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10" identifier = (binary_expression "((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c + uVar10" (binary_expression "((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3] + DAT_0001100c" (binary_expression "((uVar3 ^ uVar12) & uVar15 ^ uVar12) + X[3]" (parenthesized_expression "((uVar3 ^ uVar12) & uVar15 ^ uVar12)" ( (binary_expression "(uVar3 ^ uVar12) & uVar15 ^ uVar12" (binary_expression "(uVar3 ^ uVar12) & uVar15" (parenthesized_expression "(uVar3 ^ uVar12)" ( (binary_expression "uVar3 ^ uVar12" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000);" (assignment_expression "uVar3 = uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000)" identifier = (binary_expression "uVar5 + (uVar10 >> 0x11 | uVar10 * 0x8000)" identifier + (parenthesized_expression "(uVar10 >> 0x11 | uVar10 * 0x8000)" ( (binary_expression "uVar10 >> 0x11 | uVar10 * 0x8000" (binary_expression "uVar10 >> 0x11" identifier >> number_literal) | (binary_expression "uVar10 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar22 >> 0x16 | uVar22 * 0x400;" (assignment_expression "uVar22 = uVar22 >> 0x16 | uVar22 * 0x400" identifier = (binary_expression "uVar22 >> 0x16 | uVar22 * 0x400" (binary_expression "uVar22 >> 0x16" identifier >> number_literal) | (binary_expression "uVar22 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5;" (assignment_expression "uVar5 = ((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5" identifier = (binary_expression "((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c + uVar5" (binary_expression "((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc] + DAT_0001100c" (binary_expression "((uVar15 ^ uVar4) & uVar3 ^ uVar4) + X[0xc]" (parenthesized_expression "((uVar15 ^ uVar4) & uVar3 ^ uVar4)" ( (binary_expression "(uVar15 ^ uVar4) & uVar3 ^ uVar4" (binary_expression "(uVar15 ^ uVar4) & uVar3" (parenthesized_expression "(uVar15 ^ uVar4)" ( (binary_expression "uVar15 ^ uVar4" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8;" (assignment_expression "uVar8 = ((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8" identifier = (binary_expression "((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124 + uVar8" (binary_expression "((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3] + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar9) & uVar22 ^ uVar25) + X[3]" (parenthesized_expression "((uVar25 ^ uVar9) & uVar22 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar9) & uVar22 ^ uVar25" (binary_expression "(uVar25 ^ uVar9) & uVar22" (parenthesized_expression "(uVar25 ^ uVar9)" ( (binary_expression "uVar25 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000);" (assignment_expression "uVar20 = uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier = (binary_expression "uVar23 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier + (parenthesized_expression "(uVar8 >> 0x11 | uVar8 * 0x8000)" ( (binary_expression "uVar8 >> 0x11 | uVar8 * 0x8000" (binary_expression "uVar8 >> 0x11" identifier >> number_literal) | (binary_expression "uVar8 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);" (assignment_expression "uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier = (binary_expression "uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier + (parenthesized_expression "(uVar5 >> 0x19 | uVar5 * 0x80)" ( (binary_expression "uVar5 >> 0x19 | uVar5 * 0x80" (binary_expression "uVar5 >> 0x19" identifier >> number_literal) | (binary_expression "uVar5 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar8 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar10 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12;" (assignment_expression "uVar12 = ((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12" identifier = (binary_expression "((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c + uVar12" (binary_expression "((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0] + DAT_0001100c" (binary_expression "((uVar3 ^ uVar8) & uVar26 ^ uVar8) + X[0]" (parenthesized_expression "((uVar3 ^ uVar8) & uVar26 ^ uVar8)" ( (binary_expression "(uVar3 ^ uVar8) & uVar26 ^ uVar8" (binary_expression "(uVar3 ^ uVar8) & uVar26" (parenthesized_expression "(uVar3 ^ uVar8)" ( (binary_expression "uVar3 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);" (assignment_expression "uVar6 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier + (parenthesized_expression "(uVar12 >> 0x14 | uVar12 * 0x1000)" ( (binary_expression "uVar12 >> 0x14 | uVar12 * 0x1000" (binary_expression "uVar12 >> 0x14" identifier >> number_literal) | (binary_expression "uVar12 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23;" (assignment_expression "uVar23 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23" identifier = (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124 + uVar23" (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7] + 0x5c4dd124" (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[7]" (parenthesized_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar20) & uVar5 ^ uVar9" (binary_expression "(uVar9 ^ uVar20) & uVar5" (parenthesized_expression "(uVar9 ^ uVar20)" ( (binary_expression "uVar9 ^ uVar20" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80);" (assignment_expression "uVar3 = uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier = (binary_expression "uVar22 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier + (parenthesized_expression "(uVar23 >> 0x19 | uVar23 * 0x80)" ( (binary_expression "uVar23 >> 0x19 | uVar23 * 0x80" (binary_expression "uVar23 >> 0x19" identifier >> number_literal) | (binary_expression "uVar23 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4;" (assignment_expression "uVar4 = ((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4" identifier = (binary_expression "((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c + uVar4" (binary_expression "((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar10) & uVar6 ^ uVar10) + X[9]" (parenthesized_expression "((uVar26 ^ uVar10) & uVar6 ^ uVar10)" ( (binary_expression "(uVar26 ^ uVar10) & uVar6 ^ uVar10" (binary_expression "(uVar26 ^ uVar10) & uVar6" (parenthesized_expression "(uVar26 ^ uVar10)" ( (binary_expression "uVar26 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000);" (assignment_expression "uVar15 = uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier + (parenthesized_expression "(uVar4 >> 0x11 | uVar4 * 0x8000)" ( (binary_expression "uVar4 >> 0x11 | uVar4 * 0x8000" (binary_expression "uVar4 >> 0x11" identifier >> number_literal) | (binary_expression "uVar4 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c + uVar8" (binary_expression "((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5] + DAT_0001100c" (binary_expression "((uVar6 ^ uVar23) & uVar15 ^ uVar23) + X[5]" (parenthesized_expression "((uVar6 ^ uVar23) & uVar15 ^ uVar23)" ( (binary_expression "(uVar6 ^ uVar23) & uVar15 ^ uVar23" (binary_expression "(uVar6 ^ uVar23) & uVar15" (parenthesized_expression "(uVar6 ^ uVar23)" ( (binary_expression "uVar6 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200);" (assignment_expression "uVar26 = uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier = (binary_expression "uVar10 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier + (parenthesized_expression "(uVar8 >> 0x17 | uVar8 * 0x200)" ( (binary_expression "uVar8 >> 0x17 | uVar8 * 0x200" (binary_expression "uVar8 >> 0x17" identifier >> number_literal) | (binary_expression "uVar8 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22;" (assignment_expression "uVar22 = ((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22" identifier = (binary_expression "((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124 + uVar22" (binary_expression "((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0] + 0x5c4dd124" (binary_expression "((uVar20 ^ uVar3) & uVar12 ^ uVar20) + X[0]" (parenthesized_expression "((uVar20 ^ uVar3) & uVar12 ^ uVar20)" ( (binary_expression "(uVar20 ^ uVar3) & uVar12 ^ uVar20" (binary_expression "(uVar20 ^ uVar3) & uVar12" (parenthesized_expression "(uVar20 ^ uVar3)" ( (binary_expression "uVar20 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar22 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5;" (assignment_expression "uVar4 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5" identifier = (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010 + uVar5" (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd] + DAT_00011010" (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xd]" (parenthesized_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar25) & uVar22 ^ uVar3" (binary_expression "(uVar3 ^ uVar25) & uVar22" (parenthesized_expression "(uVar3 ^ uVar25)" ( (binary_expression "uVar3 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100);" (assignment_expression "uVar6 = uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100)" identifier = (binary_expression "uVar12 + (uVar4 >> 0x18 | uVar4 * 0x100)" identifier + (parenthesized_expression "(uVar4 >> 0x18 | uVar4 * 0x100)" ( (binary_expression "uVar4 >> 0x18 | uVar4 * 0x100" (binary_expression "uVar4 >> 0x18" identifier >> number_literal) | (binary_expression "uVar4 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10;" (assignment_expression "uVar4 = ((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10" identifier = (binary_expression "((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c + uVar10" (binary_expression "((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2] + DAT_0001100c" (binary_expression "((uVar15 ^ uVar8) & uVar26 ^ uVar8) + X[2]" (parenthesized_expression "((uVar15 ^ uVar8) & uVar26 ^ uVar8)" ( (binary_expression "(uVar15 ^ uVar8) & uVar26 ^ uVar8" (binary_expression "(uVar15 ^ uVar8) & uVar26" (parenthesized_expression "(uVar15 ^ uVar8)" ( (binary_expression "uVar15 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);" (assignment_expression "uVar9 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800)" identifier = (binary_expression "uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800)" identifier + (parenthesized_expression "(uVar4 >> 0x15 | uVar4 * 0x800)" ( (binary_expression "uVar4 >> 0x15 | uVar4 * 0x800" (binary_expression "uVar4 >> 0x15" identifier >> number_literal) | (binary_expression "uVar4 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12;" (assignment_expression "uVar12 = ((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12" identifier = (binary_expression "((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124 + uVar12" (binary_expression "((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5] + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar6) & uVar4 ^ uVar25) + X[5]" (parenthesized_expression "((uVar25 ^ uVar6) & uVar4 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar6) & uVar4 ^ uVar25" (binary_expression "(uVar25 ^ uVar6) & uVar4" (parenthesized_expression "(uVar25 ^ uVar6)" ( (binary_expression "uVar25 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200);" (assignment_expression "uVar3 = uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier = (binary_expression "uVar22 + (uVar12 >> 0x17 | uVar12 * 0x200)" identifier + (parenthesized_expression "(uVar12 >> 0x17 | uVar12 * 0x200)" ( (binary_expression "uVar12 >> 0x17 | uVar12 * 0x200" (binary_expression "uVar12 >> 0x17" identifier >> number_literal) | (binary_expression "uVar12 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23;" (assignment_expression "uVar23 = ((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23" identifier = (binary_expression "((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c + uVar23" (binary_expression "((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar5) & uVar9 ^ uVar5) + X[0xe]" (parenthesized_expression "((uVar26 ^ uVar5) & uVar9 ^ uVar5)" ( (binary_expression "(uVar26 ^ uVar5) & uVar9 ^ uVar5" (binary_expression "(uVar26 ^ uVar5) & uVar9" (parenthesized_expression "(uVar26 ^ uVar5)" ( (binary_expression "uVar26 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80);" (assignment_expression "uVar26 = uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier = (binary_expression "uVar8 + (uVar23 >> 0x19 | uVar23 * 0x80)" identifier + (parenthesized_expression "(uVar23 >> 0x19 | uVar23 * 0x80)" ( (binary_expression "uVar23 >> 0x19 | uVar23 * 0x80" (binary_expression "uVar23 >> 0x19" identifier >> number_literal) | (binary_expression "uVar23 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8;" (assignment_expression "uVar12 = ((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c + uVar8" (binary_expression "((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb] + DAT_0001100c" (binary_expression "((uVar9 ^ uVar10) & uVar26 ^ uVar10) + X[0xb]" (parenthesized_expression "((uVar9 ^ uVar10) & uVar26 ^ uVar10)" ( (binary_expression "(uVar9 ^ uVar10) & uVar26 ^ uVar10" (binary_expression "(uVar9 ^ uVar10) & uVar26" (parenthesized_expression "(uVar9 ^ uVar10)" ( (binary_expression "uVar9 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);" (assignment_expression "uVar9 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier + (parenthesized_expression "(uVar12 >> 0x13 | uVar12 * 0x2000)" ( (binary_expression "uVar12 >> 0x13 | uVar12 * 0x2000" (binary_expression "uVar12 >> 0x13" identifier >> number_literal) | (binary_expression "uVar12 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22;" (assignment_expression "uVar22 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22" identifier = (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124 + uVar22" (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10] + 0x5c4dd124" (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[10]" (parenthesized_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6)" ( (binary_expression "(uVar6 ^ uVar3) & uVar8 ^ uVar6" (binary_expression "(uVar6 ^ uVar3) & uVar8" (parenthesized_expression "(uVar6 ^ uVar3)" ( (binary_expression "uVar6 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800);" (assignment_expression "uVar25 = uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier = (binary_expression "uVar4 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier + (parenthesized_expression "(uVar22 >> 0x15 | uVar22 * 0x800)" ( (binary_expression "uVar22 >> 0x15 | uVar22 * 0x800" (binary_expression "uVar22 >> 0x15" identifier >> number_literal) | (binary_expression "uVar22 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5;" (assignment_expression "uVar5 = ((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5" identifier = (binary_expression "((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c + uVar5" (binary_expression "((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8] + DAT_0001100c" (binary_expression "((uVar26 ^ uVar23) & uVar9 ^ uVar23) + X[8]" (parenthesized_expression "((uVar26 ^ uVar23) & uVar9 ^ uVar23)" ( (binary_expression "(uVar26 ^ uVar23) & uVar9 ^ uVar23" (binary_expression "(uVar26 ^ uVar23) & uVar9" (parenthesized_expression "(uVar26 ^ uVar23)" ( (binary_expression "uVar26 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4;" (assignment_expression "uVar12 = ((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4" identifier = (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124 + uVar4" (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe] + 0x5c4dd124" (binary_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3) + X[0xe]" (parenthesized_expression "((uVar3 ^ uVar25) & uVar22 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar25) & uVar22 ^ uVar3" (binary_expression "(uVar3 ^ uVar25) & uVar22" (parenthesized_expression "(uVar3 ^ uVar25)" ( (binary_expression "uVar3 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);" (assignment_expression "uVar15 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000)" identifier = (binary_expression "uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000)" identifier + (parenthesized_expression "(uVar5 >> 0x14 | uVar5 * 0x1000)" ( (binary_expression "uVar5 >> 0x14 | uVar5 * 0x1000" (binary_expression "uVar5 >> 0x14" identifier >> number_literal) | (binary_expression "uVar5 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80);" (assignment_expression "uVar5 = uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80)" identifier = (binary_expression "uVar8 + (uVar12 >> 0x19 | uVar12 * 0x80)" identifier + (parenthesized_expression "(uVar12 >> 0x19 | uVar12 * 0x80)" ( (binary_expression "uVar12 >> 0x19 | uVar12 * 0x80" (binary_expression "uVar12 >> 0x19" identifier >> number_literal) | (binary_expression "uVar12 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar4 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8;" (assignment_expression "uVar8 = ((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8" identifier = (binary_expression "((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124 + uVar8" (binary_expression "((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf] + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar5) & uVar12 ^ uVar25) + X[0xf]" (parenthesized_expression "((uVar25 ^ uVar5) & uVar12 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar5) & uVar12 ^ uVar25" (binary_expression "(uVar25 ^ uVar5) & uVar12" (parenthesized_expression "(uVar25 ^ uVar5)" ( (binary_expression "uVar25 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar25 = uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar22 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22;" (assignment_expression "uVar22 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22" identifier = (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124 + uVar22" (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8] + 0x5c4dd124" (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[8]" (parenthesized_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar25) & uVar4 ^ uVar5" (binary_expression "(uVar5 ^ uVar25) & uVar4" (parenthesized_expression "(uVar5 ^ uVar25)" ( (binary_expression "uVar5 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar6 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar22 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12;" (assignment_expression "uVar8 = ((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12" identifier = (binary_expression "((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124 + uVar12" (binary_expression "((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc] + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar6) & uVar22 ^ uVar25) + X[0xc]" (parenthesized_expression "((uVar25 ^ uVar6) & uVar22 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar6) & uVar22 ^ uVar25" (binary_expression "(uVar25 ^ uVar6) & uVar22" (parenthesized_expression "(uVar25 ^ uVar6)" ( (binary_expression "uVar25 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar3 = uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar4 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4;" (assignment_expression "uVar12 = ((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4" identifier = (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010 + uVar4" (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4] + DAT_00011010" (binary_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6) + X[4]" (parenthesized_expression "((uVar6 ^ uVar3) & uVar8 ^ uVar6)" ( (binary_expression "(uVar6 ^ uVar3) & uVar8 ^ uVar6" (binary_expression "(uVar6 ^ uVar3) & uVar8" (parenthesized_expression "(uVar6 ^ uVar3)" ( (binary_expression "uVar6 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40);" (assignment_expression "uVar5 = uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40)" identifier = (binary_expression "uVar22 + (uVar12 >> 0x1a | uVar12 * 0x40)" identifier + (parenthesized_expression "(uVar12 >> 0x1a | uVar12 * 0x40)" ( (binary_expression "uVar12 >> 0x1a | uVar12 * 0x40" (binary_expression "uVar12 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar12 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar12 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22;" (assignment_expression "uVar22 = ((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22" identifier = (binary_expression "((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010 + uVar22" (binary_expression "((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9] + DAT_00011010" (binary_expression "((uVar3 ^ uVar5) & uVar12 ^ uVar3) + X[9]" (parenthesized_expression "((uVar3 ^ uVar5) & uVar12 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar5) & uVar12 ^ uVar3" (binary_expression "(uVar3 ^ uVar5) & uVar12" (parenthesized_expression "(uVar3 ^ uVar5)" ( (binary_expression "uVar3 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);" (assignment_expression "uVar25 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier + (parenthesized_expression "(uVar22 >> 0x11 | uVar22 * 0x8000)" ( (binary_expression "uVar22 >> 0x11 | uVar22 * 0x8000" (binary_expression "uVar22 >> 0x11" identifier >> number_literal) | (binary_expression "uVar22 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10;" (assignment_expression "uVar4 = ((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10" identifier = (binary_expression "((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014 + uVar10" (binary_expression "((~uVar9 | uVar15) ^ uVar22) + X[3] + DAT_00011014" (binary_expression "((~uVar9 | uVar15) ^ uVar22) + X[3]" (parenthesized_expression "((~uVar9 | uVar15) ^ uVar22)" ( (binary_expression "(~uVar9 | uVar15) ^ uVar22" (parenthesized_expression "(~uVar9 | uVar15)" ( (binary_expression "~uVar9 | uVar15" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800);" (assignment_expression "uVar10 = uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800)" identifier = (binary_expression "uVar23 + (uVar4 >> 0x15 | uVar4 * 0x800)" identifier + (parenthesized_expression "(uVar4 >> 0x15 | uVar4 * 0x800)" ( (binary_expression "uVar4 >> 0x15 | uVar4 * 0x800" (binary_expression "uVar4 >> 0x15" identifier >> number_literal) | (binary_expression "uVar4 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8;" (assignment_expression "uVar8 = ((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8" identifier = (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124 + uVar8" (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1] + 0x5c4dd124" (binary_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5) + X[1]" (parenthesized_expression "((uVar5 ^ uVar25) & uVar4 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar25) & uVar4 ^ uVar5" (binary_expression "(uVar5 ^ uVar25) & uVar4" (parenthesized_expression "(uVar5 ^ uVar25)" ( (binary_expression "uVar5 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000);" (assignment_expression "uVar6 = uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier + (parenthesized_expression "(uVar8 >> 0x13 | uVar8 * 0x2000)" ( (binary_expression "uVar8 >> 0x13 | uVar8 * 0x2000" (binary_expression "uVar8 >> 0x13" identifier >> number_literal) | (binary_expression "uVar8 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23;" (assignment_expression "uVar23 = ((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23" identifier = (binary_expression "((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014 + uVar23" (binary_expression "((~uVar15 | uVar10) ^ uVar8) + X[10] + DAT_00011014" (binary_expression "((~uVar15 | uVar10) ^ uVar8) + X[10]" (parenthesized_expression "((~uVar15 | uVar10) ^ uVar8)" ( (binary_expression "(~uVar15 | uVar10) ^ uVar8" (parenthesized_expression "(~uVar15 | uVar10)" ( (binary_expression "~uVar15 | uVar10" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12;" (assignment_expression "uVar12 = (uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12" identifier = (binary_expression "(uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124 + uVar12" (binary_expression "(uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2] + 0x5c4dd124" (binary_expression "(uVar25 ^ (uVar25 ^ uVar6) & uVar5) + X[2]" (parenthesized_expression "(uVar25 ^ (uVar25 ^ uVar6) & uVar5)" ( (binary_expression "uVar25 ^ (uVar25 ^ uVar6) & uVar5" identifier ^ (binary_expression "(uVar25 ^ uVar6) & uVar5" (parenthesized_expression "(uVar25 ^ uVar6)" ( (binary_expression "uVar25 ^ uVar6" identifier ^ identifier) )) & identifier)) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800);" (assignment_expression "uVar20 = uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x15 | uVar12 * 0x800)" identifier + (parenthesized_expression "(uVar12 >> 0x15 | uVar12 * 0x800)" ( (binary_expression "uVar12 >> 0x15 | uVar12 * 0x800" (binary_expression "uVar12 >> 0x15" identifier >> number_literal) | (binary_expression "uVar12 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000);" (assignment_expression "uVar3 = uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000)" identifier = (binary_expression "uVar22 + (uVar23 >> 0x13 | uVar23 * 0x2000)" identifier + (parenthesized_expression "(uVar23 >> 0x13 | uVar23 * 0x2000)" ( (binary_expression "uVar23 >> 0x13 | uVar23 * 0x2000" (binary_expression "uVar23 >> 0x13" identifier >> number_literal) | (binary_expression "uVar23 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22;" (assignment_expression "uVar22 = ((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22" identifier = (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014 + uVar22" (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xe] + DAT_00011014" (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xe]" (parenthesized_expression "((~uVar10 | uVar3) ^ uVar23)" ( (binary_expression "(~uVar10 | uVar3) ^ uVar23" (parenthesized_expression "(~uVar10 | uVar3)" ( (binary_expression "~uVar10 | uVar3" (unary_expression "~uVar10" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40);" (assignment_expression "uVar25 = uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x1a | uVar22 * 0x40)" identifier + (parenthesized_expression "(uVar22 >> 0x1a | uVar22 * 0x40)" ( (binary_expression "uVar22 >> 0x1a | uVar22 * 0x40" (binary_expression "uVar22 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar22 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar22 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8;" (assignment_expression "uVar8 = ((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8" identifier = (binary_expression "((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014 + uVar8" (binary_expression "((~uVar3 | uVar25) ^ uVar22) + X[4] + DAT_00011014" (binary_expression "((~uVar3 | uVar25) ^ uVar22) + X[4]" (parenthesized_expression "((~uVar3 | uVar25) ^ uVar22)" ( (binary_expression "(~uVar3 | uVar25) ^ uVar22" (parenthesized_expression "(~uVar3 | uVar25)" ( (binary_expression "~uVar3 | uVar25" (unary_expression "~uVar3" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4;" (assignment_expression "uVar4 = ((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4" identifier = (binary_expression "((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3 + uVar4" (binary_expression "((~uVar6 | uVar20) ^ uVar12) + X[0xf] + 0x6d703ef3" (binary_expression "((~uVar6 | uVar20) ^ uVar12) + X[0xf]" (parenthesized_expression "((~uVar6 | uVar20) ^ uVar12)" ( (binary_expression "(~uVar6 | uVar20) ^ uVar12" (parenthesized_expression "(~uVar6 | uVar20)" ( (binary_expression "~uVar6 | uVar20" (unary_expression "~uVar6" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200);" (assignment_expression "uVar9 = uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier = (binary_expression "uVar5 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier + (parenthesized_expression "(uVar4 >> 0x17 | uVar4 * 0x200)" ( (binary_expression "uVar4 >> 0x17 | uVar4 * 0x200" (binary_expression "uVar4 >> 0x17" identifier >> number_literal) | (binary_expression "uVar4 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar10 = uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar23 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5;" (assignment_expression "uVar5 = ((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5" identifier = (binary_expression "((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3 + uVar5" (binary_expression "((~uVar20 | uVar9) ^ uVar8) + X[5] + 0x6d703ef3" (binary_expression "((~uVar20 | uVar9) ^ uVar8) + X[5]" (parenthesized_expression "((~uVar20 | uVar9) ^ uVar8)" ( (binary_expression "(~uVar20 | uVar9) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar9)" ( (binary_expression "~uVar20 | uVar9" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar4 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23;" (assignment_expression "uVar23 = ((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23" identifier = (binary_expression "((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1 + uVar23" (binary_expression "((~uVar25 | uVar10) ^ uVar4) + X[9] + 0x6ed9eba1" (binary_expression "((~uVar25 | uVar10) ^ uVar4) + X[9]" (parenthesized_expression "((~uVar25 | uVar10) ^ uVar4)" ( (binary_expression "(~uVar25 | uVar10) ^ uVar4" (parenthesized_expression "(~uVar25 | uVar10)" ( (binary_expression "~uVar25 | uVar10" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000);" (assignment_expression "uVar3 = uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000)" identifier = (binary_expression "uVar22 + (uVar23 >> 0x12 | uVar23 * 0x4000)" identifier + (parenthesized_expression "(uVar23 >> 0x12 | uVar23 * 0x4000)" ( (binary_expression "uVar23 >> 0x12 | uVar23 * 0x4000" (binary_expression "uVar23 >> 0x12" identifier >> number_literal) | (binary_expression "uVar23 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80);" (assignment_expression "uVar26 = uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier = (binary_expression "uVar12 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier + (parenthesized_expression "(uVar5 >> 0x19 | uVar5 * 0x80)" ( (binary_expression "uVar5 >> 0x19 | uVar5 * 0x80" (binary_expression "uVar5 >> 0x19" identifier >> number_literal) | (binary_expression "uVar5 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar23 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22;" (assignment_expression "uVar25 = ((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22" identifier = (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1 + uVar22" (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xf] + 0x6ed9eba1" (binary_expression "((~uVar10 | uVar3) ^ uVar23) + X[0xf]" (parenthesized_expression "((~uVar10 | uVar3) ^ uVar23)" ( (binary_expression "(~uVar10 | uVar3) ^ uVar23" (parenthesized_expression "(~uVar10 | uVar3)" ( (binary_expression "~uVar10 | uVar3" (unary_expression "~uVar10" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12;" (assignment_expression "uVar22 = ((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12" identifier = (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018 + uVar12" (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[1] + DAT_00011018" (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[1]" (parenthesized_expression "((~uVar9 | uVar26) ^ uVar5)" ( (binary_expression "(~uVar9 | uVar26) ^ uVar5" (parenthesized_expression "(~uVar9 | uVar26)" ( (binary_expression "~uVar9 | uVar26" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000);" (assignment_expression "uVar15 = uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier + (parenthesized_expression "(uVar22 >> 0x11 | uVar22 * 0x8000)" ( (binary_expression "uVar22 >> 0x11 | uVar22 * 0x8000" (binary_expression "uVar22 >> 0x11" identifier >> number_literal) | (binary_expression "uVar22 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar22 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8;" (assignment_expression "uVar8 = ((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8" identifier = (binary_expression "((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018 + uVar8" (binary_expression "((~uVar26 | uVar15) ^ uVar22) + X[3] + DAT_00011018" (binary_expression "((~uVar26 | uVar15) ^ uVar22) + X[3]" (parenthesized_expression "((~uVar26 | uVar15) ^ uVar22)" ( (binary_expression "(~uVar26 | uVar15) ^ uVar22" (parenthesized_expression "(~uVar26 | uVar15)" ( (binary_expression "~uVar26 | uVar15" (unary_expression "~uVar26" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar9 = uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier = (binary_expression "uVar5 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200);" (assignment_expression "uVar25 = uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200)" identifier = (binary_expression "uVar4 + (uVar25 >> 0x17 | uVar25 * 0x200)" identifier + (parenthesized_expression "(uVar25 >> 0x17 | uVar25 * 0x200)" ( (binary_expression "uVar25 >> 0x17 | uVar25 * 0x200" (binary_expression "uVar25 >> 0x17" identifier >> number_literal) | (binary_expression "uVar25 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar8 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4;" (assignment_expression "uVar12 = ((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4" identifier = (binary_expression "((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1 + uVar4" (binary_expression "((~uVar3 | uVar25) ^ uVar8) + X[8] + 0x6ed9eba1" (binary_expression "((~uVar3 | uVar25) ^ uVar8) + X[8]" (parenthesized_expression "((~uVar3 | uVar25) ^ uVar8)" ( (binary_expression "(~uVar3 | uVar25) ^ uVar8" (parenthesized_expression "(~uVar3 | uVar25)" ( (binary_expression "~uVar3 | uVar25" (unary_expression "~uVar3" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000);" (assignment_expression "uVar6 = uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier = (binary_expression "uVar23 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier + (parenthesized_expression "(uVar12 >> 0x13 | uVar12 * 0x2000)" ( (binary_expression "uVar12 >> 0x13 | uVar12 * 0x2000" (binary_expression "uVar12 >> 0x13" identifier >> number_literal) | (binary_expression "uVar12 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23;" (assignment_expression "uVar23 = ((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23" identifier = (binary_expression "((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014 + uVar23" (binary_expression "((~uVar25 | uVar6) ^ uVar12) + X[1] + DAT_00011014" (binary_expression "((~uVar25 | uVar6) ^ uVar12) + X[1]" (parenthesized_expression "((~uVar25 | uVar6) ^ uVar12)" ( (binary_expression "(~uVar25 | uVar6) ^ uVar12" (parenthesized_expression "(~uVar25 | uVar6)" ( (binary_expression "~uVar25 | uVar6" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000);" (assignment_expression "uVar10 = uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar23 >> 0x11 | uVar23 * 0x8000)" identifier + (parenthesized_expression "(uVar23 >> 0x11 | uVar23 * 0x8000)" ( (binary_expression "uVar23 >> 0x11 | uVar23 * 0x8000" (binary_expression "uVar23 >> 0x11" identifier >> number_literal) | (binary_expression "uVar23 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5;" (assignment_expression "uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5" identifier = (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3 + uVar5" (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[7] + 0x6d703ef3" (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[7]" (parenthesized_expression "((~uVar15 | uVar9) ^ uVar4)" ( (binary_expression "(~uVar15 | uVar9) ^ uVar4" (parenthesized_expression "(~uVar15 | uVar9)" ( (binary_expression "~uVar15 | uVar9" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100);" (assignment_expression "uVar26 = uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier = (binary_expression "uVar22 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier + (parenthesized_expression "(uVar23 >> 0x18 | uVar23 * 0x100)" ( (binary_expression "uVar23 >> 0x18 | uVar23 * 0x100" (binary_expression "uVar23 >> 0x18" identifier >> number_literal) | (binary_expression "uVar23 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22;" (assignment_expression "uVar22 = ((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22" identifier = (binary_expression "((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3 + uVar22" (binary_expression "((~uVar9 | uVar26) ^ uVar23) + X[0xe] + 0x6d703ef3" (binary_expression "((~uVar9 | uVar26) ^ uVar23) + X[0xe]" (parenthesized_expression "((~uVar9 | uVar26) ^ uVar23)" ( (binary_expression "(~uVar9 | uVar26) ^ uVar23" (parenthesized_expression "(~uVar9 | uVar26)" ( (binary_expression "~uVar9 | uVar26" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40);" (assignment_expression "uVar15 = uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40)" identifier = (binary_expression "uVar4 + (uVar22 >> 0x1a | uVar22 * 0x40)" identifier + (parenthesized_expression "(uVar22 >> 0x1a | uVar22 * 0x40)" ( (binary_expression "uVar22 >> 0x1a | uVar22 * 0x40" (binary_expression "uVar22 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar22 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8;" (assignment_expression "uVar8 = ((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8" identifier = (binary_expression "((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1 + uVar8" (binary_expression "((~uVar6 | uVar10) ^ uVar22) + X[2] + 0x6ed9eba1" (binary_expression "((~uVar6 | uVar10) ^ uVar22) + X[2]" (parenthesized_expression "((~uVar6 | uVar10) ^ uVar22)" ( (binary_expression "(~uVar6 | uVar10) ^ uVar22" (parenthesized_expression "(~uVar6 | uVar10)" ( (binary_expression "~uVar6 | uVar10" (unary_expression "~uVar6" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar5 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier + (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" ( (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" identifier >> number_literal) | (binary_expression "uVar8 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12;" (assignment_expression "uVar12 = ((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12" identifier = (binary_expression "((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1 + uVar12" (binary_expression "((~uVar10 | uVar5) ^ uVar8) + X[7] + 0x6ed9eba1" (binary_expression "((~uVar10 | uVar5) ^ uVar8) + X[7]" (parenthesized_expression "((~uVar10 | uVar5) ^ uVar8)" ( (binary_expression "(~uVar10 | uVar5) ^ uVar8" (parenthesized_expression "(~uVar10 | uVar5)" ( (binary_expression "~uVar10 | uVar5" (unary_expression "~uVar10" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);" (assignment_expression "uVar3 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier = (binary_expression "uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier + (parenthesized_expression "(uVar12 >> 0x18 | uVar12 * 0x100)" ( (binary_expression "uVar12 >> 0x18 | uVar12 * 0x100" (binary_expression "uVar12 >> 0x18" identifier >> number_literal) | (binary_expression "uVar12 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar12 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4;" (assignment_expression "uVar4 = ((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4" identifier = (binary_expression "((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3 + uVar4" (binary_expression "((~uVar26 | uVar15) ^ uVar12) + X[6] + 0x6d703ef3" (binary_expression "((~uVar26 | uVar15) ^ uVar12) + X[6]" (parenthesized_expression "((~uVar26 | uVar15) ^ uVar12)" ( (binary_expression "(~uVar26 | uVar15) ^ uVar12" (parenthesized_expression "(~uVar26 | uVar15)" ( (binary_expression "~uVar26 | uVar15" (unary_expression "~uVar26" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40);" (assignment_expression "uVar9 = uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40)" identifier = (binary_expression "uVar23 + (uVar4 >> 0x1a | uVar4 * 0x40)" identifier + (parenthesized_expression "(uVar4 >> 0x1a | uVar4 * 0x40)" ( (binary_expression "uVar4 >> 0x1a | uVar4 * 0x40" (binary_expression "uVar4 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar4 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23;" (assignment_expression "uVar23 = ((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23" identifier = (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3 + uVar23" (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[9] + 0x6d703ef3" (binary_expression "((~uVar15 | uVar9) ^ uVar4) + X[9]" (parenthesized_expression "((~uVar15 | uVar9) ^ uVar4)" ( (binary_expression "(~uVar15 | uVar9) ^ uVar4" (parenthesized_expression "(~uVar15 | uVar9)" ( (binary_expression "~uVar15 | uVar9" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000);" (assignment_expression "uVar26 = uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000)" identifier = (binary_expression "uVar12 + (uVar23 >> 0x12 | uVar23 * 0x4000)" identifier + (parenthesized_expression "(uVar23 >> 0x12 | uVar23 * 0x4000)" ( (binary_expression "uVar23 >> 0x12 | uVar23 * 0x4000" (binary_expression "uVar23 >> 0x12" identifier >> number_literal) | (binary_expression "uVar23 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22;" (assignment_expression "uVar22 = ((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22" identifier = (binary_expression "((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1 + uVar22" (binary_expression "((~uVar5 | uVar3) ^ uVar23) + X[0] + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar3) ^ uVar23) + X[0]" (parenthesized_expression "((~uVar5 | uVar3) ^ uVar23)" ( (binary_expression "(~uVar5 | uVar3) ^ uVar23" (parenthesized_expression "(~uVar5 | uVar3)" ( (binary_expression "~uVar5 | uVar3" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000);" (assignment_expression "uVar10 = uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x13 | uVar22 * 0x2000)" identifier + (parenthesized_expression "(uVar22 >> 0x13 | uVar22 * 0x2000)" ( (binary_expression "uVar22 >> 0x13 | uVar22 * 0x2000" (binary_expression "uVar22 >> 0x13" identifier >> number_literal) | (binary_expression "uVar22 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar22 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12;" (assignment_expression "uVar12 = ((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12" identifier = (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3 + uVar12" (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[0xb] + 0x6d703ef3" (binary_expression "((~uVar9 | uVar26) ^ uVar5) + X[0xb]" (parenthesized_expression "((~uVar9 | uVar26) ^ uVar5)" ( (binary_expression "(~uVar9 | uVar26) ^ uVar5" (parenthesized_expression "(~uVar9 | uVar26)" ( (binary_expression "~uVar9 | uVar26" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8;" (assignment_expression "uVar8 = ((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8" identifier = (binary_expression "((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014 + uVar8" (binary_expression "((~uVar3 | uVar10) ^ uVar22) + X[6] + DAT_00011014" (binary_expression "((~uVar3 | uVar10) ^ uVar22) + X[6]" (parenthesized_expression "((~uVar3 | uVar10) ^ uVar22)" ( (binary_expression "(~uVar3 | uVar10) ^ uVar22" (parenthesized_expression "(~uVar3 | uVar10)" ( (binary_expression "~uVar3 | uVar10" (unary_expression "~uVar3" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40);" (assignment_expression "uVar6 = uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier = (binary_expression "uVar23 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier + (parenthesized_expression "(uVar8 >> 0x1a | uVar8 * 0x40)" ( (binary_expression "uVar8 >> 0x1a | uVar8 * 0x40" (binary_expression "uVar8 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar8 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);" (assignment_expression "uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier + (parenthesized_expression "(uVar12 >> 0x14 | uVar12 * 0x1000)" ( (binary_expression "uVar12 >> 0x14 | uVar12 * 0x1000" (binary_expression "uVar12 >> 0x14" identifier >> number_literal) | (binary_expression "uVar12 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4;" (assignment_expression "uVar12 = ((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4" identifier = (binary_expression "((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3 + uVar4" (binary_expression "((~uVar26 | uVar25) ^ uVar8) + X[8] + 0x6d703ef3" (binary_expression "((~uVar26 | uVar25) ^ uVar8) + X[8]" (parenthesized_expression "((~uVar26 | uVar25) ^ uVar8)" ( (binary_expression "(~uVar26 | uVar25) ^ uVar8" (parenthesized_expression "(~uVar26 | uVar25)" ( (binary_expression "~uVar26 | uVar25" (unary_expression "~uVar26" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000);" (assignment_expression "uVar20 = uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar12 >> 0x13 | uVar12 * 0x2000)" identifier + (parenthesized_expression "(uVar12 >> 0x13 | uVar12 * 0x2000)" ( (binary_expression "uVar12 >> 0x13 | uVar12 * 0x2000" (binary_expression "uVar12 >> 0x13" identifier >> number_literal) | (binary_expression "uVar12 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23;" (assignment_expression "uVar23 = ((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23" identifier = (binary_expression "((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1 + uVar23" (binary_expression "((~uVar10 | uVar6) ^ uVar12) + X[0xd] + 0x6ed9eba1" (binary_expression "((~uVar10 | uVar6) ^ uVar12) + X[0xd]" (parenthesized_expression "((~uVar10 | uVar6) ^ uVar12)" ( (binary_expression "(~uVar10 | uVar6) ^ uVar12" (parenthesized_expression "(~uVar10 | uVar6)" ( (binary_expression "~uVar10 | uVar6" (unary_expression "~uVar10" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20);" (assignment_expression "uVar3 = uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20)" identifier = (binary_expression "uVar22 + (uVar23 >> 0x1b | uVar23 * 0x20)" identifier + (parenthesized_expression "(uVar23 >> 0x1b | uVar23 * 0x20)" ( (binary_expression "uVar23 >> 0x1b | uVar23 * 0x20" (binary_expression "uVar23 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar23 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22;" (assignment_expression "uVar22 = ((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22" identifier = (binary_expression "((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014 + uVar22" (binary_expression "((~uVar6 | uVar3) ^ uVar23) + X[0xb] + DAT_00011014" (binary_expression "((~uVar6 | uVar3) ^ uVar23) + X[0xb]" (parenthesized_expression "((~uVar6 | uVar3) ^ uVar23)" ( (binary_expression "(~uVar6 | uVar3) ^ uVar23" (parenthesized_expression "(~uVar6 | uVar3)" ( (binary_expression "~uVar6 | uVar3" (unary_expression "~uVar6" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5;" (assignment_expression "uVar5 = ((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5" identifier = (binary_expression "((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3 + uVar5" (binary_expression "((~uVar25 | uVar20) ^ uVar4) + X[0xc] + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar4) + X[0xc]" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar4)" ( (binary_expression "(~uVar25 | uVar20) ^ uVar4" (parenthesized_expression "(~uVar25 | uVar20)" ( (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20);" (assignment_expression "uVar15 = uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier = (binary_expression "uVar8 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier + (parenthesized_expression "(uVar5 >> 0x1b | uVar5 * 0x20)" ( (binary_expression "uVar5 >> 0x1b | uVar5 * 0x20" (binary_expression "uVar5 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar5 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar9 = uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3 + uVar8" (binary_expression "((~uVar20 | uVar15) ^ uVar22) + X[2] + 0x6d703ef3" (binary_expression "((~uVar20 | uVar15) ^ uVar22) + X[2]" (parenthesized_expression "((~uVar20 | uVar15) ^ uVar22)" ( (binary_expression "(~uVar20 | uVar15) ^ uVar22" (parenthesized_expression "(~uVar20 | uVar15)" ( (binary_expression "~uVar20 | uVar15" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar26 = uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier = (binary_expression "uVar4 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier + (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" ( (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" identifier >> number_literal) | (binary_expression "uVar8 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12;" (assignment_expression "uVar12 = ((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12" identifier = (binary_expression "((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1 + uVar12" (binary_expression "((~uVar3 | uVar9) ^ uVar8) + X[5] + 0x6ed9eba1" (binary_expression "((~uVar3 | uVar9) ^ uVar8) + X[5]" (parenthesized_expression "((~uVar3 | uVar9) ^ uVar8)" ( (binary_expression "(~uVar3 | uVar9) ^ uVar8" (parenthesized_expression "(~uVar3 | uVar9)" ( (binary_expression "~uVar3 | uVar9" (unary_expression "~uVar3" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80);" (assignment_expression "uVar25 = uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80)" identifier = (binary_expression "uVar23 + (uVar12 >> 0x19 | uVar12 * 0x80)" identifier + (parenthesized_expression "(uVar12 >> 0x19 | uVar12 * 0x80)" ( (binary_expression "uVar12 >> 0x19 | uVar12 * 0x80" (binary_expression "uVar12 >> 0x19" identifier >> number_literal) | (binary_expression "uVar12 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23;" (assignment_expression "uVar10 = ((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23" identifier = (binary_expression "((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1 + uVar23" (binary_expression "((~uVar9 | uVar25) ^ uVar12) + X[0xc] + 0x6ed9eba1" (binary_expression "((~uVar9 | uVar25) ^ uVar12) + X[0xc]" (parenthesized_expression "((~uVar9 | uVar25) ^ uVar12)" ( (binary_expression "(~uVar9 | uVar25) ^ uVar12" (parenthesized_expression "(~uVar9 | uVar25)" ( (binary_expression "~uVar9 | uVar25" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4;" (assignment_expression "uVar4 = ((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4" identifier = (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018 + uVar4" (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[10] + DAT_00011018" (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[10]" (parenthesized_expression "((~uVar15 | uVar26) ^ uVar5)" ( (binary_expression "(~uVar15 | uVar26) ^ uVar5" (parenthesized_expression "(~uVar15 | uVar26)" ( (binary_expression "~uVar15 | uVar26" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20);" (assignment_expression "uVar3 = uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier = (binary_expression "uVar8 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier + (parenthesized_expression "(uVar10 >> 0x1b | uVar10 * 0x20)" ( (binary_expression "uVar10 >> 0x1b | uVar10 * 0x20" (binary_expression "uVar10 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar10 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000);" (assignment_expression "uVar20 = uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x13 | uVar4 * 0x2000)" identifier + (parenthesized_expression "(uVar4 >> 0x13 | uVar4 * 0x2000)" ( (binary_expression "uVar4 >> 0x13 | uVar4 * 0x2000" (binary_expression "uVar4 >> 0x13" identifier >> number_literal) | (binary_expression "uVar4 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22;" (assignment_expression "uVar6 = ((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22" identifier = (binary_expression "((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018 + uVar22" (binary_expression "((~uVar26 | uVar20) ^ uVar10) + X[0] + DAT_00011018" (binary_expression "((~uVar26 | uVar20) ^ uVar10) + X[0]" (parenthesized_expression "((~uVar26 | uVar20) ^ uVar10)" ( (binary_expression "(~uVar26 | uVar20) ^ uVar10" (parenthesized_expression "(~uVar26 | uVar20)" ( (binary_expression "~uVar26 | uVar20" (unary_expression "~uVar26" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23;" (assignment_expression "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23" identifier = (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc + uVar23" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1] + 0x8f1bbcdc" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[1]" (parenthesized_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar3) & uVar4 ^ uVar25" (binary_expression "(uVar25 ^ uVar3) & uVar4" (parenthesized_expression "(uVar25 ^ uVar3)" ( (binary_expression "uVar25 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000);" (assignment_expression "uVar15 = uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar6 >> 0x13 | uVar6 * 0x2000)" identifier + (parenthesized_expression "(uVar6 >> 0x13 | uVar6 * 0x2000)" ( (binary_expression "uVar6 >> 0x13 | uVar6 * 0x2000" (binary_expression "uVar6 >> 0x13" identifier >> number_literal) | (binary_expression "uVar6 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);" (assignment_expression "uVar6 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier + (parenthesized_expression "(uVar22 >> 0x15 | uVar22 * 0x800)" ( (binary_expression "uVar22 >> 0x15 | uVar22 * 0x800" (binary_expression "uVar22 >> 0x15" identifier >> number_literal) | (binary_expression "uVar22 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12;" (assignment_expression "uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12" identifier = (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc + uVar12" (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9] + 0x8f1bbcdc" (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[9]" (parenthesized_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar6) & uVar22 ^ uVar3" (binary_expression "(uVar3 ^ uVar6) & uVar22" (parenthesized_expression "(uVar3 ^ uVar6)" ( (binary_expression "uVar3 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000);" (assignment_expression "uVar25 = uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x14 | uVar12 * 0x1000)" identifier + (parenthesized_expression "(uVar12 >> 0x14 | uVar12 * 0x1000)" ( (binary_expression "uVar12 >> 0x14 | uVar12 * 0x1000" (binary_expression "uVar12 >> 0x14" identifier >> number_literal) | (binary_expression "uVar12 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4;" (assignment_expression "uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4" identifier = (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c + uVar4" (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb] + DAT_0001101c" (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[0xb]" (parenthesized_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6)" ( (binary_expression "(uVar6 ^ uVar25) & uVar12 ^ uVar6" (binary_expression "(uVar6 ^ uVar25) & uVar12" (parenthesized_expression "(uVar6 ^ uVar25)" ( (binary_expression "uVar6 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000);" (assignment_expression "uVar3 = uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x12 | uVar4 * 0x4000)" identifier + (parenthesized_expression "(uVar4 >> 0x12 | uVar4 * 0x4000)" ( (binary_expression "uVar4 >> 0x12 | uVar4 * 0x4000" (binary_expression "uVar4 >> 0x12" identifier >> number_literal) | (binary_expression "uVar4 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22;" (assignment_expression "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22" identifier = (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc + uVar22" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10] + 0x8f1bbcdc" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[10]" (parenthesized_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar3) & uVar4 ^ uVar25" (binary_expression "(uVar25 ^ uVar3) & uVar4" (parenthesized_expression "(uVar25 ^ uVar3)" ( (binary_expression "uVar25 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000);" (assignment_expression "uVar6 = uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier + (parenthesized_expression "(uVar22 >> 0x11 | uVar22 * 0x8000)" ( (binary_expression "uVar22 >> 0x11 | uVar22 * 0x8000" (binary_expression "uVar22 >> 0x11" identifier >> number_literal) | (binary_expression "uVar22 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12;" (assignment_expression "uVar12 = ((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12" identifier = (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc + uVar12" (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0] + 0x8f1bbcdc" (binary_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3) + X[0]" (parenthesized_expression "((uVar3 ^ uVar6) & uVar22 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar6) & uVar22 ^ uVar3" (binary_expression "(uVar3 ^ uVar6) & uVar22" (parenthesized_expression "(uVar3 ^ uVar6)" ( (binary_expression "uVar3 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);" (assignment_expression "uVar25 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000)" identifier + (parenthesized_expression "(uVar12 >> 0x12 | uVar12 * 0x4000)" ( (binary_expression "uVar12 >> 0x12 | uVar12 * 0x4000" (binary_expression "uVar12 >> 0x12" identifier >> number_literal) | (binary_expression "uVar12 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4;" (assignment_expression "uVar4 = ((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4" identifier = (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc + uVar4" (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8] + 0x8f1bbcdc" (binary_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6) + X[8]" (parenthesized_expression "((uVar6 ^ uVar25) & uVar12 ^ uVar6)" ( (binary_expression "(uVar6 ^ uVar25) & uVar12 ^ uVar6" (binary_expression "(uVar6 ^ uVar25) & uVar12" (parenthesized_expression "(uVar6 ^ uVar25)" ( (binary_expression "uVar6 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000);" (assignment_expression "uVar3 = uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x11 | uVar4 * 0x8000)" identifier + (parenthesized_expression "(uVar4 >> 0x11 | uVar4 * 0x8000)" ( (binary_expression "uVar4 >> 0x11 | uVar4 * 0x8000" (binary_expression "uVar4 >> 0x11" identifier >> number_literal) | (binary_expression "uVar4 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22;" (assignment_expression "uVar22 = ((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22" identifier = (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc + uVar22" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc] + 0x8f1bbcdc" (binary_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25) + X[0xc]" (parenthesized_expression "((uVar25 ^ uVar3) & uVar4 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar3) & uVar4 ^ uVar25" (binary_expression "(uVar25 ^ uVar3) & uVar4" (parenthesized_expression "(uVar25 ^ uVar3)" ( (binary_expression "uVar25 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200);" (assignment_expression "uVar9 = uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x17 | uVar22 * 0x200)" identifier + (parenthesized_expression "(uVar22 >> 0x17 | uVar22 * 0x200)" ( (binary_expression "uVar22 >> 0x17 | uVar22 * 0x200" (binary_expression "uVar22 >> 0x17" identifier >> number_literal) | (binary_expression "uVar22 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5;" (assignment_expression "uVar22 = ((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5" identifier = (binary_expression "((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3 + uVar5" (binary_expression "((~uVar20 | uVar15) ^ uVar23) + X[4] + 0x6d703ef3" (binary_expression "((~uVar20 | uVar15) ^ uVar23) + X[4]" (parenthesized_expression "((~uVar20 | uVar15) ^ uVar23)" ( (binary_expression "(~uVar20 | uVar15) ^ uVar23" (parenthesized_expression "(~uVar20 | uVar15)" ( (binary_expression "~uVar20 | uVar15" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80);" (assignment_expression "uVar26 = uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier = (binary_expression "uVar10 + (uVar22 >> 0x19 | uVar22 * 0x80)" identifier + (parenthesized_expression "(uVar22 >> 0x19 | uVar22 * 0x80)" ( (binary_expression "uVar22 >> 0x19 | uVar22 * 0x80" (binary_expression "uVar22 >> 0x19" identifier >> number_literal) | (binary_expression "uVar22 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10;" (assignment_expression "uVar10 = ((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10" identifier = (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018 + uVar10" (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[0xd] + DAT_00011018" (binary_expression "((~uVar15 | uVar26) ^ uVar5) + X[0xd]" (parenthesized_expression "((~uVar15 | uVar26) ^ uVar5)" ( (binary_expression "(~uVar15 | uVar26) ^ uVar5" (parenthesized_expression "(~uVar15 | uVar26)" ( (binary_expression "~uVar15 | uVar26" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);" (assignment_expression "uVar23 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier = (binary_expression "uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier + (parenthesized_expression "(uVar10 >> 0x1b | uVar10 * 0x20)" ( (binary_expression "uVar10 >> 0x1b | uVar10 * 0x20" (binary_expression "uVar10 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar10 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12;" (assignment_expression "uVar12 = ((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12" identifier = (binary_expression "((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc + uVar12" (binary_expression "((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4] + 0x8f1bbcdc" (binary_expression "((uVar3 ^ uVar9) & uVar22 ^ uVar3) + X[4]" (parenthesized_expression "((uVar3 ^ uVar9) & uVar22 ^ uVar3)" ( (binary_expression "(uVar3 ^ uVar9) & uVar22 ^ uVar3" (binary_expression "(uVar3 ^ uVar9) & uVar22" (parenthesized_expression "(uVar3 ^ uVar9)" ( (binary_expression "uVar3 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100);" (assignment_expression "uVar6 = uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier + (parenthesized_expression "(uVar12 >> 0x18 | uVar12 * 0x100)" ( (binary_expression "uVar12 >> 0x18 | uVar12 * 0x100" (binary_expression "uVar12 >> 0x18" identifier >> number_literal) | (binary_expression "uVar12 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4;" (assignment_expression "uVar4 = ((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4" identifier = (binary_expression "((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc + uVar4" (binary_expression "((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd] + 0x8f1bbcdc" (binary_expression "((uVar9 ^ uVar6) & uVar12 ^ uVar9) + X[0xd]" (parenthesized_expression "((uVar9 ^ uVar6) & uVar12 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar6) & uVar12 ^ uVar9" (binary_expression "(uVar9 ^ uVar6) & uVar12" (parenthesized_expression "(uVar9 ^ uVar6)" ( (binary_expression "uVar9 ^ uVar6" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200);" (assignment_expression "uVar25 = uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier + (parenthesized_expression "(uVar4 >> 0x17 | uVar4 * 0x200)" ( (binary_expression "uVar4 >> 0x17 | uVar4 * 0x200" (binary_expression "uVar4 >> 0x17" identifier >> number_literal) | (binary_expression "uVar4 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar4 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8" identifier = (binary_expression "((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024 + uVar8" (binary_expression "((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8] + DAT_00011024" (binary_expression "((uVar26 ^ uVar4) & uVar23 ^ uVar4) + X[8]" (parenthesized_expression "((uVar26 ^ uVar4) & uVar23 ^ uVar4)" ( (binary_expression "(uVar26 ^ uVar4) & uVar23 ^ uVar4" (binary_expression "(uVar26 ^ uVar4) & uVar23" (parenthesized_expression "(uVar26 ^ uVar4)" ( (binary_expression "uVar26 ^ uVar4" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000);" (assignment_expression "uVar3 = uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier = (binary_expression "uVar5 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier + (parenthesized_expression "(uVar8 >> 0x11 | uVar8 * 0x8000)" ( (binary_expression "uVar8 >> 0x11 | uVar8 * 0x8000" (binary_expression "uVar8 >> 0x11" identifier >> number_literal) | (binary_expression "uVar8 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5;" (assignment_expression "uVar5 = ((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5" identifier = (binary_expression "((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024 + uVar5" (binary_expression "((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6] + DAT_00011024" (binary_expression "((uVar23 ^ uVar10) & uVar3 ^ uVar10) + X[6]" (parenthesized_expression "((uVar23 ^ uVar10) & uVar3 ^ uVar10)" ( (binary_expression "(uVar23 ^ uVar10) & uVar3 ^ uVar10" (binary_expression "(uVar23 ^ uVar10) & uVar3" (parenthesized_expression "(uVar23 ^ uVar10)" ( (binary_expression "uVar23 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22;" (assignment_expression "uVar9 = ((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22" identifier = (binary_expression "((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc + uVar22" (binary_expression "((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3] + 0x8f1bbcdc" (binary_expression "((uVar6 ^ uVar25) & uVar8 ^ uVar6) + X[3]" (parenthesized_expression "((uVar6 ^ uVar25) & uVar8 ^ uVar6)" ( (binary_expression "(uVar6 ^ uVar25) & uVar8 ^ uVar6" (binary_expression "(uVar6 ^ uVar25) & uVar8" (parenthesized_expression "(uVar6 ^ uVar25)" ( (binary_expression "uVar6 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20);" (assignment_expression "uVar26 = uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier = (binary_expression "uVar4 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier + (parenthesized_expression "(uVar5 >> 0x1b | uVar5 * 0x20)" ( (binary_expression "uVar5 >> 0x1b | uVar5 * 0x20" (binary_expression "uVar5 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar5 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar23 >> 0x16 | uVar23 * 0x400;" (assignment_expression "uVar22 = uVar23 >> 0x16 | uVar23 * 0x400" identifier = (binary_expression "uVar23 >> 0x16 | uVar23 * 0x400" (binary_expression "uVar23 >> 0x16" identifier >> number_literal) | (binary_expression "uVar23 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000);" (assignment_expression "uVar9 = uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000)" identifier = (binary_expression "uVar12 + (uVar9 >> 0x12 | uVar9 * 0x4000)" identifier + (parenthesized_expression "(uVar9 >> 0x12 | uVar9 * 0x4000)" ( (binary_expression "uVar9 >> 0x12 | uVar9 * 0x4000" (binary_expression "uVar9 >> 0x12" identifier >> number_literal) | (binary_expression "uVar9 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4;" (assignment_expression "uVar4 = ((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4" identifier = (binary_expression "((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9 + uVar4" (binary_expression "((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4] + 0x7a6d76e9" (binary_expression "((uVar3 ^ uVar22) & uVar26 ^ uVar22) + X[4]" (parenthesized_expression "((uVar3 ^ uVar22) & uVar26 ^ uVar22)" ( (binary_expression "(uVar3 ^ uVar22) & uVar26 ^ uVar22" (binary_expression "(uVar3 ^ uVar22) & uVar26" (parenthesized_expression "(uVar3 ^ uVar22)" ( (binary_expression "uVar3 ^ uVar22" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12;" (assignment_expression "uVar6 = ((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12" identifier = (binary_expression "((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c + uVar12" (binary_expression "((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7] + DAT_0001101c" (binary_expression "((uVar25 ^ uVar9) & uVar23 ^ uVar25) + X[7]" (parenthesized_expression "((uVar25 ^ uVar9) & uVar23 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar9) & uVar23 ^ uVar25" (binary_expression "(uVar25 ^ uVar9) & uVar23" (parenthesized_expression "(uVar25 ^ uVar9)" ( (binary_expression "uVar25 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar12 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100);" (assignment_expression "uVar3 = uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100)" identifier = (binary_expression "uVar10 + (uVar4 >> 0x18 | uVar4 * 0x100)" identifier + (parenthesized_expression "(uVar4 >> 0x18 | uVar4 * 0x100)" ( (binary_expression "uVar4 >> 0x18 | uVar4 * 0x100" (binary_expression "uVar4 >> 0x18" identifier >> number_literal) | (binary_expression "uVar4 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10;" (assignment_expression "uVar5 = ((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10" identifier = (binary_expression "((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9 + uVar10" (binary_expression "((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1] + 0x7a6d76e9" (binary_expression "((uVar26 ^ uVar12) & uVar3 ^ uVar12) + X[1]" (parenthesized_expression "((uVar26 ^ uVar12) & uVar3 ^ uVar12)" ( (binary_expression "(uVar26 ^ uVar12) & uVar3 ^ uVar12" (binary_expression "(uVar26 ^ uVar12) & uVar3" (parenthesized_expression "(uVar26 ^ uVar12)" ( (binary_expression "uVar26 ^ uVar12" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20);" (assignment_expression "uVar20 = uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20)" identifier = (binary_expression "uVar8 + (uVar6 >> 0x1b | uVar6 * 0x20)" identifier + (parenthesized_expression "(uVar6 >> 0x1b | uVar6 * 0x20)" ( (binary_expression "uVar6 >> 0x1b | uVar6 * 0x20" (binary_expression "uVar6 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar6 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar4 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar10 = uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier = (binary_expression "uVar22 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier + (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" ( (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" identifier >> number_literal) | (binary_expression "uVar5 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8;" (assignment_expression "uVar25 = ((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8" identifier = (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c + uVar8" (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf] + DAT_0001101c" (binary_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9) + X[0xf]" (parenthesized_expression "((uVar9 ^ uVar20) & uVar5 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar20) & uVar5 ^ uVar9" (binary_expression "(uVar9 ^ uVar20) & uVar5" (parenthesized_expression "(uVar9 ^ uVar20)" ( (binary_expression "uVar9 ^ uVar20" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22;" (assignment_expression "uVar8 = ((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22" identifier = (binary_expression "((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9 + uVar22" (binary_expression "((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3] + 0x7a6d76e9" (binary_expression "((uVar3 ^ uVar4) & uVar10 ^ uVar4) + X[3]" (parenthesized_expression "((uVar3 ^ uVar4) & uVar10 ^ uVar4)" ( (binary_expression "(uVar3 ^ uVar4) & uVar10 ^ uVar4" (binary_expression "(uVar3 ^ uVar4) & uVar10" (parenthesized_expression "(uVar3 ^ uVar4)" ( (binary_expression "uVar3 ^ uVar4" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar22 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40);" (assignment_expression "uVar15 = uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40)" identifier = (binary_expression "uVar23 + (uVar25 >> 0x1a | uVar25 * 0x40)" identifier + (parenthesized_expression "(uVar25 >> 0x1a | uVar25 * 0x40)" ( (binary_expression "uVar25 >> 0x1a | uVar25 * 0x40" (binary_expression "uVar25 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar25 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar6 = uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier + (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" ( (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" identifier >> number_literal) | (binary_expression "uVar8 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12;" (assignment_expression "uVar12 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12" identifier = (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9 + uVar12" (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb] + 0x7a6d76e9" (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[0xb]" (parenthesized_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22)" ( (binary_expression "(uVar10 ^ uVar22) & uVar6 ^ uVar22" (binary_expression "(uVar10 ^ uVar22) & uVar6" (parenthesized_expression "(uVar10 ^ uVar22)" ( (binary_expression "uVar10 ^ uVar22" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23;" (assignment_expression "uVar23 = ((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23" identifier = (binary_expression "((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c + uVar23" (binary_expression "((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe] + DAT_0001101c" (binary_expression "((uVar20 ^ uVar15) & uVar8 ^ uVar20) + X[0xe]" (parenthesized_expression "((uVar20 ^ uVar15) & uVar8 ^ uVar20)" ( (binary_expression "(uVar20 ^ uVar15) & uVar8 ^ uVar20" (binary_expression "(uVar20 ^ uVar15) & uVar8" (parenthesized_expression "(uVar20 ^ uVar15)" ( (binary_expression "uVar20 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000);" (assignment_expression "uVar3 = uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000)" identifier = (binary_expression "uVar4 + (uVar12 >> 0x12 | uVar12 * 0x4000)" identifier + (parenthesized_expression "(uVar12 >> 0x12 | uVar12 * 0x4000)" ( (binary_expression "uVar12 >> 0x12 | uVar12 * 0x4000" (binary_expression "uVar12 >> 0x12" identifier >> number_literal) | (binary_expression "uVar12 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100);" (assignment_expression "uVar25 = uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier = (binary_expression "uVar5 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier + (parenthesized_expression "(uVar23 >> 0x18 | uVar23 * 0x100)" ( (binary_expression "uVar23 >> 0x18 | uVar23 * 0x100" (binary_expression "uVar23 >> 0x18" identifier >> number_literal) | (binary_expression "uVar23 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar12 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4;" (assignment_expression "uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4" identifier = (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024 + uVar4" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf] + DAT_00011024" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xf]" (parenthesized_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23)" ( (binary_expression "(uVar6 ^ uVar23) & uVar3 ^ uVar23" (binary_expression "(uVar6 ^ uVar23) & uVar3" (parenthesized_expression "(uVar6 ^ uVar23)" ( (binary_expression "uVar6 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5;" (assignment_expression "uVar4 = ((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5" identifier = (binary_expression "((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc + uVar5" (binary_expression "((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5] + 0x8f1bbcdc" (binary_expression "((uVar15 ^ uVar25) & uVar12 ^ uVar15) + X[5]" (parenthesized_expression "((uVar15 ^ uVar25) & uVar12 ^ uVar15)" ( (binary_expression "(uVar15 ^ uVar25) & uVar12 ^ uVar15" (binary_expression "(uVar15 ^ uVar25) & uVar12" (parenthesized_expression "(uVar15 ^ uVar25)" ( (binary_expression "uVar15 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40);" (assignment_expression "uVar9 = uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40)" identifier = (binary_expression "uVar8 + (uVar4 >> 0x1a | uVar4 * 0x40)" identifier + (parenthesized_expression "(uVar4 >> 0x1a | uVar4 * 0x40)" ( (binary_expression "uVar4 >> 0x1a | uVar4 * 0x40" (binary_expression "uVar4 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar4 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40);" (assignment_expression "uVar10 = uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier = (binary_expression "uVar22 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier + (parenthesized_expression "(uVar10 >> 0x1a | uVar10 * 0x40)" ( (binary_expression "uVar10 >> 0x1a | uVar10 * 0x40" (binary_expression "uVar10 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar10 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22;" (assignment_expression "uVar22 = ((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22" identifier = (binary_expression "((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9 + uVar22" (binary_expression "((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0] + 0x7a6d76e9" (binary_expression "((uVar3 ^ uVar5) & uVar10 ^ uVar5) + X[0]" (parenthesized_expression "((uVar3 ^ uVar5) & uVar10 ^ uVar5)" ( (binary_expression "(uVar3 ^ uVar5) & uVar10 ^ uVar5" (binary_expression "(uVar3 ^ uVar5) & uVar10" (parenthesized_expression "(uVar3 ^ uVar5)" ( (binary_expression "uVar3 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000);" (assignment_expression "uVar6 = uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x12 | uVar22 * 0x4000)" identifier + (parenthesized_expression "(uVar22 >> 0x12 | uVar22 * 0x4000)" ( (binary_expression "uVar22 >> 0x12 | uVar22 * 0x4000" (binary_expression "uVar22 >> 0x12" identifier >> number_literal) | (binary_expression "uVar22 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar22 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23;" (assignment_expression "uVar23 = ((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23" identifier = (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9 + uVar23" (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5] + 0x7a6d76e9" (binary_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22) + X[5]" (parenthesized_expression "((uVar10 ^ uVar22) & uVar6 ^ uVar22)" ( (binary_expression "(uVar10 ^ uVar22) & uVar6 ^ uVar22" (binary_expression "(uVar10 ^ uVar22) & uVar6" (parenthesized_expression "(uVar10 ^ uVar22)" ( (binary_expression "uVar10 ^ uVar22" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40);" (assignment_expression "uVar3 = uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40)" identifier = (binary_expression "uVar5 + (uVar23 >> 0x1a | uVar23 * 0x40)" identifier + (parenthesized_expression "(uVar23 >> 0x1a | uVar23 * 0x40)" ( (binary_expression "uVar23 >> 0x1a | uVar23 * 0x40" (binary_expression "uVar23 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar23 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400;" (assignment_expression "uVar23 = uVar10 >> 0x16 | uVar10 * 0x400" identifier = (binary_expression "uVar10 >> 0x16 | uVar10 * 0x400" (binary_expression "uVar10 >> 0x16" identifier >> number_literal) | (binary_expression "uVar10 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5;" (assignment_expression "uVar10 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5" identifier = (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9 + uVar5" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc] + 0x7a6d76e9" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[0xc]" (parenthesized_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23)" ( (binary_expression "(uVar6 ^ uVar23) & uVar3 ^ uVar23" (binary_expression "(uVar6 ^ uVar23) & uVar3" (parenthesized_expression "(uVar6 ^ uVar23)" ( (binary_expression "uVar6 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200);" (assignment_expression "uVar6 = uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200)" identifier = (binary_expression "uVar22 + (uVar10 >> 0x17 | uVar10 * 0x200)" identifier + (parenthesized_expression "(uVar10 >> 0x17 | uVar10 * 0x200)" ( (binary_expression "uVar10 >> 0x17 | uVar10 * 0x200" (binary_expression "uVar10 >> 0x17" identifier >> number_literal) | (binary_expression "uVar10 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar10 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22;" (assignment_expression "uVar22 = ((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22" identifier = (binary_expression "((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024 + uVar22" (binary_expression "((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2] + DAT_00011024" (binary_expression "((uVar3 ^ uVar5) & uVar6 ^ uVar5) + X[2]" (parenthesized_expression "((uVar3 ^ uVar5) & uVar6 ^ uVar5)" ( (binary_expression "(uVar3 ^ uVar5) & uVar6 ^ uVar5" (binary_expression "(uVar3 ^ uVar5) & uVar6" (parenthesized_expression "(uVar3 ^ uVar5)" ( (binary_expression "uVar3 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar3 = uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23;" (assignment_expression "uVar23 = ((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23" identifier = (binary_expression "((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024 + uVar23" (binary_expression "((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd] + DAT_00011024" (binary_expression "((uVar6 ^ uVar10) & uVar3 ^ uVar10) + X[0xd]" (parenthesized_expression "((uVar6 ^ uVar10) & uVar3 ^ uVar10)" ( (binary_expression "(uVar6 ^ uVar10) & uVar3 ^ uVar10" (binary_expression "(uVar6 ^ uVar10) & uVar3" (parenthesized_expression "(uVar6 ^ uVar10)" ( (binary_expression "uVar6 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200);" (assignment_expression "uVar6 = uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200)" identifier = (binary_expression "uVar5 + (uVar23 >> 0x17 | uVar23 * 0x200)" identifier + (parenthesized_expression "(uVar23 >> 0x17 | uVar23 * 0x200)" ( (binary_expression "uVar23 >> 0x17 | uVar23 * 0x200" (binary_expression "uVar23 >> 0x17" identifier >> number_literal) | (binary_expression "uVar23 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5;" (assignment_expression "uVar5 = ((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5" identifier = (binary_expression "((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024 + uVar5" (binary_expression "((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9] + DAT_00011024" (binary_expression "((uVar3 ^ uVar22) & uVar6 ^ uVar22) + X[9]" (parenthesized_expression "((uVar3 ^ uVar22) & uVar6 ^ uVar22)" ( (binary_expression "(uVar3 ^ uVar22) & uVar6 ^ uVar22" (binary_expression "(uVar3 ^ uVar22) & uVar6" (parenthesized_expression "(uVar3 ^ uVar22)" ( (binary_expression "uVar3 ^ uVar22" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar23 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar23 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000);" (assignment_expression "uVar3 = uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000)" identifier = (binary_expression "uVar10 + (uVar5 >> 0x14 | uVar5 * 0x1000)" identifier + (parenthesized_expression "(uVar5 >> 0x14 | uVar5 * 0x1000)" ( (binary_expression "uVar5 >> 0x14 | uVar5 * 0x1000" (binary_expression "uVar5 >> 0x14" identifier >> number_literal) | (binary_expression "uVar5 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10;" (assignment_expression "uVar5 = ((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10" identifier = (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9 + uVar10" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7] + 0x7a6d76e9" (binary_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23) + X[7]" (parenthesized_expression "((uVar6 ^ uVar23) & uVar3 ^ uVar23)" ( (binary_expression "(uVar6 ^ uVar23) & uVar3 ^ uVar23" (binary_expression "(uVar6 ^ uVar23) & uVar3" (parenthesized_expression "(uVar6 ^ uVar23)" ( (binary_expression "uVar6 ^ uVar23" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20);" (assignment_expression "uVar26 = uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier = (binary_expression "uVar22 + (uVar5 >> 0x1b | uVar5 * 0x20)" identifier + (parenthesized_expression "(uVar5 >> 0x1b | uVar5 * 0x20)" ( (binary_expression "uVar5 >> 0x1b | uVar5 * 0x20" (binary_expression "uVar5 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar5 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar5 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar10 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8;" (assignment_expression "uVar8 = ((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8" identifier = (binary_expression "((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc + uVar8" (binary_expression "((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6] + 0x8f1bbcdc" (binary_expression "((uVar25 ^ uVar9) & uVar5 ^ uVar25) + X[6]" (parenthesized_expression "((uVar25 ^ uVar9) & uVar5 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar9) & uVar5 ^ uVar25" (binary_expression "(uVar25 ^ uVar9) & uVar5" (parenthesized_expression "(uVar25 ^ uVar9)" ( (binary_expression "uVar25 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar20 = uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar12 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22;" (assignment_expression "uVar22 = ((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22" identifier = (binary_expression "((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024 + uVar22" (binary_expression "((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10] + DAT_00011024" (binary_expression "((uVar3 ^ uVar10) & uVar26 ^ uVar10) + X[10]" (parenthesized_expression "((uVar3 ^ uVar10) & uVar26 ^ uVar10)" ( (binary_expression "(uVar3 ^ uVar10) & uVar26 ^ uVar10" (binary_expression "(uVar3 ^ uVar10) & uVar26" (parenthesized_expression "(uVar3 ^ uVar10)" ( (binary_expression "uVar3 ^ uVar10" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000);" (assignment_expression "uVar15 = uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier = (binary_expression "uVar23 + (uVar22 >> 0x11 | uVar22 * 0x8000)" identifier + (parenthesized_expression "(uVar22 >> 0x11 | uVar22 * 0x8000)" ( (binary_expression "uVar22 >> 0x11 | uVar22 * 0x8000" (binary_expression "uVar22 >> 0x11" identifier >> number_literal) | (binary_expression "uVar22 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12;" (assignment_expression "uVar22 = ((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12" identifier = (binary_expression "((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c + uVar12" (binary_expression "((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2] + DAT_0001101c" (binary_expression "((uVar9 ^ uVar20) & uVar8 ^ uVar9) + X[2]" (parenthesized_expression "((uVar9 ^ uVar20) & uVar8 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar20) & uVar8 ^ uVar9" (binary_expression "(uVar9 ^ uVar20) & uVar8" (parenthesized_expression "(uVar9 ^ uVar20)" ( (binary_expression "uVar9 ^ uVar20" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar25 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar22 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar12 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5;" (assignment_expression "uVar5 = ((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5" identifier = (binary_expression "((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020 + uVar5" (binary_expression "((~uVar4 | uVar15) ^ uVar25) + X[4] + DAT_00011020" (binary_expression "((~uVar4 | uVar15) ^ uVar25) + X[4]" (parenthesized_expression "((~uVar4 | uVar15) ^ uVar25)" ( (binary_expression "(~uVar4 | uVar15) ^ uVar25" (parenthesized_expression "(~uVar4 | uVar15)" ( (binary_expression "~uVar4 | uVar15" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200);" (assignment_expression "uVar6 = uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier = (binary_expression "uVar8 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier + (parenthesized_expression "(uVar5 >> 0x17 | uVar5 * 0x200)" ( (binary_expression "uVar5 >> 0x17 | uVar5 * 0x200" (binary_expression "uVar5 >> 0x17" identifier >> number_literal) | (binary_expression "uVar5 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar5 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020 + uVar8" (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0] + DAT_00011020" (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0]" (parenthesized_expression "((~uVar22 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar22 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar22 | uVar25)" ( (binary_expression "~uVar22 | uVar25" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000);" (assignment_expression "uVar25 = uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier = (binary_expression "uVar4 + (uVar8 >> 0x11 | uVar8 * 0x8000)" identifier + (parenthesized_expression "(uVar8 >> 0x11 | uVar8 * 0x8000)" ( (binary_expression "uVar8 >> 0x11 | uVar8 * 0x8000" (binary_expression "uVar8 >> 0x11" identifier >> number_literal) | (binary_expression "uVar8 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4;" (assignment_expression "uVar4 = ((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4" identifier = (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020 + uVar4" (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[5] + DAT_00011020" (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[5]" (parenthesized_expression "((~uVar12 | uVar6) ^ uVar25)" ( (binary_expression "(~uVar12 | uVar6) ^ uVar25" (parenthesized_expression "(~uVar12 | uVar6)" ( (binary_expression "~uVar12 | uVar6" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20);" (assignment_expression "uVar6 = uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x1b | uVar4 * 0x20)" identifier + (parenthesized_expression "(uVar4 >> 0x1b | uVar4 * 0x20)" ( (binary_expression "uVar4 >> 0x1b | uVar4 * 0x20" (binary_expression "uVar4 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar4 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar4 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22;" (assignment_expression "uVar22 = ((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22" identifier = (binary_expression "((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020 + uVar22" (binary_expression "((~uVar5 | uVar25) ^ uVar6) + X[9] + DAT_00011020" (binary_expression "((~uVar5 | uVar25) ^ uVar6) + X[9]" (parenthesized_expression "((~uVar5 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar5 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar5 | uVar25)" ( (binary_expression "~uVar5 | uVar25" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800);" (assignment_expression "uVar25 = uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x15 | uVar22 * 0x800)" identifier + (parenthesized_expression "(uVar22 >> 0x15 | uVar22 * 0x800)" ( (binary_expression "uVar22 >> 0x15 | uVar22 * 0x800" (binary_expression "uVar22 >> 0x15" identifier >> number_literal) | (binary_expression "uVar22 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar22 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12;" (assignment_expression "uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12" identifier = (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020 + uVar12" (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[7] + DAT_00011020" (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[7]" (parenthesized_expression "((~uVar8 | uVar6) ^ uVar25)" ( (binary_expression "(~uVar8 | uVar6) ^ uVar25" (parenthesized_expression "(~uVar8 | uVar6)" ( (binary_expression "~uVar8 | uVar6" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40);" (assignment_expression "uVar6 = uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40)" identifier = (binary_expression "uVar5 + (uVar12 >> 0x1a | uVar12 * 0x40)" identifier + (parenthesized_expression "(uVar12 >> 0x1a | uVar12 * 0x40)" ( (binary_expression "uVar12 >> 0x1a | uVar12 * 0x40" (binary_expression "uVar12 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar12 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar12 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5;" (assignment_expression "uVar5 = ((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5" identifier = (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020 + uVar5" (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[0xc] + DAT_00011020" (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[0xc]" (parenthesized_expression "((~uVar4 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar4 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar4 | uVar25)" ( (binary_expression "~uVar4 | uVar25" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar25 = uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uVar8 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar5 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020 + uVar8" (binary_expression "((~uVar22 | uVar6) ^ uVar25) + X[2] + DAT_00011020" (binary_expression "((~uVar22 | uVar6) ^ uVar25) + X[2]" (parenthesized_expression "((~uVar22 | uVar6) ^ uVar25)" ( (binary_expression "(~uVar22 | uVar6) ^ uVar25" (parenthesized_expression "(~uVar22 | uVar6)" ( (binary_expression "~uVar22 | uVar6" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000);" (assignment_expression "uVar6 = uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier = (binary_expression "uVar4 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier + (parenthesized_expression "(uVar8 >> 0x13 | uVar8 * 0x2000)" ( (binary_expression "uVar8 >> 0x13 | uVar8 * 0x2000" (binary_expression "uVar8 >> 0x13" identifier >> number_literal) | (binary_expression "uVar8 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar8 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4;" (assignment_expression "uVar4 = ((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4" identifier = (binary_expression "((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020 + uVar4" (binary_expression "((~uVar12 | uVar25) ^ uVar6) + X[10] + DAT_00011020" (binary_expression "((~uVar12 | uVar25) ^ uVar6) + X[10]" (parenthesized_expression "((~uVar12 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar12 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar12 | uVar25)" ( (binary_expression "~uVar12 | uVar25" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000);" (assignment_expression "uVar9 = uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000)" identifier = (binary_expression "uVar22 + (uVar4 >> 0x14 | uVar4 * 0x1000)" identifier + (parenthesized_expression "(uVar4 >> 0x14 | uVar4 * 0x1000)" ( (binary_expression "uVar4 >> 0x14 | uVar4 * 0x1000" (binary_expression "uVar4 >> 0x14" identifier >> number_literal) | (binary_expression "uVar4 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar4 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22;" (assignment_expression "uVar22 = ((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22" identifier = (binary_expression "((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020 + uVar22" (binary_expression "((~uVar5 | uVar6) ^ uVar9) + X[0xe] + DAT_00011020" (binary_expression "((~uVar5 | uVar6) ^ uVar9) + X[0xe]" (parenthesized_expression "((~uVar5 | uVar6) ^ uVar9)" ( (binary_expression "(~uVar5 | uVar6) ^ uVar9" (parenthesized_expression "(~uVar5 | uVar6)" ( (binary_expression "~uVar5 | uVar6" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20);" (assignment_expression "uVar25 = uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20)" identifier = (binary_expression "uVar12 + (uVar22 >> 0x1b | uVar22 * 0x20)" identifier + (parenthesized_expression "(uVar22 >> 0x1b | uVar22 * 0x20)" ( (binary_expression "uVar22 >> 0x1b | uVar22 * 0x20" (binary_expression "uVar22 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar22 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12;" (assignment_expression "uVar22 = ((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12" identifier = (binary_expression "((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020 + uVar12" (binary_expression "((~uVar8 | uVar9) ^ uVar25) + X[1] + DAT_00011020" (binary_expression "((~uVar8 | uVar9) ^ uVar25) + X[1]" (parenthesized_expression "((~uVar8 | uVar9) ^ uVar25)" ( (binary_expression "(~uVar8 | uVar9) ^ uVar25" (parenthesized_expression "(~uVar8 | uVar9)" ( (binary_expression "~uVar8 | uVar9" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000);" (assignment_expression "uVar6 = uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier = (binary_expression "uVar5 + (uVar22 >> 0x14 | uVar22 * 0x1000)" identifier + (parenthesized_expression "(uVar22 >> 0x14 | uVar22 * 0x1000)" ( (binary_expression "uVar22 >> 0x14 | uVar22 * 0x1000" (binary_expression "uVar22 >> 0x14" identifier >> number_literal) | (binary_expression "uVar22 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar22 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar12 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar3 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23;" (assignment_expression "uVar23 = ((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23" identifier = (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024 + uVar23" (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe] + DAT_00011024" (binary_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3) + X[0xe]" (parenthesized_expression "((uVar26 ^ uVar3) & uVar15 ^ uVar3)" ( (binary_expression "(uVar26 ^ uVar3) & uVar15 ^ uVar3" (binary_expression "(uVar26 ^ uVar3) & uVar15" (parenthesized_expression "(uVar26 ^ uVar3)" ( (binary_expression "uVar26 ^ uVar3" identifier ^ identifier) )) & identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100);" (assignment_expression "uVar9 = uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier = (binary_expression "uVar10 + (uVar23 >> 0x18 | uVar23 * 0x100)" identifier + (parenthesized_expression "(uVar23 >> 0x18 | uVar23 * 0x100)" ( (binary_expression "uVar23 >> 0x18 | uVar23 * 0x100" (binary_expression "uVar23 >> 0x18" identifier >> number_literal) | (binary_expression "uVar23 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5;" (assignment_expression "uVar25 = ((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5" identifier = (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020 + uVar5" (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[3] + DAT_00011020" (binary_expression "((~uVar4 | uVar25) ^ uVar6) + X[3]" (parenthesized_expression "((~uVar4 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar4 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar4 | uVar25)" ( (binary_expression "~uVar4 | uVar25" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar5 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10;" (assignment_expression "uVar10 = (uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10" identifier = (binary_expression "(uVar20 ^ uVar23 ^ uVar9) + X[0xc] + uVar10" (binary_expression "(uVar20 ^ uVar23 ^ uVar9) + X[0xc]" (parenthesized_expression "(uVar20 ^ uVar23 ^ uVar9)" ( (binary_expression "uVar20 ^ uVar23 ^ uVar9" (binary_expression "uVar20 ^ uVar23" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xc]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100);" (assignment_expression "uVar15 = uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x18 | uVar10 * 0x100)" identifier + (parenthesized_expression "(uVar10 >> 0x18 | uVar10 * 0x100)" ( (binary_expression "uVar10 >> 0x18 | uVar10 * 0x100" (binary_expression "uVar10 >> 0x18" identifier >> number_literal) | (binary_expression "uVar10 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000);" (assignment_expression "uVar25 = uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar25 >> 0x13 | uVar25 * 0x2000)" identifier + (parenthesized_expression "(uVar25 >> 0x13 | uVar25 * 0x2000)" ( (binary_expression "uVar25 >> 0x13 | uVar25 * 0x2000" (binary_expression "uVar25 >> 0x13" identifier >> number_literal) | (binary_expression "uVar25 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3;" (assignment_expression "uVar10 = (uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar15) + X[0xf] + uVar3" (binary_expression "(uVar9 ^ uVar5 ^ uVar15) + X[0xf]" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar15)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar15" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);" (assignment_expression "uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier = (binary_expression "uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier + (parenthesized_expression "(uVar10 >> 0x1b | uVar10 * 0x20)" ( (binary_expression "uVar10 >> 0x1b | uVar10 * 0x20" (binary_expression "uVar10 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar10 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar10 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8;" (assignment_expression "uVar3 = ((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020 + uVar8" (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[8] + DAT_00011020" (binary_expression "((~uVar12 | uVar6) ^ uVar25) + X[8]" (parenthesized_expression "((~uVar12 | uVar6) ^ uVar25)" ( (binary_expression "(~uVar12 | uVar6) ^ uVar25" (parenthesized_expression "(~uVar12 | uVar6)" ( (binary_expression "~uVar12 | uVar6" (unary_expression "~uVar12" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000);" (assignment_expression "uVar6 = uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000)" identifier = (binary_expression "uVar4 + (uVar3 >> 0x12 | uVar3 * 0x4000)" identifier + (parenthesized_expression "(uVar3 >> 0x12 | uVar3 * 0x4000)" ( (binary_expression "uVar3 >> 0x12 | uVar3 * 0x4000" (binary_expression "uVar3 >> 0x12" identifier >> number_literal) | (binary_expression "uVar3 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar3 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23;" (assignment_expression "uVar23 = (uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23" identifier = (binary_expression "(uVar15 ^ uVar10 ^ uVar26) + X[10] + uVar23" (binary_expression "(uVar15 ^ uVar10 ^ uVar26) + X[10]" (parenthesized_expression "(uVar15 ^ uVar10 ^ uVar26)" ( (binary_expression "uVar15 ^ uVar10 ^ uVar26" (binary_expression "uVar15 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[10]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000);" (assignment_expression "uVar9 = uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000)" identifier = (binary_expression "uVar5 + (uVar23 >> 0x14 | uVar23 * 0x1000)" identifier + (parenthesized_expression "(uVar23 >> 0x14 | uVar23 * 0x1000)" ( (binary_expression "uVar23 >> 0x14 | uVar23 * 0x1000" (binary_expression "uVar23 >> 0x14" identifier >> number_literal) | (binary_expression "uVar23 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4;" (assignment_expression "uVar23 = ((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4" identifier = (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020 + uVar4" (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0xb] + DAT_00011020" (binary_expression "((~uVar22 | uVar25) ^ uVar6) + X[0xb]" (parenthesized_expression "((~uVar22 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar22 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar22 | uVar25)" ( (binary_expression "~uVar22 | uVar25" (unary_expression "~uVar22" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5;" (assignment_expression "uVar4 = (uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5" identifier = (binary_expression "(uVar26 ^ uVar3 ^ uVar9) + X[4] + uVar5" (binary_expression "(uVar26 ^ uVar3 ^ uVar9) + X[4]" (parenthesized_expression "(uVar26 ^ uVar3 ^ uVar9)" ( (binary_expression "uVar26 ^ uVar3 ^ uVar9" (binary_expression "uVar26 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[4]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800);" (assignment_expression "uVar25 = uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800)" identifier = (binary_expression "uVar12 + (uVar23 >> 0x15 | uVar23 * 0x800)" identifier + (parenthesized_expression "(uVar23 >> 0x15 | uVar23 * 0x800)" ( (binary_expression "uVar23 >> 0x15 | uVar23 * 0x800" (binary_expression "uVar23 >> 0x15" identifier >> number_literal) | (binary_expression "uVar23 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar23 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200);" (assignment_expression "uVar26 = uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier = (binary_expression "uVar10 + (uVar4 >> 0x17 | uVar4 * 0x200)" identifier + (parenthesized_expression "(uVar4 >> 0x17 | uVar4 * 0x200)" ( (binary_expression "uVar4 >> 0x17 | uVar4 * 0x200" (binary_expression "uVar4 >> 0x17" identifier >> number_literal) | (binary_expression "uVar4 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar4 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar4 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10;" (assignment_expression "uVar10 = (uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10" identifier = (binary_expression "(uVar9 ^ uVar23 ^ uVar26) + X[1] + uVar10" (binary_expression "(uVar9 ^ uVar23 ^ uVar26) + X[1]" (parenthesized_expression "(uVar9 ^ uVar23 ^ uVar26)" ( (binary_expression "uVar9 ^ uVar23 ^ uVar26" (binary_expression "uVar9 ^ uVar23" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[1]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000);" (assignment_expression "uVar15 = uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x14 | uVar10 * 0x1000)" identifier + (parenthesized_expression "(uVar10 >> 0x14 | uVar10 * 0x1000)" ( (binary_expression "uVar10 >> 0x14 | uVar10 * 0x1000" (binary_expression "uVar10 >> 0x14" identifier >> number_literal) | (binary_expression "uVar10 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3;" (assignment_expression "uVar3 = (uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3" identifier = (binary_expression "(uVar26 ^ uVar5 ^ uVar15) + X[5] + uVar3" (binary_expression "(uVar26 ^ uVar5 ^ uVar15) + X[5]" (parenthesized_expression "(uVar26 ^ uVar5 ^ uVar15)" ( (binary_expression "uVar26 ^ uVar5 ^ uVar15" (binary_expression "uVar26 ^ uVar5" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[5]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar10 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20);" (assignment_expression "uVar3 = uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20)" identifier = (binary_expression "uVar23 + (uVar3 >> 0x1b | uVar3 * 0x20)" identifier + (parenthesized_expression "(uVar3 >> 0x1b | uVar3 * 0x20)" ( (binary_expression "uVar3 >> 0x1b | uVar3 * 0x20" (binary_expression "uVar3 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar3 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23;" (assignment_expression "uVar9 = (uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23" identifier = (binary_expression "(uVar15 ^ uVar10 ^ uVar3) + X[8] + uVar23" (binary_expression "(uVar15 ^ uVar10 ^ uVar3) + X[8]" (parenthesized_expression "(uVar15 ^ uVar10 ^ uVar3)" ( (binary_expression "uVar15 ^ uVar10 ^ uVar3" (binary_expression "uVar15 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[8]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar23 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000);" (assignment_expression "uVar26 = uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000)" identifier = (binary_expression "uVar5 + (uVar9 >> 0x12 | uVar9 * 0x4000)" identifier + (parenthesized_expression "(uVar9 >> 0x12 | uVar9 * 0x4000)" ( (binary_expression "uVar9 >> 0x12 | uVar9 * 0x4000" (binary_expression "uVar9 >> 0x12" identifier >> number_literal) | (binary_expression "uVar9 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5;" (assignment_expression "uVar9 = (uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5" identifier = (binary_expression "(uVar3 ^ uVar23 ^ uVar26) + X[7] + uVar5" (binary_expression "(uVar3 ^ uVar23 ^ uVar26) + X[7]" (parenthesized_expression "(uVar3 ^ uVar23 ^ uVar26)" ( (binary_expression "uVar3 ^ uVar23 ^ uVar26" (binary_expression "uVar3 ^ uVar23" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[7]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar5 = uVar3 >> 0x16 | uVar3 * 0x400;" (assignment_expression "uVar5 = uVar3 >> 0x16 | uVar3 * 0x400" identifier = (binary_expression "uVar3 >> 0x16 | uVar3 * 0x400" (binary_expression "uVar3 >> 0x16" identifier >> number_literal) | (binary_expression "uVar3 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40);" (assignment_expression "uVar9 = uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40)" identifier = (binary_expression "uVar10 + (uVar9 >> 0x1a | uVar9 * 0x40)" identifier + (parenthesized_expression "(uVar9 >> 0x1a | uVar9 * 0x40)" ( (binary_expression "uVar9 >> 0x1a | uVar9 * 0x40" (binary_expression "uVar9 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar9 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar3 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar3 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10;" (assignment_expression "uVar10 = (uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10" identifier = (binary_expression "(uVar26 ^ uVar5 ^ uVar9) + X[6] + uVar10" (binary_expression "(uVar26 ^ uVar5 ^ uVar9) + X[6]" (parenthesized_expression "(uVar26 ^ uVar5 ^ uVar9)" ( (binary_expression "uVar26 ^ uVar5 ^ uVar9" (binary_expression "uVar26 ^ uVar5" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100);" (assignment_expression "uVar26 = uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100)" identifier = (binary_expression "uVar23 + (uVar10 >> 0x18 | uVar10 * 0x100)" identifier + (parenthesized_expression "(uVar10 >> 0x18 | uVar10 * 0x100)" ( (binary_expression "uVar10 >> 0x18 | uVar10 * 0x100" (binary_expression "uVar10 >> 0x18" identifier >> number_literal) | (binary_expression "uVar10 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23;" (assignment_expression "uVar10 = (uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23" identifier = (binary_expression "(uVar9 ^ uVar3 ^ uVar26) + X[2] + uVar23" (binary_expression "(uVar9 ^ uVar3 ^ uVar26) + X[2]" (parenthesized_expression "(uVar9 ^ uVar3 ^ uVar26)" ( (binary_expression "uVar9 ^ uVar3 ^ uVar26" (binary_expression "uVar9 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[2]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar23 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000);" (assignment_expression "uVar15 = uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar10 >> 0x13 | uVar10 * 0x2000)" identifier + (parenthesized_expression "(uVar10 >> 0x13 | uVar10 * 0x2000)" ( (binary_expression "uVar10 >> 0x13 | uVar10 * 0x2000" (binary_expression "uVar10 >> 0x13" identifier >> number_literal) | (binary_expression "uVar10 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5;" (assignment_expression "uVar10 = (uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5" identifier = (binary_expression "(uVar26 ^ uVar23 ^ uVar15) + X[0xd] + uVar5" (binary_expression "(uVar26 ^ uVar23 ^ uVar15) + X[0xd]" (parenthesized_expression "(uVar26 ^ uVar23 ^ uVar15)" ( (binary_expression "uVar26 ^ uVar23 ^ uVar15" (binary_expression "uVar26 ^ uVar23" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar5 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar5 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40);" (assignment_expression "uVar9 = uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier = (binary_expression "uVar3 + (uVar10 >> 0x1a | uVar10 * 0x40)" identifier + (parenthesized_expression "(uVar10 >> 0x1a | uVar10 * 0x40)" ( (binary_expression "uVar10 >> 0x1a | uVar10 * 0x40" (binary_expression "uVar10 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar10 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3;" (assignment_expression "uVar10 = (uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3" identifier = (binary_expression "(uVar15 ^ uVar5 ^ uVar9) + X[0xe] + uVar3" (binary_expression "(uVar15 ^ uVar5 ^ uVar9) + X[0xe]" (parenthesized_expression "(uVar15 ^ uVar5 ^ uVar9)" ( (binary_expression "uVar15 ^ uVar5 ^ uVar9" (binary_expression "uVar15 ^ uVar5" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xe]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20);" (assignment_expression "uVar26 = uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier = (binary_expression "uVar23 + (uVar10 >> 0x1b | uVar10 * 0x20)" identifier + (parenthesized_expression "(uVar10 >> 0x1b | uVar10 * 0x20)" ( (binary_expression "uVar10 >> 0x1b | uVar10 * 0x20" (binary_expression "uVar10 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar10 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar10 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar3 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar3 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23;" (assignment_expression "uVar9 = (uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23" identifier = (binary_expression "(uVar9 ^ uVar10 ^ uVar26) + X[0] + uVar23" (binary_expression "(uVar9 ^ uVar10 ^ uVar26) + X[0]" (parenthesized_expression "(uVar9 ^ uVar10 ^ uVar26)" ( (binary_expression "uVar9 ^ uVar10 ^ uVar26" (binary_expression "uVar9 ^ uVar10" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400;" (assignment_expression "uVar23 = uVar6 >> 0x16 | uVar6 * 0x400" identifier = (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12;" (assignment_expression "uVar12 = ((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12" identifier = (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020 + uVar12" (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[6] + DAT_00011020" (binary_expression "((~uVar8 | uVar6) ^ uVar25) + X[6]" (parenthesized_expression "((~uVar8 | uVar6) ^ uVar25)" ( (binary_expression "(~uVar8 | uVar6) ^ uVar25" (parenthesized_expression "(~uVar8 | uVar6)" ( (binary_expression "~uVar8 | uVar6" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[6]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000);" (assignment_expression "uVar9 = uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000)" identifier = (binary_expression "uVar5 + (uVar9 >> 0x11 | uVar9 * 0x8000)" identifier + (parenthesized_expression "(uVar9 >> 0x11 | uVar9 * 0x8000)" ( (binary_expression "uVar9 >> 0x11 | uVar9 * 0x8000" (binary_expression "uVar9 >> 0x11" identifier >> number_literal) | (binary_expression "uVar9 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5;" (assignment_expression "uVar5 = (uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5" identifier = (binary_expression "(uVar26 ^ uVar3 ^ uVar9) + X[3] + uVar5" (binary_expression "(uVar26 ^ uVar3 ^ uVar9) + X[3]" (parenthesized_expression "(uVar26 ^ uVar3 ^ uVar9)" ( (binary_expression "uVar26 ^ uVar3 ^ uVar9" (binary_expression "uVar26 ^ uVar3" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[3]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100);" (assignment_expression "uVar6 = uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier = (binary_expression "uVar22 + (uVar12 >> 0x18 | uVar12 * 0x100)" identifier + (parenthesized_expression "(uVar12 >> 0x18 | uVar12 * 0x100)" ( (binary_expression "uVar12 >> 0x18 | uVar12 * 0x100" (binary_expression "uVar12 >> 0x18" identifier >> number_literal) | (binary_expression "uVar12 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400;" (assignment_expression "uVar12 = uVar26 >> 0x16 | uVar26 * 0x400" identifier = (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000);" (assignment_expression "uVar26 = uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier = (binary_expression "uVar10 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier + (parenthesized_expression "(uVar5 >> 0x13 | uVar5 * 0x2000)" ( (binary_expression "uVar5 >> 0x13 | uVar5 * 0x2000" (binary_expression "uVar5 >> 0x13" identifier >> number_literal) | (binary_expression "uVar5 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22;" (assignment_expression "uVar22 = ((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22" identifier = (binary_expression "((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020 + uVar22" (binary_expression "((~uVar23 | uVar25) ^ uVar6) + X[0xf] + DAT_00011020" (binary_expression "((~uVar23 | uVar25) ^ uVar6) + X[0xf]" (parenthesized_expression "((~uVar23 | uVar25) ^ uVar6)" ( (binary_expression "(~uVar23 | uVar25) ^ uVar6" (parenthesized_expression "(~uVar23 | uVar25)" ( (binary_expression "~uVar23 | uVar25" (unary_expression "~uVar23" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xf]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10;" (assignment_expression "uVar5 = (uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10" identifier = (binary_expression "(uVar9 ^ uVar12 ^ uVar26) + X[9] + uVar10" (binary_expression "(uVar9 ^ uVar12 ^ uVar26) + X[9]" (parenthesized_expression "(uVar9 ^ uVar12 ^ uVar26)" ( (binary_expression "uVar9 ^ uVar12 ^ uVar26" (binary_expression "uVar9 ^ uVar12" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[9]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar25 = uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier = (binary_expression "uVar3 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier + (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" ( (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" identifier >> number_literal) | (binary_expression "uVar5 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20);" (assignment_expression "uVar5 = uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20)" identifier = (binary_expression "uVar8 + (uVar22 >> 0x1b | uVar22 * 0x20)" identifier + (parenthesized_expression "(uVar22 >> 0x1b | uVar22 * 0x20)" ( (binary_expression "uVar22 >> 0x1b | uVar22 * 0x20" (binary_expression "uVar22 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar22 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar22 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar22 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8;" (assignment_expression "uVar10 = ((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020 + uVar8" (binary_expression "((~uVar4 | uVar6) ^ uVar5) + X[0xd] + DAT_00011020" (binary_expression "((~uVar4 | uVar6) ^ uVar5) + X[0xd]" (parenthesized_expression "((~uVar4 | uVar6) ^ uVar5)" ( (binary_expression "(~uVar4 | uVar6) ^ uVar5" (parenthesized_expression "(~uVar4 | uVar6)" ( (binary_expression "~uVar4 | uVar6" (unary_expression "~uVar4" ~ identifier) | identifier) )) ^ identifier) )) + (subscript_expression "X[0xd]" identifier [ number_literal ])) + identifier) + identifier)) ;) (expression_statement "uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3;" (assignment_expression "uVar8 = (uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3" identifier = (binary_expression "(uVar26 ^ uVar22 ^ uVar25) + X[0xb] + uVar3" (binary_expression "(uVar26 ^ uVar22 ^ uVar25) + X[0xb]" (parenthesized_expression "(uVar26 ^ uVar22 ^ uVar25)" ( (binary_expression "uVar26 ^ uVar22 ^ uVar25" (binary_expression "uVar26 ^ uVar22" identifier ^ identifier) ^ identifier) )) + (subscript_expression "X[0xb]" identifier [ number_literal ])) + identifier)) ;) (expression_statement "(md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400);" (assignment_expression "(md->rmd128).state[3] = uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400)" (subscript_expression "(md->rmd128).state[3]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar14 + (uVar6 >> 0x16 | uVar6 * 0x400)" identifier + (parenthesized_expression "(uVar6 >> 0x16 | uVar6 * 0x400)" ( (binary_expression "uVar6 >> 0x16 | uVar6 * 0x400" (binary_expression "uVar6 >> 0x16" identifier >> number_literal) | (binary_expression "uVar6 * 0x400" identifier * number_literal)) )))) ;) (expression_statement "(md->rmd128).state[0] = uVar19 + uVar23;" (assignment_expression "(md->rmd128).state[0] = uVar19 + uVar23" (subscript_expression "(md->rmd128).state[0]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar19 + uVar23" identifier + identifier)) ;) (expression_statement "(md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40);" (assignment_expression "(md->md2).curlen = uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40)" (field_expression "(md->md2).curlen" (parenthesized_expression "(md->md2)" ( (field_expression "md->md2" identifier -> field_identifier) )) . field_identifier) = (binary_expression "uVar2 + uVar23 + (uVar10 >> 0x1a | uVar10 * 0x40)" (binary_expression "uVar2 + uVar23" identifier + identifier) + (parenthesized_expression "(uVar10 >> 0x1a | uVar10 * 0x40)" ( (binary_expression "uVar10 >> 0x1a | uVar10 * 0x40" (binary_expression "uVar10 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar10 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "(md->rmd256).state[5] = uVar16 + uVar12;" (assignment_expression "(md->rmd256).state[5] = uVar16 + uVar12" (subscript_expression "(md->rmd256).state[5]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar16 + uVar12" identifier + identifier)) ;) (expression_statement "uVar16 = *puVar1;" (assignment_expression "uVar16 = *puVar1" identifier = (pointer_expression "*puVar1" * identifier)) ;) (expression_statement "(md->rmd128).state[2] = uVar13 + uVar5;" (assignment_expression "(md->rmd128).state[2] = uVar13 + uVar5" (subscript_expression "(md->rmd128).state[2]" (field_expression "(md->rmd128).state" (parenthesized_expression "(md->rmd128)" ( (field_expression "md->rmd128" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar13 + uVar5" identifier + identifier)) ;) (expression_statement "(md->rmd160).state[4] = uVar24 + uVar22;" (assignment_expression "(md->rmd160).state[4] = uVar24 + uVar22" (subscript_expression "(md->rmd160).state[4]" (field_expression "(md->rmd160).state" (parenthesized_expression "(md->rmd160)" ( (field_expression "md->rmd160" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar24 + uVar22" identifier + identifier)) ;) (expression_statement "(md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "(md->rmd256).state[6] = uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800)" (subscript_expression "(md->rmd256).state[6]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar18 + uVar12 + (uVar8 >> 0x15 | uVar8 * 0x800)" (binary_expression "uVar18 + uVar12" identifier + identifier) + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "(md->rmd320).state[9] = uVar17 + uVar4;" (assignment_expression "(md->rmd320).state[9] = uVar17 + uVar4" (subscript_expression "(md->rmd320).state[9]" (field_expression "(md->rmd320).state" (parenthesized_expression "(md->rmd320)" ( (field_expression "md->rmd320" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar17 + uVar4" identifier + identifier)) ;) (expression_statement "(md->rmd256).state[7] = uVar7 + uVar25;" (assignment_expression "(md->rmd256).state[7] = uVar7 + uVar25" (subscript_expression "(md->rmd256).state[7]" (field_expression "(md->rmd256).state" (parenthesized_expression "(md->rmd256)" ( (field_expression "md->rmd256" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar7 + uVar25" identifier + identifier)) ;) (expression_statement "(md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400);" (assignment_expression "(md->rmd320).state[8] = uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400)" (subscript_expression "(md->rmd320).state[8]" (field_expression "(md->rmd320).state" (parenthesized_expression "(md->rmd320)" ( (field_expression "md->rmd320" identifier -> field_identifier) )) . field_identifier) [ number_literal ]) = (binary_expression "uVar21 + (uVar26 >> 0x16 | uVar26 * 0x400)" identifier + (parenthesized_expression "(uVar26 >> 0x16 | uVar26 * 0x400)" ( (binary_expression "uVar26 >> 0x16 | uVar26 * 0x400" (binary_expression "uVar26 >> 0x16" identifier >> number_literal) | (binary_expression "uVar26 * 0x400" identifier * number_literal)) )))) ;) (if_statement "if (local_2c[0] == uVar16) {\n return 0;\n }" if (parenthesized_expression "(local_2c[0] == uVar16)" ( (binary_expression "local_2c[0] == uVar16" (subscript_expression "local_2c[0]" identifier [ number_literal ]) == identifier) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid FUN_00010000(int param_1,int param_2)\n\n{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void FUN_00010000(int param_1,int param_2)\n\n{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "FUN_00010000(int param_1,int param_2)" identifier (parameter_list "(int param_1,int param_2)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "int param_2" primitive_type identifier) ))) (compound_statement "{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { (declaration "undefined8 uVar1;" type_identifier identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (declaration "undefined4 uVar4;" type_identifier identifier ;) (declaration "uint uVar5;" type_identifier identifier ;) (declaration "undefined4 *puVar6;" type_identifier (pointer_declarator "*puVar6" * identifier) ;) (declaration "uint uVar7;" type_identifier identifier ;) (declaration "uint uVar8;" type_identifier identifier ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "undefined1 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "undefined1 *puVar11;" type_identifier (pointer_declarator "*puVar11" * identifier) ;) (declaration "int extraout_r1;" primitive_type identifier ;) (declaration "uint uVar12;" type_identifier identifier ;) (declaration "uint uVar13;" type_identifier identifier ;) (declaration "uint uVar14;" type_identifier identifier ;) (declaration "uint uVar15;" type_identifier identifier ;) (declaration "uint uVar16;" type_identifier identifier ;) (declaration "uint *puVar17;" type_identifier (pointer_declarator "*puVar17" * identifier) ;) (declaration "uint *puVar18;" type_identifier (pointer_declarator "*puVar18" * identifier) ;) (declaration "uint uVar19;" type_identifier identifier ;) (declaration "uint uVar20;" type_identifier identifier ;) (declaration "int iVar21;" primitive_type identifier ;) (declaration "int iVar22;" primitive_type identifier ;) (declaration "int iVar23;" primitive_type identifier ;) (declaration "int iVar24;" primitive_type identifier ;) (declaration "uint uVar25;" type_identifier identifier ;) (declaration "uint *puVar26;" type_identifier (pointer_declarator "*puVar26" * identifier) ;) (declaration "uint uVar27;" type_identifier identifier ;) (declaration "uint uVar28;" type_identifier identifier ;) (declaration "uint uVar29;" type_identifier identifier ;) (declaration "uint uVar30;" type_identifier identifier ;) (declaration "uint uVar31;" type_identifier identifier ;) (declaration "uint uVar32;" type_identifier identifier ;) (declaration "undefined4 uVar33;" type_identifier identifier ;) (declaration "code *UNRECOVERED_JUMPTABLE;" type_identifier (pointer_declarator "*UNRECOVERED_JUMPTABLE" * identifier) ;) (declaration "bool bVar34;" primitive_type identifier ;) (declaration "undefined1 uVar35;" type_identifier identifier ;) (declaration "undefined8 uVar36;" type_identifier identifier ;) (declaration "uint uStack_e0;" type_identifier identifier ;) (declaration "int iStack_dc;" primitive_type identifier ;) (declaration "uint uStack_d8;" type_identifier identifier ;) (declaration "int iStack_d4;" primitive_type identifier ;) (declaration "uint uStack_d0;" type_identifier identifier ;) (declaration "uint uStack_cc;" type_identifier identifier ;) (declaration "int iStack_c8;" primitive_type identifier ;) (declaration "int iStack_c4;" primitive_type identifier ;) (declaration "uint uStack_c0;" type_identifier identifier ;) (declaration "undefined4 uStack_bc;" type_identifier identifier ;) (declaration "uint uStack_b8;" type_identifier identifier ;) (declaration "uint uStack_b4;" type_identifier identifier ;) (declaration "uint uStack_b0;" type_identifier identifier ;) (declaration "uint uStack_ac;" type_identifier identifier ;) (declaration "int local_a8;" primitive_type identifier ;) (declaration "int iStack_a4;" primitive_type identifier ;) (declaration "uint uStack_a0;" type_identifier identifier ;) (declaration "int iStack_9c;" primitive_type identifier ;) (declaration "int iStack_98;" primitive_type identifier ;) (declaration "uint uStack_94;" type_identifier identifier ;) (declaration "uint uStack_90;" type_identifier identifier ;) (declaration "uint uStack_8c;" type_identifier identifier ;) (declaration "int iStack_88;" primitive_type identifier ;) (declaration "uint uStack_84;" type_identifier identifier ;) (declaration "uint uStack_80;" type_identifier identifier ;) (declaration "uint uStack_7c;" type_identifier identifier ;) (declaration "uint uStack_78;" type_identifier identifier ;) (declaration "uint uStack_74;" type_identifier identifier ;) (declaration "uint uStack_6c;" type_identifier identifier ;) (declaration "int iStack_68;" primitive_type identifier ;) (declaration "int iStack_64;" primitive_type identifier ;) (declaration "int iStack_60;" primitive_type identifier ;) (declaration "int iStack_5c;" primitive_type identifier ;) (declaration "int iStack_58;" primitive_type identifier ;) (declaration "int iStack_54;" primitive_type identifier ;) (declaration "int iStack_50;" primitive_type identifier ;) (declaration "int iStack_4c;" primitive_type identifier ;) (declaration "int iStack_48;" primitive_type identifier ;) (declaration "int iStack_44;" primitive_type identifier ;) (declaration "int iStack_40;" primitive_type identifier ;) (declaration "int iStack_3c;" primitive_type identifier ;) (declaration "int iStack_38;" primitive_type identifier ;) (declaration "int iStack_34;" primitive_type identifier ;) (declaration "int iStack_30;" primitive_type identifier ;) (declaration "uint local_2c [2];" type_identifier (array_declarator "local_2c [2]" identifier [ number_literal ]) ;) (expression_statement "local_2c[0] = *DAT_00011004;" (assignment_expression "local_2c[0] = *DAT_00011004" (subscript_expression "local_2c[0]" identifier [ number_literal ]) = (pointer_expression "*DAT_00011004" * identifier)) ;) (expression_statement "puVar17 = &uStack_6c;" (assignment_expression "puVar17 = &uStack_6c" identifier = (pointer_expression "&uStack_6c" & identifier)) ;) (expression_statement "local_a8 = param_1;" (assignment_expression "local_a8 = param_1" identifier = identifier) ;) (do_statement "do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);" do (compound_statement "{\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n }" { (expression_statement "puVar18 = puVar17 + 1;" (assignment_expression "puVar18 = puVar17 + 1" identifier = (binary_expression "puVar17 + 1" identifier + number_literal)) ;) (expression_statement "FUN_00010034(puVar17,param_2);" (call_expression "FUN_00010034(puVar17,param_2)" identifier (argument_list "(puVar17,param_2)" ( identifier , identifier ))) ;) (expression_statement "uVar16 = local_2c[0];" (assignment_expression "uVar16 = local_2c[0]" identifier = (subscript_expression "local_2c[0]" identifier [ number_literal ])) ;) (expression_statement "puVar26 = DAT_00011028;" (assignment_expression "puVar26 = DAT_00011028" identifier = identifier) ;) (expression_statement "param_2 = param_2 + 4;" (assignment_expression "param_2 = param_2 + 4" identifier = (binary_expression "param_2 + 4" identifier + number_literal)) ;) (expression_statement "puVar17 = puVar18;" (assignment_expression "puVar17 = puVar18" identifier = identifier) ;) }) while (parenthesized_expression "(local_2c != puVar18)" ( (binary_expression "local_2c != puVar18" identifier != identifier) )) ;) (expression_statement "uVar27 = *(uint *)(local_a8 + 0x6c);" (assignment_expression "uVar27 = *(uint *)(local_a8 + 0x6c)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x6c)" * (cast_expression "(uint *)(local_a8 + 0x6c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x6c)" ( (binary_expression "local_a8 + 0x6c" identifier + number_literal) ))))) ;) (expression_statement "uVar12 = *(uint *)(local_a8 + 0x68);" (assignment_expression "uVar12 = *(uint *)(local_a8 + 0x68)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x68)" * (cast_expression "(uint *)(local_a8 + 0x68)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x68)" ( (binary_expression "local_a8 + 0x68" identifier + number_literal) ))))) ;) (expression_statement "uStack_94 = *(uint *)(local_a8 + 100);" (assignment_expression "uStack_94 = *(uint *)(local_a8 + 100)" identifier = (pointer_expression "*(uint *)(local_a8 + 100)" * (cast_expression "(uint *)(local_a8 + 100)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 100)" ( (binary_expression "local_a8 + 100" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = uVar12 >> 0x16 | uVar12 << 10;" (assignment_expression "uVar28 = uVar12 >> 0x16 | uVar12 << 10" identifier = (binary_expression "uVar12 >> 0x16 | uVar12 << 10" (binary_expression "uVar12 >> 0x16" identifier >> number_literal) | (binary_expression "uVar12 << 10" identifier << number_literal))) ;) (expression_statement "iStack_98 = *(int *)(local_a8 + 0x60);" (assignment_expression "iStack_98 = *(int *)(local_a8 + 0x60)" identifier = (pointer_expression "*(int *)(local_a8 + 0x60)" * (cast_expression "(int *)(local_a8 + 0x60)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x60)" ( (binary_expression "local_a8 + 0x60" identifier + number_literal) ))))) ;) (expression_statement "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;" (assignment_expression "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10" identifier = (binary_expression "uStack_94 >> 0x16 | uStack_94 << 10" (binary_expression "uStack_94 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_94 << 10" identifier << number_literal))) ;) (expression_statement "iVar23 = *(int *)(local_a8 + 0x70);" (assignment_expression "iVar23 = *(int *)(local_a8 + 0x70)" identifier = (pointer_expression "*(int *)(local_a8 + 0x70)" * (cast_expression "(int *)(local_a8 + 0x70)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x70)" ( (binary_expression "local_a8 + 0x70" identifier + number_literal) ))))) ;) (expression_statement "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;" (assignment_expression "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" identifier = (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58" (parenthesized_expression "((~uVar27 | uVar12) ^ uStack_94)" ( (binary_expression "(~uVar27 | uVar12) ^ uStack_94" (parenthesized_expression "(~uVar27 | uVar12)" ( (binary_expression "~uVar27 | uVar12" (unary_expression "~uVar27" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier = (binary_expression "iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier + (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" ( (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" identifier >> number_literal) | (binary_expression "uVar13 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;" (assignment_expression "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400" identifier = (binary_expression "uVar7 >> 0x16 | uVar7 * 0x400" (binary_expression "uVar7 >> 0x16" identifier >> number_literal) | (binary_expression "uVar7 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;" (assignment_expression "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" identifier = (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34" (parenthesized_expression "((~uVar28 | uStack_94) ^ uVar7)" ( (binary_expression "(~uVar28 | uStack_94) ^ uVar7" (parenthesized_expression "(~uVar28 | uStack_94)" ( (binary_expression "~uVar28 | uStack_94" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;" (assignment_expression "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" identifier = (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50" (parenthesized_expression "((~uVar29 | uVar7) ^ uVar15)" ( (binary_expression "(~uVar29 | uVar7) ^ uVar15" (parenthesized_expression "(~uVar29 | uVar7)" ( (binary_expression "~uVar29 | uVar7" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c" (parenthesized_expression "((~uVar13 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar13 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar13 | uVar15)" ( (binary_expression "~uVar13 | uVar15" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48" (parenthesized_expression "((~uVar19 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar19 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar8)" ( (binary_expression "~uVar19 | uVar8" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" identifier = (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64" (parenthesized_expression "((~uVar7 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar7 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar7 | uVar15)" ( (binary_expression "~uVar7 | uVar15" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" identifier = (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40" (parenthesized_expression "((~uVar28 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar28 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar28 | uVar8)" ( (binary_expression "~uVar28 | uVar8" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);" (assignment_expression "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" identifier + (parenthesized_expression "(uVar19 >> 0x11 | uVar19 * 0x8000)" ( (binary_expression "uVar19 >> 0x11 | uVar19 * 0x8000" (binary_expression "uVar19 >> 0x11" identifier >> number_literal) | (binary_expression "uVar19 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" identifier = (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c" (parenthesized_expression "((~uVar29 | uVar15) ^ uVar8)" ( (binary_expression "(~uVar29 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar29 | uVar15)" ( (binary_expression "~uVar29 | uVar15" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar13 | uVar8) ^ uVar15)" ( (binary_expression "(~uVar13 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar8)" ( (binary_expression "~uVar13 | uVar8" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uStack_b4 = *(uint *)(local_a8 + 0x54);" (assignment_expression "uStack_b4 = *(uint *)(local_a8 + 0x54)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x54)" * (cast_expression "(uint *)(local_a8 + 0x54)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x54)" ( (binary_expression "local_a8 + 0x54" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;" (assignment_expression "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54" (parenthesized_expression "((~uVar19 | uVar15) ^ uVar30)" ( (binary_expression "(~uVar19 | uVar15) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar15)" ( (binary_expression "~uVar19 | uVar15" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "iStack_a4 = *(int *)(local_a8 + 0x4c);" (assignment_expression "iStack_a4 = *(int *)(local_a8 + 0x4c)" identifier = (pointer_expression "*(int *)(local_a8 + 0x4c)" * (cast_expression "(int *)(local_a8 + 0x4c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x4c)" ( (binary_expression "local_a8 + 0x4c" identifier + number_literal) ))))) ;) (expression_statement "uStack_b8 = *(uint *)(local_a8 + 0x50);" (assignment_expression "uStack_b8 = *(uint *)(local_a8 + 0x50)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x50)" * (cast_expression "(uint *)(local_a8 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x50)" ( (binary_expression "local_a8 + 0x50" identifier + number_literal) ))))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_b0 = *(uint *)(local_a8 + 0x58);" (assignment_expression "uStack_b0 = *(uint *)(local_a8 + 0x58)" identifier = (pointer_expression "*(uint *)(local_a8 + 0x58)" * (cast_expression "(uint *)(local_a8 + 0x58)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x58)" ( (binary_expression "local_a8 + 0x58" identifier + number_literal) ))))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "iStack_9c = *(int *)(local_a8 + 0x5c);" (assignment_expression "iStack_9c = *(int *)(local_a8 + 0x5c)" identifier = (pointer_expression "*(int *)(local_a8 + 0x5c)" * (cast_expression "(int *)(local_a8 + 0x5c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x5c)" ( (binary_expression "local_a8 + 0x5c" identifier + number_literal) ))))) ;) (expression_statement "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;" (assignment_expression "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" identifier = (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c" (parenthesized_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0)" ( (binary_expression "uStack_b8 ^ uStack_b4 ^ uStack_b0" (binary_expression "uStack_b8 ^ uStack_b4" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier = (binary_expression "iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" identifier = (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30" (parenthesized_expression "((~uVar7 | uVar30) ^ uVar15)" ( (binary_expression "(~uVar7 | uVar30) ^ uVar15" (parenthesized_expression "(~uVar7 | uVar30)" ( (binary_expression "~uVar7 | uVar30" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" identifier + (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" ( (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" identifier >> number_literal) | (binary_expression "uVar13 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;" (assignment_expression "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10" identifier = (binary_expression "uStack_b4 >> 0x16 | uStack_b4 << 10" (binary_expression "uStack_b4 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_b4 << 10" identifier << number_literal))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" identifier = (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar31)" ( (binary_expression "(~uVar28 | uVar15) ^ uVar31" (parenthesized_expression "(~uVar28 | uVar15)" ( (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier + (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" ( (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" identifier >> number_literal) | (binary_expression "uVar19 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;" (assignment_expression "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" identifier = (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68" (parenthesized_expression "(uStack_b8 ^ uVar13 ^ uVar5)" ( (binary_expression "uStack_b8 ^ uVar13 ^ uVar5" (binary_expression "uStack_b8 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;" (assignment_expression "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10" identifier = (binary_expression "uStack_b8 >> 0x16 | uStack_b8 << 10" (binary_expression "uStack_b8 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_b8 << 10" identifier << number_literal))) ;) (expression_statement "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" identifier = (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68" (parenthesized_expression "((~uVar29 | uVar31) ^ uVar14)" ( (binary_expression "(~uVar29 | uVar31) ^ uVar14" (parenthesized_expression "(~uVar29 | uVar31)" ( (binary_expression "~uVar29 | uVar31" (unary_expression "~uVar29" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier + (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" ( (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" identifier >> number_literal) | (binary_expression "uVar7 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;" (assignment_expression "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" identifier = (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar5 ^ uVar15 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar15 ^ uVar9" (binary_expression "uVar5 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400" identifier = (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" identifier >> number_literal) | (binary_expression "uVar32 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);" (assignment_expression "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" identifier + (parenthesized_expression "(uVar13 >> 0x14 | uVar13 * 0x1000)" ( (binary_expression "uVar13 >> 0x14 | uVar13 * 0x1000" (binary_expression "uVar13 >> 0x14" identifier >> number_literal) | (binary_expression "uVar13 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" identifier = (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar30 ^ uVar9" (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;" (assignment_expression "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" identifier = (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar13 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar13 ^ uVar31" (binary_expression "uVar9 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;" (assignment_expression "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" identifier = (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54" (parenthesized_expression "(uVar31 ^ uVar15 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar15 ^ uVar9" (binary_expression "uVar31 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" identifier = (binary_expression "uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" identifier + (parenthesized_expression "(uVar30 >> 0x19 | uVar30 * 0x80)" ( (binary_expression "uVar30 >> 0x19 | uVar30 * 0x80" (binary_expression "uVar30 >> 0x19" identifier >> number_literal) | (binary_expression "uVar30 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" identifier = (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier + (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" ( (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" identifier >> number_literal) | (binary_expression "uVar13 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" identifier = (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar20)" ( (binary_expression "uVar31 ^ uVar30 ^ uVar20" (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);" (assignment_expression "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" identifier + (parenthesized_expression "(uVar15 >> 0x15 | uVar15 * 0x800)" ( (binary_expression "uVar15 >> 0x15 | uVar15 * 0x800" (binary_expression "uVar15 >> 0x15" identifier >> number_literal) | (binary_expression "uVar15 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;" (assignment_expression "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" identifier = (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar20 ^ uVar13 ^ uVar9)" ( (binary_expression "uVar20 ^ uVar13 ^ uVar9" (binary_expression "uVar20 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" identifier + (parenthesized_expression "(uVar5 >> 0x13 | uVar5 * 0x2000)" ( (binary_expression "uVar5 >> 0x13 | uVar5 * 0x2000" (binary_expression "uVar5 >> 0x13" identifier >> number_literal) | (binary_expression "uVar5 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;" (assignment_expression "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" identifier = (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44" (parenthesized_expression "(uVar9 ^ uVar15 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar15 ^ uVar31" (binary_expression "uVar9 ^ uVar15" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;" (assignment_expression "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" identifier = (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40" (parenthesized_expression "(uVar31 ^ uVar5 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar5 ^ uVar9" (binary_expression "uVar31 ^ uVar5" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" identifier = (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar30 ^ uVar31)" ( (binary_expression "uVar9 ^ uVar30 ^ uVar31" (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier + (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" ( (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar15 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" identifier = (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44" (parenthesized_expression "((~uVar8 | uVar14) ^ uVar32)" ( (binary_expression "(~uVar8 | uVar14) ^ uVar32" (parenthesized_expression "(~uVar8 | uVar14)" ( (binary_expression "~uVar8 | uVar14" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier + (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" ( (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" identifier >> number_literal) | (binary_expression "uVar28 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;" (assignment_expression "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" identifier = (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38" (parenthesized_expression "(uVar31 ^ uVar13 ^ uVar20)" ( (binary_expression "uVar31 ^ uVar13 ^ uVar20" (binary_expression "uVar31 ^ uVar13" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" identifier = (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60" (parenthesized_expression "((~uVar19 | uVar32) ^ uVar25)" ( (binary_expression "(~uVar19 | uVar32) ^ uVar25" (parenthesized_expression "(~uVar19 | uVar32)" ( (binary_expression "~uVar19 | uVar32" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);" (assignment_expression "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" identifier = (binary_expression "uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" identifier + (parenthesized_expression "(uVar15 >> 0x19 | uVar15 * 0x80)" ( (binary_expression "uVar15 >> 0x19 | uVar15 * 0x80" (binary_expression "uVar15 >> 0x19" identifier >> number_literal) | (binary_expression "uVar15 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier + (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" ( (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" identifier >> number_literal) | (binary_expression "uVar29 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;" (assignment_expression "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" identifier = (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34" (parenthesized_expression "(uVar20 ^ uVar28 ^ uVar14)" ( (binary_expression "uVar20 ^ uVar28 ^ uVar14" (binary_expression "uVar20 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier + (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" ( (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" identifier >> number_literal) | (binary_expression "uVar29 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" identifier = (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar25) ^ uVar9)" ( (binary_expression "(~uVar7 | uVar25) ^ uVar9" (parenthesized_expression "(~uVar7 | uVar25)" ( (binary_expression "~uVar7 | uVar25" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);" (assignment_expression "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" identifier + (parenthesized_expression "(uVar8 >> 0x1a | uVar8 * 0x40)" ( (binary_expression "uVar8 >> 0x1a | uVar8 * 0x40" (binary_expression "uVar8 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar8 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;" (assignment_expression "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" identifier = (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29)" ( (binary_expression "(uVar32 ^ uVar29) & uVar30 ^ uVar29" (binary_expression "(uVar32 ^ uVar29) & uVar30" (parenthesized_expression "(uVar32 ^ uVar29)" ( (binary_expression "uVar32 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400" identifier = (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" identifier >> number_literal) | (binary_expression "uVar32 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);" (assignment_expression "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier = (binary_expression "uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" identifier + (parenthesized_expression "(uVar5 >> 0x19 | uVar5 * 0x80)" ( (binary_expression "uVar5 >> 0x19 | uVar5 * 0x80" (binary_expression "uVar5 >> 0x19" identifier >> number_literal) | (binary_expression "uVar5 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;" (assignment_expression "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c" (parenthesized_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar30 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar30 ^ uVar15) & uVar31" (parenthesized_expression "(uVar30 ^ uVar15)" ( (binary_expression "uVar30 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);" (assignment_expression "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier = (binary_expression "uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" identifier + (parenthesized_expression "(uVar5 >> 0x1a | uVar5 * 0x40)" ( (binary_expression "uVar5 >> 0x1a | uVar5 * 0x40" (binary_expression "uVar5 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar5 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5)" ( (binary_expression "(uVar31 ^ uVar5) & uVar20 ^ uVar5" (binary_expression "(uVar31 ^ uVar5) & uVar20" (parenthesized_expression "(uVar31 ^ uVar5)" ( (binary_expression "uVar31 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30)" ( (binary_expression "(uVar20 ^ uVar30) & uVar31 ^ uVar30" (binary_expression "(uVar20 ^ uVar30) & uVar31" (parenthesized_expression "(uVar20 ^ uVar30)" ( (binary_expression "uVar20 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" identifier = (binary_expression "uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" identifier + (parenthesized_expression "(uVar15 >> 0x13 | uVar15 * 0x2000)" ( (binary_expression "uVar15 >> 0x13 | uVar15 * 0x2000" (binary_expression "uVar15 >> 0x13" identifier >> number_literal) | (binary_expression "uVar15 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;" (assignment_expression "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" identifier = (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44" (parenthesized_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29)" ( (binary_expression "(uVar31 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar20" (parenthesized_expression "(uVar31 ^ uVar29)" ( (binary_expression "uVar31 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier = (binary_expression "uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" identifier + (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" ( (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" identifier >> number_literal) | (binary_expression "uVar5 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;" (assignment_expression "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" identifier = (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar8 ^ uVar32)" ( (binary_expression "uVar14 ^ uVar8 ^ uVar32" (binary_expression "uVar14 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;" (assignment_expression "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" identifier = (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar20 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar20 ^ uVar15) & uVar31" (parenthesized_expression "(uVar20 ^ uVar15)" ( (binary_expression "uVar20 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);" (assignment_expression "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier = (binary_expression "uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" identifier + (parenthesized_expression "(uVar5 >> 0x17 | uVar5 * 0x200)" ( (binary_expression "uVar5 >> 0x17 | uVar5 * 0x200" (binary_expression "uVar5 >> 0x17" identifier >> number_literal) | (binary_expression "uVar5 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54" (parenthesized_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9)" ( (binary_expression "(uVar28 ^ uVar9) & uVar13 ^ uVar9" (binary_expression "(uVar28 ^ uVar9) & uVar13" (parenthesized_expression "(uVar28 ^ uVar9)" ( (binary_expression "uVar28 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30" (parenthesized_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8)" ( (binary_expression "(uVar31 ^ uVar8) & uVar5 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar5" (parenthesized_expression "(uVar31 ^ uVar8)" ( (binary_expression "uVar31 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" identifier = (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28)" ( (binary_expression "(uVar28 ^ uVar30) & uVar29 ^ uVar28" (binary_expression "(uVar28 ^ uVar30) & uVar29" (parenthesized_expression "(uVar28 ^ uVar30)" ( (binary_expression "uVar28 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier + (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" ( (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" identifier >> number_literal) | (binary_expression "uVar7 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19)" ( (binary_expression "(uVar5 ^ uVar19) & uVar20 ^ uVar19" (binary_expression "(uVar5 ^ uVar19) & uVar20" (parenthesized_expression "(uVar5 ^ uVar19)" ( (binary_expression "uVar5 ^ uVar19" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" identifier + (parenthesized_expression "(uVar15 >> 0x11 | uVar15 * 0x8000)" ( (binary_expression "uVar15 >> 0x11 | uVar15 * 0x8000" (binary_expression "uVar15 >> 0x11" identifier >> number_literal) | (binary_expression "uVar15 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;" (assignment_expression "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400" identifier = (binary_expression "uVar28 >> 0x16 | uVar28 * 0x400" (binary_expression "uVar28 >> 0x16" identifier >> number_literal) | (binary_expression "uVar28 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c" (parenthesized_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7)" ( (binary_expression "(uVar20 ^ uVar7) & uVar5 ^ uVar7" (binary_expression "(uVar20 ^ uVar7) & uVar5" (parenthesized_expression "(uVar20 ^ uVar7)" ( (binary_expression "uVar20 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60" (parenthesized_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar28" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" identifier = (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13)" ( (binary_expression "(uVar5 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar5 ^ uVar13) & uVar31" (parenthesized_expression "(uVar5 ^ uVar13)" ( (binary_expression "uVar5 ^ uVar13" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;" (assignment_expression "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" identifier = (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50" (parenthesized_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar25) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar25) & uVar8" (parenthesized_expression "(uVar14 ^ uVar25)" ( (binary_expression "uVar14 ^ uVar25" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;" (assignment_expression "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" identifier = (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48" (parenthesized_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15)" ( (binary_expression "(uVar31 ^ uVar15) & uVar9 ^ uVar15" (binary_expression "(uVar31 ^ uVar15) & uVar9" (parenthesized_expression "(uVar31 ^ uVar15)" ( (binary_expression "uVar31 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;" (assignment_expression "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58" (parenthesized_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar20" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier = (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" identifier + (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" ( (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" identifier >> number_literal) | (binary_expression "uVar13 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c" (parenthesized_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25)" ( (binary_expression "(uVar25 ^ uVar5) & uVar19 ^ uVar25" (binary_expression "(uVar25 ^ uVar5) & uVar19" (parenthesized_expression "(uVar25 ^ uVar5)" ( (binary_expression "uVar25 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;" (assignment_expression "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" identifier = (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" ( (binary_expression "uVar5 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier = (binary_expression "uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier + (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" ( (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" identifier >> number_literal) | (binary_expression "uVar7 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;" (assignment_expression "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" identifier = (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64" (parenthesized_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13)" ( (binary_expression "(uVar20 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar20 ^ uVar13) & uVar31" (parenthesized_expression "(uVar20 ^ uVar13)" ( (binary_expression "uVar20 ^ uVar13" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58" (parenthesized_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar9) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar7" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" identifier = (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34" (parenthesized_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8)" ( (binary_expression "(uVar31 ^ uVar8) & uVar14 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar14" (parenthesized_expression "(uVar31 ^ uVar8)" ( (binary_expression "uVar31 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" identifier + (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" ( (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" identifier >> number_literal) | (binary_expression "uVar29 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;" (assignment_expression "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" identifier = (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40" (parenthesized_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15)" ( (binary_expression "(uVar14 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar14 ^ uVar15) & uVar31" (parenthesized_expression "(uVar14 ^ uVar15)" ( (binary_expression "uVar14 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" ( (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" identifier = (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29)" ( (binary_expression "(uVar31 ^ uVar29) & uVar14 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar14" (parenthesized_expression "(uVar31 ^ uVar29)" ( (binary_expression "uVar31 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" identifier = (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" ( (binary_expression "uVar5 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier + (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" ( (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" identifier >> number_literal) | (binary_expression "uVar8 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier = (binary_expression "uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier + (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" ( (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" identifier >> number_literal) | (binary_expression "uVar19 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30" (parenthesized_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar8) & uVar19 ^ uVar30" (binary_expression "(uVar30 ^ uVar8) & uVar19" (parenthesized_expression "(uVar30 ^ uVar8)" ( (binary_expression "uVar30 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" identifier = (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" ( (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" ( (binary_expression "uVar8 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;" (assignment_expression "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" identifier = (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar9) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar28" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;" (assignment_expression "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" ( (binary_expression "uVar9 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier + (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" ( (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar19 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar8) & uVar19 ^ uVar5" (binary_expression "(uVar5 ^ uVar8) & uVar19" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;" (assignment_expression "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" identifier = (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar14 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar14 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar14 | uVar20)" ( (binary_expression "~uVar14 | uVar20" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" identifier = (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" ( (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" ( (binary_expression "uVar8 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier + (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" ( (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" identifier >> number_literal) | (binary_expression "uVar13 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" identifier = (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44" (parenthesized_expression "((~uVar20 | uVar15) ^ uVar13)" ( (binary_expression "(~uVar20 | uVar15) ^ uVar13" (parenthesized_expression "(~uVar20 | uVar15)" ( (binary_expression "~uVar20 | uVar15" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" identifier = (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64" (parenthesized_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8)" ( (binary_expression "uVar30 ^ (uVar30 ^ uVar9) & uVar8" identifier ^ (binary_expression "(uVar30 ^ uVar9) & uVar8" (parenthesized_expression "(uVar30 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar9" identifier ^ identifier) )) & identifier)) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" identifier + (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" ( (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" identifier >> number_literal) | (binary_expression "uVar19 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" identifier = (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" ( (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier + (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" ( (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar28 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" identifier = (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar28)" ( (binary_expression "(~uVar5 | uVar30) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar30)" ( (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30" (parenthesized_expression "((~uVar9 | uVar25) ^ uVar19)" ( (binary_expression "(~uVar9 | uVar25) ^ uVar19" (parenthesized_expression "(~uVar9 | uVar25)" ( (binary_expression "~uVar9 | uVar25" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" identifier + (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" ( (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" identifier >> number_literal) | (binary_expression "uVar13 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar25 | uVar14) ^ uVar13)" ( (binary_expression "(~uVar25 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar25 | uVar14)" ( (binary_expression "~uVar25 | uVar14" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar30 | uVar15) ^ uVar7)" ( (binary_expression "(~uVar30 | uVar15) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar15)" ( (binary_expression "~uVar30 | uVar15" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier + (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" ( (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" identifier >> number_literal) | (binary_expression "uVar29 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier = (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" identifier + (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" ( (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" identifier >> number_literal) | (binary_expression "uVar8 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" identifier = (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" ( (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;" (assignment_expression "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" identifier = (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar31 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar31 | uVar20)" ( (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" identifier = (binary_expression "uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" identifier + (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" ( (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" identifier >> number_literal) | (binary_expression "uVar13 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" identifier = (binary_expression "uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" identifier + (parenthesized_expression "(uVar30 >> 0x17 | uVar30 * 0x200)" ( (binary_expression "uVar30 >> 0x17 | uVar30 * 0x200" (binary_expression "uVar30 >> 0x17" identifier >> number_literal) | (binary_expression "uVar30 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;" (assignment_expression "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" identifier = (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar13)" ( (binary_expression "(~uVar5 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar30)" ( (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" identifier = (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68" (parenthesized_expression "((~uVar30 | uVar9) ^ uVar19)" ( (binary_expression "(~uVar30 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar30 | uVar9)" ( (binary_expression "~uVar30 | uVar9" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);" (assignment_expression "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" identifier = (binary_expression "uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" identifier + (parenthesized_expression "(uVar29 >> 0x11 | uVar29 * 0x8000)" ( (binary_expression "uVar29 >> 0x11 | uVar29 * 0x8000" (binary_expression "uVar29 >> 0x11" identifier >> number_literal) | (binary_expression "uVar29 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" ( (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" ( (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar29)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar29" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier = (binary_expression "uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" identifier + (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" ( (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar28 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;" (assignment_expression "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" identifier = (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar9 | uVar15) ^ uVar28)" ( (binary_expression "(~uVar9 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar9 | uVar15)" ( (binary_expression "~uVar9 | uVar15" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" identifier = (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50" (parenthesized_expression "((~uVar15 | uVar8) ^ uVar13)" ( (binary_expression "(~uVar15 | uVar8) ^ uVar13" (parenthesized_expression "(~uVar15 | uVar8)" ( (binary_expression "~uVar15 | uVar8" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier + (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" ( (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" identifier >> number_literal) | (binary_expression "uVar19 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar19)" ( (binary_expression "(~uVar31 | uVar20) ^ uVar19" (parenthesized_expression "(~uVar31 | uVar20)" ( (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" identifier = (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" ( (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" ( (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" identifier + (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" ( (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" identifier >> number_literal) | (binary_expression "uVar29 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" identifier = (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar8 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar8 | uVar5)" ( (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" identifier + (parenthesized_expression "(uVar28 >> 0x13 | uVar28 * 0x2000)" ( (binary_expression "uVar28 >> 0x13 | uVar28 * 0x2000" (binary_expression "uVar28 >> 0x13" identifier >> number_literal) | (binary_expression "uVar28 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;" (assignment_expression "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" identifier = (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" ( (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" identifier = (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54" (parenthesized_expression "((~uVar5 | uVar15) ^ uVar28)" ( (binary_expression "(~uVar5 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar15)" ( (binary_expression "~uVar5 | uVar15" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);" (assignment_expression "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" identifier = (binary_expression "uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" identifier + (parenthesized_expression "(uVar13 >> 0x1a | uVar13 * 0x40)" ( (binary_expression "uVar13 >> 0x1a | uVar13 * 0x40" (binary_expression "uVar13 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar13 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;" (assignment_expression "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" identifier = (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar31 | uVar30) ^ uVar13)" ( (binary_expression "(~uVar31 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar31 | uVar30)" ( (binary_expression "~uVar31 | uVar30" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" identifier + (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" ( (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" identifier >> number_literal) | (binary_expression "uVar19 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38" (parenthesized_expression "((~uVar15 | uVar9) ^ uVar19)" ( (binary_expression "(~uVar15 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar15 | uVar9)" ( (binary_expression "~uVar15 | uVar9" (unary_expression "~uVar15" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" identifier = (binary_expression "uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" identifier + (parenthesized_expression "(uVar29 >> 0x1b | uVar29 * 0x20)" ( (binary_expression "uVar29 >> 0x1b | uVar29 * 0x20" (binary_expression "uVar29 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar29 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" identifier = (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40" (parenthesized_expression "((~uVar9 | uVar5) ^ uVar29)" ( (binary_expression "(~uVar9 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar9 | uVar5)" ( (binary_expression "~uVar9 | uVar5" (unary_expression "~uVar9" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c" (parenthesized_expression "((~uVar30 | uVar25) ^ uVar7)" ( (binary_expression "(~uVar30 | uVar25) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar25)" ( (binary_expression "~uVar30 | uVar25" (unary_expression "~uVar30" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;" (assignment_expression "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" identifier = (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar28)" ( (binary_expression "(~uVar25 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar25 | uVar20)" ( (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" identifier = (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar5 | uVar14) ^ uVar13)" ( (binary_expression "(~uVar5 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar14)" ( (binary_expression "~uVar5 | uVar14" (unary_expression "~uVar5" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier = (binary_expression "uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" identifier + (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" ( (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" identifier >> number_literal) | (binary_expression "uVar19 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" identifier = (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c" (parenthesized_expression "((~uVar14 | uVar30) ^ uVar19)" ( (binary_expression "(~uVar14 | uVar30) ^ uVar19" (parenthesized_expression "(~uVar14 | uVar30)" ( (binary_expression "~uVar14 | uVar30" (unary_expression "~uVar14" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;" (assignment_expression "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" identifier = (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" ( (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" identifier + (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" ( (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" identifier >> number_literal) | (binary_expression "uVar7 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;" (assignment_expression "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" identifier = (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c" (parenthesized_expression "((~uVar31 | uVar25) ^ uVar15)" ( (binary_expression "(~uVar31 | uVar25) ^ uVar15" (parenthesized_expression "(~uVar31 | uVar25)" ( (binary_expression "~uVar31 | uVar25" (unary_expression "~uVar31" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);" (assignment_expression "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" identifier = (binary_expression "uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" identifier + (parenthesized_expression "(uVar9 >> 0x13 | uVar9 * 0x2000)" ( (binary_expression "uVar9 >> 0x13 | uVar9 * 0x2000" (binary_expression "uVar9 >> 0x13" identifier >> number_literal) | (binary_expression "uVar9 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" identifier = (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" identifier + (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" ( (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" identifier >> number_literal) | (binary_expression "uVar19 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" identifier + (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" ( (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" identifier >> number_literal) | (binary_expression "uVar7 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" identifier = (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" ( (binary_expression "uVar5 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier + (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" ( (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" identifier >> number_literal) | (binary_expression "uVar19 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" identifier + (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" ( (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" identifier >> number_literal) | (binary_expression "uVar7 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" ( (binary_expression "uVar30 ^ uVar5" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" identifier + (parenthesized_expression "(uVar28 >> 0x17 | uVar28 * 0x200)" ( (binary_expression "uVar28 >> 0x17 | uVar28 * 0x200" (binary_expression "uVar28 >> 0x17" identifier >> number_literal) | (binary_expression "uVar28 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" identifier = (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar29)" ( (binary_expression "(~uVar25 | uVar20) ^ uVar29" (parenthesized_expression "(~uVar25 | uVar20)" ( (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier = (binary_expression "uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" identifier + (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" ( (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" identifier >> number_literal) | (binary_expression "uVar28 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" identifier = (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" identifier >> number_literal) | (binary_expression "uVar25 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;" (assignment_expression "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" identifier = (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" ( (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" ( (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" identifier = (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5)" ( (binary_expression "(uVar5 ^ uVar14) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar14) & uVar28" (parenthesized_expression "(uVar5 ^ uVar14)" ( (binary_expression "uVar5 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" identifier + (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" ( (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" identifier >> number_literal) | (binary_expression "uVar19 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" identifier = (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38" (parenthesized_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar9) & uVar19 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar19" (parenthesized_expression "(uVar14 ^ uVar9)" ( (binary_expression "uVar14 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" identifier + (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" ( (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" identifier >> number_literal) | (binary_expression "uVar7 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;" (assignment_expression "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" identifier = (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7)" ( (binary_expression "(uVar31 ^ uVar7) & uVar29 ^ uVar7" (binary_expression "(uVar31 ^ uVar7) & uVar29" (parenthesized_expression "(uVar31 ^ uVar7)" ( (binary_expression "uVar31 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" identifier = (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15)" ( (binary_expression "(uVar29 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar29 ^ uVar15) & uVar5" (parenthesized_expression "(uVar29 ^ uVar15)" ( (binary_expression "uVar29 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;" (assignment_expression "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" identifier = (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60" (parenthesized_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9)" ( (binary_expression "(uVar9 ^ uVar30) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar13" (parenthesized_expression "(uVar9 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;" (assignment_expression "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400" identifier = (binary_expression "uVar29 >> 0x16 | uVar29 * 0x400" (binary_expression "uVar29 >> 0x16" identifier >> number_literal) | (binary_expression "uVar29 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);" (assignment_expression "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" identifier + (parenthesized_expression "(uVar14 >> 0x12 | uVar14 * 0x4000)" ( (binary_expression "uVar14 >> 0x12 | uVar14 * 0x4000" (binary_expression "uVar14 >> 0x12" identifier >> number_literal) | (binary_expression "uVar14 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;" (assignment_expression "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" identifier = (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28)" ( (binary_expression "(uVar5 ^ uVar28) & uVar31 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar31" (parenthesized_expression "(uVar5 ^ uVar28)" ( (binary_expression "uVar5 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;" (assignment_expression "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50" (parenthesized_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar29 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar29" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier = (binary_expression "uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" identifier + (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" ( (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" identifier >> number_literal) | (binary_expression "uVar7 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" identifier = (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68" (parenthesized_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19)" ( (binary_expression "(uVar31 ^ uVar19) & uVar5 ^ uVar19" (binary_expression "(uVar31 ^ uVar19) & uVar5" (parenthesized_expression "(uVar31 ^ uVar19)" ( (binary_expression "uVar31 ^ uVar19" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" identifier = (binary_expression "uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" identifier + (parenthesized_expression "(uVar9 >> 0x1b | uVar9 * 0x20)" ( (binary_expression "uVar9 >> 0x1b | uVar9 * 0x20" (binary_expression "uVar9 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar9 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" identifier + (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" ( (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" identifier >> number_literal) | (binary_expression "uVar8 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;" (assignment_expression "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" identifier = (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30" (parenthesized_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar20) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar20) & uVar8" (parenthesized_expression "(uVar14 ^ uVar20)" ( (binary_expression "uVar14 ^ uVar20" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7)" ( (binary_expression "(uVar5 ^ uVar7) & uVar15 ^ uVar7" (binary_expression "(uVar5 ^ uVar7) & uVar15" (parenthesized_expression "(uVar5 ^ uVar7)" ( (binary_expression "uVar5 ^ uVar7" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier = (binary_expression "uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" identifier + (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" ( (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" identifier >> number_literal) | (binary_expression "uVar13 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;" (assignment_expression "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" identifier = (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" ( (binary_expression "uVar15 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;" (assignment_expression "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" identifier = (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34" (parenthesized_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20)" ( (binary_expression "(uVar20 ^ uVar31) & uVar13 ^ uVar20" (binary_expression "(uVar20 ^ uVar31) & uVar13" (parenthesized_expression "(uVar20 ^ uVar31)" ( (binary_expression "uVar20 ^ uVar31" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" identifier + (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" ( (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" identifier >> number_literal) | (binary_expression "uVar19 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400" identifier = (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" identifier >> number_literal) | (binary_expression "uVar20 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;" (assignment_expression "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" identifier = (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58" (parenthesized_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31)" ( (binary_expression "(uVar31 ^ uVar30) & uVar19 ^ uVar31" (binary_expression "(uVar31 ^ uVar30) & uVar19" (parenthesized_expression "(uVar31 ^ uVar30)" ( (binary_expression "uVar31 ^ uVar30" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" identifier + (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" ( (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar15 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8)" ( (binary_expression "(uVar5 ^ uVar8) & uVar15 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar15" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" identifier + (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" ( (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" identifier >> number_literal) | (binary_expression "uVar28 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;" (assignment_expression "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" identifier = (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" ( (binary_expression "uVar15 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);" (assignment_expression "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" identifier + (parenthesized_expression "(uVar29 >> 0x1a | uVar29 * 0x40)" ( (binary_expression "uVar29 >> 0x1a | uVar29 * 0x40" (binary_expression "uVar29 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar29 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" identifier = (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" identifier + (parenthesized_expression "(uVar15 >> 0x17 | uVar15 * 0x200)" ( (binary_expression "uVar15 >> 0x17 | uVar15 * 0x200" (binary_expression "uVar15 >> 0x17" identifier >> number_literal) | (binary_expression "uVar15 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" identifier = (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64" (parenthesized_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8)" ( (binary_expression "(uVar5 ^ uVar8) & uVar9 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar9" (parenthesized_expression "(uVar5 ^ uVar8)" ( (binary_expression "uVar5 ^ uVar8" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" identifier = (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38" (parenthesized_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15)" ( (binary_expression "(uVar9 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar9 ^ uVar15) & uVar5" (parenthesized_expression "(uVar9 ^ uVar15)" ( (binary_expression "uVar9 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier = (binary_expression "uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" identifier + (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" ( (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" identifier >> number_literal) | (binary_expression "uVar29 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" identifier = (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28)" ( (binary_expression "(uVar5 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar9" (parenthesized_expression "(uVar5 ^ uVar28)" ( (binary_expression "uVar5 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier = (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" identifier + (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" ( (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" identifier >> number_literal) | (binary_expression "uVar8 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" identifier = (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29)" ( (binary_expression "(uVar9 ^ uVar29) & uStack_84 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uStack_84" (parenthesized_expression "(uVar9 ^ uVar29)" ( (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" identifier = (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54" (parenthesized_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30)" ( (binary_expression "(uVar30 ^ uVar14) & uVar8 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar8" (parenthesized_expression "(uVar30 ^ uVar14)" ( (binary_expression "uVar30 ^ uVar14" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + number_literal) + identifier)) ;) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" identifier = (binary_expression "uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" identifier + (parenthesized_expression "(uVar13 >> 0x1b | uVar13 * 0x20)" ( (binary_expression "uVar13 >> 0x1b | uVar13 * 0x20" (binary_expression "uVar13 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar13 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" identifier = (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44" (parenthesized_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15)" ( (binary_expression "(uStack_84 ^ uVar15) & uStack_80 ^ uVar15" (binary_expression "(uStack_84 ^ uVar15) & uStack_80" (parenthesized_expression "(uStack_84 ^ uVar15)" ( (binary_expression "uStack_84 ^ uVar15" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" identifier + (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" ( (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" identifier >> number_literal) | (binary_expression "uVar28 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;" (assignment_expression "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" identifier = (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64" (parenthesized_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14)" ( (binary_expression "(uVar14 ^ uVar9) & uVar13 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar13" (parenthesized_expression "(uVar14 ^ uVar9)" ( (binary_expression "uVar14 ^ uVar9" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;" (assignment_expression "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400" identifier = (binary_expression "uStack_7c >> 0x16 | uStack_7c * 0x400" (binary_expression "uStack_7c >> 0x16" identifier >> number_literal) | (binary_expression "uStack_7c * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c" (parenthesized_expression "((~uVar7 | uStack_7c) ^ uVar5)" ( (binary_expression "(~uVar7 | uStack_7c) ^ uVar5" (parenthesized_expression "(~uVar7 | uStack_7c)" ( (binary_expression "~uVar7 | uStack_7c" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);" (assignment_expression "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" identifier + (parenthesized_expression "(uVar8 >> 0x17 | uVar8 * 0x200)" ( (binary_expression "uVar8 >> 0x17 | uVar8 * 0x200" (binary_expression "uVar8 >> 0x17" identifier >> number_literal) | (binary_expression "uVar8 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c" (parenthesized_expression "((~uVar28 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar28 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar28 | uVar5)" ( (binary_expression "~uVar28 | uVar5" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" identifier + (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" ( (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" identifier >> number_literal) | (binary_expression "uVar13 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" identifier = (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58" (parenthesized_expression "((~uVar19 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar19 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar19 | uVar30)" ( (binary_expression "~uVar19 | uVar30" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" identifier = (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar8 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar8 | uVar5)" ( (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" identifier + (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" ( (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" identifier >> number_literal) | (binary_expression "uVar28 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;" (assignment_expression "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" identifier = (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50" (parenthesized_expression "((~uVar13 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar13 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar30)" ( (binary_expression "~uVar13 | uVar30" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier = (binary_expression "uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" identifier + (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" ( (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar19 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" ( (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" identifier + (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" ( (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" identifier >> number_literal) | (binary_expression "uVar8 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64" (parenthesized_expression "((~uVar28 | uVar30) ^ uVar5)" ( (binary_expression "(~uVar28 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar30)" ( (binary_expression "~uVar28 | uVar30" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" identifier + (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" ( (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" identifier >> number_literal) | (binary_expression "uVar13 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" identifier = (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar19 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar5)" ( (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);" (assignment_expression "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" identifier + (parenthesized_expression "(uVar7 >> 0x14 | uVar7 * 0x1000)" ( (binary_expression "uVar7 >> 0x14 | uVar7 * 0x1000" (binary_expression "uVar7 >> 0x14" identifier >> number_literal) | (binary_expression "uVar7 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" identifier = (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34" (parenthesized_expression "((~uVar8 | uVar30) ^ uVar14)" ( (binary_expression "(~uVar8 | uVar30) ^ uVar14" (parenthesized_expression "(~uVar8 | uVar30)" ( (binary_expression "~uVar8 | uVar30" (unary_expression "~uVar8" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier = (binary_expression "uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier + (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" ( (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar28 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;" (assignment_expression "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" identifier = (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68" (parenthesized_expression "((~uVar13 | uVar14) ^ uVar5)" ( (binary_expression "(~uVar13 | uVar14) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar14)" ( (binary_expression "~uVar13 | uVar14" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uStack_74 = ~uStack_78;" (assignment_expression "uStack_74 = ~uStack_78" identifier = (unary_expression "~uStack_78" ~ identifier)) ;) (expression_statement "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;" (assignment_expression "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400" identifier = (binary_expression "uStack_84 >> 0x16 | uStack_84 * 0x400" (binary_expression "uStack_84 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_84 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" identifier = (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34" (parenthesized_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28)" ( (binary_expression "(uStack_80 ^ uVar28) & uStack_7c ^ uVar28" (binary_expression "(uStack_80 ^ uVar28) & uStack_7c" (parenthesized_expression "(uStack_80 ^ uVar28)" ( (binary_expression "uStack_80 ^ uVar28" identifier ^ identifier) )) & identifier) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier = (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" identifier + (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" ( (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" identifier >> number_literal) | (binary_expression "uVar29 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;" (assignment_expression "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400" identifier = (binary_expression "uStack_80 >> 0x16 | uStack_80 * 0x400" (binary_expression "uStack_80 >> 0x16" identifier >> number_literal) | (binary_expression "uStack_80 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" identifier = (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" ( (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" ( (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" identifier = (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar29 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar29 ^ uVar14" (binary_expression "uVar9 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" identifier = (binary_expression "uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" identifier + (parenthesized_expression "(uVar15 >> 0x18 | uVar15 * 0x100)" ( (binary_expression "uVar15 >> 0x18 | uVar15 * 0x100" (binary_expression "uVar15 >> 0x18" identifier >> number_literal) | (binary_expression "uVar15 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier = (binary_expression "uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" identifier + (parenthesized_expression "(uVar8 >> 0x13 | uVar8 * 0x2000)" ( (binary_expression "uVar8 >> 0x13 | uVar8 * 0x2000" (binary_expression "uVar8 >> 0x13" identifier >> number_literal) | (binary_expression "uVar8 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;" (assignment_expression "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" identifier = (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar19 ^ uVar31)" ( (binary_expression "uVar14 ^ uVar19 ^ uVar31" (binary_expression "uVar14 ^ uVar19" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" identifier + (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" ( (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar28 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;" (assignment_expression "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" identifier = (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c" (parenthesized_expression "((~uStack_a0 | uVar30) ^ uVar15)" ( (binary_expression "(~uStack_a0 | uVar30) ^ uVar15" (parenthesized_expression "(~uStack_a0 | uVar30)" ( (binary_expression "~uStack_a0 | uVar30" (unary_expression "~uStack_a0" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" identifier + (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" ( (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" identifier >> number_literal) | (binary_expression "uVar8 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" identifier = (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" identifier >> number_literal) | (binary_expression "uVar31 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;" (assignment_expression "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" identifier = (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44" (parenthesized_expression "(uVar31 ^ uVar28 ^ uVar9)" ( (binary_expression "uVar31 ^ uVar28 ^ uVar9" (binary_expression "uVar31 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier = (binary_expression "uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" identifier + (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" ( (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" identifier >> number_literal) | (binary_expression "uVar29 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;" (assignment_expression "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" identifier = (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40" (parenthesized_expression "((uStack_74 | uVar15) ^ uVar5)" ( (binary_expression "(uStack_74 | uVar15) ^ uVar5" (parenthesized_expression "(uStack_74 | uVar15)" ( (binary_expression "uStack_74 | uVar15" identifier | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;" (assignment_expression "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" identifier = (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);" (assignment_expression "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" identifier = (binary_expression "uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" identifier + (parenthesized_expression "(uVar29 >> 0x15 | uVar29 * 0x800)" ( (binary_expression "uVar29 >> 0x15 | uVar29 * 0x800" (binary_expression "uVar29 >> 0x15" identifier >> number_literal) | (binary_expression "uVar29 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier = (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" identifier + (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" ( (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" identifier >> number_literal) | (binary_expression "uVar19 * 0x200" identifier * number_literal)) )))) ;) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" identifier = (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" identifier >> number_literal) | (binary_expression "uVar15 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;" (assignment_expression "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" identifier = (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier = (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" identifier + (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" ( (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" identifier >> number_literal) | (binary_expression "uVar28 * 0x1000" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;" (assignment_expression "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier = (binary_expression "uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" identifier + (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" ( (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar8 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;" (assignment_expression "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" identifier = (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c" (parenthesized_expression "(uVar14 ^ uVar28 ^ uVar8)" ( (binary_expression "uVar14 ^ uVar28 ^ uVar8" (binary_expression "uVar14 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier = (binary_expression "uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" identifier + (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" ( (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" identifier >> number_literal) | (binary_expression "uVar30 * 0x4000" identifier * number_literal)) )))) ;) (expression_statement "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;" (assignment_expression "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" identifier = (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50" (parenthesized_expression "(uVar8 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar8 ^ uVar29 ^ uVar9" (binary_expression "uVar8 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" identifier = (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" identifier >> number_literal) | (binary_expression "uVar8 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier = (binary_expression "uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" identifier + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;" (assignment_expression "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar30" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" identifier = (binary_expression "uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" identifier + (parenthesized_expression "(uVar28 >> 0x18 | uVar28 * 0x100)" ( (binary_expression "uVar28 >> 0x18 | uVar28 * 0x100" (binary_expression "uVar28 >> 0x18" identifier >> number_literal) | (binary_expression "uVar28 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;" (assignment_expression "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" identifier = (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar30 ^ uVar8 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar8 ^ uVar9" (binary_expression "uVar30 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" identifier + (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" ( (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" identifier >> number_literal) | (binary_expression "uVar29 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;" (assignment_expression "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" identifier = (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38" (parenthesized_expression "(uVar9 ^ uVar28 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar28 ^ uVar14" (binary_expression "uVar9 ^ uVar28" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" identifier + (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" ( (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar7 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;" (assignment_expression "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" identifier = (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34" (parenthesized_expression "(uVar14 ^ uVar29 ^ uVar30)" ( (binary_expression "uVar14 ^ uVar29 ^ uVar30" (binary_expression "uVar14 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier = (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" identifier + (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" ( (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar7 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" identifier = (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" identifier >> number_literal) | (binary_expression "uVar14 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;" (assignment_expression "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" identifier = (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c" (parenthesized_expression "(uVar30 ^ uVar7 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar7 ^ uVar9" (binary_expression "uVar30 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" identifier = (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;" (assignment_expression "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" identifier = (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54" (parenthesized_expression "((~uVar13 | uVar5) ^ uVar15)" ( (binary_expression "(~uVar13 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar5)" ( (binary_expression "~uVar13 | uVar5" (unary_expression "~uVar13" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);" (assignment_expression "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" identifier = (binary_expression "uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" identifier + (parenthesized_expression "(uVar30 >> 0x11 | uVar30 * 0x8000)" ( (binary_expression "uVar30 >> 0x11 | uVar30 * 0x8000" (binary_expression "uVar30 >> 0x11" identifier >> number_literal) | (binary_expression "uVar30 * 0x8000" identifier * number_literal)) )))) ;) (expression_statement "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;" (assignment_expression "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" identifier = (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" ( (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier = (binary_expression "uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" identifier + (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" ( (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" identifier >> number_literal) | (binary_expression "uVar5 * 0x100" identifier * number_literal)) )))) ;) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" identifier = (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);" (assignment_expression "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" identifier = (binary_expression "uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" identifier + (parenthesized_expression "(uVar14 >> 0x13 | uVar14 * 0x2000)" ( (binary_expression "uVar14 >> 0x13 | uVar14 * 0x2000" (binary_expression "uVar14 >> 0x13" identifier >> number_literal) | (binary_expression "uVar14 * 0x2000" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;" (assignment_expression "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" identifier = (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar5)" ( (binary_expression "(~uVar28 | uVar15) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar15)" ( (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;" (assignment_expression "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" identifier = (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" ( (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier = (binary_expression "uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" identifier + (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" ( (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" identifier >> number_literal) | (binary_expression "uVar7 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier = (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" identifier + (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" ( (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" identifier >> number_literal) | (binary_expression "uVar15 * 0x20" identifier * number_literal)) )))) ;) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" identifier = (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" identifier >> number_literal) | (binary_expression "uVar30 * 0x400" identifier * number_literal))) ;) (expression_statement "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;" (assignment_expression "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" identifier = (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar15)" ( (binary_expression "(~uVar19 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar5)" ( (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" ~ identifier) | identifier) )) ^ identifier) )) + identifier) + identifier) + identifier)) ;) (expression_statement "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;" (assignment_expression "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" identifier = (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" ( (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" identifier ^ identifier) ^ identifier) )) + identifier) + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);" (assignment_expression "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" (pointer_expression "*(uint *)(local_a8 + 0x58)" * (cast_expression "(uint *)(local_a8 + 0x58)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x58)" ( (binary_expression "local_a8 + 0x58" identifier + number_literal) )))) = (binary_expression "uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" identifier + (parenthesized_expression "(uVar5 >> 0x16 | uVar5 * 0x400)" ( (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" identifier >> number_literal) | (binary_expression "uVar5 * 0x400" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;" (assignment_expression "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28" (pointer_expression "*(uint *)(local_a8 + 0x4c)" * (cast_expression "(uint *)(local_a8 + 0x4c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x4c)" ( (binary_expression "local_a8 + 0x4c" identifier + number_literal) )))) = (binary_expression "iStack_a4 + uVar28" identifier + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (pointer_expression "*(uint *)(local_a8 + 0x50)" * (cast_expression "(uint *)(local_a8 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x50)" ( (binary_expression "local_a8 + 0x50" identifier + number_literal) )))) = (binary_expression "uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (binary_expression "uStack_b8 + uVar28" identifier + identifier) + (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" ( (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" identifier >> number_literal) | (binary_expression "uVar30 * 0x40" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;" (assignment_expression "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29" (pointer_expression "*(uint *)(local_a8 + 0x60)" * (cast_expression "(uint *)(local_a8 + 0x60)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x60)" ( (binary_expression "local_a8 + 0x60" identifier + number_literal) )))) = (binary_expression "iStack_98 + uVar29" identifier + identifier)) ;) (expression_statement "uVar28 = *puVar26;" (assignment_expression "uVar28 = *puVar26" identifier = (pointer_expression "*puVar26" * identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;" (assignment_expression "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15" (pointer_expression "*(uint *)(local_a8 + 0x54)" * (cast_expression "(uint *)(local_a8 + 0x54)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x54)" ( (binary_expression "local_a8 + 0x54" identifier + number_literal) )))) = (binary_expression "uStack_b4 + uVar15" identifier + identifier)) ;) (expression_statement "iVar21 = iStack_9c + uVar7;" (assignment_expression "iVar21 = iStack_9c + uVar7" identifier = (binary_expression "iStack_9c + uVar7" identifier + identifier)) ;) (expression_statement "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);" (assignment_expression "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" identifier = (binary_expression "uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" identifier + (parenthesized_expression "(uVar9 >> 0x16 | uVar9 * 0x400)" ( (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" identifier >> number_literal) | (binary_expression "uVar9 * 0x400" identifier * number_literal)) )))) ;) (expression_statement "*(int *)(local_a8 + 0x5c) = iVar21;" (assignment_expression "*(int *)(local_a8 + 0x5c) = iVar21" (pointer_expression "*(int *)(local_a8 + 0x5c)" * (cast_expression "(int *)(local_a8 + 0x5c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x5c)" ( (binary_expression "local_a8 + 0x5c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (pointer_expression "*(uint *)(local_a8 + 100)" * (cast_expression "(uint *)(local_a8 + 100)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 100)" ( (binary_expression "local_a8 + 100" identifier + number_literal) )))) = (binary_expression "uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (binary_expression "uStack_94 + uVar29" identifier + identifier) + (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" ( (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" identifier >> number_literal) | (binary_expression "uVar13 * 0x800" identifier * number_literal)) )))) ;) (expression_statement "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19;" (assignment_expression "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19" (pointer_expression "*(uint *)(local_a8 + 0x70)" * (cast_expression "(uint *)(local_a8 + 0x70)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x70)" ( (binary_expression "local_a8 + 0x70" identifier + number_literal) )))) = (binary_expression "iVar23 + uVar19" identifier + identifier)) ;) (expression_statement "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14;" (assignment_expression "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14" (pointer_expression "*(uint *)(local_a8 + 0x68)" * (cast_expression "(uint *)(local_a8 + 0x68)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x68)" ( (binary_expression "local_a8 + 0x68" identifier + number_literal) )))) = (binary_expression "uVar12 + uVar14" identifier + identifier)) ;) (expression_statement "*(int *)(local_a8 + 0x6c) = iVar24;" (assignment_expression "*(int *)(local_a8 + 0x6c) = iVar24" (pointer_expression "*(int *)(local_a8 + 0x6c)" * (cast_expression "(int *)(local_a8 + 0x6c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_a8 + 0x6c)" ( (binary_expression "local_a8 + 0x6c" identifier + number_literal) )))) = identifier) ;) (if_statement "if (local_2c[0] == uVar28) {\n return;\n }" if (parenthesized_expression "(local_2c[0] == uVar28)" ( (binary_expression "local_2c[0] == uVar28" (subscript_expression "local_2c[0]" identifier [ number_literal ]) == identifier) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "uVar33 = 0x11abc;" (assignment_expression "uVar33 = 0x11abc" identifier = number_literal) ;) (expression_statement "uStack_ac = uVar19;" (assignment_expression "uStack_ac = uVar19" identifier = identifier) ;) (expression_statement "uStack_90 = uVar12;" (assignment_expression "uStack_90 = uVar12" identifier = identifier) ;) (expression_statement "uStack_8c = uVar27;" (assignment_expression "uStack_8c = uVar27" identifier = identifier) ;) (expression_statement "iStack_88 = iVar23;" (assignment_expression "iStack_88 = iVar23" identifier = identifier) ;) (expression_statement "uVar36 = FUN_00011ab8(0);" (assignment_expression "uVar36 = FUN_00011ab8(0)" identifier = (call_expression "FUN_00011ab8(0)" identifier (argument_list "(0)" ( number_literal )))) ;) (expression_statement "piVar2 = piRam00011d3c;" (assignment_expression "piVar2 = piRam00011d3c" identifier = identifier) ;) (expression_statement "iVar22 = (int)((ulonglong)uVar36 >> 0x20);" (assignment_expression "iVar22 = (int)((ulonglong)uVar36 >> 0x20)" identifier = (cast_expression "(int)((ulonglong)uVar36 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar36 >> 0x20)" ( (binary_expression "(ulonglong)uVar36 >> 0x20" (cast_expression "(ulonglong)uVar36" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "puVar17 = (uint *)uVar36;" (assignment_expression "puVar17 = (uint *)uVar36" identifier = (cast_expression "(uint *)uVar36" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) (expression_statement "uStack_d8 = uVar16;" (assignment_expression "uStack_d8 = uVar16" identifier = identifier) ;) (expression_statement "iStack_dc = *piRam00011d3c;" (assignment_expression "iStack_dc = *piRam00011d3c" identifier = (pointer_expression "*piRam00011d3c" * identifier)) ;) (expression_statement "uVar35 = puVar17 == (uint *)0x0;" (assignment_expression "uVar35 = puVar17 == (uint *)0x0" identifier = (binary_expression "puVar17 == (uint *)0x0" identifier == (cast_expression "(uint *)0x0" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ;) (expression_statement "iStack_d4 = iVar21;" (assignment_expression "iStack_d4 = iVar21" identifier = identifier) ;) (expression_statement "uStack_d0 = uVar27;" (assignment_expression "uStack_d0 = uVar27" identifier = identifier) ;) (expression_statement "uStack_cc = uVar19;" (assignment_expression "uStack_cc = uVar19" identifier = identifier) ;) (expression_statement "iStack_c8 = iVar24;" (assignment_expression "iStack_c8 = iVar24" identifier = identifier) ;) (expression_statement "iStack_c4 = iVar23;" (assignment_expression "iStack_c4 = iVar23" identifier = identifier) ;) (expression_statement "uStack_c0 = uVar12;" (assignment_expression "uStack_c0 = uVar12" identifier = identifier) ;) (expression_statement "uStack_bc = uVar33;" (assignment_expression "uStack_bc = uVar33" identifier = identifier) ;) (expression_statement "uVar1 = CONCAT44(iVar21,puVar17);" (assignment_expression "uVar1 = CONCAT44(iVar21,puVar17)" identifier = (call_expression "CONCAT44(iVar21,puVar17)" identifier (argument_list "(iVar21,puVar17)" ( identifier , identifier )))) ;) (if_statement "if ((bool)uVar35) goto LAB_00011d2c;" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (goto_statement "goto LAB_00011d2c;" goto statement_identifier ;)) (expression_statement "uVar35 = iVar22 == 0;" (assignment_expression "uVar35 = iVar22 == 0" identifier = (binary_expression "iVar22 == 0" identifier == number_literal)) ;) (if_statement "if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" if (parenthesized_expression "(!(bool)uVar35)" ( (unary_expression "!(bool)uVar35" ! (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier)) )) (compound_statement "{\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" { (expression_statement "uVar28 = puVar17[0x12];" (assignment_expression "uVar28 = puVar17[0x12]" identifier = (subscript_expression "puVar17[0x12]" identifier [ number_literal ])) ;) (if_statement "if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }" if (parenthesized_expression "(uVar28 < 0x40)" ( (binary_expression "uVar28 < 0x40" identifier < number_literal) )) (compound_statement "{\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }" { (expression_statement "uVar29 = *puVar17 + uVar28 * 8;" (assignment_expression "uVar29 = *puVar17 + uVar28 * 8" identifier = (binary_expression "*puVar17 + uVar28 * 8" (pointer_expression "*puVar17" * identifier) + (binary_expression "uVar28 * 8" identifier * number_literal))) ;) (expression_statement "uVar16 = uVar28 + 1;" (assignment_expression "uVar16 = uVar28 + 1" identifier = (binary_expression "uVar28 + 1" identifier + number_literal)) ;) (expression_statement "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);" (assignment_expression "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" identifier = (binary_expression "puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" (subscript_expression "puVar17[1]" identifier [ number_literal ]) + (cast_expression "(uint)CARRY4(*puVar17,uVar28 * 8)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(*puVar17,uVar28 * 8)" identifier (argument_list "(*puVar17,uVar28 * 8)" ( (pointer_expression "*puVar17" * identifier) , (binary_expression "uVar28 * 8" identifier * number_literal) )))))) ;) (expression_statement "*puVar17 = uVar29;" (assignment_expression "*puVar17 = uVar29" (pointer_expression "*puVar17" * identifier) = identifier) ;) (expression_statement "puVar17[1] = uVar13;" (assignment_expression "puVar17[1] = uVar13" (subscript_expression "puVar17[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar17[0x12] = uVar16;" (assignment_expression "puVar17[0x12] = uVar16" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = identifier) ;) (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 8)" ( (binary_expression "(int)puVar17 + uVar28 + 8" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" if (parenthesized_expression "(uVar16 < 0x39)" ( (binary_expression "uVar16 < 0x39" identifier < number_literal) )) (compound_statement "{\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }" { (if_statement "if (uVar16 != 0x38) goto LAB_00011b2c;" if (parenthesized_expression "(uVar16 != 0x38)" ( (binary_expression "uVar16 != 0x38" identifier != number_literal) )) (goto_statement "goto LAB_00011b2c;" goto statement_identifier ;)) }) (else_clause "else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" else (compound_statement "{\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" { (if_statement "if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" if (parenthesized_expression "(uVar16 != 0x40)" ( (binary_expression "uVar16 != 0x40" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 9)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 9)" ( (binary_expression "(int)puVar17 + uVar28 + 9" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3e)" ( (binary_expression "uVar28 != 0x3e" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 10)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 10)" ( (binary_expression "(int)puVar17 + uVar28 + 10" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3d)" ( (binary_expression "uVar28 != 0x3d" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xb)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xb)" ( (binary_expression "(int)puVar17 + uVar28 + 0xb" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" if (parenthesized_expression "(uVar28 != 0x3c)" ( (binary_expression "uVar28 != 0x3c" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xc)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xc)" ( (binary_expression "(int)puVar17 + uVar28 + 0xc" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" if (parenthesized_expression "(uVar28 != 0x3b)" ( (binary_expression "uVar28 != 0x3b" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xd)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xd)" ( (binary_expression "(int)puVar17 + uVar28 + 0xd" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) ;) (if_statement "if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" if (parenthesized_expression "((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38))" ( (binary_expression "(uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" (parenthesized_expression "(uVar28 != 0x3a)" ( (binary_expression "uVar28 != 0x3a" identifier != number_literal) )) && (parenthesized_expression "(*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" ( (comma_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe)" * (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xe)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar28 + 0xe)" ( (binary_expression "(int)puVar17 + uVar28 + 0xe" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) = number_literal) , (binary_expression "uVar28 == 0x38" identifier == number_literal)) ))) )) (compound_statement "{\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" { (expression_statement "*(undefined1 *)((int)puVar17 + 0x47) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + 0x47) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + 0x47)" * (cast_expression "(undefined1 *)((int)puVar17 + 0x47)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x47)" ( (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = number_literal) ;) })) })) })) })) })) (expression_statement "puVar17[0x12] = 0x40;" (assignment_expression "puVar17[0x12] = 0x40" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = number_literal) ;) })) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" identifier (argument_list "(puVar17,puVar17 + 2)" ( identifier , (binary_expression "puVar17 + 2" identifier + number_literal) ))) ;) (expression_statement "uVar16 = 0;" (assignment_expression "uVar16 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;" statement_identifier : (expression_statement "uVar28 = 0x38 - uVar16 & 7;" (assignment_expression "uVar28 = 0x38 - uVar16 & 7" identifier = (binary_expression "0x38 - uVar16 & 7" (binary_expression "0x38 - uVar16" number_literal - identifier) & number_literal)) ;)) (expression_statement "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);" (assignment_expression "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8)" identifier = (cast_expression "(undefined1 *)((int)puVar17 + uVar16 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + uVar16 + 8)" ( (binary_expression "(int)puVar17 + uVar16 + 8" (binary_expression "(int)puVar17 + uVar16" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) + number_literal) )))) ;) (if_statement "if (uVar28 == 0) goto LAB_00011bb0;" if (parenthesized_expression "(uVar28 == 0)" ( (binary_expression "uVar28 == 0" identifier == number_literal) )) (goto_statement "goto LAB_00011bb0;" goto statement_identifier ;)) (if_statement "if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 1)" ( (binary_expression "uVar28 != 1" identifier != number_literal) )) (compound_statement "{\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (expression_statement "puVar11 = puVar10;" (assignment_expression "puVar11 = puVar10" identifier = identifier) ;) (if_statement "if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 2)" ( (binary_expression "uVar28 != 2" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (if_statement "if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 3)" ( (binary_expression "uVar28 != 3" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (if_statement "if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 4)" ( (binary_expression "uVar28 != 4" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (if_statement "if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" if (parenthesized_expression "(uVar28 != 5)" ( (binary_expression "uVar28 != 5" identifier != number_literal) )) (compound_statement "{\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" { (if_statement "if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" if (parenthesized_expression "(uVar28 != 6)" ( (binary_expression "uVar28 != 6" identifier != number_literal) )) (compound_statement "{\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" { (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) })) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" identifier = (binary_expression "puVar11 + 1" identifier + number_literal)) ;) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" * identifier) = number_literal) ;) })) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;) (expression_statement "puVar10 = puVar10 + 1;" (assignment_expression "puVar10 = puVar10 + 1" identifier = (binary_expression "puVar10 + 1" identifier + number_literal)) ;) (for_statement "for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" for ( (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ; (binary_expression "uVar16 != 0x38" identifier != number_literal) ; (assignment_expression "uVar16 = uVar16 + 8" identifier = (binary_expression "uVar16 + 8" identifier + number_literal)) ) (compound_statement "{\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" { (labeled_statement "LAB_00011bb0:\n *puVar10 = 0;" statement_identifier : (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" * identifier) = number_literal) ;)) (expression_statement "puVar10[1] = 0;" (assignment_expression "puVar10[1] = 0" (subscript_expression "puVar10[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[2] = 0;" (assignment_expression "puVar10[2] = 0" (subscript_expression "puVar10[2]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[3] = 0;" (assignment_expression "puVar10[3] = 0" (subscript_expression "puVar10[3]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[4] = 0;" (assignment_expression "puVar10[4] = 0" (subscript_expression "puVar10[4]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[5] = 0;" (assignment_expression "puVar10[5] = 0" (subscript_expression "puVar10[5]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[6] = 0;" (assignment_expression "puVar10[6] = 0" (subscript_expression "puVar10[6]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10[7] = 0;" (assignment_expression "puVar10[7] = 0" (subscript_expression "puVar10[7]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar10 = puVar10 + 8;" (assignment_expression "puVar10 = puVar10 + 8" identifier = (binary_expression "puVar10 + 8" identifier + number_literal)) ;) })) (expression_statement "uVar29 = *puVar17;" (assignment_expression "uVar29 = *puVar17" identifier = (pointer_expression "*puVar17" * identifier)) ;) (expression_statement "uVar13 = puVar17[1];" (assignment_expression "uVar13 = puVar17[1]" identifier = (subscript_expression "puVar17[1]" identifier [ number_literal ])) ;) (expression_statement "puVar17[0x12] = 0x38;" (assignment_expression "puVar17[0x12] = 0x38" (subscript_expression "puVar17[0x12]" identifier [ number_literal ]) = number_literal) ;) }))) (expression_statement "*(char *)(puVar17 + 0x10) = (char)uVar29;" (assignment_expression "*(char *)(puVar17 + 0x10) = (char)uVar29" (pointer_expression "*(char *)(puVar17 + 0x10)" * (cast_expression "(char *)(puVar17 + 0x10)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar17 + 0x10)" ( (binary_expression "puVar17 + 0x10" identifier + number_literal) )))) = (cast_expression "(char)uVar29" ( (type_descriptor "char" primitive_type) ) identifier)) ;) (expression_statement "uVar16 = uVar29 >> 0x10;" (assignment_expression "uVar16 = uVar29 >> 0x10" identifier = (binary_expression "uVar29 >> 0x10" identifier >> number_literal)) ;) (expression_statement "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x47)" * (cast_expression "(char *)((int)puVar17 + 0x47)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x47)" ( (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 0x18)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 0x18)" ( (binary_expression "uVar13 >> 0x18" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x43)" * (cast_expression "(char *)((int)puVar17 + 0x43)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x43)" ( (binary_expression "(int)puVar17 + 0x43" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 0x18)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 0x18)" ( (binary_expression "uVar29 >> 0x18" identifier >> number_literal) )))) ;) (expression_statement "*(char *)(puVar17 + 0x11) = (char)uVar13;" (assignment_expression "*(char *)(puVar17 + 0x11) = (char)uVar13" (pointer_expression "*(char *)(puVar17 + 0x11)" * (cast_expression "(char *)(puVar17 + 0x11)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar17 + 0x11)" ( (binary_expression "puVar17 + 0x11" identifier + number_literal) )))) = (cast_expression "(char)uVar13" ( (type_descriptor "char" primitive_type) ) identifier)) ;) (expression_statement "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x46)" * (cast_expression "(char *)((int)puVar17 + 0x46)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x46)" ( (binary_expression "(int)puVar17 + 0x46" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 0x10)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 0x10)" ( (binary_expression "uVar13 >> 0x10" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x45)" * (cast_expression "(char *)((int)puVar17 + 0x45)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x45)" ( (binary_expression "(int)puVar17 + 0x45" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar13 >> 8)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar13 >> 8)" ( (binary_expression "uVar13 >> 8" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x42)" * (cast_expression "(char *)((int)puVar17 + 0x42)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x42)" ( (binary_expression "(int)puVar17 + 0x42" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 0x10)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 0x10)" ( (binary_expression "uVar29 >> 0x10" identifier >> number_literal) )))) ;) (expression_statement "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x41)" * (cast_expression "(char *)((int)puVar17 + 0x41)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)puVar17 + 0x41)" ( (binary_expression "(int)puVar17 + 0x41" (cast_expression "(int)puVar17" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (cast_expression "(char)(uVar29 >> 8)" ( (type_descriptor "char" primitive_type) ) (parenthesized_expression "(uVar29 >> 8)" ( (binary_expression "uVar29 >> 8" identifier >> number_literal) )))) ;) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" identifier (argument_list "(puVar17,puVar17 + 2)" ( identifier , (binary_expression "puVar17 + 2" identifier + number_literal) ))) ;) (expression_statement "puVar26 = puVar17 + 0x12;" (assignment_expression "puVar26 = puVar17 + 0x12" identifier = (binary_expression "puVar17 + 0x12" identifier + number_literal)) ;) (do_statement "do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);" do (compound_statement "{\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n }" { (expression_statement "puVar26 = puVar26 + 1;" (assignment_expression "puVar26 = puVar26 + 1" identifier = (binary_expression "puVar26 + 1" identifier + number_literal)) ;) (expression_statement "uStack_e0 = *puVar26;" (assignment_expression "uStack_e0 = *puVar26" identifier = (pointer_expression "*puVar26" * identifier)) ;) (expression_statement "FUN_00011c4c(iVar22,&uStack_e0,4);" (call_expression "FUN_00011c4c(iVar22,&uStack_e0,4)" identifier (argument_list "(iVar22,&uStack_e0,4)" ( identifier , (pointer_expression "&uStack_e0" & identifier) , number_literal ))) ;) (expression_statement "iVar22 = iVar22 + 4;" (assignment_expression "iVar22 = iVar22 + 4" identifier = (binary_expression "iVar22 + 4" identifier + number_literal)) ;) (expression_statement "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);" (assignment_expression "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c)" identifier = (call_expression "CONCAT44(iVar22,puVar17 + 0x1c)" identifier (argument_list "(iVar22,puVar17 + 0x1c)" ( identifier , (binary_expression "puVar17 + 0x1c" identifier + number_literal) )))) ;) }) while (parenthesized_expression "(puVar17 + 0x1c != puVar26)" ( (binary_expression "puVar17 + 0x1c != puVar26" (binary_expression "puVar17 + 0x1c" identifier + number_literal) != identifier) )) ;) (expression_statement "uVar33 = 0;" (assignment_expression "uVar33 = 0" identifier = number_literal) ;) }) (else_clause "else {\n uVar33 = 0x10;\n }" else (compound_statement "{\n uVar33 = 0x10;\n }" { (expression_statement "uVar33 = 0x10;" (assignment_expression "uVar33 = 0x10" identifier = number_literal) ;) }))) (expression_statement "uVar35 = iStack_dc == *piVar2;" (assignment_expression "uVar35 = iStack_dc == *piVar2" identifier = (binary_expression "iStack_dc == *piVar2" identifier == (pointer_expression "*piVar2" * identifier))) ;) (if_statement "if ((bool)uVar35) {\n return;\n }" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_00011d18(uVar33);" (call_expression "FUN_00011d18(uVar33)" identifier (argument_list "(uVar33)" ( identifier ))) ;) })) (expression_statement "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);" (call_expression "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c)" identifier (argument_list "(uRam00011d44,uRam00011d40,0x17c)" ( identifier , identifier , number_literal ))) ;) (expression_statement "uVar1 = uVar36;" (assignment_expression "uVar1 = uVar36" identifier = identifier) ;) (labeled_statement "LAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);" statement_identifier : (expression_statement "iVar21 = (int)((ulonglong)uVar1 >> 0x20);" (assignment_expression "iVar21 = (int)((ulonglong)uVar1 >> 0x20)" identifier = (cast_expression "(int)((ulonglong)uVar1 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar1 >> 0x20)" ( (binary_expression "(ulonglong)uVar1 >> 0x20" (cast_expression "(ulonglong)uVar1" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;)) (expression_statement "UNRECOVERED_JUMPTABLE = (code *)0x11d3c;" (assignment_expression "UNRECOVERED_JUMPTABLE = (code *)0x11d3c" identifier = (cast_expression "(code *)0x11d3c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);" (assignment_expression "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" identifier = (cast_expression "(undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" identifier (argument_list "(uRam00011d4c,uRam00011d40,uRam00011d48)" ( identifier , identifier , identifier ))))) ;) (expression_statement "uVar33 = uRam00011de0;" (assignment_expression "uVar33 = uRam00011de0" identifier = identifier) ;) (if_statement "if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }" if (parenthesized_expression "((bool)uVar35)" ( (cast_expression "(bool)uVar35" ( (type_descriptor "bool" primitive_type) ) identifier) )) (compound_statement "{\n puVar6 = (undefined4 *)0x0;\n }" { (expression_statement "puVar6 = (undefined4 *)0x0;" (assignment_expression "puVar6 = (undefined4 *)0x0" identifier = (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) })) (expression_statement "bVar34 = false;" (assignment_expression "bVar34 = false" identifier = false) ;) (if_statement "if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" if (parenthesized_expression "(puVar6 != (undefined4 *)0x0)" ( (binary_expression "puVar6 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" { (expression_statement "puVar6[0x14] = uRam00011ddc;" (assignment_expression "puVar6[0x14] = uRam00011ddc" (subscript_expression "puVar6[0x14]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar4 = DAT_00011dec;" (assignment_expression "uVar4 = DAT_00011dec" identifier = identifier) ;) (expression_statement "uVar3 = DAT_00011de8;" (assignment_expression "uVar3 = DAT_00011de8" identifier = identifier) ;) (expression_statement "iVar21 = DAT_00011de4;" (assignment_expression "iVar21 = DAT_00011de4" identifier = identifier) ;) (expression_statement "puVar6[0x13] = uVar33;" (assignment_expression "puVar6[0x13] = uVar33" (subscript_expression "puVar6[0x13]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar33 = DAT_00011df0;" (assignment_expression "uVar33 = DAT_00011df0" identifier = identifier) ;) (expression_statement "puVar6[0x18] = iVar21;" (assignment_expression "puVar6[0x18] = iVar21" (subscript_expression "puVar6[0x18]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x15] = uVar3;" (assignment_expression "puVar6[0x15] = uVar3" (subscript_expression "puVar6[0x15]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x16] = uVar4;" (assignment_expression "puVar6[0x16] = uVar4" (subscript_expression "puVar6[0x16]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar4 = DAT_00011df8;" (assignment_expression "uVar4 = DAT_00011df8" identifier = identifier) ;) (expression_statement "uVar3 = DAT_00011df4;" (assignment_expression "uVar3 = DAT_00011df4" identifier = identifier) ;) (expression_statement "puVar6[0x17] = uVar33;" (assignment_expression "puVar6[0x17] = uVar33" (subscript_expression "puVar6[0x17]" identifier [ number_literal ]) = identifier) ;) (expression_statement "uVar33 = DAT_00011dfc;" (assignment_expression "uVar33 = DAT_00011dfc" identifier = identifier) ;) (expression_statement "puVar6[0x12] = 0;" (assignment_expression "puVar6[0x12] = 0" (subscript_expression "puVar6[0x12]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "*puVar6 = 0;" (assignment_expression "*puVar6 = 0" (pointer_expression "*puVar6" * identifier) = number_literal) ;) (expression_statement "puVar6[1] = 0;" (assignment_expression "puVar6[1] = 0" (subscript_expression "puVar6[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "puVar6[0x19] = uVar3;" (assignment_expression "puVar6[0x19] = uVar3" (subscript_expression "puVar6[0x19]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1a] = uVar4;" (assignment_expression "puVar6[0x1a] = uVar4" (subscript_expression "puVar6[0x1a]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1b] = uVar33;" (assignment_expression "puVar6[0x1b] = uVar33" (subscript_expression "puVar6[0x1b]" identifier [ number_literal ]) = identifier) ;) (expression_statement "puVar6[0x1c] = iVar21 + -0x3a271401;" (assignment_expression "puVar6[0x1c] = iVar21 + -0x3a271401" (subscript_expression "puVar6[0x1c]" identifier [ number_literal ]) = (binary_expression "iVar21 + -0x3a271401" identifier + number_literal)) ;) comment comment (expression_statement "(*UNRECOVERED_JUMPTABLE)();" (call_expression "(*UNRECOVERED_JUMPTABLE)()" (parenthesized_expression "(*UNRECOVERED_JUMPTABLE)" ( (pointer_expression "*UNRECOVERED_JUMPTABLE" * identifier) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })) (expression_statement "uVar35 = 0x58;" (assignment_expression "uVar35 = 0x58" identifier = number_literal) ;) (expression_statement "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);" (call_expression "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" identifier (argument_list "(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" ( identifier , identifier , number_literal , number_literal , identifier , identifier , (cast_expression "(int)uVar1" ( (type_descriptor "int" primitive_type) ) identifier) ))) ;) (expression_statement "software_interrupt(0xcdab89);" (call_expression "software_interrupt(0xcdab89)" identifier (argument_list "(0xcdab89)" ( number_literal ))) ;) (if_statement "if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" if (parenthesized_expression "(bVar34)" ( identifier )) (compound_statement "{\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" { (expression_statement "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;" (assignment_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35" (pointer_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40)" * (cast_expression "(undefined1 *)(iVar21 + extraout_r1 * -0x40)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar21 + extraout_r1 * -0x40)" ( (binary_expression "iVar21 + extraout_r1 * -0x40" identifier + (binary_expression "extraout_r1 * -0x40" identifier * number_literal)) )))) = identifier) ;) })) comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
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(assignment_expression IDENT = (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (unary_expression ~ IDENT) | IDENT) )) ^ IDENT) )) + IDENT) + IDENT) + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (parenthesized_expression ( (binary_expression (binary_expression IDENT ^ IDENT) ^ IDENT) )) + IDENT) + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (unary_expression ~ IDENT) | IDENT) )) ^ IDENT) )) + IDENT) + IDENT) + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (parenthesized_expression ( (binary_expression (binary_expression IDENT ^ IDENT) ^ IDENT) )) + IDENT) + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (binary_expression IDENT + IDENT) + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (binary_expression IDENT + IDENT) + (parenthesized_expression ( (binary_expression (binary_expression IDENT >> LIT) | (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) == IDENT) )) (compound_statement { (return_statement return ;) })) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT )))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (cast_expression ( (type_descriptor TYPE) ) IDENT) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == LIT)) ;) (if_statement if (parenthesized_expression ( (unary_expression ! (cast_expression ( (type_descriptor TYPE) ) IDENT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (subscript_expression IDENT [ LIT ]) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( (pointer_expression * IDENT) , (binary_expression IDENT * LIT) )))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (goto_statement goto statement_identifier ;)) }) (else_clause else (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT != LIT) )) && (parenthesized_expression ( (comma_expression (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) = LIT) , (binary_expression IDENT == LIT)) ))) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = LIT) ;) })) })) })) })) })) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) ))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression LIT - IDENT) & LIT)) ;)) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) + LIT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (goto_statement goto statement_identifier ;)) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) })) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (for_statement for ( (assignment_expression IDENT = (binary_expression IDENT + LIT)) ; (binary_expression IDENT != LIT) ; (assignment_expression IDENT = (binary_expression IDENT + LIT)) ) (compound_statement { (labeled_statement statement_identifier : (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;)) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) }))) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT >> LIT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) ))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , (pointer_expression & IDENT) , LIT ))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) )))) ;) }) while (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) != IDENT) )) ;) (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (expression_statement (assignment_expression IDENT = (binary_expression IDENT == (pointer_expression * IDENT))) ;) (if_statement if (parenthesized_expression ( (cast_expression ( (type_descriptor TYPE) ) IDENT) )) (compound_statement { (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , LIT ))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;)) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (cast_expression ( (type_descriptor TYPE) ) IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) })) (expression_statement (assignment_expression IDENT = BOOL) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (binary_expression IDENT + LIT)) ;) comment comment (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( ))) ;) (return_statement return ;) })) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , LIT , LIT , IDENT , IDENT , (cast_expression ( (type_descriptor TYPE) ) IDENT) ))) ;) (expression_statement (call_expression IDENT (argument_list ( LIT ))) ;) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) )))) = IDENT) ;) })) comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void FUN_00010000(int param_1,int param_2)\n\n{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "FUN_00010000(int param_1,int param_2)" (identifier "FUN_00010000") (parameter_list "(int param_1,int param_2)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) () ")"))) (compound_statement "{\n undefined8 uVar1;\n int *piVar2;\n undefined4 uVar3;\n undefined4 uVar4;\n uint uVar5;\n undefined4 *puVar6;\n uint uVar7;\n uint uVar8;\n uint uVar9;\n undefined1 *puVar10;\n undefined1 *puVar11;\n int extraout_r1;\n uint uVar12;\n uint uVar13;\n uint uVar14;\n uint uVar15;\n uint uVar16;\n uint *puVar17;\n uint *puVar18;\n uint uVar19;\n uint uVar20;\n int iVar21;\n int iVar22;\n int iVar23;\n int iVar24;\n uint uVar25;\n uint *puVar26;\n uint uVar27;\n uint uVar28;\n uint uVar29;\n uint uVar30;\n uint uVar31;\n uint uVar32;\n undefined4 uVar33;\n code *UNRECOVERED_JUMPTABLE;\n bool bVar34;\n undefined1 uVar35;\n undefined8 uVar36;\n uint uStack_e0;\n int iStack_dc;\n uint uStack_d8;\n int iStack_d4;\n uint uStack_d0;\n uint uStack_cc;\n int iStack_c8;\n int iStack_c4;\n uint uStack_c0;\n undefined4 uStack_bc;\n uint uStack_b8;\n uint uStack_b4;\n uint uStack_b0;\n uint uStack_ac;\n int local_a8;\n int iStack_a4;\n uint uStack_a0;\n int iStack_9c;\n int iStack_98;\n uint uStack_94;\n uint uStack_90;\n uint uStack_8c;\n int iStack_88;\n uint uStack_84;\n uint uStack_80;\n uint uStack_7c;\n uint uStack_78;\n uint uStack_74;\n uint uStack_6c;\n int iStack_68;\n int iStack_64;\n int iStack_60;\n int iStack_5c;\n int iStack_58;\n int iStack_54;\n int iStack_50;\n int iStack_4c;\n int iStack_48;\n int iStack_44;\n int iStack_40;\n int iStack_3c;\n int iStack_38;\n int iStack_34;\n int iStack_30;\n uint local_2c [2];\n \n local_2c[0] = *DAT_00011004;\n puVar17 = &uStack_6c;\n local_a8 = param_1;\n do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);\n uVar27 = *(uint *)(local_a8 + 0x6c);\n uVar12 = *(uint *)(local_a8 + 0x68);\n uStack_94 = *(uint *)(local_a8 + 100);\n uVar28 = uVar12 >> 0x16 | uVar12 << 10;\n iStack_98 = *(int *)(local_a8 + 0x60);\n uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;\n iVar23 = *(int *)(local_a8 + 0x70);\n uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;\n uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;\n uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;\n uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;\n uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;\n uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;\n uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;\n uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;\n uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);\n uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;\n uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;\n uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uStack_b4 = *(uint *)(local_a8 + 0x54);\n uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;\n uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);\n iStack_a4 = *(int *)(local_a8 + 0x4c);\n uStack_b8 = *(uint *)(local_a8 + 0x50);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_b0 = *(uint *)(local_a8 + 0x58);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n iStack_9c = *(int *)(local_a8 + 0x5c);\n uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;\n uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;\n uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);\n uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;\n uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;\n uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;\n uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;\n uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;\n uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;\n uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;\n uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;\n uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);\n uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;\n uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;\n uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);\n uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);\n uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;\n uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;\n uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;\n uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;\n uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);\n uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;\n uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;\n uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;\n uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;\n uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);\n uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;\n uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);\n uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;\n uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;\n uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;\n uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);\n uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;\n uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);\n uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;\n uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;\n uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;\n uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;\n uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);\n uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;\n uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;\n uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;\n uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;\n uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);\n uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;\n uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;\n uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;\n uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);\n uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;\n uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;\n uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;\n uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;\n uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;\n uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;\n uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;\n uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;\n uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);\n uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;\n uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;\n uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;\n uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);\n uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;\n uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;\n uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;\n uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);\n uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;\n uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;\n uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;\n uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;\n uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;\n uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;\n uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;\n uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;\n uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;\n uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);\n uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;\n uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;\n uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;\n uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;\n uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;\n uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;\n uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;\n uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;\n uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;\n uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;\n uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;\n uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);\n uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;\n uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;\n uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;\n uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);\n uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;\n uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);\n uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;\n uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;\n uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;\n uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;\n uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);\n uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;\n uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;\n uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;\n uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;\n uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;\n uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);\n uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;\n uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);\n uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;\n uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);\n uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;\n uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;\n uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);\n uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;\n uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;\n uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);\n uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;\n uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);\n uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);\n uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;\n uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;\n uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);\n uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;\n uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;\n uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);\n uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;\n uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;\n uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;\n uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);\n uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;\n uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;\n uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;\n uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;\n uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);\n uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;\n uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);\n uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;\n uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);\n uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;\n uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);\n uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;\n uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;\n uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;\n uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;\n uStack_74 = ~uStack_78;\n uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;\n uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;\n uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);\n uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;\n uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;\n uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;\n uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);\n uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);\n uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);\n uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;\n uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);\n uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;\n uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;\n uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);\n uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;\n uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;\n uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);\n uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;\n uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);\n uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;\n uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);\n uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;\n uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);\n uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;\n uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;\n uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;\n uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);\n uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;\n uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);\n uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);\n uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;\n uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);\n uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;\n uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;\n uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;\n uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;\n uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);\n uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;\n uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);\n uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;\n uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);\n uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;\n uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;\n uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);\n uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);\n uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;\n uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;\n uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;\n *(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);\n *(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;\n *(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);\n *(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;\n uVar28 = *puVar26;\n *(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;\n iVar21 = iStack_9c + uVar7;\n iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);\n *(int *)(local_a8 + 0x5c) = iVar21;\n *(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);\n *(uint *)(local_a8 + 0x70) = iVar23 + uVar19;\n *(uint *)(local_a8 + 0x68) = uVar12 + uVar14;\n *(int *)(local_a8 + 0x6c) = iVar24;\n if (local_2c[0] == uVar28) {\n return;\n }\n uVar33 = 0x11abc;\n uStack_ac = uVar19;\n uStack_90 = uVar12;\n uStack_8c = uVar27;\n iStack_88 = iVar23;\n uVar36 = FUN_00011ab8(0);\n piVar2 = piRam00011d3c;\n iVar22 = (int)((ulonglong)uVar36 >> 0x20);\n puVar17 = (uint *)uVar36;\n uStack_d8 = uVar16;\n iStack_dc = *piRam00011d3c;\n uVar35 = puVar17 == (uint *)0x0;\n iStack_d4 = iVar21;\n uStack_d0 = uVar27;\n uStack_cc = uVar19;\n iStack_c8 = iVar24;\n iStack_c4 = iVar23;\n uStack_c0 = uVar12;\n uStack_bc = uVar33;\n uVar1 = CONCAT44(iVar21,puVar17);\n if ((bool)uVar35) goto LAB_00011d2c;\n uVar35 = iVar22 == 0;\n if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }\n FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);\n uVar1 = uVar36;\nLAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);\n UNRECOVERED_JUMPTABLE = (code *)0x11d3c;\n puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);\n uVar33 = uRam00011de0;\n if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }\n bVar34 = false;\n if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }\n uVar35 = 0x58;\n FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);\n software_interrupt(0xcdab89);\n if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (declaration "undefined8 uVar1;" (type_identifier "undefined8") (identifier "uVar1") (; ";")) (declaration "int *piVar2;" (primitive_type "int") (pointer_declarator "*piVar2" (* "*") (identifier "piVar2")) (; ";")) (declaration "undefined4 uVar3;" (type_identifier "undefined4") (identifier "uVar3") (; ";")) (declaration "undefined4 uVar4;" (type_identifier "undefined4") (identifier "uVar4") (; ";")) (declaration "uint uVar5;" (type_identifier "uint") (identifier "uVar5") (; ";")) (declaration "undefined4 *puVar6;" (type_identifier "undefined4") (pointer_declarator "*puVar6" (* "*") (identifier "puVar6")) (; ";")) (declaration "uint uVar7;" (type_identifier "uint") (identifier "uVar7") (; ";")) (declaration "uint uVar8;" (type_identifier "uint") (identifier "uVar8") (; ";")) (declaration "uint uVar9;" (type_identifier "uint") (identifier "uVar9") (; ";")) (declaration "undefined1 *puVar10;" (type_identifier "undefined1") (pointer_declarator "*puVar10" (* "*") (identifier "puVar10")) (; ";")) (declaration "undefined1 *puVar11;" (type_identifier "undefined1") (pointer_declarator "*puVar11" (* "*") (identifier "puVar11")) (; ";")) (declaration "int extraout_r1;" (primitive_type "int") (identifier "extraout_r1") (; ";")) (declaration "uint uVar12;" (type_identifier "uint") (identifier "uVar12") (; ";")) (declaration "uint uVar13;" (type_identifier "uint") (identifier "uVar13") (; ";")) (declaration "uint uVar14;" (type_identifier "uint") (identifier "uVar14") (; ";")) (declaration "uint uVar15;" (type_identifier "uint") (identifier "uVar15") (; ";")) (declaration "uint uVar16;" (type_identifier "uint") (identifier "uVar16") (; ";")) (declaration "uint *puVar17;" (type_identifier "uint") (pointer_declarator "*puVar17" (* "*") (identifier "puVar17")) (; ";")) (declaration "uint *puVar18;" (type_identifier "uint") (pointer_declarator "*puVar18" (* "*") (identifier "puVar18")) (; ";")) (declaration "uint uVar19;" (type_identifier "uint") (identifier "uVar19") (; ";")) (declaration "uint uVar20;" (type_identifier "uint") (identifier "uVar20") (; ";")) (declaration "int iVar21;" (primitive_type "int") (identifier "iVar21") (; ";")) (declaration "int iVar22;" (primitive_type "int") (identifier "iVar22") (; ";")) (declaration "int iVar23;" (primitive_type "int") (identifier "iVar23") (; ";")) (declaration "int iVar24;" (primitive_type "int") (identifier "iVar24") (; ";")) (declaration "uint uVar25;" (type_identifier "uint") (identifier "uVar25") (; ";")) (declaration "uint *puVar26;" (type_identifier "uint") (pointer_declarator "*puVar26" (* "*") (identifier "puVar26")) (; ";")) (declaration "uint uVar27;" (type_identifier "uint") (identifier "uVar27") (; ";")) (declaration "uint uVar28;" (type_identifier "uint") (identifier "uVar28") (; ";")) (declaration "uint uVar29;" (type_identifier "uint") (identifier "uVar29") (; ";")) (declaration "uint uVar30;" (type_identifier "uint") (identifier "uVar30") (; ";")) (declaration "uint uVar31;" (type_identifier "uint") (identifier "uVar31") (; ";")) (declaration "uint uVar32;" (type_identifier "uint") (identifier "uVar32") (; ";")) (declaration "undefined4 uVar33;" (type_identifier "undefined4") (identifier "uVar33") (; ";")) (declaration "code *UNRECOVERED_JUMPTABLE;" (type_identifier "code") (pointer_declarator "*UNRECOVERED_JUMPTABLE" (* "*") (identifier "UNRECOVERED_JUMPTABLE")) (; ";")) (declaration "bool bVar34;" (primitive_type "bool") (identifier "bVar34") (; ";")) (declaration "undefined1 uVar35;" (type_identifier "undefined1") (identifier "uVar35") (; ";")) (declaration "undefined8 uVar36;" (type_identifier "undefined8") (identifier "uVar36") (; ";")) (declaration "uint uStack_e0;" (type_identifier "uint") (identifier "uStack_e0") (; ";")) (declaration "int iStack_dc;" (primitive_type "int") (identifier "iStack_dc") (; ";")) (declaration "uint uStack_d8;" (type_identifier "uint") (identifier "uStack_d8") (; ";")) (declaration "int iStack_d4;" (primitive_type "int") (identifier "iStack_d4") (; ";")) (declaration "uint uStack_d0;" (type_identifier "uint") (identifier "uStack_d0") (; ";")) (declaration "uint uStack_cc;" (type_identifier "uint") (identifier "uStack_cc") (; ";")) (declaration "int iStack_c8;" (primitive_type "int") (identifier "iStack_c8") (; ";")) (declaration "int iStack_c4;" (primitive_type "int") (identifier "iStack_c4") (; ";")) (declaration "uint uStack_c0;" (type_identifier "uint") (identifier "uStack_c0") (; ";")) (declaration "undefined4 uStack_bc;" (type_identifier "undefined4") (identifier "uStack_bc") (; ";")) (declaration "uint uStack_b8;" (type_identifier "uint") (identifier "uStack_b8") (; ";")) (declaration "uint uStack_b4;" (type_identifier "uint") (identifier "uStack_b4") (; ";")) (declaration "uint uStack_b0;" (type_identifier "uint") (identifier "uStack_b0") (; ";")) (declaration "uint uStack_ac;" (type_identifier "uint") (identifier "uStack_ac") (; ";")) (declaration "int local_a8;" (primitive_type "int") (identifier "local_a8") (; ";")) (declaration "int iStack_a4;" (primitive_type "int") (identifier "iStack_a4") (; ";")) (declaration "uint uStack_a0;" (type_identifier "uint") (identifier "uStack_a0") (; ";")) (declaration "int iStack_9c;" (primitive_type "int") (identifier "iStack_9c") (; ";")) (declaration "int iStack_98;" (primitive_type "int") (identifier "iStack_98") (; ";")) (declaration "uint uStack_94;" (type_identifier "uint") (identifier "uStack_94") (; ";")) (declaration "uint uStack_90;" (type_identifier "uint") (identifier "uStack_90") (; ";")) (declaration "uint uStack_8c;" (type_identifier "uint") (identifier "uStack_8c") (; ";")) (declaration "int iStack_88;" (primitive_type "int") (identifier "iStack_88") (; ";")) (declaration "uint uStack_84;" (type_identifier "uint") (identifier "uStack_84") (; ";")) (declaration "uint uStack_80;" (type_identifier "uint") (identifier "uStack_80") (; ";")) (declaration "uint uStack_7c;" (type_identifier "uint") (identifier "uStack_7c") (; ";")) (declaration "uint uStack_78;" (type_identifier "uint") (identifier "uStack_78") (; ";")) (declaration "uint uStack_74;" (type_identifier "uint") (identifier "uStack_74") (; ";")) (declaration "uint uStack_6c;" (type_identifier "uint") (identifier "uStack_6c") (; ";")) (declaration "int iStack_68;" (primitive_type "int") (identifier "iStack_68") (; ";")) (declaration "int iStack_64;" (primitive_type "int") (identifier "iStack_64") (; ";")) (declaration "int iStack_60;" (primitive_type "int") (identifier "iStack_60") (; ";")) (declaration "int iStack_5c;" (primitive_type "int") (identifier "iStack_5c") (; ";")) (declaration "int iStack_58;" (primitive_type "int") (identifier "iStack_58") (; ";")) (declaration "int iStack_54;" (primitive_type "int") (identifier "iStack_54") (; ";")) (declaration "int iStack_50;" (primitive_type "int") (identifier "iStack_50") (; ";")) (declaration "int iStack_4c;" (primitive_type "int") (identifier "iStack_4c") (; ";")) (declaration "int iStack_48;" (primitive_type "int") (identifier "iStack_48") (; ";")) (declaration "int iStack_44;" (primitive_type "int") (identifier "iStack_44") (; ";")) (declaration "int iStack_40;" (primitive_type "int") (identifier "iStack_40") (; ";")) (declaration "int iStack_3c;" (primitive_type "int") (identifier "iStack_3c") (; ";")) (declaration "int iStack_38;" (primitive_type "int") (identifier "iStack_38") (; ";")) (declaration "int iStack_34;" (primitive_type "int") (identifier "iStack_34") (; ";")) (declaration "int iStack_30;" (primitive_type "int") (identifier "iStack_30") (; ";")) (declaration "uint local_2c [2];" (type_identifier "uint") (array_declarator "local_2c [2]" (identifier "local_2c") ([ "[") (number_literal "2") (] "]")) (; ";")) (expression_statement "local_2c[0] = *DAT_00011004;" (assignment_expression "local_2c[0] = *DAT_00011004" (subscript_expression "local_2c[0]" (identifier "local_2c") ([ "[") (number_literal "0") (] "]")) (= "=") (pointer_expression "*DAT_00011004" (* "*") (identifier "DAT_00011004"))) (; ";")) (expression_statement "puVar17 = &uStack_6c;" (assignment_expression "puVar17 = &uStack_6c" (identifier "puVar17") (= "=") (pointer_expression "&uStack_6c" (& "&") (identifier "uStack_6c"))) (; ";")) (expression_statement "local_a8 = param_1;" (assignment_expression "local_a8 = param_1" (identifier "local_a8") (= "=") (identifier "param_1")) (; ";")) (do_statement "do {\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n } while (local_2c != puVar18);" (do "do") (compound_statement "{\n puVar18 = puVar17 + 1;\n FUN_00010034(puVar17,param_2);\n uVar16 = local_2c[0];\n puVar26 = DAT_00011028;\n param_2 = param_2 + 4;\n puVar17 = puVar18;\n }" ({ "{") (expression_statement "puVar18 = puVar17 + 1;" (assignment_expression "puVar18 = puVar17 + 1" (identifier "puVar18") (= "=") (binary_expression "puVar17 + 1" (identifier "puVar17") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "FUN_00010034(puVar17,param_2);" (call_expression "FUN_00010034(puVar17,param_2)" (identifier "FUN_00010034") (argument_list "(puVar17,param_2)" (( "(") (identifier "puVar17") (, ",") (identifier "param_2") () ")"))) (; ";")) (expression_statement "uVar16 = local_2c[0];" (assignment_expression "uVar16 = local_2c[0]" (identifier "uVar16") (= "=") (subscript_expression "local_2c[0]" (identifier "local_2c") ([ "[") (number_literal "0") (] "]"))) (; ";")) (expression_statement "puVar26 = DAT_00011028;" (assignment_expression "puVar26 = DAT_00011028" (identifier "puVar26") (= "=") (identifier "DAT_00011028")) (; ";")) (expression_statement "param_2 = param_2 + 4;" (assignment_expression "param_2 = param_2 + 4" (identifier "param_2") (= "=") (binary_expression "param_2 + 4" (identifier "param_2") (+ "+") (number_literal "4"))) (; ";")) (expression_statement "puVar17 = puVar18;" (assignment_expression "puVar17 = puVar18" (identifier "puVar17") (= "=") (identifier "puVar18")) (; ";")) (} "}")) (while "while") (parenthesized_expression "(local_2c != puVar18)" (( "(") (binary_expression "local_2c != puVar18" (identifier "local_2c") (!= "!=") (identifier "puVar18")) () ")")) (; ";")) (expression_statement "uVar27 = *(uint *)(local_a8 + 0x6c);" (assignment_expression "uVar27 = *(uint *)(local_a8 + 0x6c)" (identifier "uVar27") (= "=") (pointer_expression "*(uint *)(local_a8 + 0x6c)" (* "*") (cast_expression "(uint *)(local_a8 + 0x6c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x6c)" (( "(") (binary_expression "local_a8 + 0x6c" (identifier "local_a8") (+ "+") (number_literal "0x6c")) () ")"))))) (; ";")) (expression_statement "uVar12 = *(uint *)(local_a8 + 0x68);" (assignment_expression "uVar12 = *(uint *)(local_a8 + 0x68)" (identifier "uVar12") (= "=") (pointer_expression "*(uint *)(local_a8 + 0x68)" (* "*") (cast_expression "(uint *)(local_a8 + 0x68)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x68)" (( "(") (binary_expression "local_a8 + 0x68" (identifier "local_a8") (+ "+") (number_literal "0x68")) () ")"))))) (; ";")) (expression_statement "uStack_94 = *(uint *)(local_a8 + 100);" (assignment_expression "uStack_94 = *(uint *)(local_a8 + 100)" (identifier "uStack_94") (= "=") (pointer_expression "*(uint *)(local_a8 + 100)" (* "*") (cast_expression "(uint *)(local_a8 + 100)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 100)" (( "(") (binary_expression "local_a8 + 100" (identifier "local_a8") (+ "+") (number_literal "100")) () ")"))))) (; ";")) (expression_statement "uVar28 = uVar12 >> 0x16 | uVar12 << 10;" (assignment_expression "uVar28 = uVar12 >> 0x16 | uVar12 << 10" (identifier "uVar28") (= "=") (binary_expression "uVar12 >> 0x16 | uVar12 << 10" (binary_expression "uVar12 >> 0x16" (identifier "uVar12") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar12 << 10" (identifier "uVar12") (<< "<<") (number_literal "10")))) (; ";")) (expression_statement "iStack_98 = *(int *)(local_a8 + 0x60);" (assignment_expression "iStack_98 = *(int *)(local_a8 + 0x60)" (identifier "iStack_98") (= "=") (pointer_expression "*(int *)(local_a8 + 0x60)" (* "*") (cast_expression "(int *)(local_a8 + 0x60)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x60)" (( "(") (binary_expression "local_a8 + 0x60" (identifier "local_a8") (+ "+") (number_literal "0x60")) () ")"))))) (; ";")) (expression_statement "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;" (assignment_expression "uVar29 = uStack_94 >> 0x16 | uStack_94 << 10" (identifier "uVar29") (= "=") (binary_expression "uStack_94 >> 0x16 | uStack_94 << 10" (binary_expression "uStack_94 >> 0x16" (identifier "uStack_94") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_94 << 10" (identifier "uStack_94") (<< "<<") (number_literal "10")))) (; ";")) (expression_statement "iVar23 = *(int *)(local_a8 + 0x70);" (assignment_expression "iVar23 = *(int *)(local_a8 + 0x70)" (identifier "iVar23") (= "=") (pointer_expression "*(int *)(local_a8 + 0x70)" (* "*") (cast_expression "(int *)(local_a8 + 0x70)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x70)" (( "(") (binary_expression "local_a8 + 0x70" (identifier "local_a8") (+ "+") (number_literal "0x70")) () ")"))))) (; ";")) (expression_statement "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;" (assignment_expression "uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" (identifier "uVar13") (= "=") (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008" (binary_expression "((~uVar27 | uVar12) ^ uStack_94) + iStack_58" (parenthesized_expression "((~uVar27 | uVar12) ^ uStack_94)" (( "(") (binary_expression "(~uVar27 | uVar12) ^ uStack_94" (parenthesized_expression "(~uVar27 | uVar12)" (( "(") (binary_expression "~uVar27 | uVar12" (unary_expression "~uVar27" (~ "~") (identifier "uVar27")) (| "|") (identifier "uVar12")) () ")")) (^ "^") (identifier "uStack_94")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "iStack_98"))) (; ";")) (expression_statement "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" (identifier "uVar7") (= "=") (binary_expression "iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100)" (identifier "iVar23") (+ "+") (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" (( "(") (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" (identifier "uVar13") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar13 * 0x100" (identifier "uVar13") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;" (assignment_expression "uVar13 = uVar7 >> 0x16 | uVar7 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar7 >> 0x16 | uVar7 * 0x400" (binary_expression "uVar7 >> 0x16" (identifier "uVar7") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar7 * 0x400" (identifier "uVar7") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;" (assignment_expression "uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" (identifier "uVar19") (= "=") (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008" (binary_expression "((~uVar28 | uStack_94) ^ uVar7) + iStack_34" (parenthesized_expression "((~uVar28 | uStack_94) ^ uVar7)" (( "(") (binary_expression "(~uVar28 | uStack_94) ^ uVar7" (parenthesized_expression "(~uVar28 | uStack_94)" (( "(") (binary_expression "~uVar28 | uStack_94" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uStack_94")) () ")")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "iVar23"))) (; ";")) (expression_statement "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar15") (= "=") (binary_expression "uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar27") (+ "+") (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" (( "(") (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" (identifier "uVar19") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar19 * 0x200" (identifier "uVar19") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;" (assignment_expression "uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" (identifier "uVar7") (= "=") (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008" (binary_expression "((~uVar29 | uVar7) ^ uVar15) + iStack_50" (parenthesized_expression "((~uVar29 | uVar7) ^ uVar15)" (( "(") (binary_expression "(~uVar29 | uVar7) ^ uVar15" (parenthesized_expression "(~uVar29 | uVar7)" (( "(") (binary_expression "~uVar29 | uVar7" (unary_expression "~uVar29" (~ "~") (identifier "uVar29")) (| "|") (identifier "uVar7")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar27"))) (; ";")) (expression_statement "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar8") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" (( "(") (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" (identifier "uVar7") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar7 * 0x200" (identifier "uVar7") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008" (binary_expression "((~uVar13 | uVar15) ^ uVar8) + uStack_6c" (parenthesized_expression "((~uVar13 | uVar15) ^ uVar8)" (( "(") (binary_expression "(~uVar13 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar13 | uVar15)" (( "(") (binary_expression "~uVar13 | uVar15" (unary_expression "~uVar13" (~ "~") (identifier "uVar13")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar15") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" (( "(") (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" (identifier "uVar28") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar28 * 0x800" (identifier "uVar28") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008" (binary_expression "((~uVar19 | uVar8) ^ uVar15) + iStack_48" (parenthesized_expression "((~uVar19 | uVar8) ^ uVar15)" (( "(") (binary_expression "(~uVar19 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar8)" (( "(") (binary_expression "~uVar19 | uVar8" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar8")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar8") (= "=") (binary_expression "uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" (( "(") (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" (identifier "uVar29") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar29 * 0x2000" (identifier "uVar29") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar29 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008" (binary_expression "((~uVar7 | uVar15) ^ uVar8) + iStack_64" (parenthesized_expression "((~uVar7 | uVar15) ^ uVar8)" (( "(") (binary_expression "(~uVar7 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar7 | uVar15)" (( "(") (binary_expression "~uVar7 | uVar15" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar15") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" (( "(") (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" (identifier "uVar13") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar13 * 0x8000" (identifier "uVar13") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008" (binary_expression "((~uVar28 | uVar8) ^ uVar15) + iStack_40" (parenthesized_expression "((~uVar28 | uVar8) ^ uVar15)" (( "(") (binary_expression "(~uVar28 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar28 | uVar8)" (( "(") (binary_expression "~uVar28 | uVar8" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uVar8")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);" (assignment_expression "uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" (identifier "uVar8") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x11 | uVar19 * 0x8000)" (( "(") (binary_expression "uVar19 >> 0x11 | uVar19 * 0x8000" (binary_expression "uVar19 >> 0x11" (identifier "uVar19") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar19 * 0x8000" (identifier "uVar19") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar19 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008" (binary_expression "((~uVar29 | uVar15) ^ uVar8) + iStack_5c" (parenthesized_expression "((~uVar29 | uVar15) ^ uVar8)" (( "(") (binary_expression "(~uVar29 | uVar15) ^ uVar8" (parenthesized_expression "(~uVar29 | uVar15)" (( "(") (binary_expression "~uVar29 | uVar15" (unary_expression "~uVar29" (~ "~") (identifier "uVar29")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar15") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" (( "(") (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" (identifier "uVar7") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar7 * 0x20" (identifier "uVar7") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar7 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008" (binary_expression "((~uVar13 | uVar8) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar13 | uVar8) ^ uVar15)" (( "(") (binary_expression "(~uVar13 | uVar8) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar8)" (( "(") (binary_expression "~uVar13 | uVar8" (unary_expression "~uVar13" (~ "~") (identifier "uVar13")) (| "|") (identifier "uVar8")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar30") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" (( "(") (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" (identifier "uVar28") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar28 * 0x80" (identifier "uVar28") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uStack_b4 = *(uint *)(local_a8 + 0x54);" (assignment_expression "uStack_b4 = *(uint *)(local_a8 + 0x54)" (identifier "uStack_b4") (= "=") (pointer_expression "*(uint *)(local_a8 + 0x54)" (* "*") (cast_expression "(uint *)(local_a8 + 0x54)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x54)" (( "(") (binary_expression "local_a8 + 0x54" (identifier "local_a8") (+ "+") (number_literal "0x54")) () ")"))))) (; ";")) (expression_statement "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;" (assignment_expression "uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" (identifier "uVar28") (= "=") (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008" (binary_expression "((~uVar19 | uVar15) ^ uVar30) + iStack_54" (parenthesized_expression "((~uVar19 | uVar15) ^ uVar30)" (( "(") (binary_expression "(~uVar19 | uVar15) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar15)" (( "(") (binary_expression "~uVar19 | uVar15" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar15") (= "=") (binary_expression "uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" (( "(") (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" (identifier "uVar28") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar28 * 0x80" (identifier "uVar28") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "iStack_a4 = *(int *)(local_a8 + 0x4c);" (assignment_expression "iStack_a4 = *(int *)(local_a8 + 0x4c)" (identifier "iStack_a4") (= "=") (pointer_expression "*(int *)(local_a8 + 0x4c)" (* "*") (cast_expression "(int *)(local_a8 + 0x4c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x4c)" (( "(") (binary_expression "local_a8 + 0x4c" (identifier "local_a8") (+ "+") (number_literal "0x4c")) () ")"))))) (; ";")) (expression_statement "uStack_b8 = *(uint *)(local_a8 + 0x50);" (assignment_expression "uStack_b8 = *(uint *)(local_a8 + 0x50)" (identifier "uStack_b8") (= "=") (pointer_expression "*(uint *)(local_a8 + 0x50)" (* "*") (cast_expression "(uint *)(local_a8 + 0x50)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x50)" (( "(") (binary_expression "local_a8 + 0x50" (identifier "local_a8") (+ "+") (number_literal "0x50")) () ")"))))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uStack_b0 = *(uint *)(local_a8 + 0x58);" (assignment_expression "uStack_b0 = *(uint *)(local_a8 + 0x58)" (identifier "uStack_b0") (= "=") (pointer_expression "*(uint *)(local_a8 + 0x58)" (* "*") (cast_expression "(uint *)(local_a8 + 0x58)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x58)" (( "(") (binary_expression "local_a8 + 0x58" (identifier "local_a8") (+ "+") (number_literal "0x58")) () ")"))))) (; ";")) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "iStack_9c = *(int *)(local_a8 + 0x5c);" (assignment_expression "iStack_9c = *(int *)(local_a8 + 0x5c)" (identifier "iStack_9c") (= "=") (pointer_expression "*(int *)(local_a8 + 0x5c)" (* "*") (cast_expression "(int *)(local_a8 + 0x5c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x5c)" (( "(") (binary_expression "local_a8 + 0x5c" (identifier "local_a8") (+ "+") (number_literal "0x5c")) () ")"))))) (; ";")) (expression_statement "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;" (assignment_expression "uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" (identifier "uVar8") (= "=") (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4" (binary_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c" (parenthesized_expression "(uStack_b8 ^ uStack_b4 ^ uStack_b0)" (( "(") (binary_expression "uStack_b8 ^ uStack_b4 ^ uStack_b0" (binary_expression "uStack_b8 ^ uStack_b4" (identifier "uStack_b8") (^ "^") (identifier "uStack_b4")) (^ "^") (identifier "uStack_b0")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "iStack_a4"))) (; ";")) (expression_statement "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" (identifier "uVar5") (= "=") (binary_expression "iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800)" (identifier "iStack_9c") (+ "+") (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" (( "(") (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" (identifier "uVar8") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar8 * 0x800" (identifier "uVar8") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;" (assignment_expression "uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008" (binary_expression "((~uVar7 | uVar30) ^ uVar15) + iStack_30" (parenthesized_expression "((~uVar7 | uVar30) ^ uVar15)" (( "(") (binary_expression "(~uVar7 | uVar30) ^ uVar15" (parenthesized_expression "(~uVar7 | uVar30)" (( "(") (binary_expression "~uVar7 | uVar30" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);" (assignment_expression "uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" (identifier "uVar31") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x18 | uVar13 * 0x100)" (( "(") (binary_expression "uVar13 >> 0x18 | uVar13 * 0x100" (binary_expression "uVar13 >> 0x18" (identifier "uVar13") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar13 * 0x100" (identifier "uVar13") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;" (assignment_expression "uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10" (identifier "uVar13") (= "=") (binary_expression "uStack_b4 >> 0x16 | uStack_b4 << 10" (binary_expression "uStack_b4 >> 0x16" (identifier "uStack_b4") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_b4 << 10" (identifier "uStack_b4") (<< "<<") (number_literal "10")))) (; ";")) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;" (assignment_expression "uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008" (binary_expression "((~uVar28 | uVar15) ^ uVar31) + iStack_4c" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar31)" (( "(") (binary_expression "(~uVar28 | uVar15) ^ uVar31" (parenthesized_expression "(~uVar28 | uVar15)" (( "(") (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" (identifier "uVar14") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" (( "(") (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" (identifier "uVar19") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar19 * 0x800" (identifier "uVar19") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;" (assignment_expression "uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" (identifier "uVar30") (= "=") (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c" (binary_expression "(uStack_b8 ^ uVar13 ^ uVar5) + iStack_68" (parenthesized_expression "(uStack_b8 ^ uVar13 ^ uVar5)" (( "(") (binary_expression "uStack_b8 ^ uVar13 ^ uVar5" (binary_expression "uStack_b8 ^ uVar13" (identifier "uStack_b8") (^ "^") (identifier "uVar13")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "iStack_9c"))) (; ";")) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;" (assignment_expression "uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10" (identifier "uVar15") (= "=") (binary_expression "uStack_b8 >> 0x16 | uStack_b8 << 10" (binary_expression "uStack_b8 >> 0x16" (identifier "uStack_b8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_b8 << 10" (identifier "uStack_b8") (<< "<<") (number_literal "10")))) (; ";")) (expression_statement "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uVar9") (= "=") (binary_expression "uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uStack_b0") (+ "+") (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" (( "(") (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" (identifier "uVar30") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar30 * 0x4000" (identifier "uVar30") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;" (assignment_expression "uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008" (binary_expression "((~uVar29 | uVar31) ^ uVar14) + iStack_68" (parenthesized_expression "((~uVar29 | uVar31) ^ uVar14)" (( "(") (binary_expression "(~uVar29 | uVar31) ^ uVar14" (parenthesized_expression "(~uVar29 | uVar31)" (( "(") (binary_expression "~uVar29 | uVar31" (unary_expression "~uVar29" (~ "~") (identifier "uVar29")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" (identifier "uVar32") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" (( "(") (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" (identifier "uVar7") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar7 * 0x4000" (identifier "uVar7") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;" (assignment_expression "uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" (identifier "uVar7") (= "=") (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0" (binary_expression "(uVar5 ^ uVar15 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar5 ^ uVar15 ^ uVar9)" (( "(") (binary_expression "uVar5 ^ uVar15 ^ uVar9" (binary_expression "uVar5 ^ uVar15" (identifier "uVar5") (^ "^") (identifier "uVar15")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "uStack_b0"))) (; ";")) (expression_statement "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar31") (= "=") (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" (( "(") (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" (identifier "uVar7") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar7 * 0x8000" (identifier "uVar7") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar7 = uVar32 >> 0x16 | uVar32 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" (identifier "uVar32") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar32 * 0x400" (identifier "uVar32") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar5 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar5") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar30") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" (identifier "uVar13") (= "=") (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" (( "(") (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" (identifier "uVar9") (^ "^") (identifier "uVar5")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);" (assignment_expression "uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" (identifier "uVar9") (= "=") (binary_expression "uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar13 >> 0x14 | uVar13 * 0x1000)" (( "(") (binary_expression "uVar13 >> 0x14 | uVar13 * 0x1000" (binary_expression "uVar13 >> 0x14" (identifier "uVar13") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar13 * 0x1000" (identifier "uVar13") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" (identifier "uVar15") (= "=") (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar9) + iStack_5c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar9)" (( "(") (binary_expression "uVar31 ^ uVar30 ^ uVar9" (binary_expression "uVar31 ^ uVar30" (identifier "uVar31") (^ "^") (identifier "uVar30")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar31") (= "=") (binary_expression "uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar5") (+ "+") (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" (( "(") (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" (identifier "uVar15") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar15 * 0x20" (identifier "uVar15") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;" (assignment_expression "uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" (identifier "uVar5") (= "=") (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5" (binary_expression "(uVar9 ^ uVar13 ^ uVar31) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar13 ^ uVar31)" (( "(") (binary_expression "uVar9 ^ uVar13 ^ uVar31" (binary_expression "uVar9 ^ uVar13" (identifier "uVar9") (^ "^") (identifier "uVar13")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (identifier "uVar5"))) (; ";")) (expression_statement "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" (identifier "uVar9") (= "=") (binary_expression "uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100)" (identifier "uVar30") (+ "+") (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" (( "(") (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" (identifier "uVar5") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar5 * 0x100" (identifier "uVar5") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar5 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar5") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;" (assignment_expression "uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" (identifier "uVar30") (= "=") (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30" (binary_expression "(uVar31 ^ uVar15 ^ uVar9) + iStack_54" (parenthesized_expression "(uVar31 ^ uVar15 ^ uVar9)" (( "(") (binary_expression "uVar31 ^ uVar15 ^ uVar9" (binary_expression "uVar31 ^ uVar15" (identifier "uVar31") (^ "^") (identifier "uVar15")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "uVar30"))) (; ";")) (expression_statement "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar30 >> 0x19 | uVar30 * 0x80)" (( "(") (binary_expression "uVar30 >> 0x19 | uVar30 * 0x80" (binary_expression "uVar30 >> 0x19" (identifier "uVar30") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar30 * 0x80" (identifier "uVar30") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar30 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar30") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;" (assignment_expression "uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" (identifier "uVar13") (= "=") (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13" (binary_expression "(uVar9 ^ uVar5 ^ uVar31) + iStack_50" (parenthesized_expression "(uVar9 ^ uVar5 ^ uVar31)" (( "(") (binary_expression "uVar9 ^ uVar5 ^ uVar31" (binary_expression "uVar9 ^ uVar5" (identifier "uVar9") (^ "^") (identifier "uVar5")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" (identifier "uVar20") (= "=") (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" (( "(") (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" (identifier "uVar13") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar13 * 0x200" (identifier "uVar13") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;" (assignment_expression "uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" (identifier "uVar15") (= "=") (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15" (binary_expression "(uVar31 ^ uVar30 ^ uVar20) + iStack_4c" (parenthesized_expression "(uVar31 ^ uVar30 ^ uVar20)" (( "(") (binary_expression "uVar31 ^ uVar30 ^ uVar20" (binary_expression "uVar31 ^ uVar30" (identifier "uVar31") (^ "^") (identifier "uVar30")) (^ "^") (identifier "uVar20")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar13 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);" (assignment_expression "uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" (identifier "uVar9") (= "=") (binary_expression "uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800)" (identifier "uVar5") (+ "+") (parenthesized_expression "(uVar15 >> 0x15 | uVar15 * 0x800)" (( "(") (binary_expression "uVar15 >> 0x15 | uVar15 * 0x800" (binary_expression "uVar15 >> 0x15" (identifier "uVar15") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar15 * 0x800" (identifier "uVar15") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;" (assignment_expression "uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" (identifier "uVar5") (= "=") (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5" (binary_expression "(uVar20 ^ uVar13 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar20 ^ uVar13 ^ uVar9)" (( "(") (binary_expression "uVar20 ^ uVar13 ^ uVar9" (binary_expression "uVar20 ^ uVar13" (identifier "uVar20") (^ "^") (identifier "uVar13")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "uVar5"))) (; ";")) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" (identifier "uVar31") (= "=") (binary_expression "uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000)" (identifier "uVar30") (+ "+") (parenthesized_expression "(uVar5 >> 0x13 | uVar5 * 0x2000)" (( "(") (binary_expression "uVar5 >> 0x13 | uVar5 * 0x2000" (binary_expression "uVar5 >> 0x13" (identifier "uVar5") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar5 * 0x2000" (identifier "uVar5") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;" (assignment_expression "uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" (identifier "uVar30") (= "=") (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30" (binary_expression "(uVar9 ^ uVar15 ^ uVar31) + iStack_44" (parenthesized_expression "(uVar9 ^ uVar15 ^ uVar31)" (( "(") (binary_expression "uVar9 ^ uVar15 ^ uVar31" (binary_expression "uVar9 ^ uVar15" (identifier "uVar9") (^ "^") (identifier "uVar15")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "uVar30"))) (; ";")) (expression_statement "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar5 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar5") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uVar9") (= "=") (binary_expression "uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" (( "(") (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" (identifier "uVar30") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar30 * 0x4000" (identifier "uVar30") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar30") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;" (assignment_expression "uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" (identifier "uVar13") (= "=") (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13" (binary_expression "(uVar31 ^ uVar5 ^ uVar9) + iStack_40" (parenthesized_expression "(uVar31 ^ uVar5 ^ uVar9)" (( "(") (binary_expression "uVar31 ^ uVar5 ^ uVar9" (binary_expression "uVar31 ^ uVar5" (identifier "uVar31") (^ "^") (identifier "uVar5")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar31") (= "=") (binary_expression "uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" (( "(") (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" (identifier "uVar13") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar13 * 0x8000" (identifier "uVar13") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" (identifier "uVar15") (= "=") (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar30 ^ uVar31) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar30 ^ uVar31)" (( "(") (binary_expression "uVar9 ^ uVar30 ^ uVar31" (binary_expression "uVar9 ^ uVar30" (identifier "uVar9") (^ "^") (identifier "uVar30")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" (identifier "uVar20") (= "=") (binary_expression "uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40)" (identifier "uVar5") (+ "+") (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" (( "(") (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" (identifier "uVar15") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar15 * 0x40" (identifier "uVar15") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008" (binary_expression "((~uVar8 | uVar14) ^ uVar32) + iStack_44" (parenthesized_expression "((~uVar8 | uVar14) ^ uVar32)" (( "(") (binary_expression "(~uVar8 | uVar14) ^ uVar32" (parenthesized_expression "(~uVar8 | uVar14)" (( "(") (binary_expression "~uVar8 | uVar14" (unary_expression "~uVar8" (~ "~") (identifier "uVar8")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar32")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" (identifier "uVar25") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" (( "(") (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" (identifier "uVar28") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar28 * 0x4000" (identifier "uVar28") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;" (assignment_expression "uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" (identifier "uVar15") (= "=") (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5" (binary_expression "(uVar31 ^ uVar13 ^ uVar20) + iStack_38" (parenthesized_expression "(uVar31 ^ uVar13 ^ uVar20)" (( "(") (binary_expression "uVar31 ^ uVar13 ^ uVar20" (binary_expression "uVar31 ^ uVar13" (identifier "uVar31") (^ "^") (identifier "uVar13")) (^ "^") (identifier "uVar20")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "uVar5"))) (; ";")) (expression_statement "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar28 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;" (assignment_expression "uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008" (binary_expression "((~uVar19 | uVar32) ^ uVar25) + iStack_60" (parenthesized_expression "((~uVar19 | uVar32) ^ uVar25)" (( "(") (binary_expression "(~uVar19 | uVar32) ^ uVar25" (parenthesized_expression "(~uVar19 | uVar32)" (( "(") (binary_expression "~uVar19 | uVar32" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar32")) () ")")) (^ "^") (identifier "uVar25")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);" (assignment_expression "uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" (identifier "uVar14") (= "=") (binary_expression "uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80)" (identifier "uVar30") (+ "+") (parenthesized_expression "(uVar15 >> 0x19 | uVar15 * 0x80)" (( "(") (binary_expression "uVar15 >> 0x19 | uVar15 * 0x80" (binary_expression "uVar15 >> 0x19" (identifier "uVar15") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar15 * 0x80" (identifier "uVar15") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" (identifier "uVar9") (= "=") (binary_expression "uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" (( "(") (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" (identifier "uVar29") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar29 * 0x1000" (identifier "uVar29") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;" (assignment_expression "uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" (identifier "uVar29") (= "=") (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30" (binary_expression "(uVar20 ^ uVar28 ^ uVar14) + iStack_34" (parenthesized_expression "(uVar20 ^ uVar28 ^ uVar14)" (( "(") (binary_expression "uVar20 ^ uVar28 ^ uVar14" (binary_expression "uVar20 ^ uVar28" (identifier "uVar20") (^ "^") (identifier "uVar28")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "uVar30"))) (; ";")) (expression_statement "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" (identifier "uVar32") (= "=") (binary_expression "uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" (( "(") (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" (identifier "uVar29") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar29 * 0x200" (identifier "uVar29") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008" (binary_expression "((~uVar7 | uVar25) ^ uVar9) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar25) ^ uVar9)" (( "(") (binary_expression "(~uVar7 | uVar25) ^ uVar9" (parenthesized_expression "(~uVar7 | uVar25)" (( "(") (binary_expression "~uVar7 | uVar25" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uVar25")) () ")")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (identifier "DAT_00011008")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);" (assignment_expression "uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" (identifier "uVar30") (= "=") (binary_expression "uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar8 >> 0x1a | uVar8 * 0x40)" (( "(") (binary_expression "uVar8 >> 0x1a | uVar8 * 0x40" (binary_expression "uVar8 >> 0x1a" (identifier "uVar8") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar8 * 0x40" (identifier "uVar8") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;" (assignment_expression "uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" (identifier "uVar5") (= "=") (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c" (binary_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar32 ^ uVar29) & uVar30 ^ uVar29)" (( "(") (binary_expression "(uVar32 ^ uVar29) & uVar30 ^ uVar29" (binary_expression "(uVar32 ^ uVar29) & uVar30" (parenthesized_expression "(uVar32 ^ uVar29)" (( "(") (binary_expression "uVar32 ^ uVar29" (identifier "uVar32") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar30")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;" (assignment_expression "uVar15 = uVar32 >> 0x16 | uVar32 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar32 >> 0x16 | uVar32 * 0x400" (binary_expression "uVar32 >> 0x16" (identifier "uVar32") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar32 * 0x400" (identifier "uVar32") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);" (assignment_expression "uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar5 >> 0x19 | uVar5 * 0x80)" (( "(") (binary_expression "uVar5 >> 0x19 | uVar5 * 0x80" (binary_expression "uVar5 >> 0x19" (identifier "uVar5") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar5 * 0x80" (identifier "uVar5") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;" (assignment_expression "uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" (identifier "uVar5") (= "=") (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c" (binary_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c" (parenthesized_expression "((uVar30 ^ uVar15) & uVar31 ^ uVar15)" (( "(") (binary_expression "(uVar30 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar30 ^ uVar15) & uVar31" (parenthesized_expression "(uVar30 ^ uVar15)" (( "(") (binary_expression "uVar30 ^ uVar15" (identifier "uVar30") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);" (assignment_expression "uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" (identifier "uVar20") (= "=") (binary_expression "uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar5 >> 0x1a | uVar5 * 0x40)" (( "(") (binary_expression "uVar5 >> 0x1a | uVar5 * 0x40" (binary_expression "uVar5 >> 0x1a" (identifier "uVar5") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar5 * 0x40" (identifier "uVar5") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar5 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar5") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar30 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar30") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar31 ^ uVar5) & uVar20 ^ uVar5)" (( "(") (binary_expression "(uVar31 ^ uVar5) & uVar20 ^ uVar5" (binary_expression "(uVar31 ^ uVar5) & uVar20" (parenthesized_expression "(uVar31 ^ uVar5)" (( "(") (binary_expression "uVar31 ^ uVar5" (identifier "uVar31") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar20")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar31") (= "=") (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" (( "(") (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" (identifier "uVar29") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar29 * 0x100" (identifier "uVar29") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" (identifier "uVar15") (= "=") (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar20 ^ uVar30) & uVar31 ^ uVar30)" (( "(") (binary_expression "(uVar20 ^ uVar30) & uVar31 ^ uVar30" (binary_expression "(uVar20 ^ uVar30) & uVar31" (parenthesized_expression "(uVar20 ^ uVar30)" (( "(") (binary_expression "uVar20 ^ uVar30" (identifier "uVar20") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);" (assignment_expression "uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" (identifier "uVar20") (= "=") (binary_expression "uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000)" (identifier "uVar5") (+ "+") (parenthesized_expression "(uVar15 >> 0x13 | uVar15 * 0x2000)" (( "(") (binary_expression "uVar15 >> 0x13 | uVar15 * 0x2000" (binary_expression "uVar15 >> 0x13" (identifier "uVar15") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar15 * 0x2000" (identifier "uVar15") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;" (assignment_expression "uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" (identifier "uVar5") (= "=") (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44" (parenthesized_expression "((uVar31 ^ uVar29) & uVar20 ^ uVar29)" (( "(") (binary_expression "(uVar31 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar20" (parenthesized_expression "(uVar31 ^ uVar29)" (( "(") (binary_expression "uVar31 ^ uVar29" (identifier "uVar31") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar20")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar5"))) (; ";")) (expression_statement "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);" (assignment_expression "uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" (identifier "uVar31") (= "=") (binary_expression "uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800)" (identifier "uVar30") (+ "+") (parenthesized_expression "(uVar5 >> 0x15 | uVar5 * 0x800)" (( "(") (binary_expression "uVar5 >> 0x15 | uVar5 * 0x800" (binary_expression "uVar5 >> 0x15" (identifier "uVar5") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar5 * 0x800" (identifier "uVar5") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;" (assignment_expression "uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" (identifier "uVar8") (= "=") (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13" (binary_expression "(uVar14 ^ uVar8 ^ uVar32) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar8 ^ uVar32)" (( "(") (binary_expression "uVar14 ^ uVar8 ^ uVar32" (binary_expression "uVar14 ^ uVar8" (identifier "uVar14") (^ "^") (identifier "uVar8")) (^ "^") (identifier "uVar32")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar13 = uVar25 >> 0x16 | uVar25 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" (identifier "uVar25") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar25 * 0x400" (identifier "uVar25") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" (identifier "uVar28") (= "=") (binary_expression "uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" (( "(") (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" (identifier "uVar8") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar8 * 0x100" (identifier "uVar8") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;" (assignment_expression "uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" (identifier "uVar5") (= "=") (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar20 ^ uVar15) & uVar31 ^ uVar15)" (( "(") (binary_expression "(uVar20 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar20 ^ uVar15) & uVar31" (parenthesized_expression "(uVar20 ^ uVar15)" (( "(") (binary_expression "uVar20 ^ uVar15" (identifier "uVar20") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar30"))) (; ";")) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);" (assignment_expression "uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" (identifier "uVar5") (= "=") (binary_expression "uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar5 >> 0x17 | uVar5 * 0x200)" (( "(") (binary_expression "uVar5 >> 0x17 | uVar5 * 0x200" (binary_expression "uVar5 >> 0x17" (identifier "uVar5") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar5 * 0x200" (identifier "uVar5") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54" (parenthesized_expression "((uVar28 ^ uVar9) & uVar13 ^ uVar9)" (( "(") (binary_expression "(uVar28 ^ uVar9) & uVar13 ^ uVar9" (binary_expression "(uVar28 ^ uVar9) & uVar13" (parenthesized_expression "(uVar28 ^ uVar9)" (( "(") (binary_expression "uVar28 ^ uVar9" (identifier "uVar28") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30" (parenthesized_expression "((uVar31 ^ uVar8) & uVar5 ^ uVar8)" (( "(") (binary_expression "(uVar31 ^ uVar8) & uVar5 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar5" (parenthesized_expression "(uVar31 ^ uVar8)" (( "(") (binary_expression "uVar31 ^ uVar8" (identifier "uVar31") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar20") (= "=") (binary_expression "uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" (( "(") (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" (identifier "uVar29") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar29 * 0x80" (identifier "uVar29") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" (( "(") (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" (identifier "uVar19") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar19 * 0x200" (identifier "uVar19") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124" (binary_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar28 ^ uVar30) & uVar29 ^ uVar28)" (( "(") (binary_expression "(uVar28 ^ uVar30) & uVar29 ^ uVar28" (binary_expression "(uVar28 ^ uVar30) & uVar29" (parenthesized_expression "(uVar28 ^ uVar30)" (( "(") (binary_expression "uVar28 ^ uVar30" (identifier "uVar28") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar29")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" (identifier "uVar14") (= "=") (binary_expression "uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" (( "(") (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" (identifier "uVar7") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar7 * 0x2000" (identifier "uVar7") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;" (assignment_expression "uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" (identifier "uVar15") (= "=") (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c" (binary_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar19) & uVar20 ^ uVar19)" (( "(") (binary_expression "(uVar5 ^ uVar19) & uVar20 ^ uVar19" (binary_expression "(uVar5 ^ uVar19) & uVar20" (parenthesized_expression "(uVar5 ^ uVar19)" (( "(") (binary_expression "uVar5 ^ uVar19" (identifier "uVar5") (^ "^") (identifier "uVar19")) () ")")) (& "&") (identifier "uVar20")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" (identifier "uVar5") (= "=") (binary_expression "uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar15 >> 0x11 | uVar15 * 0x8000)" (( "(") (binary_expression "uVar15 >> 0x11 | uVar15 * 0x8000" (binary_expression "uVar15 >> 0x11" (identifier "uVar15") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar15 * 0x8000" (identifier "uVar15") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;" (assignment_expression "uVar28 = uVar28 >> 0x16 | uVar28 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar28 >> 0x16 | uVar28 * 0x400" (binary_expression "uVar28 >> 0x16" (identifier "uVar28") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar28 * 0x400" (identifier "uVar28") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" (identifier "uVar8") (= "=") (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c" (binary_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c" (parenthesized_expression "((uVar20 ^ uVar7) & uVar5 ^ uVar7)" (( "(") (binary_expression "(uVar20 ^ uVar7) & uVar5 ^ uVar7" (binary_expression "(uVar20 ^ uVar7) & uVar5" (parenthesized_expression "(uVar20 ^ uVar7)" (( "(") (binary_expression "uVar20 ^ uVar7" (identifier "uVar20") (^ "^") (identifier "uVar7")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60" (parenthesized_expression "((uVar30 ^ uVar14) & uVar28 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar14) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar28" (parenthesized_expression "(uVar30 ^ uVar14)" (( "(") (binary_expression "uVar30 ^ uVar14" (identifier "uVar30") (^ "^") (identifier "uVar14")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar25") (= "=") (binary_expression "uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" (( "(") (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" (identifier "uVar13") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar13 * 0x8000" (identifier "uVar13") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" (( "(") (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" (identifier "uVar8") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar8 * 0x80" (identifier "uVar8") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar13 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c" (binary_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar13) & uVar31 ^ uVar13)" (( "(") (binary_expression "(uVar5 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar5 ^ uVar13) & uVar31" (parenthesized_expression "(uVar5 ^ uVar13)" (( "(") (binary_expression "uVar5 ^ uVar13" (identifier "uVar5") (^ "^") (identifier "uVar13")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar9") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" (( "(") (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" (identifier "uVar19") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar19 * 0x1000" (identifier "uVar19") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;" (assignment_expression "uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124" (binary_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50" (parenthesized_expression "((uVar14 ^ uVar25) & uVar8 ^ uVar14)" (( "(") (binary_expression "(uVar14 ^ uVar25) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar25) & uVar8" (parenthesized_expression "(uVar14 ^ uVar25)" (( "(") (binary_expression "uVar14 ^ uVar25" (identifier "uVar14") (^ "^") (identifier "uVar25")) () ")")) (& "&") (identifier "uVar8")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" (( "(") (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" (identifier "uVar29") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar29 * 0x80" (identifier "uVar29") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;" (assignment_expression "uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48" (parenthesized_expression "((uVar31 ^ uVar15) & uVar9 ^ uVar15)" (( "(") (binary_expression "(uVar31 ^ uVar15) & uVar9 ^ uVar15" (binary_expression "(uVar31 ^ uVar15) & uVar9" (parenthesized_expression "(uVar31 ^ uVar15)" (( "(") (binary_expression "uVar31 ^ uVar15" (identifier "uVar31") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar9")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar20") (= "=") (binary_expression "uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" (( "(") (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" (identifier "uVar7") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar7 * 0x8000" (identifier "uVar7") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;" (assignment_expression "uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c" (binary_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58" (parenthesized_expression "((uVar9 ^ uVar29) & uVar20 ^ uVar29)" (( "(") (binary_expression "(uVar9 ^ uVar29) & uVar20 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar20" (parenthesized_expression "(uVar9 ^ uVar29)" (( "(") (binary_expression "uVar9 ^ uVar29" (identifier "uVar9") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar20")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);" (assignment_expression "uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" (identifier "uVar31") (= "=") (binary_expression "uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar13 >> 0x17 | uVar13 * 0x200)" (( "(") (binary_expression "uVar13 >> 0x17 | uVar13 * 0x200" (binary_expression "uVar13 >> 0x17" (identifier "uVar13") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar13 * 0x200" (identifier "uVar13") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124" (binary_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c" (parenthesized_expression "((uVar25 ^ uVar5) & uVar19 ^ uVar25)" (( "(") (binary_expression "(uVar25 ^ uVar5) & uVar19 ^ uVar25" (binary_expression "(uVar25 ^ uVar5) & uVar19" (parenthesized_expression "(uVar25 ^ uVar5)" (( "(") (binary_expression "uVar25 ^ uVar5" (identifier "uVar25") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar25")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar30") (= "=") (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar28 = uVar25 >> 0x16 | uVar25 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" (identifier "uVar25") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar25 * 0x400" (identifier "uVar25") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;" (assignment_expression "uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" (identifier "uVar7") (= "=") (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" (( "(") (binary_expression "uVar5 ^ uVar30" (identifier "uVar5") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_00011010")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" (( "(") (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" (identifier "uVar7") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar7 * 0x100" (identifier "uVar7") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;" (assignment_expression "uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" (identifier "uVar7") (= "=") (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c" (binary_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64" (parenthesized_expression "((uVar20 ^ uVar13) & uVar31 ^ uVar13)" (( "(") (binary_expression "(uVar20 ^ uVar13) & uVar31 ^ uVar13" (binary_expression "(uVar20 ^ uVar13) & uVar31" (parenthesized_expression "(uVar20 ^ uVar13)" (( "(") (binary_expression "uVar20 ^ uVar13" (identifier "uVar20") (^ "^") (identifier "uVar13")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar14") (= "=") (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" (( "(") (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" (identifier "uVar7") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar7 * 0x800" (identifier "uVar7") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58" (parenthesized_expression "((uVar30 ^ uVar9) & uVar7 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar9) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar7" (parenthesized_expression "(uVar30 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar9" (identifier "uVar30") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" (( "(") (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" (identifier "uVar19") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar19 * 0x200" (identifier "uVar19") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;" (assignment_expression "uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c" (binary_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34" (parenthesized_expression "((uVar31 ^ uVar8) & uVar14 ^ uVar8)" (( "(") (binary_expression "(uVar31 ^ uVar8) & uVar14 ^ uVar8" (binary_expression "(uVar31 ^ uVar8) & uVar14" (parenthesized_expression "(uVar31 ^ uVar8)" (( "(") (binary_expression "uVar31 ^ uVar8" (identifier "uVar31") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar14")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);" (assignment_expression "uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar29 >> 0x19 | uVar29 * 0x80)" (( "(") (binary_expression "uVar29 >> 0x19 | uVar29 * 0x80" (binary_expression "uVar29 >> 0x19" (identifier "uVar29") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar29 * 0x80" (identifier "uVar29") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;" (assignment_expression "uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" (identifier "uVar19") (= "=") (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c" (binary_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40" (parenthesized_expression "((uVar14 ^ uVar15) & uVar31 ^ uVar15)" (( "(") (binary_expression "(uVar14 ^ uVar15) & uVar31 ^ uVar15" (binary_expression "(uVar14 ^ uVar15) & uVar31" (parenthesized_expression "(uVar14 ^ uVar15)" (( "(") (binary_expression "uVar14 ^ uVar15" (identifier "uVar14") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar14") (= "=") (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" (( "(") (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" (identifier "uVar19") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar19 * 0x2000" (identifier "uVar19") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" (( "(") (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" (( "(") (binary_expression "uVar9 ^ uVar5" (identifier "uVar9") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" (( "(") (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" (identifier "uVar28") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar28 * 0x800" (identifier "uVar28") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;" (assignment_expression "uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" (identifier "uVar8") (= "=") (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c" (binary_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar29) & uVar14 ^ uVar29)" (( "(") (binary_expression "(uVar31 ^ uVar29) & uVar14 ^ uVar29" (binary_expression "(uVar31 ^ uVar29) & uVar14" (parenthesized_expression "(uVar31 ^ uVar29)" (( "(") (binary_expression "uVar31 ^ uVar29" (identifier "uVar31") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar14")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "DAT_0001100c")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;" (assignment_expression "uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" (identifier "uVar19") (= "=") (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124" (binary_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34" (parenthesized_expression "((uVar5 ^ uVar30) & uVar28 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar30) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar30) & uVar28" (parenthesized_expression "(uVar5 ^ uVar30)" (( "(") (binary_expression "uVar5 ^ uVar30" (identifier "uVar5") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" (identifier "uVar20") (= "=") (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" (( "(") (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" (identifier "uVar8") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar8 * 0x1000" (identifier "uVar8") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" (identifier "uVar8") (= "=") (binary_expression "uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" (( "(") (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" (identifier "uVar19") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar19 * 0x80" (identifier "uVar19") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30" (parenthesized_expression "((uVar30 ^ uVar8) & uVar19 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar8) & uVar19 ^ uVar30" (binary_expression "(uVar30 ^ uVar8) & uVar19" (parenthesized_expression "(uVar30 ^ uVar8)" (( "(") (binary_expression "uVar30 ^ uVar8" (identifier "uVar30") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar30") (= "=") (binary_expression "uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" (( "(") (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" (identifier "uVar13") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar13 * 0x80" (identifier "uVar13") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;" (assignment_expression "uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" (( "(") (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" (( "(") (binary_expression "uVar8 ^ uVar30" (identifier "uVar8") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;" (assignment_expression "uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" (identifier "uVar13") (= "=") (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124" (binary_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar9) & uVar28 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar9) & uVar28 ^ uVar30" (binary_expression "(uVar30 ^ uVar9) & uVar28" (parenthesized_expression "(uVar30 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar9" (identifier "uVar30") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar5") (= "=") (binary_expression "uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" (( "(") (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" (identifier "uVar13") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar13 * 0x80" (identifier "uVar13") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;" (assignment_expression "uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" (identifier "uVar19") (= "=") (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010" (binary_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c" (parenthesized_expression "((uVar9 ^ uVar5) & uVar13 ^ uVar9)" (( "(") (binary_expression "(uVar9 ^ uVar5) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar5) & uVar13" (parenthesized_expression "(uVar9 ^ uVar5)" (( "(") (binary_expression "uVar9 ^ uVar5" (identifier "uVar9") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "DAT_00011010")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" (identifier "uVar8") (= "=") (binary_expression "uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" (( "(") (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" (identifier "uVar19") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar19 * 0x40" (identifier "uVar19") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010" (binary_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar8) & uVar19 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar8) & uVar19 ^ uVar5" (binary_expression "(uVar5 ^ uVar8) & uVar19" (parenthesized_expression "(uVar5 ^ uVar8)" (( "(") (binary_expression "uVar5 ^ uVar8" (identifier "uVar5") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "DAT_00011010")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar30") (= "=") (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" (( "(") (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" (identifier "uVar28") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar28 * 0x8000" (identifier "uVar28") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;" (assignment_expression "uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" (identifier "uVar7") (= "=") (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014" (binary_expression "((~uVar14 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar14 | uVar20) ^ uVar28)" (( "(") (binary_expression "(~uVar14 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar14 | uVar20)" (( "(") (binary_expression "~uVar14 | uVar20" (unary_expression "~uVar14" (~ "~") (identifier "uVar14")) (| "|") (identifier "uVar20")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar15") (= "=") (binary_expression "uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" (( "(") (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" (identifier "uVar7") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar7 * 0x800" (identifier "uVar7") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;" (assignment_expression "uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124" (binary_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68" (parenthesized_expression "((uVar8 ^ uVar30) & uVar7 ^ uVar8)" (( "(") (binary_expression "(uVar8 ^ uVar30) & uVar7 ^ uVar8" (binary_expression "(uVar8 ^ uVar30) & uVar7" (parenthesized_expression "(uVar8 ^ uVar30)" (( "(") (binary_expression "uVar8 ^ uVar30" (identifier "uVar8") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" (( "(") (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" (identifier "uVar13") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar13 * 0x2000" (identifier "uVar13") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar8 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014" (binary_expression "((~uVar20 | uVar15) ^ uVar13) + iStack_44" (parenthesized_expression "((~uVar20 | uVar15) ^ uVar13)" (( "(") (binary_expression "(~uVar20 | uVar15) ^ uVar13" (parenthesized_expression "(~uVar20 | uVar15)" (( "(") (binary_expression "~uVar20 | uVar15" (unary_expression "~uVar20" (~ "~") (identifier "uVar20")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;" (assignment_expression "uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" (identifier "uVar19") (= "=") (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124" (binary_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64" (parenthesized_expression "(uVar30 ^ (uVar30 ^ uVar9) & uVar8)" (( "(") (binary_expression "uVar30 ^ (uVar30 ^ uVar9) & uVar8" (identifier "uVar30") (^ "^") (binary_expression "(uVar30 ^ uVar9) & uVar8" (parenthesized_expression "(uVar30 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar9" (identifier "uVar30") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar8"))) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (number_literal "0x5c4dd124")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);" (assignment_expression "uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" (identifier "uVar25") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x15 | uVar19 * 0x800)" (( "(") (binary_expression "uVar19 >> 0x15 | uVar19 * 0x800" (binary_expression "uVar19 >> 0x15" (identifier "uVar19") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar19 * 0x800" (identifier "uVar19") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" (( "(") (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" (identifier "uVar29") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar29 * 0x2000" (identifier "uVar29") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" (( "(") (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" (( "(") (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" (~ "~") (identifier "uVar15")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" (identifier "uVar30") (= "=") (binary_expression "uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" (( "(") (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" (identifier "uVar28") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar28 * 0x40" (identifier "uVar28") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar28 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar19 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014" (binary_expression "((~uVar5 | uVar30) ^ uVar28) + iStack_5c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar28)" (( "(") (binary_expression "(~uVar5 | uVar30) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar30)" (( "(") (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" (~ "~") (identifier "uVar5")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3" (binary_expression "((~uVar9 | uVar25) ^ uVar19) + iStack_30" (parenthesized_expression "((~uVar9 | uVar25) ^ uVar19)" (( "(") (binary_expression "(~uVar9 | uVar25) ^ uVar19" (parenthesized_expression "(~uVar9 | uVar25)" (( "(") (binary_expression "~uVar9 | uVar25" (unary_expression "~uVar9" (~ "~") (identifier "uVar9")) (| "|") (identifier "uVar25")) () ")")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar14") (= "=") (binary_expression "uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" (( "(") (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" (identifier "uVar7") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar7 * 0x200" (identifier "uVar7") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);" (assignment_expression "uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar15") (= "=") (binary_expression "uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar13 >> 0x19 | uVar13 * 0x80)" (( "(") (binary_expression "uVar13 >> 0x19 | uVar13 * 0x80" (binary_expression "uVar13 >> 0x19" (identifier "uVar13") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar13 * 0x80" (identifier "uVar13") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar25 | uVar14) ^ uVar13)" (( "(") (binary_expression "(~uVar25 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar25 | uVar14)" (( "(") (binary_expression "~uVar25 | uVar14" (unary_expression "~uVar25" (~ "~") (identifier "uVar25")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar7 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1" (binary_expression "((~uVar30 | uVar15) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar30 | uVar15) ^ uVar7)" (( "(") (binary_expression "(~uVar30 | uVar15) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar15)" (( "(") (binary_expression "~uVar30 | uVar15" (unary_expression "~uVar30" (~ "~") (identifier "uVar30")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" (( "(") (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" (identifier "uVar29") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar29 * 0x4000" (identifier "uVar29") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);" (assignment_expression "uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar8 >> 0x19 | uVar8 * 0x80)" (( "(") (binary_expression "uVar8 >> 0x19 | uVar8 * 0x80" (binary_expression "uVar8 >> 0x19" (identifier "uVar8") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar8 * 0x80" (identifier "uVar8") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar29 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" (identifier "uVar25") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar25 * 0x400" (identifier "uVar25") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" (identifier "uVar30") (= "=") (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar5) ^ uVar29) + iStack_30" (parenthesized_expression "((~uVar15 | uVar5) ^ uVar29)" (( "(") (binary_expression "(~uVar15 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar15 | uVar5)" (( "(") (binary_expression "~uVar15 | uVar5" (unary_expression "~uVar15" (~ "~") (identifier "uVar15")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" (identifier "uVar28") (= "=") (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_68" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" (( "(") (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" (( "(") (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" (~ "~") (identifier "uVar14")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "DAT_00011018")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar20") (= "=") (binary_expression "uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" (( "(") (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" (identifier "uVar28") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar28 * 0x8000" (identifier "uVar28") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;" (assignment_expression "uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018" (binary_expression "((~uVar31 | uVar20) ^ uVar28) + iStack_60" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar28)" (( "(") (binary_expression "(~uVar31 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar31 | uVar20)" (( "(") (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" (~ "~") (identifier "uVar31")) (| "|") (identifier "uVar20")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "DAT_00011018")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" (identifier "uVar14") (= "=") (binary_expression "uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" (( "(") (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" (identifier "uVar13") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar13 * 0x800" (identifier "uVar13") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);" (assignment_expression "uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar30 >> 0x17 | uVar30 * 0x200)" (( "(") (binary_expression "uVar30 >> 0x17 | uVar30 * 0x200" (binary_expression "uVar30 >> 0x17" (identifier "uVar30") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar30 * 0x200" (identifier "uVar30") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;" (assignment_expression "uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" (identifier "uVar19") (= "=") (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar5 | uVar30) ^ uVar13)" (( "(") (binary_expression "(~uVar5 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar30)" (( "(") (binary_expression "~uVar5 | uVar30" (unary_expression "~uVar5" (~ "~") (identifier "uVar5")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar9") (= "=") (binary_expression "uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" (( "(") (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" (identifier "uVar19") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar19 * 0x2000" (identifier "uVar19") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;" (assignment_expression "uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014" (binary_expression "((~uVar30 | uVar9) ^ uVar19) + iStack_68" (parenthesized_expression "((~uVar30 | uVar9) ^ uVar19)" (( "(") (binary_expression "(~uVar30 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar30 | uVar9)" (( "(") (binary_expression "~uVar30 | uVar9" (unary_expression "~uVar30" (~ "~") (identifier "uVar30")) (| "|") (identifier "uVar9")) () ")")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);" (assignment_expression "uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" (identifier "uVar15") (= "=") (binary_expression "uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar29 >> 0x11 | uVar29 * 0x8000)" (( "(") (binary_expression "uVar29 >> 0x11 | uVar29 * 0x8000" (binary_expression "uVar29 >> 0x11" (identifier "uVar29") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar29 * 0x8000" (identifier "uVar29") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" (identifier "uVar29") (= "=") (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_50" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" (( "(") (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" (( "(") (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" (~ "~") (identifier "uVar20")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar31") (= "=") (binary_expression "uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" (( "(") (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" (identifier "uVar29") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar29 * 0x100" (identifier "uVar29") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar29 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;" (assignment_expression "uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar29) + iStack_34" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar29)" (( "(") (binary_expression "(~uVar14 | uVar31) ^ uVar29" (parenthesized_expression "(~uVar14 | uVar31)" (( "(") (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" (~ "~") (identifier "uVar14")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);" (assignment_expression "uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" (identifier "uVar20") (= "=") (binary_expression "uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar28 >> 0x1a | uVar28 * 0x40)" (( "(") (binary_expression "uVar28 >> 0x1a | uVar28 * 0x40" (binary_expression "uVar28 >> 0x1a" (identifier "uVar28") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar28 * 0x40" (identifier "uVar28") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;" (assignment_expression "uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1" (binary_expression "((~uVar9 | uVar15) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar9 | uVar15) ^ uVar28)" (( "(") (binary_expression "(~uVar9 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar9 | uVar15)" (( "(") (binary_expression "~uVar9 | uVar15" (unary_expression "~uVar9" (~ "~") (identifier "uVar9")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar8") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" (( "(") (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" (identifier "uVar13") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar13 * 0x4000" (identifier "uVar13") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar8) ^ uVar13) + iStack_50" (parenthesized_expression "((~uVar15 | uVar8) ^ uVar13)" (( "(") (binary_expression "(~uVar15 | uVar8) ^ uVar13" (parenthesized_expression "(~uVar15 | uVar8)" (( "(") (binary_expression "~uVar15 | uVar8" (unary_expression "~uVar15" (~ "~") (identifier "uVar15")) (| "|") (identifier "uVar8")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" (( "(") (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" (identifier "uVar19") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar19 * 0x100" (identifier "uVar19") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar19 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;" (assignment_expression "uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3" (binary_expression "((~uVar31 | uVar20) ^ uVar19) + iStack_54" (parenthesized_expression "((~uVar31 | uVar20) ^ uVar19)" (( "(") (binary_expression "(~uVar31 | uVar20) ^ uVar19" (parenthesized_expression "(~uVar31 | uVar20)" (( "(") (binary_expression "~uVar31 | uVar20" (unary_expression "~uVar31" (~ "~") (identifier "uVar31")) (| "|") (identifier "uVar20")) () ")")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar14") (= "=") (binary_expression "uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" (( "(") (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" (identifier "uVar7") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar7 * 0x40" (identifier "uVar7") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;" (assignment_expression "uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3" (binary_expression "((~uVar20 | uVar14) ^ uVar7) + iStack_48" (parenthesized_expression "((~uVar20 | uVar14) ^ uVar7)" (( "(") (binary_expression "(~uVar20 | uVar14) ^ uVar7" (parenthesized_expression "(~uVar20 | uVar14)" (( "(") (binary_expression "~uVar20 | uVar14" (unary_expression "~uVar20" (~ "~") (identifier "uVar20")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);" (assignment_expression "uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" (identifier "uVar31") (= "=") (binary_expression "uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar29 >> 0x12 | uVar29 * 0x4000)" (( "(") (binary_expression "uVar29 >> 0x12 | uVar29 * 0x4000" (binary_expression "uVar29 >> 0x12" (identifier "uVar29") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar29 * 0x4000" (identifier "uVar29") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1" (binary_expression "((~uVar8 | uVar5) ^ uVar29) + uStack_6c" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar29)" (( "(") (binary_expression "(~uVar8 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar8 | uVar5)" (( "(") (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" (~ "~") (identifier "uVar8")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" (identifier "uVar15") (= "=") (binary_expression "uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar28 >> 0x13 | uVar28 * 0x2000)" (( "(") (binary_expression "uVar28 >> 0x13 | uVar28 * 0x2000" (binary_expression "uVar28 >> 0x13" (identifier "uVar28") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar28 * 0x2000" (identifier "uVar28") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar28 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar8 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;" (assignment_expression "uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3" (binary_expression "((~uVar14 | uVar31) ^ uVar8) + iStack_40" (parenthesized_expression "((~uVar14 | uVar31) ^ uVar8)" (( "(") (binary_expression "(~uVar14 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar14 | uVar31)" (( "(") (binary_expression "~uVar14 | uVar31" (unary_expression "~uVar14" (~ "~") (identifier "uVar14")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;" (assignment_expression "uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014" (binary_expression "((~uVar5 | uVar15) ^ uVar28) + iStack_54" (parenthesized_expression "((~uVar5 | uVar15) ^ uVar28)" (( "(") (binary_expression "(~uVar5 | uVar15) ^ uVar28" (parenthesized_expression "(~uVar5 | uVar15)" (( "(") (binary_expression "~uVar5 | uVar15" (unary_expression "~uVar5" (~ "~") (identifier "uVar5")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);" (assignment_expression "uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" (identifier "uVar9") (= "=") (binary_expression "uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar13 >> 0x1a | uVar13 * 0x40)" (( "(") (binary_expression "uVar13 >> 0x1a | uVar13 * 0x40" (binary_expression "uVar13 >> 0x1a" (identifier "uVar13") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar13 * 0x40" (identifier "uVar13") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" (( "(") (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" (identifier "uVar19") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar19 * 0x1000" (identifier "uVar19") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;" (assignment_expression "uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" (identifier "uVar19") (= "=") (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3" (binary_expression "((~uVar31 | uVar30) ^ uVar13) + iStack_4c" (parenthesized_expression "((~uVar31 | uVar30) ^ uVar13)" (( "(") (binary_expression "(~uVar31 | uVar30) ^ uVar13" (parenthesized_expression "(~uVar31 | uVar30)" (( "(") (binary_expression "~uVar31 | uVar30" (unary_expression "~uVar31" (~ "~") (identifier "uVar31")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);" (assignment_expression "uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar25") (= "=") (binary_expression "uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar19 >> 0x13 | uVar19 * 0x2000)" (( "(") (binary_expression "uVar19 >> 0x13 | uVar19 * 0x2000" (binary_expression "uVar19 >> 0x13" (identifier "uVar19") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar19 * 0x2000" (identifier "uVar19") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1" (binary_expression "((~uVar15 | uVar9) ^ uVar19) + iStack_38" (parenthesized_expression "((~uVar15 | uVar9) ^ uVar19)" (( "(") (binary_expression "(~uVar15 | uVar9) ^ uVar19" (parenthesized_expression "(~uVar15 | uVar9)" (( "(") (binary_expression "~uVar15 | uVar9" (unary_expression "~uVar15" (~ "~") (identifier "uVar15")) (| "|") (identifier "uVar9")) () ")")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);" (assignment_expression "uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar29 >> 0x1b | uVar29 * 0x20)" (( "(") (binary_expression "uVar29 >> 0x1b | uVar29 * 0x20" (binary_expression "uVar29 >> 0x1b" (identifier "uVar29") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar29 * 0x20" (identifier "uVar29") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;" (assignment_expression "uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014" (binary_expression "((~uVar9 | uVar5) ^ uVar29) + iStack_40" (parenthesized_expression "((~uVar9 | uVar5) ^ uVar29)" (( "(") (binary_expression "(~uVar9 | uVar5) ^ uVar29" (parenthesized_expression "(~uVar9 | uVar5)" (( "(") (binary_expression "~uVar9 | uVar5" (unary_expression "~uVar9" (~ "~") (identifier "uVar9")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "DAT_00011014")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3" (binary_expression "((~uVar30 | uVar25) ^ uVar7) + iStack_3c" (parenthesized_expression "((~uVar30 | uVar25) ^ uVar7)" (( "(") (binary_expression "(~uVar30 | uVar25) ^ uVar7" (parenthesized_expression "(~uVar30 | uVar25)" (( "(") (binary_expression "~uVar30 | uVar25" (unary_expression "~uVar30" (~ "~") (identifier "uVar30")) (| "|") (identifier "uVar25")) () ")")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar20") (= "=") (binary_expression "uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" (( "(") (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" (identifier "uVar8") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar8 * 0x20" (identifier "uVar8") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar14") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;" (assignment_expression "uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar28) + iStack_64" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar28)" (( "(") (binary_expression "(~uVar25 | uVar20) ^ uVar28" (parenthesized_expression "(~uVar25 | uVar20)" (( "(") (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" (~ "~") (identifier "uVar25")) (| "|") (identifier "uVar20")) () ")")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar31") (= "=") (binary_expression "uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" (( "(") (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" (identifier "uVar13") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar13 * 0x4000" (identifier "uVar13") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar13 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" (identifier "uVar25") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar25 * 0x400" (identifier "uVar25") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;" (assignment_expression "uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1" (binary_expression "((~uVar5 | uVar14) ^ uVar13) + iStack_58" (parenthesized_expression "((~uVar5 | uVar14) ^ uVar13)" (( "(") (binary_expression "(~uVar5 | uVar14) ^ uVar13" (parenthesized_expression "(~uVar5 | uVar14)" (( "(") (binary_expression "~uVar5 | uVar14" (unary_expression "~uVar5" (~ "~") (identifier "uVar5")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar13")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);" (assignment_expression "uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" (identifier "uVar30") (= "=") (binary_expression "uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar19 >> 0x19 | uVar19 * 0x80)" (( "(") (binary_expression "uVar19 >> 0x19 | uVar19 * 0x80" (binary_expression "uVar19 >> 0x19" (identifier "uVar19") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar19 * 0x80" (identifier "uVar19") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;" (assignment_expression "uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" (identifier "uVar15") (= "=") (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1" (binary_expression "((~uVar14 | uVar30) ^ uVar19) + iStack_3c" (parenthesized_expression "((~uVar14 | uVar30) ^ uVar19)" (( "(") (binary_expression "(~uVar14 | uVar30) ^ uVar19" (parenthesized_expression "(~uVar14 | uVar30)" (( "(") (binary_expression "~uVar14 | uVar30" (unary_expression "~uVar14" (~ "~") (identifier "uVar14")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (number_literal "0x6ed9eba1")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;" (assignment_expression "uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_44" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" (( "(") (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" (( "(") (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" (~ "~") (identifier "uVar20")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_00011018")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar29 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar5") (= "=") (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" (( "(") (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" (identifier "uVar15") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar15 * 0x20" (identifier "uVar15") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);" (assignment_expression "uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" (identifier "uVar25") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x13 | uVar7 * 0x2000)" (( "(") (binary_expression "uVar7 >> 0x13 | uVar7 * 0x2000" (binary_expression "uVar7 >> 0x13" (identifier "uVar7") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar7 * 0x2000" (identifier "uVar7") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar15 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;" (assignment_expression "uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" (identifier "uVar9") (= "=") (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018" (binary_expression "((~uVar31 | uVar25) ^ uVar15) + uStack_6c" (parenthesized_expression "((~uVar31 | uVar25) ^ uVar15)" (( "(") (binary_expression "(~uVar31 | uVar25) ^ uVar15" (parenthesized_expression "(~uVar31 | uVar25)" (( "(") (binary_expression "~uVar31 | uVar25" (unary_expression "~uVar31" (~ "~") (identifier "uVar31")) (| "|") (identifier "uVar25")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "DAT_00011018")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" (identifier "uVar28") (= "=") (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" (( "(") (binary_expression "uVar30 ^ uVar5" (identifier "uVar30") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);" (assignment_expression "uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" (identifier "uVar20") (= "=") (binary_expression "uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar9 >> 0x13 | uVar9 * 0x2000)" (( "(") (binary_expression "uVar9 >> 0x13 | uVar9 * 0x2000" (binary_expression "uVar9 >> 0x13" (identifier "uVar9") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar9 * 0x2000" (identifier "uVar9") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" (( "(") (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" (identifier "uVar28") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar28 * 0x800" (identifier "uVar28") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" (( "(") (binary_expression "uVar5 ^ uVar9" (identifier "uVar5") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x14 | uVar19 * 0x1000)" (( "(") (binary_expression "uVar19 >> 0x14 | uVar19 * 0x1000" (binary_expression "uVar19 >> 0x14" (identifier "uVar19") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar19 * 0x1000" (identifier "uVar19") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" (( "(") (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar30" (identifier "uVar9") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "DAT_0001101c")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x12 | uVar7 * 0x4000)" (( "(") (binary_expression "uVar7 >> 0x12 | uVar7 * 0x4000" (binary_expression "uVar7 >> 0x12" (identifier "uVar7") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar7 * 0x4000" (identifier "uVar7") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" (( "(") (binary_expression "uVar30 ^ uVar5" (identifier "uVar30") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" (( "(") (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" (identifier "uVar28") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar28 * 0x8000" (identifier "uVar28") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc" (binary_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar9) & uVar28 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar9) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar9) & uVar28" (parenthesized_expression "(uVar5 ^ uVar9)" (( "(") (binary_expression "uVar5 ^ uVar9" (identifier "uVar5") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (number_literal "0x8f1bbcdc")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" (( "(") (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" (identifier "uVar19") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar19 * 0x4000" (identifier "uVar19") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c" (parenthesized_expression "((uVar9 ^ uVar30) & uVar19 ^ uVar9)" (( "(") (binary_expression "(uVar9 ^ uVar30) & uVar19 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar19" (parenthesized_expression "(uVar9 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar30" (identifier "uVar9") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);" (assignment_expression "uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar5") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x11 | uVar7 * 0x8000)" (( "(") (binary_expression "uVar7 >> 0x11 | uVar7 * 0x8000" (binary_expression "uVar7 >> 0x11" (identifier "uVar7") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar7 * 0x8000" (identifier "uVar7") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar7 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;" (assignment_expression "uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324" (binary_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c" (parenthesized_expression "((uVar30 ^ uVar5) & uVar7 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar5) & uVar7 ^ uVar30" (binary_expression "(uVar30 ^ uVar5) & uVar7" (parenthesized_expression "(uVar30 ^ uVar5)" (( "(") (binary_expression "uVar30 ^ uVar5" (identifier "uVar30") (^ "^") (identifier "uVar5")) () ")")) (& "&") (identifier "uVar7")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);" (assignment_expression "uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" (identifier "uVar14") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x17 | uVar28 * 0x200)" (( "(") (binary_expression "uVar28 >> 0x17 | uVar28 * 0x200" (binary_expression "uVar28 >> 0x17" (identifier "uVar28") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar28 * 0x200" (identifier "uVar28") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;" (assignment_expression "uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" (identifier "uVar28") (= "=") (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3" (binary_expression "((~uVar25 | uVar20) ^ uVar29) + iStack_5c" (parenthesized_expression "((~uVar25 | uVar20) ^ uVar29)" (( "(") (binary_expression "(~uVar25 | uVar20) ^ uVar29" (parenthesized_expression "(~uVar25 | uVar20)" (( "(") (binary_expression "~uVar25 | uVar20" (unary_expression "~uVar25" (~ "~") (identifier "uVar25")) (| "|") (identifier "uVar20")) () ")")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (number_literal "0x6d703ef3")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);" (assignment_expression "uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar31") (= "=") (binary_expression "uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar28 >> 0x19 | uVar28 * 0x80)" (( "(") (binary_expression "uVar28 >> 0x19 | uVar28 * 0x80" (binary_expression "uVar28 >> 0x19" (identifier "uVar28") (>> ">>") (number_literal "0x19")) (| "|") (binary_expression "uVar28 * 0x80" (identifier "uVar28") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;" (assignment_expression "uVar8 = uVar25 >> 0x16 | uVar25 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar25 >> 0x16 | uVar25 * 0x400" (binary_expression "uVar25 >> 0x16" (identifier "uVar25") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar25 * 0x400" (identifier "uVar25") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;" (assignment_expression "uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" (identifier "uVar15") (= "=") (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018" (binary_expression "((~uVar20 | uVar31) ^ uVar8) + iStack_38" (parenthesized_expression "((~uVar20 | uVar31) ^ uVar8)" (( "(") (binary_expression "(~uVar20 | uVar31) ^ uVar8" (parenthesized_expression "(~uVar20 | uVar31)" (( "(") (binary_expression "~uVar20 | uVar31" (unary_expression "~uVar20" (~ "~") (identifier "uVar20")) (| "|") (identifier "uVar31")) () ")")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_00011018")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar29") (= "=") (binary_expression "uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" (( "(") (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" (identifier "uVar15") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar15 * 0x20" (identifier "uVar15") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;" (assignment_expression "uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324" (binary_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar14) & uVar28 ^ uVar5)" (( "(") (binary_expression "(uVar5 ^ uVar14) & uVar28 ^ uVar5" (binary_expression "(uVar5 ^ uVar14) & uVar28" (parenthesized_expression "(uVar5 ^ uVar14)" (( "(") (binary_expression "uVar5 ^ uVar14" (identifier "uVar5") (^ "^") (identifier "uVar14")) () ")")) (& "&") (identifier "uVar28")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);" (assignment_expression "uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" (identifier "uVar9") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x18 | uVar19 * 0x100)" (( "(") (binary_expression "uVar19 >> 0x18 | uVar19 * 0x100" (binary_expression "uVar19 >> 0x18" (identifier "uVar19") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar19 * 0x100" (identifier "uVar19") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;" (assignment_expression "uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324" (binary_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38" (parenthesized_expression "((uVar14 ^ uVar9) & uVar19 ^ uVar14)" (( "(") (binary_expression "(uVar14 ^ uVar9) & uVar19 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar19" (parenthesized_expression "(uVar14 ^ uVar9)" (( "(") (binary_expression "uVar14 ^ uVar9" (identifier "uVar14") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar30") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x17 | uVar7 * 0x200)" (( "(") (binary_expression "uVar7 >> 0x17 | uVar7 * 0x200" (binary_expression "uVar7 >> 0x17" (identifier "uVar7") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar7 * 0x200" (identifier "uVar7") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar7 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar15 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;" (assignment_expression "uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024" (binary_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c" (parenthesized_expression "((uVar31 ^ uVar7) & uVar29 ^ uVar7)" (( "(") (binary_expression "(uVar31 ^ uVar7) & uVar29 ^ uVar7" (binary_expression "(uVar31 ^ uVar7) & uVar29" (parenthesized_expression "(uVar31 ^ uVar7)" (( "(") (binary_expression "uVar31 ^ uVar7" (identifier "uVar31") (^ "^") (identifier "uVar7")) () ")")) (& "&") (identifier "uVar29")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar5") (= "=") (binary_expression "uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" (( "(") (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" (identifier "uVar13") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar13 * 0x8000" (identifier "uVar13") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024" (binary_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54" (parenthesized_expression "((uVar29 ^ uVar15) & uVar5 ^ uVar15)" (( "(") (binary_expression "(uVar29 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar29 ^ uVar15) & uVar5" (parenthesized_expression "(uVar29 ^ uVar15)" (( "(") (binary_expression "uVar29 ^ uVar15" (identifier "uVar29") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;" (assignment_expression "uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" (identifier "uVar14") (= "=") (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324" (binary_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60" (parenthesized_expression "((uVar9 ^ uVar30) & uVar13 ^ uVar9)" (( "(") (binary_expression "(uVar9 ^ uVar30) & uVar13 ^ uVar9" (binary_expression "(uVar9 ^ uVar30) & uVar13" (parenthesized_expression "(uVar9 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar30" (identifier "uVar9") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar31") (= "=") (binary_expression "uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" (( "(") (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" (identifier "uVar8") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar8 * 0x20" (identifier "uVar8") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;" (assignment_expression "uVar28 = uVar29 >> 0x16 | uVar29 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar29 >> 0x16 | uVar29 * 0x400" (binary_expression "uVar29 >> 0x16" (identifier "uVar29") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar29 * 0x400" (identifier "uVar29") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);" (assignment_expression "uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" (identifier "uVar14") (= "=") (binary_expression "uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar14 >> 0x12 | uVar14 * 0x4000)" (( "(") (binary_expression "uVar14 >> 0x12 | uVar14 * 0x4000" (binary_expression "uVar14 >> 0x12" (identifier "uVar14") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar14 * 0x4000" (identifier "uVar14") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;" (assignment_expression "uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c" (parenthesized_expression "((uVar5 ^ uVar28) & uVar31 ^ uVar28)" (( "(") (binary_expression "(uVar5 ^ uVar28) & uVar31 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar31" (parenthesized_expression "(uVar5 ^ uVar28)" (( "(") (binary_expression "uVar5 ^ uVar28" (identifier "uVar5") (^ "^") (identifier "uVar28")) () ")")) (& "&") (identifier "uVar31")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;" (assignment_expression "uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" (identifier "uVar9") (= "=") (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c" (binary_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50" (parenthesized_expression "((uVar30 ^ uVar14) & uVar29 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar14) & uVar29 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar29" (parenthesized_expression "(uVar30 ^ uVar14)" (( "(") (binary_expression "uVar30 ^ uVar14" (identifier "uVar30") (^ "^") (identifier "uVar14")) () ")")) (& "&") (identifier "uVar29")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "DAT_0001101c")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);" (assignment_expression "uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" (identifier "uVar5") (= "=") (binary_expression "uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar7 >> 0x18 | uVar7 * 0x100)" (( "(") (binary_expression "uVar7 >> 0x18 | uVar7 * 0x100" (binary_expression "uVar7 >> 0x18" (identifier "uVar7") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar7 * 0x100" (identifier "uVar7") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" (identifier "uVar8") (= "=") (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9" (binary_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68" (parenthesized_expression "((uVar31 ^ uVar19) & uVar5 ^ uVar19)" (( "(") (binary_expression "(uVar31 ^ uVar19) & uVar5 ^ uVar19" (binary_expression "(uVar31 ^ uVar19) & uVar5" (parenthesized_expression "(uVar31 ^ uVar19)" (( "(") (binary_expression "uVar31 ^ uVar19" (identifier "uVar31") (^ "^") (identifier "uVar19")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar19")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);" (assignment_expression "uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" (identifier "uVar20") (= "=") (binary_expression "uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar9 >> 0x1b | uVar9 * 0x20)" (( "(") (binary_expression "uVar9 >> 0x1b | uVar9 * 0x20" (binary_expression "uVar9 >> 0x1b" (identifier "uVar9") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar9 * 0x20" (identifier "uVar9") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar7 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);" (assignment_expression "uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" (identifier "uVar15") (= "=") (binary_expression "uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar8 >> 0x15 | uVar8 * 0x800)" (( "(") (binary_expression "uVar8 >> 0x15 | uVar8 * 0x800" (binary_expression "uVar8 >> 0x15" (identifier "uVar8") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar8 * 0x800" (identifier "uVar8") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;" (assignment_expression "uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" (identifier "uVar30") (= "=") (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30" (parenthesized_expression "((uVar14 ^ uVar20) & uVar8 ^ uVar14)" (( "(") (binary_expression "(uVar14 ^ uVar20) & uVar8 ^ uVar14" (binary_expression "(uVar14 ^ uVar20) & uVar8" (parenthesized_expression "(uVar14 ^ uVar20)" (( "(") (binary_expression "uVar14 ^ uVar20" (identifier "uVar14") (^ "^") (identifier "uVar20")) () ")")) (& "&") (identifier "uVar8")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "DAT_0001101c")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" (identifier "uVar13") (= "=") (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60" (parenthesized_expression "((uVar5 ^ uVar7) & uVar15 ^ uVar7)" (( "(") (binary_expression "(uVar5 ^ uVar7) & uVar15 ^ uVar7" (binary_expression "(uVar5 ^ uVar7) & uVar15" (parenthesized_expression "(uVar5 ^ uVar7)" (( "(") (binary_expression "uVar5 ^ uVar7" (identifier "uVar5") (^ "^") (identifier "uVar7")) () ")")) (& "&") (identifier "uVar15")) (^ "^") (identifier "uVar7")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" (identifier "uVar31") (= "=") (binary_expression "uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" (( "(") (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" (identifier "uVar30") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar30 * 0x40" (identifier "uVar30") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x12 | uVar13 * 0x4000)" (( "(") (binary_expression "uVar13 >> 0x12 | uVar13 * 0x4000" (binary_expression "uVar13 >> 0x12" (identifier "uVar13") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar13 * 0x4000" (identifier "uVar13") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar13 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;" (assignment_expression "uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" (( "(") (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" (( "(") (binary_expression "uVar15 ^ uVar28" (identifier "uVar15") (^ "^") (identifier "uVar28")) () ")")) (& "&") (identifier "uVar9")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;" (assignment_expression "uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c" (binary_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34" (parenthesized_expression "((uVar20 ^ uVar31) & uVar13 ^ uVar20)" (( "(") (binary_expression "(uVar20 ^ uVar31) & uVar13 ^ uVar20" (binary_expression "(uVar20 ^ uVar31) & uVar13" (parenthesized_expression "(uVar20 ^ uVar31)" (( "(") (binary_expression "uVar20 ^ uVar31" (identifier "uVar20") (^ "^") (identifier "uVar31")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar20")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_0001101c")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" (identifier "uVar5") (= "=") (binary_expression "uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar19 >> 0x12 | uVar19 * 0x4000)" (( "(") (binary_expression "uVar19 >> 0x12 | uVar19 * 0x4000" (binary_expression "uVar19 >> 0x12" (identifier "uVar19") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar19 * 0x4000" (identifier "uVar19") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar30") (= "=") (binary_expression "uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" (( "(") (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" (identifier "uVar29") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar29 * 0x100" (identifier "uVar29") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;" (assignment_expression "uVar19 = uVar20 >> 0x16 | uVar20 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar20 >> 0x16 | uVar20 * 0x400" (binary_expression "uVar20 >> 0x16" (identifier "uVar20") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar20 * 0x400" (identifier "uVar20") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" (identifier "uVar15") (= "=") (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" (( "(") (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" (( "(") (binary_expression "uVar9 ^ uVar29" (identifier "uVar9") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;" (assignment_expression "uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" (identifier "uVar7") (= "=") (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324" (binary_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58" (parenthesized_expression "((uVar31 ^ uVar30) & uVar19 ^ uVar31)" (( "(") (binary_expression "(uVar31 ^ uVar30) & uVar19 ^ uVar31" (binary_expression "(uVar31 ^ uVar30) & uVar19" (parenthesized_expression "(uVar31 ^ uVar30)" (( "(") (binary_expression "uVar31 ^ uVar30" (identifier "uVar31") (^ "^") (identifier "uVar30")) () ")")) (& "&") (identifier "uVar19")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar14") (= "=") (binary_expression "uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" (( "(") (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" (identifier "uVar7") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar7 * 0x40" (identifier "uVar7") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);" (assignment_expression "uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" (identifier "uVar15") (= "=") (binary_expression "uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar15 >> 0x1a | uVar15 * 0x40)" (( "(") (binary_expression "uVar15 >> 0x1a | uVar15 * 0x40" (binary_expression "uVar15 >> 0x1a" (identifier "uVar15") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar15 * 0x40" (identifier "uVar15") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9" (binary_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c" (parenthesized_expression "((uVar5 ^ uVar8) & uVar15 ^ uVar8)" (( "(") (binary_expression "(uVar5 ^ uVar8) & uVar15 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar15" (parenthesized_expression "(uVar5 ^ uVar8)" (( "(") (binary_expression "uVar5 ^ uVar8" (identifier "uVar5") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar15")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" (identifier "uVar9") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x12 | uVar28 * 0x4000)" (( "(") (binary_expression "uVar28 >> 0x12 | uVar28 * 0x4000" (binary_expression "uVar28 >> 0x12" (identifier "uVar28") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar28 * 0x4000" (identifier "uVar28") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;" (assignment_expression "uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9" (binary_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58" (parenthesized_expression "((uVar15 ^ uVar28) & uVar9 ^ uVar28)" (( "(") (binary_expression "(uVar15 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar15 ^ uVar28) & uVar9" (parenthesized_expression "(uVar15 ^ uVar28)" (( "(") (binary_expression "uVar15 ^ uVar28" (identifier "uVar15") (^ "^") (identifier "uVar28")) () ")")) (& "&") (identifier "uVar9")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);" (assignment_expression "uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" (identifier "uVar5") (= "=") (binary_expression "uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar29 >> 0x1a | uVar29 * 0x40)" (( "(") (binary_expression "uVar29 >> 0x1a | uVar29 * 0x40" (binary_expression "uVar29 >> 0x1a" (identifier "uVar29") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar29 * 0x40" (identifier "uVar29") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar29 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;" (assignment_expression "uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" (identifier "uVar15") (= "=") (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c" (parenthesized_expression "((uVar9 ^ uVar29) & uVar5 ^ uVar29)" (( "(") (binary_expression "(uVar9 ^ uVar29) & uVar5 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uVar5" (parenthesized_expression "(uVar9 ^ uVar29)" (( "(") (binary_expression "uVar9 ^ uVar29" (identifier "uVar9") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" (identifier "uVar9") (= "=") (binary_expression "uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar15 >> 0x17 | uVar15 * 0x200)" (( "(") (binary_expression "uVar15 >> 0x17 | uVar15 * 0x200" (binary_expression "uVar15 >> 0x17" (identifier "uVar15") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar15 * 0x200" (identifier "uVar15") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar15 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024" (binary_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64" (parenthesized_expression "((uVar5 ^ uVar8) & uVar9 ^ uVar8)" (( "(") (binary_expression "(uVar5 ^ uVar8) & uVar9 ^ uVar8" (binary_expression "(uVar5 ^ uVar8) & uVar9" (parenthesized_expression "(uVar5 ^ uVar8)" (( "(") (binary_expression "uVar5 ^ uVar8" (identifier "uVar5") (^ "^") (identifier "uVar8")) () ")")) (& "&") (identifier "uVar9")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar5") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024" (binary_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38" (parenthesized_expression "((uVar9 ^ uVar15) & uVar5 ^ uVar15)" (( "(") (binary_expression "(uVar9 ^ uVar15) & uVar5 ^ uVar15" (binary_expression "(uVar9 ^ uVar15) & uVar5" (parenthesized_expression "(uVar9 ^ uVar15)" (( "(") (binary_expression "uVar9 ^ uVar15" (identifier "uVar9") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uVar5")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);" (assignment_expression "uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" (identifier "uVar9") (= "=") (binary_expression "uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar29 >> 0x17 | uVar29 * 0x200)" (( "(") (binary_expression "uVar29 >> 0x17 | uVar29 * 0x200" (binary_expression "uVar29 >> 0x17" (identifier "uVar29") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar29 * 0x200" (identifier "uVar29") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;" (assignment_expression "uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024" (binary_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48" (parenthesized_expression "((uVar5 ^ uVar28) & uVar9 ^ uVar28)" (( "(") (binary_expression "(uVar5 ^ uVar28) & uVar9 ^ uVar28" (binary_expression "(uVar5 ^ uVar28) & uVar9" (parenthesized_expression "(uVar5 ^ uVar28)" (( "(") (binary_expression "uVar5 ^ uVar28" (identifier "uVar5") (^ "^") (identifier "uVar28")) () ")")) (& "&") (identifier "uVar9")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar29 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);" (assignment_expression "uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" (identifier "uStack_84") (= "=") (binary_expression "uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar8 >> 0x14 | uVar8 * 0x1000)" (( "(") (binary_expression "uVar8 >> 0x14 | uVar8 * 0x1000" (binary_expression "uVar8 >> 0x14" (identifier "uVar8") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar8 * 0x1000" (identifier "uVar8") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;" (assignment_expression "uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" (identifier "uVar8") (= "=") (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9" (binary_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50" (parenthesized_expression "((uVar9 ^ uVar29) & uStack_84 ^ uVar29)" (( "(") (binary_expression "(uVar9 ^ uVar29) & uStack_84 ^ uVar29" (binary_expression "(uVar9 ^ uVar29) & uStack_84" (parenthesized_expression "(uVar9 ^ uVar29)" (( "(") (binary_expression "uVar9 ^ uVar29" (identifier "uVar9") (^ "^") (identifier "uVar29")) () ")")) (& "&") (identifier "uStack_84")) (^ "^") (identifier "uVar29")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (number_literal "0x7a6d76e9")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uStack_80") (= "=") (binary_expression "uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" (( "(") (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" (identifier "uVar8") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar8 * 0x20" (identifier "uVar8") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar15 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar15") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;" (assignment_expression "uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324" (binary_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54" (parenthesized_expression "((uVar30 ^ uVar14) & uVar8 ^ uVar30)" (( "(") (binary_expression "(uVar30 ^ uVar14) & uVar8 ^ uVar30" (binary_expression "(uVar30 ^ uVar14) & uVar8" (parenthesized_expression "(uVar30 ^ uVar14)" (( "(") (binary_expression "uVar30 ^ uVar14" (identifier "uVar30") (^ "^") (identifier "uVar14")) () ")")) (& "&") (identifier "uVar8")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (number_literal "-0x70e44324")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);" (assignment_expression "uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" (identifier "uVar9") (= "=") (binary_expression "uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar13 >> 0x1b | uVar13 * 0x20)" (( "(") (binary_expression "uVar13 >> 0x1b | uVar13 * 0x20" (binary_expression "uVar13 >> 0x1b" (identifier "uVar13") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar13 * 0x20" (identifier "uVar13") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;" (assignment_expression "uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024" (binary_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44" (parenthesized_expression "((uStack_84 ^ uVar15) & uStack_80 ^ uVar15)" (( "(") (binary_expression "(uStack_84 ^ uVar15) & uStack_80 ^ uVar15" (binary_expression "(uStack_84 ^ uVar15) & uStack_80" (parenthesized_expression "(uStack_84 ^ uVar15)" (( "(") (binary_expression "uStack_84 ^ uVar15" (identifier "uStack_84") (^ "^") (identifier "uVar15")) () ")")) (& "&") (identifier "uStack_80")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);" (assignment_expression "uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uStack_7c") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x11 | uVar28 * 0x8000)" (( "(") (binary_expression "uVar28 >> 0x11 | uVar28 * 0x8000" (binary_expression "uVar28 >> 0x11" (identifier "uVar28") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar28 * 0x8000" (identifier "uVar28") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;" (assignment_expression "uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" (identifier "uVar28") (= "=") (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c" (binary_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64" (parenthesized_expression "((uVar14 ^ uVar9) & uVar13 ^ uVar14)" (( "(") (binary_expression "(uVar14 ^ uVar9) & uVar13 ^ uVar14" (binary_expression "(uVar14 ^ uVar9) & uVar13" (parenthesized_expression "(uVar14 ^ uVar9)" (( "(") (binary_expression "uVar14 ^ uVar9" (identifier "uVar14") (^ "^") (identifier "uVar9")) () ")")) (& "&") (identifier "uVar13")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "DAT_0001101c")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar5") (= "=") (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;" (assignment_expression "uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400" (identifier "uVar28") (= "=") (binary_expression "uStack_7c >> 0x16 | uStack_7c * 0x400" (binary_expression "uStack_7c >> 0x16" (identifier "uStack_7c") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_7c * 0x400" (identifier "uStack_7c") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar19 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020" (binary_expression "((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c" (parenthesized_expression "((~uVar7 | uStack_7c) ^ uVar5)" (( "(") (binary_expression "(~uVar7 | uStack_7c) ^ uVar5" (parenthesized_expression "(~uVar7 | uStack_7c)" (( "(") (binary_expression "~uVar7 | uStack_7c" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uStack_7c")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);" (assignment_expression "uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" (identifier "uVar30") (= "=") (binary_expression "uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar8 >> 0x17 | uVar8 * 0x200)" (( "(") (binary_expression "uVar8 >> 0x17 | uVar8 * 0x200" (binary_expression "uVar8 >> 0x17" (identifier "uVar8") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar8 * 0x200" (identifier "uVar8") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020" (binary_expression "((~uVar28 | uVar5) ^ uVar30) + uStack_6c" (parenthesized_expression "((~uVar28 | uVar5) ^ uVar30)" (( "(") (binary_expression "(~uVar28 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar28 | uVar5)" (( "(") (binary_expression "~uVar28 | uVar5" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);" (assignment_expression "uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar5") (= "=") (binary_expression "uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar13 >> 0x11 | uVar13 * 0x8000)" (( "(") (binary_expression "uVar13 >> 0x11 | uVar13 * 0x8000" (binary_expression "uVar13 >> 0x11" (identifier "uVar13") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar13 * 0x8000" (identifier "uVar13") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar13 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020" (binary_expression "((~uVar19 | uVar30) ^ uVar5) + iStack_58" (parenthesized_expression "((~uVar19 | uVar30) ^ uVar5)" (( "(") (binary_expression "(~uVar19 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar19 | uVar30)" (( "(") (binary_expression "~uVar19 | uVar30" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar30") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" (( "(") (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" (identifier "uVar7") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar7 * 0x20" (identifier "uVar7") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020" (binary_expression "((~uVar8 | uVar5) ^ uVar30) + iStack_48" (parenthesized_expression "((~uVar8 | uVar5) ^ uVar30)" (( "(") (binary_expression "(~uVar8 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar8 | uVar5)" (( "(") (binary_expression "~uVar8 | uVar5" (unary_expression "~uVar8" (~ "~") (identifier "uVar8")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar5") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x15 | uVar28 * 0x800)" (( "(") (binary_expression "uVar28 >> 0x15 | uVar28 * 0x800" (binary_expression "uVar28 >> 0x15" (identifier "uVar28") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar28 * 0x800" (identifier "uVar28") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;" (assignment_expression "uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" (identifier "uVar19") (= "=") (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020" (binary_expression "((~uVar13 | uVar30) ^ uVar5) + iStack_50" (parenthesized_expression "((~uVar13 | uVar30) ^ uVar5)" (( "(") (binary_expression "(~uVar13 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar30)" (( "(") (binary_expression "~uVar13 | uVar30" (unary_expression "~uVar13" (~ "~") (identifier "uVar13")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" (identifier "uVar30") (= "=") (binary_expression "uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar19 >> 0x1a | uVar19 * 0x40)" (( "(") (binary_expression "uVar19 >> 0x1a | uVar19 * 0x40" (binary_expression "uVar19 >> 0x1a" (identifier "uVar19") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar19 * 0x40" (identifier "uVar19") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar19 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_3c" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" (( "(") (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" (( "(") (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);" (assignment_expression "uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" (identifier "uVar5") (= "=") (binary_expression "uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar8 >> 0x18 | uVar8 * 0x100)" (( "(") (binary_expression "uVar8 >> 0x18 | uVar8 * 0x100" (binary_expression "uVar8 >> 0x18" (identifier "uVar8") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar8 * 0x100" (identifier "uVar8") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar8 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;" (assignment_expression "uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" (identifier "uVar13") (= "=") (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020" (binary_expression "((~uVar28 | uVar30) ^ uVar5) + iStack_64" (parenthesized_expression "((~uVar28 | uVar30) ^ uVar5)" (( "(") (binary_expression "(~uVar28 | uVar30) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar30)" (( "(") (binary_expression "~uVar28 | uVar30" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);" (assignment_expression "uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" (identifier "uVar30") (= "=") (binary_expression "uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar13 >> 0x13 | uVar13 * 0x2000)" (( "(") (binary_expression "uVar13 >> 0x13 | uVar13 * 0x2000" (binary_expression "uVar13 >> 0x13" (identifier "uVar13") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar13 * 0x2000" (identifier "uVar13") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar13 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;" (assignment_expression "uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" (identifier "uVar7") (= "=") (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar30) + iStack_44" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar30)" (( "(") (binary_expression "(~uVar19 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar19 | uVar5)" (( "(") (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);" (assignment_expression "uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" (identifier "uVar14") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x14 | uVar7 * 0x1000)" (( "(") (binary_expression "uVar7 >> 0x14 | uVar7 * 0x1000" (binary_expression "uVar7 >> 0x14" (identifier "uVar7") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar7 * 0x1000" (identifier "uVar7") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;" (assignment_expression "uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" (identifier "uVar28") (= "=") (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020" (binary_expression "((~uVar8 | uVar30) ^ uVar14) + iStack_34" (parenthesized_expression "((~uVar8 | uVar30) ^ uVar14)" (( "(") (binary_expression "(~uVar8 | uVar30) ^ uVar14" (parenthesized_expression "(~uVar8 | uVar30)" (( "(") (binary_expression "~uVar8 | uVar30" (unary_expression "~uVar8" (~ "~") (identifier "uVar8")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" (identifier "uVar5") (= "=") (binary_expression "uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" (( "(") (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" (identifier "uVar28") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar28 * 0x20" (identifier "uVar28") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;" (assignment_expression "uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" (identifier "uVar28") (= "=") (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020" (binary_expression "((~uVar13 | uVar14) ^ uVar5) + iStack_68" (parenthesized_expression "((~uVar13 | uVar14) ^ uVar5)" (( "(") (binary_expression "(~uVar13 | uVar14) ^ uVar5" (parenthesized_expression "(~uVar13 | uVar14)" (( "(") (binary_expression "~uVar13 | uVar14" (unary_expression "~uVar13" (~ "~") (identifier "uVar13")) (| "|") (identifier "uVar14")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar30") (= "=") (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uStack_78") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uStack_74 = ~uStack_78;" (assignment_expression "uStack_74 = ~uStack_78" (identifier "uStack_74") (= "=") (unary_expression "~uStack_78" (~ "~") (identifier "uStack_78"))) (; ";")) (expression_statement "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uStack_a0") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;" (assignment_expression "uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uStack_84 >> 0x16 | uStack_84 * 0x400" (binary_expression "uStack_84 >> 0x16" (identifier "uStack_84") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_84 * 0x400" (identifier "uStack_84") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;" (assignment_expression "uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" (identifier "uVar29") (= "=") (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024" (binary_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34" (parenthesized_expression "((uStack_80 ^ uVar28) & uStack_7c ^ uVar28)" (( "(") (binary_expression "(uStack_80 ^ uVar28) & uStack_7c ^ uVar28" (binary_expression "(uStack_80 ^ uVar28) & uStack_7c" (parenthesized_expression "(uStack_80 ^ uVar28)" (( "(") (binary_expression "uStack_80 ^ uVar28" (identifier "uStack_80") (^ "^") (identifier "uVar28")) () ")")) (& "&") (identifier "uStack_7c")) (^ "^") (identifier "uVar28")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "DAT_00011024")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);" (assignment_expression "uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar14") (= "=") (binary_expression "uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100)" (identifier "uVar15") (+ "+") (parenthesized_expression "(uVar29 >> 0x18 | uVar29 * 0x100)" (( "(") (binary_expression "uVar29 >> 0x18 | uVar29 * 0x100" (binary_expression "uVar29 >> 0x18" (identifier "uVar29") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar29 * 0x100" (identifier "uVar29") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;" (assignment_expression "uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uStack_80 >> 0x16 | uStack_80 * 0x400" (binary_expression "uStack_80 >> 0x16" (identifier "uStack_80") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uStack_80 * 0x400" (identifier "uStack_80") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;" (assignment_expression "uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" (identifier "uVar8") (= "=") (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020" (binary_expression "((~uVar7 | uVar5) ^ uVar30) + iStack_60" (parenthesized_expression "((~uVar7 | uVar5) ^ uVar30)" (( "(") (binary_expression "(~uVar7 | uVar5) ^ uVar30" (parenthesized_expression "(~uVar7 | uVar5)" (( "(") (binary_expression "~uVar7 | uVar5" (unary_expression "~uVar7" (~ "~") (identifier "uVar7")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar19 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;" (assignment_expression "uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" (identifier "uVar15") (= "=") (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15" (binary_expression "(uVar9 ^ uVar29 ^ uVar14) + iStack_3c" (parenthesized_expression "(uVar9 ^ uVar29 ^ uVar14)" (( "(") (binary_expression "uVar9 ^ uVar29 ^ uVar14" (binary_expression "uVar9 ^ uVar29" (identifier "uVar9") (^ "^") (identifier "uVar29")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_3c")) (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);" (assignment_expression "uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" (identifier "uVar31") (= "=") (binary_expression "uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar15 >> 0x18 | uVar15 * 0x100)" (( "(") (binary_expression "uVar15 >> 0x18 | uVar15 * 0x100" (binary_expression "uVar15 >> 0x18" (identifier "uVar15") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar15 * 0x100" (identifier "uVar15") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);" (assignment_expression "uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" (identifier "uVar15") (= "=") (binary_expression "uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar8 >> 0x13 | uVar8 * 0x2000)" (( "(") (binary_expression "uVar8 >> 0x13 | uVar8 * 0x2000" (binary_expression "uVar8 >> 0x13" (identifier "uVar8") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar8 * 0x2000" (identifier "uVar8") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;" (assignment_expression "uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" (identifier "uVar28") (= "=") (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28" (binary_expression "(uVar14 ^ uVar19 ^ uVar31) + iStack_30" (parenthesized_expression "(uVar14 ^ uVar19 ^ uVar31)" (( "(") (binary_expression "uVar14 ^ uVar19 ^ uVar31" (binary_expression "uVar14 ^ uVar19" (identifier "uVar14") (^ "^") (identifier "uVar19")) (^ "^") (identifier "uVar31")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" (identifier "uVar9") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x1b | uVar28 * 0x20)" (( "(") (binary_expression "uVar28 >> 0x1b | uVar28 * 0x20" (binary_expression "uVar28 >> 0x1b" (identifier "uVar28") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar28 * 0x20" (identifier "uVar28") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar28 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;" (assignment_expression "uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" (identifier "uVar8") (= "=") (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020" (binary_expression "((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c" (parenthesized_expression "((~uStack_a0 | uVar30) ^ uVar15)" (( "(") (binary_expression "(~uStack_a0 | uVar30) ^ uVar15" (parenthesized_expression "(~uStack_a0 | uVar30)" (( "(") (binary_expression "~uStack_a0 | uVar30" (unary_expression "~uStack_a0" (~ "~") (identifier "uStack_a0")) (| "|") (identifier "uVar30")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar13 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar13") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);" (assignment_expression "uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" (identifier "uVar5") (= "=") (binary_expression "uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar8 >> 0x12 | uVar8 * 0x4000)" (( "(") (binary_expression "uVar8 >> 0x12 | uVar8 * 0x4000" (binary_expression "uVar8 >> 0x12" (identifier "uVar8") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar8 * 0x4000" (identifier "uVar8") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;" (assignment_expression "uVar8 = uVar31 >> 0x16 | uVar31 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar31 >> 0x16 | uVar31 * 0x400" (binary_expression "uVar31 >> 0x16" (identifier "uVar31") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar31 * 0x400" (identifier "uVar31") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;" (assignment_expression "uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" (identifier "uVar29") (= "=") (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29" (binary_expression "(uVar31 ^ uVar28 ^ uVar9) + iStack_44" (parenthesized_expression "(uVar31 ^ uVar28 ^ uVar9)" (( "(") (binary_expression "uVar31 ^ uVar28 ^ uVar9" (binary_expression "uVar31 ^ uVar28" (identifier "uVar31") (^ "^") (identifier "uVar28")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_44")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);" (assignment_expression "uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" (identifier "uVar30") (= "=") (binary_expression "uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000)" (identifier "uVar19") (+ "+") (parenthesized_expression "(uVar29 >> 0x14 | uVar29 * 0x1000)" (( "(") (binary_expression "uVar29 >> 0x14 | uVar29 * 0x1000" (binary_expression "uVar29 >> 0x14" (identifier "uVar29") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar29 * 0x1000" (identifier "uVar29") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;" (assignment_expression "uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" (identifier "uVar29") (= "=") (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020" (binary_expression "((uStack_74 | uVar15) ^ uVar5) + iStack_40" (parenthesized_expression "((uStack_74 | uVar15) ^ uVar5)" (( "(") (binary_expression "(uStack_74 | uVar15) ^ uVar5" (parenthesized_expression "(uStack_74 | uVar15)" (( "(") (binary_expression "uStack_74 | uVar15" (identifier "uStack_74") (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;" (assignment_expression "uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" (identifier "uVar19") (= "=") (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_5c" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" (identifier "uVar9") (^ "^") (identifier "uVar8")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_5c")) (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);" (assignment_expression "uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" (identifier "uVar15") (= "=") (binary_expression "uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800)" (identifier "uStack_a0") (+ "+") (parenthesized_expression "(uVar29 >> 0x15 | uVar29 * 0x800)" (( "(") (binary_expression "uVar29 >> 0x15 | uVar29 * 0x800" (binary_expression "uVar29 >> 0x15" (identifier "uVar29") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar29 * 0x800" (identifier "uVar29") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);" (assignment_expression "uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar9") (= "=") (binary_expression "uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar19 >> 0x17 | uVar19 * 0x200)" (( "(") (binary_expression "uVar19 >> 0x17 | uVar19 * 0x200" (binary_expression "uVar19 >> 0x17" (identifier "uVar19") (>> ">>") (number_literal "0x17")) (| "|") (binary_expression "uVar19 * 0x200" (identifier "uVar19") (* "*") (number_literal "0x200"))) () ")")))) (; ";")) (expression_statement "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;" (assignment_expression "uVar19 = uVar15 >> 0x16 | uVar15 * 0x400" (identifier "uVar19") (= "=") (binary_expression "uVar15 >> 0x16 | uVar15 * 0x400" (binary_expression "uVar15 >> 0x16" (identifier "uVar15") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar15 * 0x400" (identifier "uVar15") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;" (assignment_expression "uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" (identifier "uVar28") (= "=") (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_68" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" (identifier "uVar30") (^ "^") (identifier "uVar29")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_68")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);" (assignment_expression "uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar14") (= "=") (binary_expression "uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar28 >> 0x14 | uVar28 * 0x1000)" (( "(") (binary_expression "uVar28 >> 0x14 | uVar28 * 0x1000" (binary_expression "uVar28 >> 0x14" (identifier "uVar28") (>> ">>") (number_literal "0x14")) (| "|") (binary_expression "uVar28 * 0x1000" (identifier "uVar28") (* "*") (number_literal "0x1000"))) () ")")))) (; ";")) (expression_statement "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;" (assignment_expression "uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" (identifier "uVar8") (= "=") (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_58" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" (( "(") (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" (identifier "uVar9") (^ "^") (identifier "uVar7")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_58")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar28 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);" (assignment_expression "uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar8") (= "=") (binary_expression "uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar8 >> 0x1b | uVar8 * 0x20)" (( "(") (binary_expression "uVar8 >> 0x1b | uVar8 * 0x20" (binary_expression "uVar8 >> 0x1b" (identifier "uVar8") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar8 * 0x20" (identifier "uVar8") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;" (assignment_expression "uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" (identifier "uVar30") (= "=") (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29" (binary_expression "(uVar14 ^ uVar28 ^ uVar8) + iStack_4c" (parenthesized_expression "(uVar14 ^ uVar28 ^ uVar8)" (( "(") (binary_expression "uVar14 ^ uVar28 ^ uVar8" (binary_expression "uVar14 ^ uVar28" (identifier "uVar14") (^ "^") (identifier "uVar28")) (^ "^") (identifier "uVar8")) () ")")) (+ "+") (identifier "iStack_4c")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar29 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);" (assignment_expression "uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uVar9") (= "=") (binary_expression "uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar30 >> 0x12 | uVar30 * 0x4000)" (( "(") (binary_expression "uVar30 >> 0x12 | uVar30 * 0x4000" (binary_expression "uVar30 >> 0x12" (identifier "uVar30") (>> ">>") (number_literal "0x12")) (| "|") (binary_expression "uVar30 * 0x4000" (identifier "uVar30") (* "*") (number_literal "0x4000"))) () ")")))) (; ";")) (expression_statement "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;" (assignment_expression "uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" (identifier "uVar30") (= "=") (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7" (binary_expression "(uVar8 ^ uVar29 ^ uVar9) + iStack_50" (parenthesized_expression "(uVar8 ^ uVar29 ^ uVar9)" (( "(") (binary_expression "uVar8 ^ uVar29 ^ uVar9" (binary_expression "uVar8 ^ uVar29" (identifier "uVar8") (^ "^") (identifier "uVar29")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_50")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;" (assignment_expression "uVar7 = uVar8 >> 0x16 | uVar8 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar8 >> 0x16 | uVar8 * 0x400" (binary_expression "uVar8 >> 0x16" (identifier "uVar8") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar8 * 0x400" (identifier "uVar8") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (identifier "uVar30") (= "=") (binary_expression "uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" (( "(") (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" (identifier "uVar30") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar30 * 0x40" (identifier "uVar30") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar8 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;" (assignment_expression "uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" (identifier "uVar28") (= "=") (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28" (binary_expression "(uVar9 ^ uVar7 ^ uVar30) + iStack_54" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar7 ^ uVar30" (binary_expression "uVar9 ^ uVar7" (identifier "uVar9") (^ "^") (identifier "uVar7")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);" (assignment_expression "uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" (identifier "uVar9") (= "=") (binary_expression "uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar28 >> 0x18 | uVar28 * 0x100)" (( "(") (binary_expression "uVar28 >> 0x18 | uVar28 * 0x100" (binary_expression "uVar28 >> 0x18" (identifier "uVar28") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar28 * 0x100" (identifier "uVar28") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;" (assignment_expression "uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" (identifier "uVar29") (= "=") (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29" (binary_expression "(uVar30 ^ uVar8 ^ uVar9) + iStack_64" (parenthesized_expression "(uVar30 ^ uVar8 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar8 ^ uVar9" (binary_expression "uVar30 ^ uVar8" (identifier "uVar30") (^ "^") (identifier "uVar8")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_64")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar28 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);" (assignment_expression "uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar14") (= "=") (binary_expression "uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar29 >> 0x13 | uVar29 * 0x2000)" (( "(") (binary_expression "uVar29 >> 0x13 | uVar29 * 0x2000" (binary_expression "uVar29 >> 0x13" (identifier "uVar29") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar29 * 0x2000" (identifier "uVar29") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;" (assignment_expression "uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" (identifier "uVar7") (= "=") (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7" (binary_expression "(uVar9 ^ uVar28 ^ uVar14) + iStack_38" (parenthesized_expression "(uVar9 ^ uVar28 ^ uVar14)" (( "(") (binary_expression "uVar9 ^ uVar28 ^ uVar14" (binary_expression "uVar9 ^ uVar28" (identifier "uVar9") (^ "^") (identifier "uVar28")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);" (assignment_expression "uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar30") (= "=") (binary_expression "uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar7 >> 0x1a | uVar7 * 0x40)" (( "(") (binary_expression "uVar7 >> 0x1a | uVar7 * 0x40" (binary_expression "uVar7 >> 0x1a" (identifier "uVar7") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar7 * 0x40" (identifier "uVar7") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;" (assignment_expression "uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" (identifier "uVar7") (= "=") (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8" (binary_expression "(uVar14 ^ uVar29 ^ uVar30) + iStack_34" (parenthesized_expression "(uVar14 ^ uVar29 ^ uVar30)" (( "(") (binary_expression "uVar14 ^ uVar29 ^ uVar30" (binary_expression "uVar14 ^ uVar29" (identifier "uVar14") (^ "^") (identifier "uVar29")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_34")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);" (assignment_expression "uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar9") (= "=") (binary_expression "uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20)" (identifier "uVar28") (+ "+") (parenthesized_expression "(uVar7 >> 0x1b | uVar7 * 0x20)" (( "(") (binary_expression "uVar7 >> 0x1b | uVar7 * 0x20" (binary_expression "uVar7 >> 0x1b" (identifier "uVar7") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar7 * 0x20" (identifier "uVar7") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;" (assignment_expression "uVar7 = uVar14 >> 0x16 | uVar14 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar14 >> 0x16 | uVar14 * 0x400" (binary_expression "uVar14 >> 0x16" (identifier "uVar14") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar14 * 0x400" (identifier "uVar14") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar8 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar8") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;" (assignment_expression "uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" (identifier "uVar30") (= "=") (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28" (binary_expression "(uVar30 ^ uVar7 ^ uVar9) + uStack_6c" (parenthesized_expression "(uVar30 ^ uVar7 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar7 ^ uVar9" (binary_expression "uVar30 ^ uVar7" (identifier "uVar30") (^ "^") (identifier "uVar7")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "uStack_6c")) (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;" (assignment_expression "uVar28 = uVar5 >> 0x16 | uVar5 * 0x400" (identifier "uVar28") (= "=") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;" (assignment_expression "uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" (identifier "uVar5") (= "=") (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020" (binary_expression "((~uVar13 | uVar5) ^ uVar15) + iStack_54" (parenthesized_expression "((~uVar13 | uVar5) ^ uVar15)" (( "(") (binary_expression "(~uVar13 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar13 | uVar5)" (( "(") (binary_expression "~uVar13 | uVar5" (unary_expression "~uVar13" (~ "~") (identifier "uVar13")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_54")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uStack_a0"))) (; ";")) (expression_statement "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);" (assignment_expression "uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" (identifier "uVar30") (= "=") (binary_expression "uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000)" (identifier "uVar29") (+ "+") (parenthesized_expression "(uVar30 >> 0x11 | uVar30 * 0x8000)" (( "(") (binary_expression "uVar30 >> 0x11 | uVar30 * 0x8000" (binary_expression "uVar30 >> 0x11" (identifier "uVar30") (>> ">>") (number_literal "0x11")) (| "|") (binary_expression "uVar30 * 0x8000" (identifier "uVar30") (* "*") (number_literal "0x8000"))) () ")")))) (; ";")) (expression_statement "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;" (assignment_expression "uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" (identifier "uVar14") (= "=") (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29" (binary_expression "(uVar9 ^ uVar8 ^ uVar30) + iStack_60" (parenthesized_expression "(uVar9 ^ uVar8 ^ uVar30)" (( "(") (binary_expression "uVar9 ^ uVar8 ^ uVar30" (binary_expression "uVar9 ^ uVar8" (identifier "uVar9") (^ "^") (identifier "uVar8")) (^ "^") (identifier "uVar30")) () ")")) (+ "+") (identifier "iStack_60")) (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);" (assignment_expression "uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" (identifier "uVar5") (= "=") (binary_expression "uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100)" (identifier "uStack_78") (+ "+") (parenthesized_expression "(uVar5 >> 0x18 | uVar5 * 0x100)" (( "(") (binary_expression "uVar5 >> 0x18 | uVar5 * 0x100" (binary_expression "uVar5 >> 0x18" (identifier "uVar5") (>> ">>") (number_literal "0x18")) (| "|") (binary_expression "uVar5 * 0x100" (identifier "uVar5") (* "*") (number_literal "0x100"))) () ")")))) (; ";")) (expression_statement "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;" (assignment_expression "uVar29 = uVar9 >> 0x16 | uVar9 * 0x400" (identifier "uVar29") (= "=") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);" (assignment_expression "uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" (identifier "uVar9") (= "=") (binary_expression "uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000)" (identifier "uVar7") (+ "+") (parenthesized_expression "(uVar14 >> 0x13 | uVar14 * 0x2000)" (( "(") (binary_expression "uVar14 >> 0x13 | uVar14 * 0x2000" (binary_expression "uVar14 >> 0x13" (identifier "uVar14") (>> ">>") (number_literal "0x13")) (| "|") (binary_expression "uVar14 * 0x2000" (identifier "uVar14") (* "*") (number_literal "0x2000"))) () ")")))) (; ";")) (expression_statement "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;" (assignment_expression "uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" (identifier "uVar15") (= "=") (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020" (binary_expression "((~uVar28 | uVar15) ^ uVar5) + iStack_30" (parenthesized_expression "((~uVar28 | uVar15) ^ uVar5)" (( "(") (binary_expression "(~uVar28 | uVar15) ^ uVar5" (parenthesized_expression "(~uVar28 | uVar15)" (( "(") (binary_expression "~uVar28 | uVar15" (unary_expression "~uVar28" (~ "~") (identifier "uVar28")) (| "|") (identifier "uVar15")) () ")")) (^ "^") (identifier "uVar5")) () ")")) (+ "+") (identifier "iStack_30")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uStack_78"))) (; ";")) (expression_statement "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;" (assignment_expression "uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" (identifier "uVar7") (= "=") (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7" (binary_expression "(uVar30 ^ uVar29 ^ uVar9) + iStack_48" (parenthesized_expression "(uVar30 ^ uVar29 ^ uVar9)" (( "(") (binary_expression "uVar30 ^ uVar29 ^ uVar9" (binary_expression "uVar30 ^ uVar29" (identifier "uVar30") (^ "^") (identifier "uVar29")) (^ "^") (identifier "uVar9")) () ")")) (+ "+") (identifier "iStack_48")) (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);" (assignment_expression "uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar14") (= "=") (binary_expression "uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800)" (identifier "uVar8") (+ "+") (parenthesized_expression "(uVar7 >> 0x15 | uVar7 * 0x800)" (( "(") (binary_expression "uVar7 >> 0x15 | uVar7 * 0x800" (binary_expression "uVar7 >> 0x15" (identifier "uVar7") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar7 * 0x800" (identifier "uVar7") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);" (assignment_expression "uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar15") (= "=") (binary_expression "uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20)" (identifier "uVar13") (+ "+") (parenthesized_expression "(uVar15 >> 0x1b | uVar15 * 0x20)" (( "(") (binary_expression "uVar15 >> 0x1b | uVar15 * 0x20" (binary_expression "uVar15 >> 0x1b" (identifier "uVar15") (>> ">>") (number_literal "0x1b")) (| "|") (binary_expression "uVar15 * 0x20" (identifier "uVar15") (* "*") (number_literal "0x20"))) () ")")))) (; ";")) (expression_statement "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;" (assignment_expression "uVar7 = uVar30 >> 0x16 | uVar30 * 0x400" (identifier "uVar7") (= "=") (binary_expression "uVar30 >> 0x16 | uVar30 * 0x400" (binary_expression "uVar30 >> 0x16" (identifier "uVar30") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar30 * 0x400" (identifier "uVar30") (* "*") (number_literal "0x400")))) (; ";")) (expression_statement "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;" (assignment_expression "uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" (identifier "uVar30") (= "=") (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020" (binary_expression "((~uVar19 | uVar5) ^ uVar15) + iStack_38" (parenthesized_expression "((~uVar19 | uVar5) ^ uVar15)" (( "(") (binary_expression "(~uVar19 | uVar5) ^ uVar15" (parenthesized_expression "(~uVar19 | uVar5)" (( "(") (binary_expression "~uVar19 | uVar5" (unary_expression "~uVar19" (~ "~") (identifier "uVar19")) (| "|") (identifier "uVar5")) () ")")) (^ "^") (identifier "uVar15")) () ")")) (+ "+") (identifier "iStack_38")) (+ "+") (identifier "DAT_00011020")) (+ "+") (identifier "uVar13"))) (; ";")) (expression_statement "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;" (assignment_expression "uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" (identifier "uVar13") (= "=") (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8" (binary_expression "(uVar9 ^ uVar7 ^ uVar14) + iStack_40" (parenthesized_expression "(uVar9 ^ uVar7 ^ uVar14)" (( "(") (binary_expression "uVar9 ^ uVar7 ^ uVar14" (binary_expression "uVar9 ^ uVar7" (identifier "uVar9") (^ "^") (identifier "uVar7")) (^ "^") (identifier "uVar14")) () ")")) (+ "+") (identifier "iStack_40")) (+ "+") (identifier "uVar8"))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);" (assignment_expression "*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" (pointer_expression "*(uint *)(local_a8 + 0x58)" (* "*") (cast_expression "(uint *)(local_a8 + 0x58)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x58)" (( "(") (binary_expression "local_a8 + 0x58" (identifier "local_a8") (+ "+") (number_literal "0x58")) () ")")))) (= "=") (binary_expression "uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400)" (identifier "uStack_b0") (+ "+") (parenthesized_expression "(uVar5 >> 0x16 | uVar5 * 0x400)" (( "(") (binary_expression "uVar5 >> 0x16 | uVar5 * 0x400" (binary_expression "uVar5 >> 0x16" (identifier "uVar5") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar5 * 0x400" (identifier "uVar5") (* "*") (number_literal "0x400"))) () ")")))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;" (assignment_expression "*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28" (pointer_expression "*(uint *)(local_a8 + 0x4c)" (* "*") (cast_expression "(uint *)(local_a8 + 0x4c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x4c)" (( "(") (binary_expression "local_a8 + 0x4c" (identifier "local_a8") (+ "+") (number_literal "0x4c")) () ")")))) (= "=") (binary_expression "iStack_a4 + uVar28" (identifier "iStack_a4") (+ "+") (identifier "uVar28"))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);" (assignment_expression "*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (pointer_expression "*(uint *)(local_a8 + 0x50)" (* "*") (cast_expression "(uint *)(local_a8 + 0x50)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x50)" (( "(") (binary_expression "local_a8 + 0x50" (identifier "local_a8") (+ "+") (number_literal "0x50")) () ")")))) (= "=") (binary_expression "uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40)" (binary_expression "uStack_b8 + uVar28" (identifier "uStack_b8") (+ "+") (identifier "uVar28")) (+ "+") (parenthesized_expression "(uVar30 >> 0x1a | uVar30 * 0x40)" (( "(") (binary_expression "uVar30 >> 0x1a | uVar30 * 0x40" (binary_expression "uVar30 >> 0x1a" (identifier "uVar30") (>> ">>") (number_literal "0x1a")) (| "|") (binary_expression "uVar30 * 0x40" (identifier "uVar30") (* "*") (number_literal "0x40"))) () ")")))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;" (assignment_expression "*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29" (pointer_expression "*(uint *)(local_a8 + 0x60)" (* "*") (cast_expression "(uint *)(local_a8 + 0x60)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x60)" (( "(") (binary_expression "local_a8 + 0x60" (identifier "local_a8") (+ "+") (number_literal "0x60")) () ")")))) (= "=") (binary_expression "iStack_98 + uVar29" (identifier "iStack_98") (+ "+") (identifier "uVar29"))) (; ";")) (expression_statement "uVar28 = *puVar26;" (assignment_expression "uVar28 = *puVar26" (identifier "uVar28") (= "=") (pointer_expression "*puVar26" (* "*") (identifier "puVar26"))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;" (assignment_expression "*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15" (pointer_expression "*(uint *)(local_a8 + 0x54)" (* "*") (cast_expression "(uint *)(local_a8 + 0x54)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x54)" (( "(") (binary_expression "local_a8 + 0x54" (identifier "local_a8") (+ "+") (number_literal "0x54")) () ")")))) (= "=") (binary_expression "uStack_b4 + uVar15" (identifier "uStack_b4") (+ "+") (identifier "uVar15"))) (; ";")) (expression_statement "iVar21 = iStack_9c + uVar7;" (assignment_expression "iVar21 = iStack_9c + uVar7" (identifier "iVar21") (= "=") (binary_expression "iStack_9c + uVar7" (identifier "iStack_9c") (+ "+") (identifier "uVar7"))) (; ";")) (expression_statement "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);" (assignment_expression "iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" (identifier "iVar24") (= "=") (binary_expression "uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400)" (identifier "uVar27") (+ "+") (parenthesized_expression "(uVar9 >> 0x16 | uVar9 * 0x400)" (( "(") (binary_expression "uVar9 >> 0x16 | uVar9 * 0x400" (binary_expression "uVar9 >> 0x16" (identifier "uVar9") (>> ">>") (number_literal "0x16")) (| "|") (binary_expression "uVar9 * 0x400" (identifier "uVar9") (* "*") (number_literal "0x400"))) () ")")))) (; ";")) (expression_statement "*(int *)(local_a8 + 0x5c) = iVar21;" (assignment_expression "*(int *)(local_a8 + 0x5c) = iVar21" (pointer_expression "*(int *)(local_a8 + 0x5c)" (* "*") (cast_expression "(int *)(local_a8 + 0x5c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x5c)" (( "(") (binary_expression "local_a8 + 0x5c" (identifier "local_a8") (+ "+") (number_literal "0x5c")) () ")")))) (= "=") (identifier "iVar21")) (; ";")) (expression_statement "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);" (assignment_expression "*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (pointer_expression "*(uint *)(local_a8 + 100)" (* "*") (cast_expression "(uint *)(local_a8 + 100)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 100)" (( "(") (binary_expression "local_a8 + 100" (identifier "local_a8") (+ "+") (number_literal "100")) () ")")))) (= "=") (binary_expression "uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800)" (binary_expression "uStack_94 + uVar29" (identifier "uStack_94") (+ "+") (identifier "uVar29")) (+ "+") (parenthesized_expression "(uVar13 >> 0x15 | uVar13 * 0x800)" (( "(") (binary_expression "uVar13 >> 0x15 | uVar13 * 0x800" (binary_expression "uVar13 >> 0x15" (identifier "uVar13") (>> ">>") (number_literal "0x15")) (| "|") (binary_expression "uVar13 * 0x800" (identifier "uVar13") (* "*") (number_literal "0x800"))) () ")")))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19;" (assignment_expression "*(uint *)(local_a8 + 0x70) = iVar23 + uVar19" (pointer_expression "*(uint *)(local_a8 + 0x70)" (* "*") (cast_expression "(uint *)(local_a8 + 0x70)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x70)" (( "(") (binary_expression "local_a8 + 0x70" (identifier "local_a8") (+ "+") (number_literal "0x70")) () ")")))) (= "=") (binary_expression "iVar23 + uVar19" (identifier "iVar23") (+ "+") (identifier "uVar19"))) (; ";")) (expression_statement "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14;" (assignment_expression "*(uint *)(local_a8 + 0x68) = uVar12 + uVar14" (pointer_expression "*(uint *)(local_a8 + 0x68)" (* "*") (cast_expression "(uint *)(local_a8 + 0x68)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x68)" (( "(") (binary_expression "local_a8 + 0x68" (identifier "local_a8") (+ "+") (number_literal "0x68")) () ")")))) (= "=") (binary_expression "uVar12 + uVar14" (identifier "uVar12") (+ "+") (identifier "uVar14"))) (; ";")) (expression_statement "*(int *)(local_a8 + 0x6c) = iVar24;" (assignment_expression "*(int *)(local_a8 + 0x6c) = iVar24" (pointer_expression "*(int *)(local_a8 + 0x6c)" (* "*") (cast_expression "(int *)(local_a8 + 0x6c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_a8 + 0x6c)" (( "(") (binary_expression "local_a8 + 0x6c" (identifier "local_a8") (+ "+") (number_literal "0x6c")) () ")")))) (= "=") (identifier "iVar24")) (; ";")) (if_statement "if (local_2c[0] == uVar28) {\n return;\n }" (if "if") (parenthesized_expression "(local_2c[0] == uVar28)" (( "(") (binary_expression "local_2c[0] == uVar28" (subscript_expression "local_2c[0]" (identifier "local_2c") ([ "[") (number_literal "0") (] "]")) (== "==") (identifier "uVar28")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "uVar33 = 0x11abc;" (assignment_expression "uVar33 = 0x11abc" (identifier "uVar33") (= "=") (number_literal "0x11abc")) (; ";")) (expression_statement "uStack_ac = uVar19;" (assignment_expression "uStack_ac = uVar19" (identifier "uStack_ac") (= "=") (identifier "uVar19")) (; ";")) (expression_statement "uStack_90 = uVar12;" (assignment_expression "uStack_90 = uVar12" (identifier "uStack_90") (= "=") (identifier "uVar12")) (; ";")) (expression_statement "uStack_8c = uVar27;" (assignment_expression "uStack_8c = uVar27" (identifier "uStack_8c") (= "=") (identifier "uVar27")) (; ";")) (expression_statement "iStack_88 = iVar23;" (assignment_expression "iStack_88 = iVar23" (identifier "iStack_88") (= "=") (identifier "iVar23")) (; ";")) (expression_statement "uVar36 = FUN_00011ab8(0);" (assignment_expression "uVar36 = FUN_00011ab8(0)" (identifier "uVar36") (= "=") (call_expression "FUN_00011ab8(0)" (identifier "FUN_00011ab8") (argument_list "(0)" (( "(") (number_literal "0") () ")")))) (; ";")) (expression_statement "piVar2 = piRam00011d3c;" (assignment_expression "piVar2 = piRam00011d3c" (identifier "piVar2") (= "=") (identifier "piRam00011d3c")) (; ";")) (expression_statement "iVar22 = (int)((ulonglong)uVar36 >> 0x20);" (assignment_expression "iVar22 = (int)((ulonglong)uVar36 >> 0x20)" (identifier "iVar22") (= "=") (cast_expression "(int)((ulonglong)uVar36 >> 0x20)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "((ulonglong)uVar36 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar36 >> 0x20" (cast_expression "(ulonglong)uVar36" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar36")) (>> ">>") (number_literal "0x20")) () ")")))) (; ";")) (expression_statement "puVar17 = (uint *)uVar36;" (assignment_expression "puVar17 = (uint *)uVar36" (identifier "puVar17") (= "=") (cast_expression "(uint *)uVar36" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "uVar36"))) (; ";")) (expression_statement "uStack_d8 = uVar16;" (assignment_expression "uStack_d8 = uVar16" (identifier "uStack_d8") (= "=") (identifier "uVar16")) (; ";")) (expression_statement "iStack_dc = *piRam00011d3c;" (assignment_expression "iStack_dc = *piRam00011d3c" (identifier "iStack_dc") (= "=") (pointer_expression "*piRam00011d3c" (* "*") (identifier "piRam00011d3c"))) (; ";")) (expression_statement "uVar35 = puVar17 == (uint *)0x0;" (assignment_expression "uVar35 = puVar17 == (uint *)0x0" (identifier "uVar35") (= "=") (binary_expression "puVar17 == (uint *)0x0" (identifier "puVar17") (== "==") (cast_expression "(uint *)0x0" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0")))) (; ";")) (expression_statement "iStack_d4 = iVar21;" (assignment_expression "iStack_d4 = iVar21" (identifier "iStack_d4") (= "=") (identifier "iVar21")) (; ";")) (expression_statement "uStack_d0 = uVar27;" (assignment_expression "uStack_d0 = uVar27" (identifier "uStack_d0") (= "=") (identifier "uVar27")) (; ";")) (expression_statement "uStack_cc = uVar19;" (assignment_expression "uStack_cc = uVar19" (identifier "uStack_cc") (= "=") (identifier "uVar19")) (; ";")) (expression_statement "iStack_c8 = iVar24;" (assignment_expression "iStack_c8 = iVar24" (identifier "iStack_c8") (= "=") (identifier "iVar24")) (; ";")) (expression_statement "iStack_c4 = iVar23;" (assignment_expression "iStack_c4 = iVar23" (identifier "iStack_c4") (= "=") (identifier "iVar23")) (; ";")) (expression_statement "uStack_c0 = uVar12;" (assignment_expression "uStack_c0 = uVar12" (identifier "uStack_c0") (= "=") (identifier "uVar12")) (; ";")) (expression_statement "uStack_bc = uVar33;" (assignment_expression "uStack_bc = uVar33" (identifier "uStack_bc") (= "=") (identifier "uVar33")) (; ";")) (expression_statement "uVar1 = CONCAT44(iVar21,puVar17);" (assignment_expression "uVar1 = CONCAT44(iVar21,puVar17)" (identifier "uVar1") (= "=") (call_expression "CONCAT44(iVar21,puVar17)" (identifier "CONCAT44") (argument_list "(iVar21,puVar17)" (( "(") (identifier "iVar21") (, ",") (identifier "puVar17") () ")")))) (; ";")) (if_statement "if ((bool)uVar35) goto LAB_00011d2c;" (if "if") (parenthesized_expression "((bool)uVar35)" (( "(") (cast_expression "(bool)uVar35" (( "(") (type_descriptor "bool" (primitive_type "bool")) () ")") (identifier "uVar35")) () ")")) (goto_statement "goto LAB_00011d2c;" (goto "goto") (statement_identifier "LAB_00011d2c") (; ";"))) (expression_statement "uVar35 = iVar22 == 0;" (assignment_expression "uVar35 = iVar22 == 0" (identifier "uVar35") (= "=") (binary_expression "iVar22 == 0" (identifier "iVar22") (== "==") (number_literal "0"))) (; ";")) (if_statement "if (!(bool)uVar35) {\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" (if "if") (parenthesized_expression "(!(bool)uVar35)" (( "(") (unary_expression "!(bool)uVar35" (! "!") (cast_expression "(bool)uVar35" (( "(") (type_descriptor "bool" (primitive_type "bool")) () ")") (identifier "uVar35"))) () ")")) (compound_statement "{\n uVar28 = puVar17[0x12];\n if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }\n uVar35 = iStack_dc == *piVar2;\n if ((bool)uVar35) {\n return;\n }\n FUN_00011d18(uVar33);\n }" ({ "{") (expression_statement "uVar28 = puVar17[0x12];" (assignment_expression "uVar28 = puVar17[0x12]" (identifier "uVar28") (= "=") (subscript_expression "puVar17[0x12]" (identifier "puVar17") ([ "[") (number_literal "0x12") (] "]"))) (; ";")) (if_statement "if (uVar28 < 0x40) {\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }\n else {\n uVar33 = 0x10;\n }" (if "if") (parenthesized_expression "(uVar28 < 0x40)" (( "(") (binary_expression "uVar28 < 0x40" (identifier "uVar28") (< "<") (number_literal "0x40")) () ")")) (compound_statement "{\n uVar29 = *puVar17 + uVar28 * 8;\n uVar16 = uVar28 + 1;\n uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);\n *puVar17 = uVar29;\n puVar17[1] = uVar13;\n puVar17[0x12] = uVar16;\n *(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;\n if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }\n *(char *)(puVar17 + 0x10) = (char)uVar29;\n uVar16 = uVar29 >> 0x10;\n *(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);\n *(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);\n *(char *)(puVar17 + 0x11) = (char)uVar13;\n *(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);\n *(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);\n *(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);\n *(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);\n FUN_00010000(puVar17,puVar17 + 2);\n puVar26 = puVar17 + 0x12;\n do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);\n uVar33 = 0;\n }" ({ "{") (expression_statement "uVar29 = *puVar17 + uVar28 * 8;" (assignment_expression "uVar29 = *puVar17 + uVar28 * 8" (identifier "uVar29") (= "=") (binary_expression "*puVar17 + uVar28 * 8" (pointer_expression "*puVar17" (* "*") (identifier "puVar17")) (+ "+") (binary_expression "uVar28 * 8" (identifier "uVar28") (* "*") (number_literal "8")))) (; ";")) (expression_statement "uVar16 = uVar28 + 1;" (assignment_expression "uVar16 = uVar28 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar28 + 1" (identifier "uVar28") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);" (assignment_expression "uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" (identifier "uVar13") (= "=") (binary_expression "puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8)" (subscript_expression "puVar17[1]" (identifier "puVar17") ([ "[") (number_literal "1") (] "]")) (+ "+") (cast_expression "(uint)CARRY4(*puVar17,uVar28 * 8)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(*puVar17,uVar28 * 8)" (identifier "CARRY4") (argument_list "(*puVar17,uVar28 * 8)" (( "(") (pointer_expression "*puVar17" (* "*") (identifier "puVar17")) (, ",") (binary_expression "uVar28 * 8" (identifier "uVar28") (* "*") (number_literal "8")) () ")")))))) (; ";")) (expression_statement "*puVar17 = uVar29;" (assignment_expression "*puVar17 = uVar29" (pointer_expression "*puVar17" (* "*") (identifier "puVar17")) (= "=") (identifier "uVar29")) (; ";")) (expression_statement "puVar17[1] = uVar13;" (assignment_expression "puVar17[1] = uVar13" (subscript_expression "puVar17[1]" (identifier "puVar17") ([ "[") (number_literal "1") (] "]")) (= "=") (identifier "uVar13")) (; ";")) (expression_statement "puVar17[0x12] = uVar16;" (assignment_expression "puVar17[0x12] = uVar16" (subscript_expression "puVar17[0x12]" (identifier "puVar17") ([ "[") (number_literal "0x12") (] "]")) (= "=") (identifier "uVar16")) (; ";")) (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 8)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 8)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 8)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 8" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "8")) () ")")))) (= "=") (number_literal "0x80")) (; ";")) (if_statement "if (uVar16 < 0x39) {\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }\n else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" (if "if") (parenthesized_expression "(uVar16 < 0x39)" (( "(") (binary_expression "uVar16 < 0x39" (identifier "uVar16") (< "<") (number_literal "0x39")) () ")")) (compound_statement "{\n if (uVar16 != 0x38) goto LAB_00011b2c;\n }" ({ "{") (if_statement "if (uVar16 != 0x38) goto LAB_00011b2c;" (if "if") (parenthesized_expression "(uVar16 != 0x38)" (( "(") (binary_expression "uVar16 != 0x38" (identifier "uVar16") (!= "!=") (number_literal "0x38")) () ")")) (goto_statement "goto LAB_00011b2c;" (goto "goto") (statement_identifier "LAB_00011b2c") (; ";"))) (} "}")) (else_clause "else {\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" (else "else") (compound_statement "{\n if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }\n FUN_00010000(puVar17,puVar17 + 2);\n uVar16 = 0;\nLAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;\n puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);\n if (uVar28 == 0) goto LAB_00011bb0;\n if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n *puVar10 = 0;\n puVar10 = puVar10 + 1;\n for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }\n uVar29 = *puVar17;\n uVar13 = puVar17[1];\n puVar17[0x12] = 0x38;\n }" ({ "{") (if_statement "if (uVar16 != 0x40) {\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" (if "if") (parenthesized_expression "(uVar16 != 0x40)" (( "(") (binary_expression "uVar16 != 0x40" (identifier "uVar16") (!= "!=") (number_literal "0x40")) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;\n if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }\n puVar17[0x12] = 0x40;\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 9)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 9)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 9)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 9" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "9")) () ")")))) (= "=") (number_literal "0")) (; ";")) (if_statement "if (uVar28 != 0x3e) {\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" (if "if") (parenthesized_expression "(uVar28 != 0x3e)" (( "(") (binary_expression "uVar28 != 0x3e" (identifier "uVar28") (!= "!=") (number_literal "0x3e")) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;\n if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 10)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 10)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 10)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 10" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "10")) () ")")))) (= "=") (number_literal "0")) (; ";")) (if_statement "if (uVar28 != 0x3d) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" (if "if") (parenthesized_expression "(uVar28 != 0x3d)" (( "(") (binary_expression "uVar28 != 0x3d" (identifier "uVar28") (!= "!=") (number_literal "0x3d")) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;\n if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xb)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xb)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 0xb)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 0xb" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "0xb")) () ")")))) (= "=") (number_literal "0")) (; ";")) (if_statement "if (uVar28 != 0x3c) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" (if "if") (parenthesized_expression "(uVar28 != 0x3c)" (( "(") (binary_expression "uVar28 != 0x3c" (identifier "uVar28") (!= "!=") (number_literal "0x3c")) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;\n if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xc)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xc)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 0xc)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 0xc" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "0xc")) () ")")))) (= "=") (number_literal "0")) (; ";")) (if_statement "if (uVar28 != 0x3b) {\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" (if "if") (parenthesized_expression "(uVar28 != 0x3b)" (( "(") (binary_expression "uVar28 != 0x3b" (identifier "uVar28") (!= "!=") (number_literal "0x3b")) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;\n if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xd)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xd)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 0xd)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 0xd" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "0xd")) () ")")))) (= "=") (number_literal "0")) (; ";")) (if_statement "if ((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" (if "if") (parenthesized_expression "((uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38))" (( "(") (binary_expression "(uVar28 != 0x3a) &&\n (*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" (parenthesized_expression "(uVar28 != 0x3a)" (( "(") (binary_expression "uVar28 != 0x3a" (identifier "uVar28") (!= "!=") (number_literal "0x3a")) () ")")) (&& "&&") (parenthesized_expression "(*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)" (( "(") (comma_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38" (assignment_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + uVar28 + 0xe)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + uVar28 + 0xe)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar28 + 0xe)" (( "(") (binary_expression "(int)puVar17 + uVar28 + 0xe" (binary_expression "(int)puVar17 + uVar28" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar28")) (+ "+") (number_literal "0xe")) () ")")))) (= "=") (number_literal "0")) (, ",") (binary_expression "uVar28 == 0x38" (identifier "uVar28") (== "==") (number_literal "0x38"))) () ")"))) () ")")) (compound_statement "{\n *(undefined1 *)((int)puVar17 + 0x47) = 0;\n }" ({ "{") (expression_statement "*(undefined1 *)((int)puVar17 + 0x47) = 0;" (assignment_expression "*(undefined1 *)((int)puVar17 + 0x47) = 0" (pointer_expression "*(undefined1 *)((int)puVar17 + 0x47)" (* "*") (cast_expression "(undefined1 *)((int)puVar17 + 0x47)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x47)" (( "(") (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x47")) () ")")))) (= "=") (number_literal "0")) (; ";")) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (expression_statement "puVar17[0x12] = 0x40;" (assignment_expression "puVar17[0x12] = 0x40" (subscript_expression "puVar17[0x12]" (identifier "puVar17") ([ "[") (number_literal "0x12") (] "]")) (= "=") (number_literal "0x40")) (; ";")) (} "}"))) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" (identifier "FUN_00010000") (argument_list "(puVar17,puVar17 + 2)" (( "(") (identifier "puVar17") (, ",") (binary_expression "puVar17 + 2" (identifier "puVar17") (+ "+") (number_literal "2")) () ")"))) (; ";")) (expression_statement "uVar16 = 0;" (assignment_expression "uVar16 = 0" (identifier "uVar16") (= "=") (number_literal "0")) (; ";")) (labeled_statement "LAB_00011b2c:\n uVar28 = 0x38 - uVar16 & 7;" (statement_identifier "LAB_00011b2c") (: ":") (expression_statement "uVar28 = 0x38 - uVar16 & 7;" (assignment_expression "uVar28 = 0x38 - uVar16 & 7" (identifier "uVar28") (= "=") (binary_expression "0x38 - uVar16 & 7" (binary_expression "0x38 - uVar16" (number_literal "0x38") (- "-") (identifier "uVar16")) (& "&") (number_literal "7"))) (; ";"))) (expression_statement "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);" (assignment_expression "puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8)" (identifier "puVar10") (= "=") (cast_expression "(undefined1 *)((int)puVar17 + uVar16 + 8)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + uVar16 + 8)" (( "(") (binary_expression "(int)puVar17 + uVar16 + 8" (binary_expression "(int)puVar17 + uVar16" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (identifier "uVar16")) (+ "+") (number_literal "8")) () ")")))) (; ";")) (if_statement "if (uVar28 == 0) goto LAB_00011bb0;" (if "if") (parenthesized_expression "(uVar28 == 0)" (( "(") (binary_expression "uVar28 == 0" (identifier "uVar28") (== "==") (number_literal "0")) () ")")) (goto_statement "goto LAB_00011bb0;" (goto "goto") (statement_identifier "LAB_00011bb0") (; ";"))) (if_statement "if (uVar28 != 1) {\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 1)" (( "(") (binary_expression "uVar28 != 1" (identifier "uVar28") (!= "!=") (number_literal "1")) () ")")) (compound_statement "{\n puVar11 = puVar10;\n if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" ({ "{") (expression_statement "puVar11 = puVar10;" (assignment_expression "puVar11 = puVar10" (identifier "puVar11") (= "=") (identifier "puVar10")) (; ";")) (if_statement "if (uVar28 != 2) {\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 2)" (( "(") (binary_expression "uVar28 != 2" (identifier "uVar28") (!= "!=") (number_literal "2")) () ")")) (compound_statement "{\n if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" ({ "{") (if_statement "if (uVar28 != 3) {\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 3)" (( "(") (binary_expression "uVar28 != 3" (identifier "uVar28") (!= "!=") (number_literal "3")) () ")")) (compound_statement "{\n if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" ({ "{") (if_statement "if (uVar28 != 4) {\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 4)" (( "(") (binary_expression "uVar28 != 4" (identifier "uVar28") (!= "!=") (number_literal "4")) () ")")) (compound_statement "{\n if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" ({ "{") (if_statement "if (uVar28 != 5) {\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 5)" (( "(") (binary_expression "uVar28 != 5" (identifier "uVar28") (!= "!=") (number_literal "5")) () ")")) (compound_statement "{\n if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }\n uVar16 = uVar16 + 1;\n puVar10 = puVar11 + 1;\n *puVar11 = 0;\n }" ({ "{") (if_statement "if (uVar28 != 6) {\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" (if "if") (parenthesized_expression "(uVar28 != 6)" (( "(") (binary_expression "uVar28 != 6" (identifier "uVar28") (!= "!=") (number_literal "6")) () ")")) (compound_statement "{\n uVar16 = uVar16 + 1;\n puVar11 = puVar10 + 1;\n *puVar10 = 0;\n }" ({ "{") (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" (identifier "puVar11") (= "=") (binary_expression "puVar10 + 1" (identifier "puVar10") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" (identifier "puVar10") (= "=") (binary_expression "puVar11 + 1" (identifier "puVar11") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" (* "*") (identifier "puVar11")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" (identifier "puVar11") (= "=") (binary_expression "puVar10 + 1" (identifier "puVar10") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" (identifier "puVar10") (= "=") (binary_expression "puVar11 + 1" (identifier "puVar11") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" (* "*") (identifier "puVar11")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar11 = puVar10 + 1;" (assignment_expression "puVar11 = puVar10 + 1" (identifier "puVar11") (= "=") (binary_expression "puVar10 + 1" (identifier "puVar10") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "puVar10 = puVar11 + 1;" (assignment_expression "puVar10 = puVar11 + 1" (identifier "puVar10") (= "=") (binary_expression "puVar11 + 1" (identifier "puVar11") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar11 = 0;" (assignment_expression "*puVar11 = 0" (pointer_expression "*puVar11" (* "*") (identifier "puVar11")) (= "=") (number_literal "0")) (; ";")) (} "}"))) (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10 = puVar10 + 1;" (assignment_expression "puVar10 = puVar10 + 1" (identifier "puVar10") (= "=") (binary_expression "puVar10 + 1" (identifier "puVar10") (+ "+") (number_literal "1"))) (; ";")) (for_statement "for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" (for "for") (( "(") (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";") (binary_expression "uVar16 != 0x38" (identifier "uVar16") (!= "!=") (number_literal "0x38")) (; ";") (assignment_expression "uVar16 = uVar16 + 8" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 8" (identifier "uVar16") (+ "+") (number_literal "8"))) () ")") (compound_statement "{\nLAB_00011bb0:\n *puVar10 = 0;\n puVar10[1] = 0;\n puVar10[2] = 0;\n puVar10[3] = 0;\n puVar10[4] = 0;\n puVar10[5] = 0;\n puVar10[6] = 0;\n puVar10[7] = 0;\n puVar10 = puVar10 + 8;\n }" ({ "{") (labeled_statement "LAB_00011bb0:\n *puVar10 = 0;" (statement_identifier "LAB_00011bb0") (: ":") (expression_statement "*puVar10 = 0;" (assignment_expression "*puVar10 = 0" (pointer_expression "*puVar10" (* "*") (identifier "puVar10")) (= "=") (number_literal "0")) (; ";"))) (expression_statement "puVar10[1] = 0;" (assignment_expression "puVar10[1] = 0" (subscript_expression "puVar10[1]" (identifier "puVar10") ([ "[") (number_literal "1") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[2] = 0;" (assignment_expression "puVar10[2] = 0" (subscript_expression "puVar10[2]" (identifier "puVar10") ([ "[") (number_literal "2") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[3] = 0;" (assignment_expression "puVar10[3] = 0" (subscript_expression "puVar10[3]" (identifier "puVar10") ([ "[") (number_literal "3") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[4] = 0;" (assignment_expression "puVar10[4] = 0" (subscript_expression "puVar10[4]" (identifier "puVar10") ([ "[") (number_literal "4") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[5] = 0;" (assignment_expression "puVar10[5] = 0" (subscript_expression "puVar10[5]" (identifier "puVar10") ([ "[") (number_literal "5") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[6] = 0;" (assignment_expression "puVar10[6] = 0" (subscript_expression "puVar10[6]" (identifier "puVar10") ([ "[") (number_literal "6") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10[7] = 0;" (assignment_expression "puVar10[7] = 0" (subscript_expression "puVar10[7]" (identifier "puVar10") ([ "[") (number_literal "7") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar10 = puVar10 + 8;" (assignment_expression "puVar10 = puVar10 + 8" (identifier "puVar10") (= "=") (binary_expression "puVar10 + 8" (identifier "puVar10") (+ "+") (number_literal "8"))) (; ";")) (} "}"))) (expression_statement "uVar29 = *puVar17;" (assignment_expression "uVar29 = *puVar17" (identifier "uVar29") (= "=") (pointer_expression "*puVar17" (* "*") (identifier "puVar17"))) (; ";")) (expression_statement "uVar13 = puVar17[1];" (assignment_expression "uVar13 = puVar17[1]" (identifier "uVar13") (= "=") (subscript_expression "puVar17[1]" (identifier "puVar17") ([ "[") (number_literal "1") (] "]"))) (; ";")) (expression_statement "puVar17[0x12] = 0x38;" (assignment_expression "puVar17[0x12] = 0x38" (subscript_expression "puVar17[0x12]" (identifier "puVar17") ([ "[") (number_literal "0x12") (] "]")) (= "=") (number_literal "0x38")) (; ";")) (} "}")))) (expression_statement "*(char *)(puVar17 + 0x10) = (char)uVar29;" (assignment_expression "*(char *)(puVar17 + 0x10) = (char)uVar29" (pointer_expression "*(char *)(puVar17 + 0x10)" (* "*") (cast_expression "(char *)(puVar17 + 0x10)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar17 + 0x10)" (( "(") (binary_expression "puVar17 + 0x10" (identifier "puVar17") (+ "+") (number_literal "0x10")) () ")")))) (= "=") (cast_expression "(char)uVar29" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (identifier "uVar29"))) (; ";")) (expression_statement "uVar16 = uVar29 >> 0x10;" (assignment_expression "uVar16 = uVar29 >> 0x10" (identifier "uVar16") (= "=") (binary_expression "uVar29 >> 0x10" (identifier "uVar29") (>> ">>") (number_literal "0x10"))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x47)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x47)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x47)" (( "(") (binary_expression "(int)puVar17 + 0x47" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x47")) () ")")))) (= "=") (cast_expression "(char)(uVar13 >> 0x18)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar13 >> 0x18)" (( "(") (binary_expression "uVar13 >> 0x18" (identifier "uVar13") (>> ">>") (number_literal "0x18")) () ")")))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);" (assignment_expression "*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18)" (pointer_expression "*(char *)((int)puVar17 + 0x43)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x43)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x43)" (( "(") (binary_expression "(int)puVar17 + 0x43" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x43")) () ")")))) (= "=") (cast_expression "(char)(uVar29 >> 0x18)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar29 >> 0x18)" (( "(") (binary_expression "uVar29 >> 0x18" (identifier "uVar29") (>> ">>") (number_literal "0x18")) () ")")))) (; ";")) (expression_statement "*(char *)(puVar17 + 0x11) = (char)uVar13;" (assignment_expression "*(char *)(puVar17 + 0x11) = (char)uVar13" (pointer_expression "*(char *)(puVar17 + 0x11)" (* "*") (cast_expression "(char *)(puVar17 + 0x11)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar17 + 0x11)" (( "(") (binary_expression "puVar17 + 0x11" (identifier "puVar17") (+ "+") (number_literal "0x11")) () ")")))) (= "=") (cast_expression "(char)uVar13" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (identifier "uVar13"))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x46)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x46)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x46)" (( "(") (binary_expression "(int)puVar17 + 0x46" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x46")) () ")")))) (= "=") (cast_expression "(char)(uVar13 >> 0x10)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar13 >> 0x10)" (( "(") (binary_expression "uVar13 >> 0x10" (identifier "uVar13") (>> ">>") (number_literal "0x10")) () ")")))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x45)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x45)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x45)" (( "(") (binary_expression "(int)puVar17 + 0x45" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x45")) () ")")))) (= "=") (cast_expression "(char)(uVar13 >> 8)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar13 >> 8)" (( "(") (binary_expression "uVar13 >> 8" (identifier "uVar13") (>> ">>") (number_literal "8")) () ")")))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);" (assignment_expression "*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10)" (pointer_expression "*(char *)((int)puVar17 + 0x42)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x42)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x42)" (( "(") (binary_expression "(int)puVar17 + 0x42" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x42")) () ")")))) (= "=") (cast_expression "(char)(uVar29 >> 0x10)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar29 >> 0x10)" (( "(") (binary_expression "uVar29 >> 0x10" (identifier "uVar29") (>> ">>") (number_literal "0x10")) () ")")))) (; ";")) (expression_statement "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);" (assignment_expression "*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8)" (pointer_expression "*(char *)((int)puVar17 + 0x41)" (* "*") (cast_expression "(char *)((int)puVar17 + 0x41)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)puVar17 + 0x41)" (( "(") (binary_expression "(int)puVar17 + 0x41" (cast_expression "(int)puVar17" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar17")) (+ "+") (number_literal "0x41")) () ")")))) (= "=") (cast_expression "(char)(uVar29 >> 8)" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (parenthesized_expression "(uVar29 >> 8)" (( "(") (binary_expression "uVar29 >> 8" (identifier "uVar29") (>> ">>") (number_literal "8")) () ")")))) (; ";")) (expression_statement "FUN_00010000(puVar17,puVar17 + 2);" (call_expression "FUN_00010000(puVar17,puVar17 + 2)" (identifier "FUN_00010000") (argument_list "(puVar17,puVar17 + 2)" (( "(") (identifier "puVar17") (, ",") (binary_expression "puVar17 + 2" (identifier "puVar17") (+ "+") (number_literal "2")) () ")"))) (; ";")) (expression_statement "puVar26 = puVar17 + 0x12;" (assignment_expression "puVar26 = puVar17 + 0x12" (identifier "puVar26") (= "=") (binary_expression "puVar17 + 0x12" (identifier "puVar17") (+ "+") (number_literal "0x12"))) (; ";")) (do_statement "do {\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n } while (puVar17 + 0x1c != puVar26);" (do "do") (compound_statement "{\n puVar26 = puVar26 + 1;\n uStack_e0 = *puVar26;\n FUN_00011c4c(iVar22,&uStack_e0,4);\n iVar22 = iVar22 + 4;\n uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);\n }" ({ "{") (expression_statement "puVar26 = puVar26 + 1;" (assignment_expression "puVar26 = puVar26 + 1" (identifier "puVar26") (= "=") (binary_expression "puVar26 + 1" (identifier "puVar26") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "uStack_e0 = *puVar26;" (assignment_expression "uStack_e0 = *puVar26" (identifier "uStack_e0") (= "=") (pointer_expression "*puVar26" (* "*") (identifier "puVar26"))) (; ";")) (expression_statement "FUN_00011c4c(iVar22,&uStack_e0,4);" (call_expression "FUN_00011c4c(iVar22,&uStack_e0,4)" (identifier "FUN_00011c4c") (argument_list "(iVar22,&uStack_e0,4)" (( "(") (identifier "iVar22") (, ",") (pointer_expression "&uStack_e0" (& "&") (identifier "uStack_e0")) (, ",") (number_literal "4") () ")"))) (; ";")) (expression_statement "iVar22 = iVar22 + 4;" (assignment_expression "iVar22 = iVar22 + 4" (identifier "iVar22") (= "=") (binary_expression "iVar22 + 4" (identifier "iVar22") (+ "+") (number_literal "4"))) (; ";")) (expression_statement "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);" (assignment_expression "uVar36 = CONCAT44(iVar22,puVar17 + 0x1c)" (identifier "uVar36") (= "=") (call_expression "CONCAT44(iVar22,puVar17 + 0x1c)" (identifier "CONCAT44") (argument_list "(iVar22,puVar17 + 0x1c)" (( "(") (identifier "iVar22") (, ",") (binary_expression "puVar17 + 0x1c" (identifier "puVar17") (+ "+") (number_literal "0x1c")) () ")")))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(puVar17 + 0x1c != puVar26)" (( "(") (binary_expression "puVar17 + 0x1c != puVar26" (binary_expression "puVar17 + 0x1c" (identifier "puVar17") (+ "+") (number_literal "0x1c")) (!= "!=") (identifier "puVar26")) () ")")) (; ";")) (expression_statement "uVar33 = 0;" (assignment_expression "uVar33 = 0" (identifier "uVar33") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n uVar33 = 0x10;\n }" (else "else") (compound_statement "{\n uVar33 = 0x10;\n }" ({ "{") (expression_statement "uVar33 = 0x10;" (assignment_expression "uVar33 = 0x10" (identifier "uVar33") (= "=") (number_literal "0x10")) (; ";")) (} "}")))) (expression_statement "uVar35 = iStack_dc == *piVar2;" (assignment_expression "uVar35 = iStack_dc == *piVar2" (identifier "uVar35") (= "=") (binary_expression "iStack_dc == *piVar2" (identifier "iStack_dc") (== "==") (pointer_expression "*piVar2" (* "*") (identifier "piVar2")))) (; ";")) (if_statement "if ((bool)uVar35) {\n return;\n }" (if "if") (parenthesized_expression "((bool)uVar35)" (( "(") (cast_expression "(bool)uVar35" (( "(") (type_descriptor "bool" (primitive_type "bool")) () ")") (identifier "uVar35")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "FUN_00011d18(uVar33);" (call_expression "FUN_00011d18(uVar33)" (identifier "FUN_00011d18") (argument_list "(uVar33)" (( "(") (identifier "uVar33") () ")"))) (; ";")) (} "}"))) (expression_statement "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);" (call_expression "FUN_00011d28(uRam00011d44,uRam00011d40,0x17c)" (identifier "FUN_00011d28") (argument_list "(uRam00011d44,uRam00011d40,0x17c)" (( "(") (identifier "uRam00011d44") (, ",") (identifier "uRam00011d40") (, ",") (number_literal "0x17c") () ")"))) (; ";")) (expression_statement "uVar1 = uVar36;" (assignment_expression "uVar1 = uVar36" (identifier "uVar1") (= "=") (identifier "uVar36")) (; ";")) (labeled_statement "LAB_00011d2c:\n iVar21 = (int)((ulonglong)uVar1 >> 0x20);" (statement_identifier "LAB_00011d2c") (: ":") (expression_statement "iVar21 = (int)((ulonglong)uVar1 >> 0x20);" (assignment_expression "iVar21 = (int)((ulonglong)uVar1 >> 0x20)" (identifier "iVar21") (= "=") (cast_expression "(int)((ulonglong)uVar1 >> 0x20)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "((ulonglong)uVar1 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar1 >> 0x20" (cast_expression "(ulonglong)uVar1" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar1")) (>> ">>") (number_literal "0x20")) () ")")))) (; ";"))) (expression_statement "UNRECOVERED_JUMPTABLE = (code *)0x11d3c;" (assignment_expression "UNRECOVERED_JUMPTABLE = (code *)0x11d3c" (identifier "UNRECOVERED_JUMPTABLE") (= "=") (cast_expression "(code *)0x11d3c" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x11d3c"))) (; ";")) (expression_statement "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);" (assignment_expression "puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" (identifier "puVar6") (= "=") (cast_expression "(undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48)" (identifier "FUN_00011d38") (argument_list "(uRam00011d4c,uRam00011d40,uRam00011d48)" (( "(") (identifier "uRam00011d4c") (, ",") (identifier "uRam00011d40") (, ",") (identifier "uRam00011d48") () ")"))))) (; ";")) (expression_statement "uVar33 = uRam00011de0;" (assignment_expression "uVar33 = uRam00011de0" (identifier "uVar33") (= "=") (identifier "uRam00011de0")) (; ";")) (if_statement "if ((bool)uVar35) {\n puVar6 = (undefined4 *)0x0;\n }" (if "if") (parenthesized_expression "((bool)uVar35)" (( "(") (cast_expression "(bool)uVar35" (( "(") (type_descriptor "bool" (primitive_type "bool")) () ")") (identifier "uVar35")) () ")")) (compound_statement "{\n puVar6 = (undefined4 *)0x0;\n }" ({ "{") (expression_statement "puVar6 = (undefined4 *)0x0;" (assignment_expression "puVar6 = (undefined4 *)0x0" (identifier "puVar6") (= "=") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) (; ";")) (} "}"))) (expression_statement "bVar34 = false;" (assignment_expression "bVar34 = false" (identifier "bVar34") (= "=") (false "false")) (; ";")) (if_statement "if (puVar6 != (undefined4 *)0x0) {\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" (if "if") (parenthesized_expression "(puVar6 != (undefined4 *)0x0)" (( "(") (binary_expression "puVar6 != (undefined4 *)0x0" (identifier "puVar6") (!= "!=") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n puVar6[0x14] = uRam00011ddc;\n uVar4 = DAT_00011dec;\n uVar3 = DAT_00011de8;\n iVar21 = DAT_00011de4;\n puVar6[0x13] = uVar33;\n uVar33 = DAT_00011df0;\n puVar6[0x18] = iVar21;\n puVar6[0x15] = uVar3;\n puVar6[0x16] = uVar4;\n uVar4 = DAT_00011df8;\n uVar3 = DAT_00011df4;\n puVar6[0x17] = uVar33;\n uVar33 = DAT_00011dfc;\n puVar6[0x12] = 0;\n *puVar6 = 0;\n puVar6[1] = 0;\n puVar6[0x19] = uVar3;\n puVar6[0x1a] = uVar4;\n puVar6[0x1b] = uVar33;\n puVar6[0x1c] = iVar21 + -0x3a271401;\n /* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */\n /* WARNING: Treating indirect jump as call */\n (*UNRECOVERED_JUMPTABLE)();\n return;\n }" ({ "{") (expression_statement "puVar6[0x14] = uRam00011ddc;" (assignment_expression "puVar6[0x14] = uRam00011ddc" (subscript_expression "puVar6[0x14]" (identifier "puVar6") ([ "[") (number_literal "0x14") (] "]")) (= "=") (identifier "uRam00011ddc")) (; ";")) (expression_statement "uVar4 = DAT_00011dec;" (assignment_expression "uVar4 = DAT_00011dec" (identifier "uVar4") (= "=") (identifier "DAT_00011dec")) (; ";")) (expression_statement "uVar3 = DAT_00011de8;" (assignment_expression "uVar3 = DAT_00011de8" (identifier "uVar3") (= "=") (identifier "DAT_00011de8")) (; ";")) (expression_statement "iVar21 = DAT_00011de4;" (assignment_expression "iVar21 = DAT_00011de4" (identifier "iVar21") (= "=") (identifier "DAT_00011de4")) (; ";")) (expression_statement "puVar6[0x13] = uVar33;" (assignment_expression "puVar6[0x13] = uVar33" (subscript_expression "puVar6[0x13]" (identifier "puVar6") ([ "[") (number_literal "0x13") (] "]")) (= "=") (identifier "uVar33")) (; ";")) (expression_statement "uVar33 = DAT_00011df0;" (assignment_expression "uVar33 = DAT_00011df0" (identifier "uVar33") (= "=") (identifier "DAT_00011df0")) (; ";")) (expression_statement "puVar6[0x18] = iVar21;" (assignment_expression "puVar6[0x18] = iVar21" (subscript_expression "puVar6[0x18]" (identifier "puVar6") ([ "[") (number_literal "0x18") (] "]")) (= "=") (identifier "iVar21")) (; ";")) (expression_statement "puVar6[0x15] = uVar3;" (assignment_expression "puVar6[0x15] = uVar3" (subscript_expression "puVar6[0x15]" (identifier "puVar6") ([ "[") (number_literal "0x15") (] "]")) (= "=") (identifier "uVar3")) (; ";")) (expression_statement "puVar6[0x16] = uVar4;" (assignment_expression "puVar6[0x16] = uVar4" (subscript_expression "puVar6[0x16]" (identifier "puVar6") ([ "[") (number_literal "0x16") (] "]")) (= "=") (identifier "uVar4")) (; ";")) (expression_statement "uVar4 = DAT_00011df8;" (assignment_expression "uVar4 = DAT_00011df8" (identifier "uVar4") (= "=") (identifier "DAT_00011df8")) (; ";")) (expression_statement "uVar3 = DAT_00011df4;" (assignment_expression "uVar3 = DAT_00011df4" (identifier "uVar3") (= "=") (identifier "DAT_00011df4")) (; ";")) (expression_statement "puVar6[0x17] = uVar33;" (assignment_expression "puVar6[0x17] = uVar33" (subscript_expression "puVar6[0x17]" (identifier "puVar6") ([ "[") (number_literal "0x17") (] "]")) (= "=") (identifier "uVar33")) (; ";")) (expression_statement "uVar33 = DAT_00011dfc;" (assignment_expression "uVar33 = DAT_00011dfc" (identifier "uVar33") (= "=") (identifier "DAT_00011dfc")) (; ";")) (expression_statement "puVar6[0x12] = 0;" (assignment_expression "puVar6[0x12] = 0" (subscript_expression "puVar6[0x12]" (identifier "puVar6") ([ "[") (number_literal "0x12") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "*puVar6 = 0;" (assignment_expression "*puVar6 = 0" (pointer_expression "*puVar6" (* "*") (identifier "puVar6")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar6[1] = 0;" (assignment_expression "puVar6[1] = 0" (subscript_expression "puVar6[1]" (identifier "puVar6") ([ "[") (number_literal "1") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar6[0x19] = uVar3;" (assignment_expression "puVar6[0x19] = uVar3" (subscript_expression "puVar6[0x19]" (identifier "puVar6") ([ "[") (number_literal "0x19") (] "]")) (= "=") (identifier "uVar3")) (; ";")) (expression_statement "puVar6[0x1a] = uVar4;" (assignment_expression "puVar6[0x1a] = uVar4" (subscript_expression "puVar6[0x1a]" (identifier "puVar6") ([ "[") (number_literal "0x1a") (] "]")) (= "=") (identifier "uVar4")) (; ";")) (expression_statement "puVar6[0x1b] = uVar33;" (assignment_expression "puVar6[0x1b] = uVar33" (subscript_expression "puVar6[0x1b]" (identifier "puVar6") ([ "[") (number_literal "0x1b") (] "]")) (= "=") (identifier "uVar33")) (; ";")) (expression_statement "puVar6[0x1c] = iVar21 + -0x3a271401;" (assignment_expression "puVar6[0x1c] = iVar21 + -0x3a271401" (subscript_expression "puVar6[0x1c]" (identifier "puVar6") ([ "[") (number_literal "0x1c") (] "]")) (= "=") (binary_expression "iVar21 + -0x3a271401" (identifier "iVar21") (+ "+") (number_literal "-0x3a271401"))) (; ";")) (comment "/* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */") (comment "/* WARNING: Treating indirect jump as call */") (expression_statement "(*UNRECOVERED_JUMPTABLE)();" (call_expression "(*UNRECOVERED_JUMPTABLE)()" (parenthesized_expression "(*UNRECOVERED_JUMPTABLE)" (( "(") (pointer_expression "*UNRECOVERED_JUMPTABLE" (* "*") (identifier "UNRECOVERED_JUMPTABLE")) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "uVar35 = 0x58;" (assignment_expression "uVar35 = 0x58" (identifier "uVar35") (= "=") (number_literal "0x58")) (; ";")) (expression_statement "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);" (call_expression "FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" (identifier "FUN_00011dd8") (argument_list "(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1)" (( "(") (identifier "DAT_00011e04") (, ",") (identifier "DAT_00011e00") (, ",") (number_literal "0x158") (, ",") (number_literal "0") (, ",") (identifier "uVar16") (, ",") (identifier "iVar21") (, ",") (cast_expression "(int)uVar1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar1")) () ")"))) (; ";")) (expression_statement "software_interrupt(0xcdab89);" (call_expression "software_interrupt(0xcdab89)" (identifier "software_interrupt") (argument_list "(0xcdab89)" (( "(") (number_literal "0xcdab89") () ")"))) (; ";")) (if_statement "if (bVar34) {\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" (if "if") (parenthesized_expression "(bVar34)" (( "(") (identifier "bVar34") () ")")) (compound_statement "{\n *(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;\n }" ({ "{") (expression_statement "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;" (assignment_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35" (pointer_expression "*(undefined1 *)(iVar21 + extraout_r1 * -0x40)" (* "*") (cast_expression "(undefined1 *)(iVar21 + extraout_r1 * -0x40)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar21 + extraout_r1 * -0x40)" (( "(") (binary_expression "iVar21 + extraout_r1 * -0x40" (identifier "iVar21") (+ "+") (binary_expression "extraout_r1 * -0x40" (identifier "extraout_r1") (* "*") (number_literal "-0x40"))) () ")")))) (= "=") (identifier "uVar35")) (; ";")) (} "}"))) (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
int function_1(type_1 *md,type_2 *var_3)
{
type_3 *puVar1;
type_4 var_20;
type_4 var_26;
type_4 var_12;
type_4 var_17;
type_4 var_28;
type_4 var_6;
type_4 var_11;
type_4 var_27;
type_4 var_15;
type_3 *var_1;
type_3 *var_5;
type_4 var_14;
type_4 var_21;
type_4 var_22;
type_4 var_30;
type_3 var_9;
type_3 var_10;
type_4 var_7;
type_3 var_23;
type_4 var_31;
type_4 var_13;
type_4 var_16;
type_4 var_18;
type_3 var_24;
type_4 var_19;
type_4 var_25;
type_4 var_29;
type_3 X [16];
type_3 var_4 [2];
var_4[0] = *DAT_00011004;
var_1 = X;
do {
var_5 = var_1 + 1;
var_2(var_1,var_3,4);
puVar1 = DAT_00011028;
var_3 = var_3 + 4;
var_1 = var_5;
} while (var_4 != var_5);
var_13 = (md->rmd320).state[8];
var_6 = (md->rmd256).state[7];
var_7 = (md->rmd256).state[6];
var_16 = var_6 >> 0x16 | var_6 << 10;
var_9 = (md->rmd256).state[5];
var_18 = var_7 >> 0x16 | var_7 << 10;
var_10 = (md->rmd320).state[9];
var_11 = ((~var_13 | var_6) ^ var_7) + X[5] + var_8 + var_9;
var_12 = var_10 + (var_11 >> 0x18 | var_11 * 0x100);
var_11 = var_12 >> 0x16 | var_12 * 0x400;
var_14 = ((~var_16 | var_7) ^ var_12) + X[0xe] + var_8 + var_10;
var_15 = var_13 + (var_14 >> 0x17 | var_14 * 0x200);
var_14 = var_15 >> 0x16 | var_15 * 0x400;
var_12 = ((~var_18 | var_12) ^ var_15) + X[7] + var_8 + var_13;
var_17 = var_16 + (var_12 >> 0x17 | var_12 * 0x200);
var_12 = var_17 >> 0x16 | var_17 * 0x400;
var_16 = ((~var_11 | var_15) ^ var_17) + X[0] + var_8 + var_16;
var_15 = var_18 + (var_16 >> 0x15 | var_16 * 0x800);
var_16 = var_15 >> 0x16 | var_15 * 0x400;
var_18 = ((~var_14 | var_17) ^ var_15) + X[9] + var_8 + var_18;
var_17 = var_11 + (var_18 >> 0x13 | var_18 * 0x2000);
var_18 = var_17 >> 0x16 | var_17 * 0x400;
var_11 = ((~var_12 | var_15) ^ var_17) + X[2] + var_8 + var_11;
var_15 = var_14 + (var_11 >> 0x11 | var_11 * 0x8000);
var_11 = var_15 >> 0x16 | var_15 * 0x400;
var_14 = ((~var_16 | var_17) ^ var_15) + X[0xb] + var_8 + var_14;
var_17 = var_12 + (var_14 >> 0x11 | var_14 * 0x8000);
var_14 = var_17 >> 0x16 | var_17 * 0x400;
var_12 = ((~var_18 | var_15) ^ var_17) + X[4] + var_8 + var_12;
var_15 = var_16 + (var_12 >> 0x1b | var_12 * 0x20);
var_12 = var_15 >> 0x16 | var_15 * 0x400;
var_16 = ((~var_11 | var_17) ^ var_15) + X[0xd] + var_8 + var_16;
var_19 = var_18 + (var_16 >> 0x19 | var_16 * 0x80);
var_21 = (md->rmd128).state[2];
var_16 = ((~var_14 | var_15) ^ var_19) + X[6] + var_8 + var_18;
var_15 = var_11 + (var_16 >> 0x19 | var_16 * 0x80);
var_23 = (md->rmd128).state[0];
var_20 = (md->md2).curlen;
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_22 = (md->rmd128).state[3];
var_18 = var_15 >> 0x16 | var_15 * 0x400;
var_24 = (md->rmd160).state[4];
var_17 = (var_20 ^ var_21 ^ var_22) + X[0] + var_23;
var_26 = var_24 + (var_17 >> 0x15 | var_17 * 0x800);
var_11 = ((~var_12 | var_19) ^ var_15) + X[0xf] + var_8 + var_11;
var_25 = var_14 + (var_11 >> 0x18 | var_11 * 0x100);
var_11 = var_21 >> 0x16 | var_21 << 10;
var_17 = var_25 >> 0x16 | var_25 * 0x400;
var_14 = ((~var_16 | var_15) ^ var_25) + X[8] + var_8 + var_14;
var_27 = var_12 + (var_14 >> 0x15 | var_14 * 0x800);
var_19 = (var_20 ^ var_11 ^ var_26) + X[1] + var_24;
var_14 = var_27 >> 0x16 | var_27 * 0x400;
var_15 = var_20 >> 0x16 | var_20 << 10;
var_28 = var_22 + (var_19 >> 0x12 | var_19 * 0x4000);
var_12 = ((~var_18 | var_25) ^ var_27) + X[1] + var_8 + var_12;
var_29 = var_16 + (var_12 >> 0x12 | var_12 * 0x4000);
var_12 = (var_26 ^ var_15 ^ var_28) + X[2] + var_22;
var_25 = var_11 + (var_12 >> 0x11 | var_12 * 0x8000);
var_12 = var_29 >> 0x16 | var_29 * 0x400;
var_26 = var_26 >> 0x16 | var_26 * 0x400;
var_19 = var_28 >> 0x16 | var_28 * 0x400;
var_11 = (var_28 ^ var_26 ^ var_25) + X[3] + var_11;
var_28 = var_15 + (var_11 >> 0x14 | var_11 * 0x1000);
var_11 = var_25 >> 0x16 | var_25 * 0x400;
var_15 = (var_25 ^ var_19 ^ var_28) + X[4] + var_15;
var_25 = var_26 + (var_15 >> 0x1b | var_15 * 0x20);
var_15 = var_28 >> 0x16 | var_28 * 0x400;
var_26 = (var_28 ^ var_11 ^ var_25) + X[5] + var_26;
var_28 = var_19 + (var_26 >> 0x18 | var_26 * 0x100);
var_26 = var_25 >> 0x16 | var_25 * 0x400;
var_19 = (var_25 ^ var_15 ^ var_28) + X[6] + var_19;
var_25 = var_11 + (var_19 >> 0x19 | var_19 * 0x80);
var_19 = var_28 >> 0x16 | var_28 * 0x400;
var_11 = (var_28 ^ var_26 ^ var_25) + X[7] + var_11;
var_30 = var_15 + (var_11 >> 0x17 | var_11 * 0x200);
var_15 = (var_25 ^ var_19 ^ var_30) + X[8] + var_15;
var_11 = var_25 >> 0x16 | var_25 * 0x400;
var_28 = var_26 + (var_15 >> 0x15 | var_15 * 0x800);
var_26 = (var_30 ^ var_11 ^ var_28) + X[9] + var_26;
var_15 = var_30 >> 0x16 | var_30 * 0x400;
var_25 = var_19 + (var_26 >> 0x13 | var_26 * 0x2000);
var_19 = (var_28 ^ var_15 ^ var_25) + X[10] + var_19;
var_26 = var_28 >> 0x16 | var_28 * 0x400;
var_28 = var_11 + (var_19 >> 0x12 | var_19 * 0x4000);
var_19 = var_25 >> 0x16 | var_25 * 0x400;
var_11 = (var_25 ^ var_26 ^ var_28) + X[0xb] + var_11;
var_25 = var_15 + (var_11 >> 0x11 | var_11 * 0x8000);
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_15 = (var_28 ^ var_19 ^ var_25) + X[0xc] + var_15;
var_30 = var_26 + (var_15 >> 0x1a | var_15 * 0x40);
var_16 = ((~var_17 | var_27) ^ var_29) + X[10] + var_8 + var_16;
var_31 = var_18 + (var_16 >> 0x12 | var_16 * 0x4000);
var_15 = (var_25 ^ var_11 ^ var_30) + X[0xd] + var_26;
var_16 = var_25 >> 0x16 | var_25 * 0x400;
var_18 = ((~var_14 | var_29) ^ var_31) + X[3] + var_8 + var_18;
var_27 = var_19 + (var_15 >> 0x19 | var_15 * 0x80);
var_28 = var_17 + (var_18 >> 0x14 | var_18 * 0x1000);
var_18 = (var_30 ^ var_16 ^ var_27) + X[0xe] + var_19;
var_29 = var_11 + (var_18 >> 0x17 | var_18 * 0x200);
var_18 = var_27 >> 0x16 | var_27 * 0x400;
var_17 = ((~var_12 | var_31) ^ var_28) + X[0xc] + var_8 + var_17;
var_19 = var_14 + (var_17 >> 0x1a | var_17 * 0x40);
var_17 = var_30 >> 0x16 | var_30 * 0x400;
var_26 = ((var_29 ^ var_18) & var_19 ^ var_18) + X[7] + var_32 + var_16;
var_15 = var_29 >> 0x16 | var_29 * 0x400;
var_25 = var_17 + (var_26 >> 0x19 | var_26 * 0x80);
var_26 = ((var_19 ^ var_15) & var_25 ^ var_15) + X[4] + var_32 + var_17;
var_30 = var_18 + (var_26 >> 0x1a | var_26 * 0x40);
var_26 = var_19 >> 0x16 | var_19 * 0x400;
var_19 = var_25 >> 0x16 | var_25 * 0x400;
var_18 = ((var_25 ^ var_26) & var_30 ^ var_26) + X[0xd] + var_32 + var_18;
var_25 = var_15 + (var_18 >> 0x18 | var_18 * 0x100);
var_18 = var_30 >> 0x16 | var_30 * 0x400;
var_15 = ((var_30 ^ var_19) & var_25 ^ var_19) + X[1] + var_32 + var_15;
var_30 = var_26 + (var_15 >> 0x13 | var_15 * 0x2000);
var_15 = var_25 >> 0x16 | var_25 * 0x400;
var_26 = ((var_25 ^ var_18) & var_30 ^ var_18) + X[10] + var_32 + var_26;
var_25 = var_19 + (var_26 >> 0x15 | var_26 * 0x800);
var_17 = (var_27 ^ var_17 ^ var_29) + X[0xf] + var_11;
var_11 = var_31 >> 0x16 | var_31 * 0x400;
var_16 = var_16 + (var_17 >> 0x18 | var_17 * 0x100);
var_26 = ((var_30 ^ var_15) & var_25 ^ var_15) + X[6] + var_32 + var_19;
var_17 = var_30 >> 0x16 | var_30 * 0x400;
var_26 = var_18 + (var_26 >> 0x17 | var_26 * 0x200);
var_14 = ((var_16 ^ var_28) & var_11 ^ var_28) + X[6] + 0x5c4dd124 + var_14;
var_18 = ((var_25 ^ var_17) & var_26 ^ var_17) + X[0xf] + var_32 + var_18;
var_30 = var_15 + (var_18 >> 0x19 | var_18 * 0x80);
var_19 = var_12 + (var_14 >> 0x17 | var_14 * 0x200);
var_18 = var_28 >> 0x16 | var_28 * 0x400;
var_14 = var_25 >> 0x16 | var_25 * 0x400;
var_12 = ((var_16 ^ var_19) & var_18 ^ var_16) + X[0xb] + 0x5c4dd124 + var_12;
var_27 = var_11 + (var_12 >> 0x13 | var_12 * 0x2000);
var_12 = var_26 >> 0x16 | var_26 * 0x400;
var_15 = ((var_26 ^ var_14) & var_30 ^ var_14) + X[3] + var_32 + var_15;
var_26 = var_17 + (var_15 >> 0x11 | var_15 * 0x8000);
var_16 = var_16 >> 0x16 | var_16 * 0x400;
var_17 = ((var_30 ^ var_12) & var_26 ^ var_12) + X[0xc] + var_32 + var_17;
var_11 = ((var_19 ^ var_27) & var_16 ^ var_19) + X[3] + 0x5c4dd124 + var_11;
var_31 = var_18 + (var_11 >> 0x11 | var_11 * 0x8000);
var_25 = var_14 + (var_17 >> 0x19 | var_17 * 0x80);
var_11 = var_30 >> 0x16 | var_30 * 0x400;
var_17 = var_19 >> 0x16 | var_19 * 0x400;
var_15 = var_26 >> 0x16 | var_26 * 0x400;
var_14 = ((var_26 ^ var_11) & var_25 ^ var_11) + X[0] + var_32 + var_14;
var_28 = var_12 + (var_14 >> 0x14 | var_14 * 0x1000);
var_18 = ((var_27 ^ var_31) & var_17 ^ var_27) + X[7] + 0x5c4dd124 + var_18;
var_26 = var_16 + (var_18 >> 0x19 | var_18 * 0x80);
var_12 = ((var_25 ^ var_15) & var_28 ^ var_15) + X[9] + var_32 + var_12;
var_18 = var_25 >> 0x16 | var_25 * 0x400;
var_14 = var_27 >> 0x16 | var_27 * 0x400;
var_30 = var_11 + (var_12 >> 0x11 | var_12 * 0x8000);
var_11 = ((var_28 ^ var_18) & var_30 ^ var_18) + X[5] + var_32 + var_11;
var_25 = var_15 + (var_11 >> 0x17 | var_11 * 0x200);
var_16 = ((var_31 ^ var_26) & var_14 ^ var_31) + X[0] + 0x5c4dd124 + var_16;
var_19 = var_17 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_31 >> 0x16 | var_31 * 0x400;
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_12 = ((var_26 ^ var_19) & var_16 ^ var_26) + X[0xd] + var_33 + var_17;
var_28 = var_14 + (var_12 >> 0x18 | var_12 * 0x100);
var_12 = ((var_30 ^ var_11) & var_25 ^ var_11) + X[2] + var_32 + var_15;
var_27 = var_18 + (var_12 >> 0x15 | var_12 * 0x800);
var_12 = var_26 >> 0x16 | var_26 * 0x400;
var_17 = var_30 >> 0x16 | var_30 * 0x400;
var_15 = var_25 >> 0x16 | var_25 * 0x400;
var_14 = ((var_19 ^ var_28) & var_12 ^ var_19) + X[5] + 0x5c4dd124 + var_14;
var_26 = var_16 + (var_14 >> 0x17 | var_14 * 0x200);
var_18 = ((var_25 ^ var_17) & var_27 ^ var_17) + X[0xe] + var_32 + var_18;
var_25 = var_11 + (var_18 >> 0x19 | var_18 * 0x80);
var_14 = ((var_27 ^ var_15) & var_25 ^ var_15) + X[0xb] + var_32 + var_11;
var_18 = var_27 >> 0x16 | var_27 * 0x400;
var_11 = var_19 >> 0x16 | var_19 * 0x400;
var_27 = var_17 + (var_14 >> 0x13 | var_14 * 0x2000);
var_16 = ((var_28 ^ var_26) & var_11 ^ var_28) + X[10] + 0x5c4dd124 + var_16;
var_19 = var_12 + (var_16 >> 0x15 | var_16 * 0x800);
var_17 = ((var_25 ^ var_18) & var_27 ^ var_18) + X[8] + var_32 + var_17;
var_16 = var_28 >> 0x16 | var_28 * 0x400;
var_14 = ((var_26 ^ var_19) & var_16 ^ var_26) + X[0xe] + 0x5c4dd124 + var_12;
var_30 = var_15 + (var_17 >> 0x14 | var_17 * 0x1000);
var_17 = var_11 + (var_14 >> 0x19 | var_14 * 0x80);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_12 = var_19 >> 0x16 | var_19 * 0x400;
var_11 = ((var_19 ^ var_17) & var_14 ^ var_19) + X[0xf] + 0x5c4dd124 + var_11;
var_19 = var_16 + (var_11 >> 0x19 | var_11 * 0x80);
var_16 = ((var_17 ^ var_19) & var_12 ^ var_17) + X[8] + 0x5c4dd124 + var_16;
var_28 = var_14 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_17 >> 0x16 | var_17 * 0x400;
var_11 = ((var_19 ^ var_28) & var_16 ^ var_19) + X[0xc] + 0x5c4dd124 + var_14;
var_26 = var_12 + (var_11 >> 0x19 | var_11 * 0x80);
var_11 = var_19 >> 0x16 | var_19 * 0x400;
var_14 = ((var_28 ^ var_26) & var_11 ^ var_28) + X[4] + var_33 + var_12;
var_17 = var_16 + (var_14 >> 0x1a | var_14 * 0x40);
var_14 = var_28 >> 0x16 | var_28 * 0x400;
var_16 = ((var_26 ^ var_17) & var_14 ^ var_26) + X[9] + var_33 + var_16;
var_19 = var_11 + (var_16 >> 0x11 | var_16 * 0x8000);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_12 = ((~var_27 | var_30) ^ var_16) + X[3] + var_34 + var_15;
var_15 = var_18 + (var_12 >> 0x15 | var_12 * 0x800);
var_12 = var_26 >> 0x16 | var_26 * 0x400;
var_11 = ((var_17 ^ var_19) & var_12 ^ var_17) + X[1] + 0x5c4dd124 + var_11;
var_28 = var_14 + (var_11 >> 0x13 | var_11 * 0x2000);
var_11 = var_27 >> 0x16 | var_27 * 0x400;
var_17 = var_17 >> 0x16 | var_17 * 0x400;
var_18 = ((~var_30 | var_15) ^ var_11) + X[10] + var_34 + var_18;
var_14 = (var_19 ^ (var_19 ^ var_28) & var_17) + X[2] + 0x5c4dd124 + var_14;
var_31 = var_12 + (var_14 >> 0x15 | var_14 * 0x800);
var_26 = var_16 + (var_18 >> 0x13 | var_18 * 0x2000);
var_18 = var_30 >> 0x16 | var_30 * 0x400;
var_16 = ((~var_15 | var_26) ^ var_18) + X[0xe] + var_34 + var_16;
var_19 = var_11 + (var_16 >> 0x1a | var_16 * 0x40);
var_16 = var_15 >> 0x16 | var_15 * 0x400;
var_14 = var_25 >> 0x16 | var_25 * 0x400;
var_11 = ((~var_26 | var_19) ^ var_16) + X[4] + var_34 + var_11;
var_12 = ((~var_28 | var_31) ^ var_14) + X[0xf] + 0x6d703ef3 + var_12;
var_27 = var_17 + (var_12 >> 0x17 | var_12 * 0x200);
var_15 = var_18 + (var_11 >> 0x19 | var_11 * 0x80);
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_17 = ((~var_31 | var_27) ^ var_11) + X[5] + 0x6d703ef3 + var_17;
var_12 = var_26 >> 0x16 | var_26 * 0x400;
var_18 = ((~var_19 | var_15) ^ var_12) + X[9] + 0x6ed9eba1 + var_18;
var_26 = var_16 + (var_18 >> 0x12 | var_18 * 0x4000);
var_25 = var_14 + (var_17 >> 0x19 | var_17 * 0x80);
var_18 = var_19 >> 0x16 | var_19 * 0x400;
var_17 = var_31 >> 0x16 | var_31 * 0x400;
var_19 = ((~var_15 | var_26) ^ var_18) + X[0xf] + 0x6ed9eba1 + var_16;
var_16 = ((~var_27 | var_25) ^ var_17) + X[1] + var_35 + var_14;
var_30 = var_11 + (var_16 >> 0x11 | var_16 * 0x8000);
var_16 = var_27 >> 0x16 | var_27 * 0x400;
var_11 = ((~var_25 | var_30) ^ var_16) + X[3] + var_35 + var_11;
var_27 = var_17 + (var_11 >> 0x15 | var_11 * 0x800);
var_19 = var_12 + (var_19 >> 0x17 | var_19 * 0x200);
var_11 = var_15 >> 0x16 | var_15 * 0x400;
var_14 = ((~var_26 | var_19) ^ var_11) + X[8] + 0x6ed9eba1 + var_12;
var_28 = var_18 + (var_14 >> 0x13 | var_14 * 0x2000);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_12 = var_25 >> 0x16 | var_25 * 0x400;
var_18 = ((~var_19 | var_28) ^ var_14) + X[1] + var_34 + var_18;
var_15 = var_11 + (var_18 >> 0x11 | var_18 * 0x8000);
var_18 = ((~var_30 | var_27) ^ var_12) + X[7] + 0x6d703ef3 + var_17;
var_25 = var_16 + (var_18 >> 0x18 | var_18 * 0x100);
var_18 = var_30 >> 0x16 | var_30 * 0x400;
var_16 = ((~var_27 | var_25) ^ var_18) + X[0xe] + 0x6d703ef3 + var_16;
var_30 = var_12 + (var_16 >> 0x1a | var_16 * 0x40);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_11 = ((~var_28 | var_15) ^ var_16) + X[2] + 0x6ed9eba1 + var_11;
var_17 = var_14 + (var_11 >> 0x12 | var_11 * 0x4000);
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_14 = ((~var_15 | var_17) ^ var_11) + X[7] + 0x6ed9eba1 + var_14;
var_26 = var_16 + (var_14 >> 0x18 | var_14 * 0x100);
var_14 = var_27 >> 0x16 | var_27 * 0x400;
var_12 = ((~var_25 | var_30) ^ var_14) + X[6] + 0x6d703ef3 + var_12;
var_27 = var_18 + (var_12 >> 0x1a | var_12 * 0x40);
var_12 = var_25 >> 0x16 | var_25 * 0x400;
var_18 = ((~var_30 | var_27) ^ var_12) + X[9] + 0x6d703ef3 + var_18;
var_25 = var_14 + (var_18 >> 0x12 | var_18 * 0x4000);
var_18 = var_15 >> 0x16 | var_15 * 0x400;
var_16 = ((~var_17 | var_26) ^ var_18) + X[0] + 0x6ed9eba1 + var_16;
var_15 = var_11 + (var_16 >> 0x13 | var_16 * 0x2000);
var_16 = var_17 >> 0x16 | var_17 * 0x400;
var_17 = var_30 >> 0x16 | var_30 * 0x400;
var_14 = ((~var_27 | var_25) ^ var_17) + X[0xb] + 0x6d703ef3 + var_14;
var_11 = ((~var_26 | var_15) ^ var_16) + X[6] + var_34 + var_11;
var_28 = var_18 + (var_11 >> 0x1a | var_11 * 0x40);
var_19 = var_12 + (var_14 >> 0x14 | var_14 * 0x1000);
var_11 = var_27 >> 0x16 | var_27 * 0x400;
var_14 = ((~var_25 | var_19) ^ var_11) + X[8] + 0x6d703ef3 + var_12;
var_31 = var_17 + (var_14 >> 0x13 | var_14 * 0x2000);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_18 = ((~var_15 | var_28) ^ var_14) + X[0xd] + 0x6ed9eba1 + var_18;
var_26 = var_16 + (var_18 >> 0x1b | var_18 * 0x20);
var_18 = var_15 >> 0x16 | var_15 * 0x400;
var_12 = var_25 >> 0x16 | var_25 * 0x400;
var_16 = ((~var_28 | var_26) ^ var_18) + X[0xb] + var_34 + var_16;
var_17 = ((~var_19 | var_31) ^ var_12) + X[0xc] + 0x6d703ef3 + var_17;
var_30 = var_11 + (var_17 >> 0x1b | var_17 * 0x20);
var_27 = var_14 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_11 = ((~var_31 | var_30) ^ var_16) + X[2] + 0x6d703ef3 + var_11;
var_25 = var_12 + (var_11 >> 0x12 | var_11 * 0x4000);
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_17 = var_31 >> 0x16 | var_31 * 0x400;
var_14 = ((~var_26 | var_27) ^ var_11) + X[5] + 0x6ed9eba1 + var_14;
var_19 = var_18 + (var_14 >> 0x19 | var_14 * 0x80);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_15 = ((~var_27 | var_19) ^ var_14) + X[0xc] + 0x6ed9eba1 + var_18;
var_12 = ((~var_30 | var_25) ^ var_17) + X[10] + var_35 + var_12;
var_18 = var_25 >> 0x16 | var_25 * 0x400;
var_26 = var_11 + (var_15 >> 0x1b | var_15 * 0x20);
var_31 = var_16 + (var_12 >> 0x13 | var_12 * 0x2000);
var_12 = var_27 >> 0x16 | var_27 * 0x400;
var_15 = var_30 >> 0x16 | var_30 * 0x400;
var_28 = ((~var_25 | var_31) ^ var_15) + X[0] + var_35 + var_16;
var_16 = ((var_19 ^ var_26) & var_12 ^ var_19) + X[1] + 0x8f1bbcdc + var_18;
var_30 = var_17 + (var_28 >> 0x13 | var_28 * 0x2000);
var_28 = var_14 + (var_16 >> 0x15 | var_16 * 0x800);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_14 = ((var_26 ^ var_28) & var_16 ^ var_26) + X[9] + 0x8f1bbcdc + var_14;
var_19 = var_12 + (var_14 >> 0x14 | var_14 * 0x1000);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_12 = ((var_28 ^ var_19) & var_14 ^ var_28) + X[0xb] + var_36 + var_12;
var_26 = var_16 + (var_12 >> 0x12 | var_12 * 0x4000);
var_12 = var_28 >> 0x16 | var_28 * 0x400;
var_16 = ((var_19 ^ var_26) & var_12 ^ var_19) + X[10] + 0x8f1bbcdc + var_16;
var_28 = var_14 + (var_16 >> 0x11 | var_16 * 0x8000);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_14 = ((var_26 ^ var_28) & var_16 ^ var_26) + X[0] + 0x8f1bbcdc + var_14;
var_19 = var_12 + (var_14 >> 0x12 | var_14 * 0x4000);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_12 = ((var_28 ^ var_19) & var_14 ^ var_28) + X[8] + 0x8f1bbcdc + var_12;
var_26 = var_16 + (var_12 >> 0x11 | var_12 * 0x8000);
var_12 = var_28 >> 0x16 | var_28 * 0x400;
var_16 = ((var_19 ^ var_26) & var_12 ^ var_19) + X[0xc] + 0x8f1bbcdc + var_16;
var_27 = var_14 + (var_16 >> 0x17 | var_16 * 0x200);
var_16 = ((~var_31 | var_30) ^ var_18) + X[4] + 0x6d703ef3 + var_17;
var_25 = var_15 + (var_16 >> 0x19 | var_16 * 0x80);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_17 = var_31 >> 0x16 | var_31 * 0x400;
var_15 = ((~var_30 | var_25) ^ var_17) + X[0xd] + var_35 + var_15;
var_18 = var_18 + (var_15 >> 0x1b | var_15 * 0x20);
var_14 = ((var_26 ^ var_27) & var_16 ^ var_26) + X[4] + 0x8f1bbcdc + var_14;
var_28 = var_12 + (var_14 >> 0x18 | var_14 * 0x100);
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_12 = ((var_27 ^ var_28) & var_14 ^ var_27) + X[0xd] + 0x8f1bbcdc + var_12;
var_19 = var_16 + (var_12 >> 0x17 | var_12 * 0x200);
var_12 = var_30 >> 0x16 | var_30 * 0x400;
var_15 = var_25 >> 0x16 | var_25 * 0x400;
var_11 = ((var_25 ^ var_12) & var_18 ^ var_12) + X[8] + var_37 + var_11;
var_26 = var_17 + (var_11 >> 0x11 | var_11 * 0x8000);
var_11 = var_27 >> 0x16 | var_27 * 0x400;
var_17 = ((var_18 ^ var_15) & var_26 ^ var_15) + X[6] + var_37 + var_17;
var_27 = ((var_28 ^ var_19) & var_11 ^ var_28) + X[3] + 0x8f1bbcdc + var_16;
var_25 = var_12 + (var_17 >> 0x1b | var_17 * 0x20);
var_16 = var_18 >> 0x16 | var_18 * 0x400;
var_27 = var_14 + (var_27 >> 0x12 | var_27 * 0x4000);
var_18 = var_28 >> 0x16 | var_28 * 0x400;
var_12 = ((var_26 ^ var_16) & var_25 ^ var_16) + X[4] + 0x7a6d76e9 + var_12;
var_28 = ((var_19 ^ var_27) & var_18 ^ var_19) + X[7] + var_36 + var_14;
var_14 = var_26 >> 0x16 | var_26 * 0x400;
var_26 = var_15 + (var_12 >> 0x18 | var_12 * 0x100);
var_17 = ((var_25 ^ var_14) & var_26 ^ var_14) + X[1] + 0x7a6d76e9 + var_15;
var_31 = var_11 + (var_28 >> 0x1b | var_28 * 0x20);
var_12 = var_25 >> 0x16 | var_25 * 0x400;
var_15 = var_16 + (var_17 >> 0x15 | var_17 * 0x800);
var_17 = var_19 >> 0x16 | var_19 * 0x400;
var_19 = ((var_27 ^ var_31) & var_17 ^ var_27) + X[0xf] + var_36 + var_11;
var_11 = ((var_26 ^ var_12) & var_15 ^ var_12) + X[3] + 0x7a6d76e9 + var_16;
var_16 = var_26 >> 0x16 | var_26 * 0x400;
var_30 = var_18 + (var_19 >> 0x1a | var_19 * 0x40);
var_28 = var_14 + (var_11 >> 0x12 | var_11 * 0x4000);
var_11 = var_27 >> 0x16 | var_27 * 0x400;
var_14 = ((var_15 ^ var_16) & var_28 ^ var_16) + X[0xb] + 0x7a6d76e9 + var_14;
var_18 = ((var_31 ^ var_30) & var_11 ^ var_31) + X[0xe] + var_36 + var_18;
var_26 = var_12 + (var_14 >> 0x12 | var_14 * 0x4000);
var_19 = var_17 + (var_18 >> 0x18 | var_18 * 0x100);
var_18 = var_15 >> 0x16 | var_15 * 0x400;
var_14 = var_31 >> 0x16 | var_31 * 0x400;
var_15 = ((var_28 ^ var_18) & var_26 ^ var_18) + X[0xf] + var_37 + var_12;
var_12 = ((var_30 ^ var_19) & var_14 ^ var_30) + X[5] + 0x8f1bbcdc + var_17;
var_27 = var_11 + (var_12 >> 0x1a | var_12 * 0x40);
var_12 = var_27 >> 0x16 | var_27 * 0x400;
var_17 = var_28 >> 0x16 | var_28 * 0x400;
var_15 = var_16 + (var_15 >> 0x1a | var_15 * 0x40);
var_16 = ((var_26 ^ var_17) & var_15 ^ var_17) + X[0] + 0x7a6d76e9 + var_16;
var_28 = var_18 + (var_16 >> 0x12 | var_16 * 0x4000);
var_16 = var_26 >> 0x16 | var_26 * 0x400;
var_18 = ((var_15 ^ var_16) & var_28 ^ var_16) + X[5] + 0x7a6d76e9 + var_18;
var_26 = var_17 + (var_18 >> 0x1a | var_18 * 0x40);
var_18 = var_15 >> 0x16 | var_15 * 0x400;
var_15 = ((var_28 ^ var_18) & var_26 ^ var_18) + X[0xc] + 0x7a6d76e9 + var_17;
var_17 = var_28 >> 0x16 | var_28 * 0x400;
var_28 = var_16 + (var_15 >> 0x17 | var_15 * 0x200);
var_15 = var_26 >> 0x16 | var_26 * 0x400;
var_16 = ((var_26 ^ var_17) & var_28 ^ var_17) + X[2] + var_37 + var_16;
var_26 = var_18 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_28 >> 0x16 | var_28 * 0x400;
var_18 = ((var_28 ^ var_15) & var_26 ^ var_15) + X[0xd] + var_37 + var_18;
var_28 = var_17 + (var_18 >> 0x17 | var_18 * 0x200);
var_17 = ((var_26 ^ var_16) & var_28 ^ var_16) + X[9] + var_37 + var_17;
var_18 = var_26 >> 0x16 | var_26 * 0x400;
var_26 = var_15 + (var_17 >> 0x14 | var_17 * 0x1000);
var_17 = ((var_28 ^ var_18) & var_26 ^ var_18) + X[7] + 0x7a6d76e9 + var_15;
var_25 = var_16 + (var_17 >> 0x1b | var_17 * 0x20);
var_17 = var_30 >> 0x16 | var_30 * 0x400;
var_15 = var_28 >> 0x16 | var_28 * 0x400;
var_11 = ((var_19 ^ var_27) & var_17 ^ var_19) + X[6] + 0x8f1bbcdc + var_11;
var_31 = var_14 + (var_11 >> 0x1b | var_11 * 0x20);
var_11 = var_19 >> 0x16 | var_19 * 0x400;
var_16 = ((var_26 ^ var_15) & var_25 ^ var_15) + X[10] + var_37 + var_16;
var_30 = var_18 + (var_16 >> 0x11 | var_16 * 0x8000);
var_16 = ((var_27 ^ var_31) & var_11 ^ var_27) + X[2] + var_36 + var_14;
var_19 = var_17 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_30 >> 0x16 | var_30 * 0x400;
var_14 = var_19 >> 0x16 | var_19 * 0x400;
var_17 = ((~var_12 | var_30) ^ var_19) + X[4] + var_38 + var_17;
var_28 = var_11 + (var_17 >> 0x17 | var_17 * 0x200);
var_17 = var_28 >> 0x16 | var_28 * 0x400;
var_11 = ((~var_16 | var_19) ^ var_28) + X[0] + var_38 + var_11;
var_19 = var_12 + (var_11 >> 0x11 | var_11 * 0x8000);
var_11 = var_19 >> 0x16 | var_19 * 0x400;
var_12 = ((~var_14 | var_28) ^ var_19) + X[5] + var_38 + var_12;
var_28 = var_16 + (var_12 >> 0x1b | var_12 * 0x20);
var_12 = var_28 >> 0x16 | var_28 * 0x400;
var_16 = ((~var_17 | var_19) ^ var_28) + X[9] + var_38 + var_16;
var_19 = var_14 + (var_16 >> 0x15 | var_16 * 0x800);
var_16 = var_19 >> 0x16 | var_19 * 0x400;
var_14 = ((~var_11 | var_28) ^ var_19) + X[7] + var_38 + var_14;
var_28 = var_17 + (var_14 >> 0x1a | var_14 * 0x40);
var_14 = var_28 >> 0x16 | var_28 * 0x400;
var_17 = ((~var_12 | var_19) ^ var_28) + X[0xc] + var_38 + var_17;
var_19 = var_11 + (var_17 >> 0x18 | var_17 * 0x100);
var_17 = var_19 >> 0x16 | var_19 * 0x400;
var_11 = ((~var_16 | var_28) ^ var_19) + X[2] + var_38 + var_11;
var_28 = var_12 + (var_11 >> 0x13 | var_11 * 0x2000);
var_11 = var_28 >> 0x16 | var_28 * 0x400;
var_12 = ((~var_14 | var_19) ^ var_28) + X[10] + var_38 + var_12;
var_27 = var_16 + (var_12 >> 0x14 | var_12 * 0x1000);
var_12 = var_27 >> 0x16 | var_27 * 0x400;
var_16 = ((~var_17 | var_28) ^ var_27) + X[0xe] + var_38 + var_16;
var_19 = var_14 + (var_16 >> 0x1b | var_16 * 0x20);
var_16 = ((~var_11 | var_27) ^ var_19) + X[1] + var_38 + var_14;
var_28 = var_17 + (var_16 >> 0x14 | var_16 * 0x1000);
var_16 = var_28 >> 0x16 | var_28 * 0x400;
var_14 = var_19 >> 0x16 | var_19 * 0x400;
var_26 = var_26 >> 0x16 | var_26 * 0x400;
var_18 = ((var_25 ^ var_26) & var_30 ^ var_26) + X[0xe] + var_37 + var_18;
var_27 = var_15 + (var_18 >> 0x18 | var_18 * 0x100);
var_18 = var_25 >> 0x16 | var_25 * 0x400;
var_19 = ((~var_12 | var_19) ^ var_28) + X[3] + var_38 + var_17;
var_17 = var_31 >> 0x16 | var_31 * 0x400;
var_15 = (var_31 ^ var_18 ^ var_27) + X[0xc] + var_15;
var_30 = var_26 + (var_15 >> 0x18 | var_15 * 0x100);
var_19 = var_11 + (var_19 >> 0x13 | var_19 * 0x2000);
var_15 = (var_27 ^ var_17 ^ var_30) + X[0xf] + var_26;
var_25 = var_18 + (var_15 >> 0x1b | var_15 * 0x20);
var_15 = var_27 >> 0x16 | var_27 * 0x400;
var_26 = ((~var_14 | var_28) ^ var_19) + X[8] + var_38 + var_11;
var_11 = var_19 >> 0x16 | var_19 * 0x400;
var_28 = var_12 + (var_26 >> 0x12 | var_26 * 0x4000);
var_26 = var_30 >> 0x16 | var_30 * 0x400;
var_18 = (var_30 ^ var_15 ^ var_25) + X[10] + var_18;
var_27 = var_17 + (var_18 >> 0x14 | var_18 * 0x1000);
var_18 = ((~var_16 | var_19) ^ var_28) + X[0xb] + var_38 + var_12;
var_12 = (var_25 ^ var_26 ^ var_27) + X[4] + var_17;
var_19 = var_14 + (var_18 >> 0x15 | var_18 * 0x800);
var_18 = var_25 >> 0x16 | var_25 * 0x400;
var_25 = var_15 + (var_12 >> 0x17 | var_12 * 0x200);
var_12 = var_19 >> 0x16 | var_19 * 0x400;
var_17 = var_27 >> 0x16 | var_27 * 0x400;
var_15 = (var_27 ^ var_18 ^ var_25) + X[1] + var_15;
var_30 = var_26 + (var_15 >> 0x14 | var_15 * 0x1000);
var_26 = (var_25 ^ var_17 ^ var_30) + X[5] + var_26;
var_15 = var_25 >> 0x16 | var_25 * 0x400;
var_26 = var_18 + (var_26 >> 0x1b | var_26 * 0x20);
var_27 = (var_30 ^ var_15 ^ var_26) + X[8] + var_18;
var_18 = var_30 >> 0x16 | var_30 * 0x400;
var_25 = var_17 + (var_27 >> 0x12 | var_27 * 0x4000);
var_27 = (var_26 ^ var_18 ^ var_25) + X[7] + var_17;
var_17 = var_26 >> 0x16 | var_26 * 0x400;
var_27 = var_15 + (var_27 >> 0x1a | var_27 * 0x40);
var_26 = var_25 >> 0x16 | var_25 * 0x400;
var_15 = (var_25 ^ var_17 ^ var_27) + X[6] + var_15;
var_25 = var_18 + (var_15 >> 0x18 | var_15 * 0x100);
var_15 = (var_27 ^ var_26 ^ var_25) + X[2] + var_18;
var_18 = var_27 >> 0x16 | var_27 * 0x400;
var_30 = var_17 + (var_15 >> 0x13 | var_15 * 0x2000);
var_15 = (var_25 ^ var_18 ^ var_30) + X[0xd] + var_17;
var_17 = var_25 >> 0x16 | var_25 * 0x400;
var_27 = var_26 + (var_15 >> 0x1a | var_15 * 0x40);
var_15 = (var_30 ^ var_17 ^ var_27) + X[0xe] + var_26;
var_25 = var_18 + (var_15 >> 0x1b | var_15 * 0x20);
var_15 = var_30 >> 0x16 | var_30 * 0x400;
var_26 = var_27 >> 0x16 | var_27 * 0x400;
var_27 = (var_27 ^ var_15 ^ var_25) + X[0] + var_18;
var_18 = var_28 >> 0x16 | var_28 * 0x400;
var_14 = ((~var_11 | var_28) ^ var_19) + X[6] + var_38 + var_14;
var_27 = var_17 + (var_27 >> 0x11 | var_27 * 0x8000);
var_17 = (var_25 ^ var_26 ^ var_27) + X[3] + var_17;
var_28 = var_16 + (var_14 >> 0x18 | var_14 * 0x100);
var_14 = var_25 >> 0x16 | var_25 * 0x400;
var_25 = var_15 + (var_17 >> 0x13 | var_17 * 0x2000);
var_16 = ((~var_18 | var_19) ^ var_28) + X[0xf] + var_38 + var_16;
var_17 = (var_27 ^ var_14 ^ var_25) + X[9] + var_15;
var_19 = var_26 + (var_17 >> 0x15 | var_17 * 0x800);
var_17 = var_11 + (var_16 >> 0x1b | var_16 * 0x20);
var_16 = var_27 >> 0x16 | var_27 * 0x400;
var_15 = ((~var_12 | var_28) ^ var_17) + X[0xd] + var_38 + var_11;
var_11 = (var_25 ^ var_16 ^ var_19) + X[0xb] + var_26;
(md->rmd128).state[3] = var_22 + (var_28 >> 0x16 | var_28 * 0x400);
(md->rmd128).state[0] = var_23 + var_18;
(md->md2).curlen = var_20 + var_18 + (var_15 >> 0x1a | var_15 * 0x40);
(md->rmd256).state[5] = var_9 + var_14;
var_9 = *puVar1;
(md->rmd128).state[2] = var_21 + var_17;
(md->rmd160).state[4] = var_24 + var_16;
(md->rmd256).state[6] = var_7 + var_14 + (var_11 >> 0x15 | var_11 * 0x800);
(md->rmd320).state[9] = var_10 + var_12;
(md->rmd256).state[7] = var_6 + var_19;
(md->rmd320).state[8] = var_13 + (var_25 >> 0x16 | var_25 * 0x400);
if (var_4[0] == var_9) {
return 0;
}
/* WARNING: Subroutine does not return */
var_39();
}
|
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(assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (false))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal)))) (comment) (comment) (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list))) (return_statement))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal) (number_literal) (identifier) (identifier) (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal)))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) right: (identifier))))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(int param_1,int param_2)
{
undefined8 uVar1;
int *piVar2;
undefined4 uVar3;
undefined4 uVar4;
uint uVar5;
undefined4 *puVar6;
uint uVar7;
uint uVar8;
uint uVar9;
undefined1 *puVar10;
undefined1 *puVar11;
int extraout_r1;
uint uVar12;
uint uVar13;
uint uVar14;
uint uVar15;
uint uVar16;
uint *puVar17;
uint *puVar18;
uint uVar19;
uint uVar20;
int iVar21;
int iVar22;
int iVar23;
int iVar24;
uint uVar25;
uint *puVar26;
uint uVar27;
uint uVar28;
uint uVar29;
uint uVar30;
uint uVar31;
uint uVar32;
undefined4 uVar33;
code *UNRECOVERED_JUMPTABLE;
bool bVar34;
undefined1 uVar35;
undefined8 uVar36;
uint uStack_e0;
int iStack_dc;
uint uStack_d8;
int iStack_d4;
uint uStack_d0;
uint uStack_cc;
int iStack_c8;
int iStack_c4;
uint uStack_c0;
undefined4 uStack_bc;
uint uStack_b8;
uint uStack_b4;
uint uStack_b0;
uint uStack_ac;
int local_a8;
int iStack_a4;
uint uStack_a0;
int iStack_9c;
int iStack_98;
uint uStack_94;
uint uStack_90;
uint uStack_8c;
int iStack_88;
uint uStack_84;
uint uStack_80;
uint uStack_7c;
uint uStack_78;
uint uStack_74;
uint uStack_6c;
int iStack_68;
int iStack_64;
int iStack_60;
int iStack_5c;
int iStack_58;
int iStack_54;
int iStack_50;
int iStack_4c;
int iStack_48;
int iStack_44;
int iStack_40;
int iStack_3c;
int iStack_38;
int iStack_34;
int iStack_30;
uint local_2c [2];
local_2c[0] = *DAT_00011004;
puVar17 = &uStack_6c;
local_a8 = param_1;
do {
puVar18 = puVar17 + 1;
FUN_00010034(puVar17,param_2);
uVar16 = local_2c[0];
puVar26 = DAT_00011028;
param_2 = param_2 + 4;
puVar17 = puVar18;
} while (local_2c != puVar18);
uVar27 = *(uint *)(local_a8 + 0x6c);
uVar12 = *(uint *)(local_a8 + 0x68);
uStack_94 = *(uint *)(local_a8 + 100);
uVar28 = uVar12 >> 0x16 | uVar12 << 10;
iStack_98 = *(int *)(local_a8 + 0x60);
uVar29 = uStack_94 >> 0x16 | uStack_94 << 10;
iVar23 = *(int *)(local_a8 + 0x70);
uVar13 = ((~uVar27 | uVar12) ^ uStack_94) + iStack_58 + DAT_00011008 + iStack_98;
uVar7 = iVar23 + (uVar13 >> 0x18 | uVar13 * 0x100);
uVar13 = uVar7 >> 0x16 | uVar7 * 0x400;
uVar19 = ((~uVar28 | uStack_94) ^ uVar7) + iStack_34 + DAT_00011008 + iVar23;
uVar15 = uVar27 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = ((~uVar29 | uVar7) ^ uVar15) + iStack_50 + DAT_00011008 + uVar27;
uVar8 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar28 = ((~uVar13 | uVar15) ^ uVar8) + uStack_6c + DAT_00011008 + uVar28;
uVar15 = uVar29 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar29 = ((~uVar19 | uVar8) ^ uVar15) + iStack_48 + DAT_00011008 + uVar29;
uVar8 = uVar13 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar29 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar13 = ((~uVar7 | uVar15) ^ uVar8) + iStack_64 + DAT_00011008 + uVar13;
uVar15 = uVar19 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = ((~uVar28 | uVar8) ^ uVar15) + iStack_40 + DAT_00011008 + uVar19;
uVar8 = uVar7 + (uVar19 >> 0x11 | uVar19 * 0x8000);
uVar19 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar7 = ((~uVar29 | uVar15) ^ uVar8) + iStack_5c + DAT_00011008 + uVar7;
uVar15 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar28 = ((~uVar13 | uVar8) ^ uVar15) + iStack_38 + DAT_00011008 + uVar28;
uVar30 = uVar29 + (uVar28 >> 0x19 | uVar28 * 0x80);
uStack_b4 = *(uint *)(local_a8 + 0x54);
uVar28 = ((~uVar19 | uVar15) ^ uVar30) + iStack_54 + DAT_00011008 + uVar29;
uVar15 = uVar13 + (uVar28 >> 0x19 | uVar28 * 0x80);
iStack_a4 = *(int *)(local_a8 + 0x4c);
uStack_b8 = *(uint *)(local_a8 + 0x50);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uStack_b0 = *(uint *)(local_a8 + 0x58);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
iStack_9c = *(int *)(local_a8 + 0x5c);
uVar8 = (uStack_b8 ^ uStack_b4 ^ uStack_b0) + uStack_6c + iStack_a4;
uVar5 = iStack_9c + (uVar8 >> 0x15 | uVar8 * 0x800);
uVar13 = ((~uVar7 | uVar30) ^ uVar15) + iStack_30 + DAT_00011008 + uVar13;
uVar31 = uVar19 + (uVar13 >> 0x18 | uVar13 * 0x100);
uVar13 = uStack_b4 >> 0x16 | uStack_b4 << 10;
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = ((~uVar28 | uVar15) ^ uVar31) + iStack_4c + DAT_00011008 + uVar19;
uVar14 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);
uVar30 = (uStack_b8 ^ uVar13 ^ uVar5) + iStack_68 + iStack_9c;
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar15 = uStack_b8 >> 0x16 | uStack_b8 << 10;
uVar9 = uStack_b0 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar7 = ((~uVar29 | uVar31) ^ uVar14) + iStack_68 + DAT_00011008 + uVar7;
uVar32 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);
uVar7 = (uVar5 ^ uVar15 ^ uVar9) + iStack_64 + uStack_b0;
uVar31 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar7 = uVar32 >> 0x16 | uVar32 * 0x400;
uVar5 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_60 + uVar13;
uVar9 = uVar15 + (uVar13 >> 0x14 | uVar13 * 0x1000);
uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = (uVar31 ^ uVar30 ^ uVar9) + iStack_5c + uVar15;
uVar31 = uVar5 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar5 = (uVar9 ^ uVar13 ^ uVar31) + iStack_58 + uVar5;
uVar9 = uVar30 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar5 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar30 = (uVar31 ^ uVar15 ^ uVar9) + iStack_54 + uVar30;
uVar31 = uVar13 + (uVar30 >> 0x19 | uVar30 * 0x80);
uVar30 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = (uVar9 ^ uVar5 ^ uVar31) + iStack_50 + uVar13;
uVar20 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);
uVar15 = (uVar31 ^ uVar30 ^ uVar20) + iStack_4c + uVar15;
uVar13 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar9 = uVar5 + (uVar15 >> 0x15 | uVar15 * 0x800);
uVar5 = (uVar20 ^ uVar13 ^ uVar9) + iStack_48 + uVar5;
uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar31 = uVar30 + (uVar5 >> 0x13 | uVar5 * 0x2000);
uVar30 = (uVar9 ^ uVar15 ^ uVar31) + iStack_44 + uVar30;
uVar5 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar13 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = (uVar31 ^ uVar5 ^ uVar9) + iStack_40 + uVar13;
uVar31 = uVar15 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = (uVar9 ^ uVar30 ^ uVar31) + iStack_3c + uVar15;
uVar20 = uVar5 + (uVar15 >> 0x1a | uVar15 * 0x40);
uVar28 = ((~uVar8 | uVar14) ^ uVar32) + iStack_44 + DAT_00011008 + uVar28;
uVar25 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);
uVar15 = (uVar31 ^ uVar13 ^ uVar20) + iStack_38 + uVar5;
uVar28 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar19 | uVar32) ^ uVar25) + iStack_60 + DAT_00011008 + uVar29;
uVar14 = uVar30 + (uVar15 >> 0x19 | uVar15 * 0x80);
uVar9 = uVar8 + (uVar29 >> 0x14 | uVar29 * 0x1000);
uVar29 = (uVar20 ^ uVar28 ^ uVar14) + iStack_34 + uVar30;
uVar32 = uVar13 + (uVar29 >> 0x17 | uVar29 * 0x200);
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((~uVar7 | uVar25) ^ uVar9) + iStack_3c + DAT_00011008 + uVar8;
uVar30 = uVar19 + (uVar8 >> 0x1a | uVar8 * 0x40);
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar5 = ((uVar32 ^ uVar29) & uVar30 ^ uVar29) + iStack_50 + DAT_0001100c + uVar28;
uVar15 = uVar32 >> 0x16 | uVar32 * 0x400;
uVar31 = uVar8 + (uVar5 >> 0x19 | uVar5 * 0x80);
uVar5 = ((uVar30 ^ uVar15) & uVar31 ^ uVar15) + iStack_5c + DAT_0001100c + uVar8;
uVar20 = uVar29 + (uVar5 >> 0x1a | uVar5 * 0x40);
uVar5 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((uVar31 ^ uVar5) & uVar20 ^ uVar5) + iStack_38 + DAT_0001100c + uVar29;
uVar31 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = ((uVar20 ^ uVar30) & uVar31 ^ uVar30) + iStack_68 + DAT_0001100c + uVar15;
uVar20 = uVar5 + (uVar15 >> 0x13 | uVar15 * 0x2000);
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar5 = ((uVar31 ^ uVar29) & uVar20 ^ uVar29) + iStack_44 + DAT_0001100c + uVar5;
uVar31 = uVar30 + (uVar5 >> 0x15 | uVar5 * 0x800);
uVar8 = (uVar14 ^ uVar8 ^ uVar32) + iStack_30 + uVar13;
uVar13 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar28 = uVar28 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar5 = ((uVar20 ^ uVar15) & uVar31 ^ uVar15) + iStack_54 + DAT_0001100c + uVar30;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar5 = uVar29 + (uVar5 >> 0x17 | uVar5 * 0x200);
uVar19 = ((uVar28 ^ uVar9) & uVar13 ^ uVar9) + iStack_54 + 0x5c4dd124 + uVar19;
uVar29 = ((uVar31 ^ uVar8) & uVar5 ^ uVar8) + iStack_30 + DAT_0001100c + uVar29;
uVar20 = uVar15 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar30 = uVar7 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar7 = ((uVar28 ^ uVar30) & uVar29 ^ uVar28) + iStack_40 + 0x5c4dd124 + uVar7;
uVar14 = uVar13 + (uVar7 >> 0x13 | uVar7 * 0x2000);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar15 = ((uVar5 ^ uVar19) & uVar20 ^ uVar19) + iStack_60 + DAT_0001100c + uVar15;
uVar5 = uVar8 + (uVar15 >> 0x11 | uVar15 * 0x8000);
uVar28 = uVar28 >> 0x16 | uVar28 * 0x400;
uVar8 = ((uVar20 ^ uVar7) & uVar5 ^ uVar7) + iStack_3c + DAT_0001100c + uVar8;
uVar13 = ((uVar30 ^ uVar14) & uVar28 ^ uVar30) + iStack_60 + 0x5c4dd124 + uVar13;
uVar25 = uVar29 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar13 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar19 = ((uVar5 ^ uVar13) & uVar31 ^ uVar13) + uStack_6c + DAT_0001100c + uVar19;
uVar9 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar29 = ((uVar14 ^ uVar25) & uVar8 ^ uVar14) + iStack_50 + 0x5c4dd124 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar7 = ((uVar31 ^ uVar15) & uVar9 ^ uVar15) + iStack_48 + DAT_0001100c + uVar7;
uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar20 = uVar13 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar13 = ((uVar9 ^ uVar29) & uVar20 ^ uVar29) + iStack_58 + DAT_0001100c + uVar13;
uVar31 = uVar15 + (uVar13 >> 0x17 | uVar13 * 0x200);
uVar28 = ((uVar25 ^ uVar5) & uVar19 ^ uVar25) + uStack_6c + 0x5c4dd124 + uVar28;
uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar7 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_38 + DAT_00011010 + uVar8;
uVar9 = uVar19 + (uVar7 >> 0x18 | uVar7 * 0x100);
uVar7 = ((uVar20 ^ uVar13) & uVar31 ^ uVar13) + iStack_64 + DAT_0001100c + uVar15;
uVar14 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar19 = ((uVar30 ^ uVar9) & uVar7 ^ uVar30) + iStack_58 + 0x5c4dd124 + uVar19;
uVar5 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar29 = ((uVar31 ^ uVar8) & uVar14 ^ uVar8) + iStack_34 + DAT_0001100c + uVar29;
uVar31 = uVar13 + (uVar29 >> 0x19 | uVar29 * 0x80);
uVar19 = ((uVar14 ^ uVar15) & uVar31 ^ uVar15) + iStack_40 + DAT_0001100c + uVar13;
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar14 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar28 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_44 + 0x5c4dd124 + uVar28;
uVar30 = uVar7 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar8 = ((uVar31 ^ uVar29) & uVar14 ^ uVar29) + iStack_4c + DAT_0001100c + uVar8;
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = ((uVar5 ^ uVar30) & uVar28 ^ uVar5) + iStack_34 + 0x5c4dd124 + uVar7;
uVar20 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);
uVar8 = uVar13 + (uVar19 >> 0x19 | uVar19 * 0x80);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((uVar30 ^ uVar8) & uVar19 ^ uVar30) + iStack_30 + 0x5c4dd124 + uVar13;
uVar30 = uVar28 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar28 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_4c + 0x5c4dd124 + uVar28;
uVar9 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar13 = ((uVar30 ^ uVar9) & uVar28 ^ uVar30) + iStack_3c + 0x5c4dd124 + uVar19;
uVar5 = uVar7 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar9 ^ uVar5) & uVar13 ^ uVar9) + iStack_5c + DAT_00011010 + uVar7;
uVar8 = uVar28 + (uVar19 >> 0x1a | uVar19 * 0x40);
uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar5 ^ uVar8) & uVar19 ^ uVar5) + iStack_48 + DAT_00011010 + uVar28;
uVar30 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar7 = ((~uVar14 | uVar20) ^ uVar28) + iStack_60 + DAT_00011014 + uVar15;
uVar15 = uVar29 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar13 = ((uVar8 ^ uVar30) & uVar7 ^ uVar8) + iStack_68 + 0x5c4dd124 + uVar13;
uVar9 = uVar19 + (uVar13 >> 0x13 | uVar13 * 0x2000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar29 = ((~uVar20 | uVar15) ^ uVar13) + iStack_44 + DAT_00011014 + uVar29;
uVar19 = (uVar30 ^ (uVar30 ^ uVar9) & uVar8) + iStack_64 + 0x5c4dd124 + uVar19;
uVar25 = uVar7 + (uVar19 >> 0x15 | uVar19 * 0x800);
uVar5 = uVar28 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar28 = ((~uVar15 | uVar5) ^ uVar29) + iStack_34 + DAT_00011014 + uVar28;
uVar30 = uVar13 + (uVar28 >> 0x1a | uVar28 * 0x40);
uVar28 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = ((~uVar5 | uVar30) ^ uVar28) + iStack_5c + DAT_00011014 + uVar13;
uVar7 = ((~uVar9 | uVar25) ^ uVar19) + iStack_30 + 0x6d703ef3 + uVar7;
uVar14 = uVar8 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar15 = uVar29 + (uVar13 >> 0x19 | uVar13 * 0x80);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = ((~uVar25 | uVar14) ^ uVar13) + iStack_58 + 0x6d703ef3 + uVar8;
uVar7 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((~uVar30 | uVar15) ^ uVar7) + iStack_48 + 0x6ed9eba1 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x12 | uVar29 * 0x4000);
uVar31 = uVar19 + (uVar8 >> 0x19 | uVar8 * 0x80);
uVar29 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar30 = ((~uVar15 | uVar5) ^ uVar29) + iStack_30 + 0x6ed9eba1 + uVar28;
uVar28 = ((~uVar14 | uVar31) ^ uVar8) + iStack_68 + DAT_00011018 + uVar19;
uVar20 = uVar13 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar13 = ((~uVar31 | uVar20) ^ uVar28) + iStack_60 + DAT_00011018 + uVar13;
uVar14 = uVar8 + (uVar13 >> 0x15 | uVar13 * 0x800);
uVar30 = uVar7 + (uVar30 >> 0x17 | uVar30 * 0x200);
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = ((~uVar5 | uVar30) ^ uVar13) + iStack_4c + 0x6ed9eba1 + uVar7;
uVar9 = uVar29 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar30 | uVar9) ^ uVar19) + iStack_68 + DAT_00011014 + uVar29;
uVar15 = uVar13 + (uVar29 >> 0x11 | uVar29 * 0x8000);
uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_50 + 0x6d703ef3 + uVar8;
uVar31 = uVar28 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar28 = ((~uVar14 | uVar31) ^ uVar29) + iStack_34 + 0x6d703ef3 + uVar28;
uVar20 = uVar7 + (uVar28 >> 0x1a | uVar28 * 0x40);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar9 | uVar15) ^ uVar28) + iStack_64 + 0x6ed9eba1 + uVar13;
uVar8 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar19 = ((~uVar15 | uVar8) ^ uVar13) + iStack_50 + 0x6ed9eba1 + uVar19;
uVar5 = uVar28 + (uVar19 >> 0x18 | uVar19 * 0x100);
uVar19 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar7 = ((~uVar31 | uVar20) ^ uVar19) + iStack_54 + 0x6d703ef3 + uVar7;
uVar14 = uVar29 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = ((~uVar20 | uVar14) ^ uVar7) + iStack_48 + 0x6d703ef3 + uVar29;
uVar31 = uVar19 + (uVar29 >> 0x12 | uVar29 * 0x4000);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar28 = ((~uVar8 | uVar5) ^ uVar29) + uStack_6c + 0x6ed9eba1 + uVar28;
uVar15 = uVar13 + (uVar28 >> 0x13 | uVar28 * 0x2000);
uVar28 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar8 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar19 = ((~uVar14 | uVar31) ^ uVar8) + iStack_40 + 0x6d703ef3 + uVar19;
uVar13 = ((~uVar5 | uVar15) ^ uVar28) + iStack_54 + DAT_00011014 + uVar13;
uVar9 = uVar29 + (uVar13 >> 0x1a | uVar13 * 0x40);
uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar19 = ((~uVar31 | uVar30) ^ uVar13) + iStack_4c + 0x6d703ef3 + uVar7;
uVar25 = uVar8 + (uVar19 >> 0x13 | uVar19 * 0x2000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((~uVar15 | uVar9) ^ uVar19) + iStack_38 + 0x6ed9eba1 + uVar29;
uVar5 = uVar28 + (uVar29 >> 0x1b | uVar29 * 0x20);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar28 = ((~uVar9 | uVar5) ^ uVar29) + iStack_40 + DAT_00011014 + uVar28;
uVar8 = ((~uVar30 | uVar25) ^ uVar7) + iStack_3c + 0x6d703ef3 + uVar8;
uVar20 = uVar13 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar14 = uVar19 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar25 | uVar20) ^ uVar28) + iStack_64 + 0x6d703ef3 + uVar13;
uVar31 = uVar7 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar19 = ((~uVar5 | uVar14) ^ uVar13) + iStack_58 + 0x6ed9eba1 + uVar19;
uVar30 = uVar29 + (uVar19 >> 0x19 | uVar19 * 0x80);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar15 = ((~uVar14 | uVar30) ^ uVar19) + iStack_3c + 0x6ed9eba1 + uVar29;
uVar7 = ((~uVar20 | uVar31) ^ uVar8) + iStack_44 + DAT_00011018 + uVar7;
uVar29 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar5 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar25 = uVar28 + (uVar7 >> 0x13 | uVar7 * 0x2000);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar15 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar9 = ((~uVar31 | uVar25) ^ uVar15) + uStack_6c + DAT_00011018 + uVar28;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_68 + -0x70e44324 + uVar29;
uVar20 = uVar8 + (uVar9 >> 0x13 | uVar9 * 0x2000);
uVar9 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + iStack_48 + -0x70e44324 + uVar19;
uVar30 = uVar7 + (uVar19 >> 0x14 | uVar19 * 0x1000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_40 + DAT_0001101c + uVar7;
uVar5 = uVar28 + (uVar7 >> 0x12 | uVar7 * 0x4000);
uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_44 + -0x70e44324 + uVar28;
uVar9 = uVar19 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar19 = ((uVar5 ^ uVar9) & uVar28 ^ uVar5) + uStack_6c + 0x8f1bbcdc + uVar19;
uVar30 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar9 ^ uVar30) & uVar19 ^ uVar9) + iStack_4c + -0x70e44324 + uVar7;
uVar5 = uVar28 + (uVar7 >> 0x11 | uVar7 * 0x8000);
uVar7 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = ((uVar30 ^ uVar5) & uVar7 ^ uVar30) + iStack_3c + -0x70e44324 + uVar28;
uVar14 = uVar19 + (uVar28 >> 0x17 | uVar28 * 0x200);
uVar28 = ((~uVar25 | uVar20) ^ uVar29) + iStack_5c + 0x6d703ef3 + uVar8;
uVar31 = uVar15 + (uVar28 >> 0x19 | uVar28 * 0x80);
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = uVar25 >> 0x16 | uVar25 * 0x400;
uVar15 = ((~uVar20 | uVar31) ^ uVar8) + iStack_38 + DAT_00011018 + uVar15;
uVar29 = uVar29 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar19 = ((uVar5 ^ uVar14) & uVar28 ^ uVar5) + iStack_5c + -0x70e44324 + uVar19;
uVar9 = uVar7 + (uVar19 >> 0x18 | uVar19 * 0x100);
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((uVar14 ^ uVar9) & uVar19 ^ uVar14) + iStack_38 + -0x70e44324 + uVar7;
uVar30 = uVar28 + (uVar7 >> 0x17 | uVar7 * 0x200);
uVar7 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar13 = ((uVar31 ^ uVar7) & uVar29 ^ uVar7) + iStack_4c + DAT_00011024 + uVar13;
uVar5 = uVar8 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((uVar29 ^ uVar15) & uVar5 ^ uVar15) + iStack_54 + DAT_00011024 + uVar8;
uVar14 = ((uVar9 ^ uVar30) & uVar13 ^ uVar9) + iStack_60 + -0x70e44324 + uVar28;
uVar31 = uVar7 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar28 = uVar29 >> 0x16 | uVar29 * 0x400;
uVar14 = uVar19 + (uVar14 >> 0x12 | uVar14 * 0x4000);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar7 = ((uVar5 ^ uVar28) & uVar31 ^ uVar28) + iStack_5c + 0x7a6d76e9 + uVar7;
uVar9 = ((uVar30 ^ uVar14) & uVar29 ^ uVar30) + iStack_50 + DAT_0001101c + uVar19;
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar5 = uVar15 + (uVar7 >> 0x18 | uVar7 * 0x100);
uVar8 = ((uVar31 ^ uVar19) & uVar5 ^ uVar19) + iStack_68 + 0x7a6d76e9 + uVar15;
uVar20 = uVar13 + (uVar9 >> 0x1b | uVar9 * 0x20);
uVar7 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = uVar28 + (uVar8 >> 0x15 | uVar8 * 0x800);
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = ((uVar14 ^ uVar20) & uVar8 ^ uVar14) + iStack_30 + DAT_0001101c + uVar13;
uVar13 = ((uVar5 ^ uVar7) & uVar15 ^ uVar7) + iStack_60 + 0x7a6d76e9 + uVar28;
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar31 = uVar29 + (uVar30 >> 0x1a | uVar30 * 0x40);
uVar9 = uVar19 + (uVar13 >> 0x12 | uVar13 * 0x4000);
uVar13 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar19 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_40 + 0x7a6d76e9 + uVar19;
uVar29 = ((uVar20 ^ uVar31) & uVar13 ^ uVar20) + iStack_34 + DAT_0001101c + uVar29;
uVar5 = uVar7 + (uVar19 >> 0x12 | uVar19 * 0x4000);
uVar30 = uVar8 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar19 = uVar20 >> 0x16 | uVar20 * 0x400;
uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_30 + DAT_00011024 + uVar7;
uVar7 = ((uVar31 ^ uVar30) & uVar19 ^ uVar31) + iStack_58 + -0x70e44324 + uVar8;
uVar14 = uVar13 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = uVar28 + (uVar15 >> 0x1a | uVar15 * 0x40);
uVar28 = ((uVar5 ^ uVar8) & uVar15 ^ uVar8) + uStack_6c + 0x7a6d76e9 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x12 | uVar28 * 0x4000);
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar29 = ((uVar15 ^ uVar28) & uVar9 ^ uVar28) + iStack_58 + 0x7a6d76e9 + uVar29;
uVar5 = uVar8 + (uVar29 >> 0x1a | uVar29 * 0x40);
uVar29 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar15 = ((uVar9 ^ uVar29) & uVar5 ^ uVar29) + iStack_3c + 0x7a6d76e9 + uVar8;
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar28 + (uVar15 >> 0x17 | uVar15 * 0x200);
uVar15 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar28 = ((uVar5 ^ uVar8) & uVar9 ^ uVar8) + iStack_64 + DAT_00011024 + uVar28;
uVar5 = uVar29 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar29 = ((uVar9 ^ uVar15) & uVar5 ^ uVar15) + iStack_38 + DAT_00011024 + uVar29;
uVar9 = uVar8 + (uVar29 >> 0x17 | uVar29 * 0x200);
uVar8 = ((uVar5 ^ uVar28) & uVar9 ^ uVar28) + iStack_48 + DAT_00011024 + uVar8;
uVar29 = uVar5 >> 0x16 | uVar5 * 0x400;
uStack_84 = uVar15 + (uVar8 >> 0x14 | uVar8 * 0x1000);
uVar8 = ((uVar9 ^ uVar29) & uStack_84 ^ uVar29) + iStack_50 + 0x7a6d76e9 + uVar15;
uStack_80 = uVar28 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar15 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar13 = ((uVar30 ^ uVar14) & uVar8 ^ uVar30) + iStack_54 + -0x70e44324 + uVar13;
uVar9 = uVar19 + (uVar13 >> 0x1b | uVar13 * 0x20);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = ((uStack_84 ^ uVar15) & uStack_80 ^ uVar15) + iStack_44 + DAT_00011024 + uVar28;
uStack_7c = uVar29 + (uVar28 >> 0x11 | uVar28 * 0x8000);
uVar28 = ((uVar14 ^ uVar9) & uVar13 ^ uVar14) + iStack_64 + DAT_0001101c + uVar19;
uVar5 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar28 = uStack_7c >> 0x16 | uStack_7c * 0x400;
uVar19 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar8 = ((~uVar7 | uStack_7c) ^ uVar5) + iStack_5c + DAT_00011020 + uVar8;
uVar30 = uVar13 + (uVar8 >> 0x17 | uVar8 * 0x200);
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar13 = ((~uVar28 | uVar5) ^ uVar30) + uStack_6c + DAT_00011020 + uVar13;
uVar5 = uVar7 + (uVar13 >> 0x11 | uVar13 * 0x8000);
uVar13 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar7 = ((~uVar19 | uVar30) ^ uVar5) + iStack_58 + DAT_00011020 + uVar7;
uVar30 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = ((~uVar8 | uVar5) ^ uVar30) + iStack_48 + DAT_00011020 + uVar28;
uVar5 = uVar19 + (uVar28 >> 0x15 | uVar28 * 0x800);
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar19 = ((~uVar13 | uVar30) ^ uVar5) + iStack_50 + DAT_00011020 + uVar19;
uVar30 = uVar8 + (uVar19 >> 0x1a | uVar19 * 0x40);
uVar19 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_3c + DAT_00011020 + uVar8;
uVar5 = uVar13 + (uVar8 >> 0x18 | uVar8 * 0x100);
uVar8 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar13 = ((~uVar28 | uVar30) ^ uVar5) + iStack_64 + DAT_00011020 + uVar13;
uVar30 = uVar7 + (uVar13 >> 0x13 | uVar13 * 0x2000);
uVar13 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar7 = ((~uVar19 | uVar5) ^ uVar30) + iStack_44 + DAT_00011020 + uVar7;
uVar14 = uVar28 + (uVar7 >> 0x14 | uVar7 * 0x1000);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar28 = ((~uVar8 | uVar30) ^ uVar14) + iStack_34 + DAT_00011020 + uVar28;
uVar5 = uVar19 + (uVar28 >> 0x1b | uVar28 * 0x20);
uVar28 = ((~uVar13 | uVar14) ^ uVar5) + iStack_68 + DAT_00011020 + uVar19;
uVar30 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uStack_78 = uVar30 >> 0x16 | uVar30 * 0x400;
uStack_74 = ~uStack_78;
uStack_a0 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar28 = uStack_84 >> 0x16 | uStack_84 * 0x400;
uVar29 = ((uStack_80 ^ uVar28) & uStack_7c ^ uVar28) + iStack_34 + DAT_00011024 + uVar29;
uVar14 = uVar15 + (uVar29 >> 0x18 | uVar29 * 0x100);
uVar29 = uStack_80 >> 0x16 | uStack_80 * 0x400;
uVar8 = ((~uVar7 | uVar5) ^ uVar30) + iStack_60 + DAT_00011020 + uVar8;
uVar19 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar15 = (uVar9 ^ uVar29 ^ uVar14) + iStack_3c + uVar15;
uVar31 = uVar28 + (uVar15 >> 0x18 | uVar15 * 0x100);
uVar15 = uVar13 + (uVar8 >> 0x13 | uVar8 * 0x2000);
uVar28 = (uVar14 ^ uVar19 ^ uVar31) + iStack_30 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x1b | uVar28 * 0x20);
uVar28 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = ((~uStack_a0 | uVar30) ^ uVar15) + iStack_4c + DAT_00011020 + uVar13;
uVar13 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar5 = uVar7 + (uVar8 >> 0x12 | uVar8 * 0x4000);
uVar8 = uVar31 >> 0x16 | uVar31 * 0x400;
uVar29 = (uVar31 ^ uVar28 ^ uVar9) + iStack_44 + uVar29;
uVar30 = uVar19 + (uVar29 >> 0x14 | uVar29 * 0x1000);
uVar29 = ((uStack_74 | uVar15) ^ uVar5) + iStack_40 + DAT_00011020 + uVar7;
uVar19 = (uVar9 ^ uVar8 ^ uVar30) + iStack_5c + uVar19;
uVar15 = uStack_a0 + (uVar29 >> 0x15 | uVar29 * 0x800);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar28 + (uVar19 >> 0x17 | uVar19 * 0x200);
uVar19 = uVar15 >> 0x16 | uVar15 * 0x400;
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar28 = (uVar30 ^ uVar29 ^ uVar9) + iStack_68 + uVar28;
uVar14 = uVar8 + (uVar28 >> 0x14 | uVar28 * 0x1000);
uVar8 = (uVar9 ^ uVar7 ^ uVar14) + iStack_58 + uVar8;
uVar28 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar8 = uVar29 + (uVar8 >> 0x1b | uVar8 * 0x20);
uVar30 = (uVar14 ^ uVar28 ^ uVar8) + iStack_4c + uVar29;
uVar29 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar9 = uVar7 + (uVar30 >> 0x12 | uVar30 * 0x4000);
uVar30 = (uVar8 ^ uVar29 ^ uVar9) + iStack_50 + uVar7;
uVar7 = uVar8 >> 0x16 | uVar8 * 0x400;
uVar30 = uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);
uVar8 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar28 = (uVar9 ^ uVar7 ^ uVar30) + iStack_54 + uVar28;
uVar9 = uVar29 + (uVar28 >> 0x18 | uVar28 * 0x100);
uVar29 = (uVar30 ^ uVar8 ^ uVar9) + iStack_64 + uVar29;
uVar28 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar14 = uVar7 + (uVar29 >> 0x13 | uVar29 * 0x2000);
uVar7 = (uVar9 ^ uVar28 ^ uVar14) + iStack_38 + uVar7;
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar30 = uVar8 + (uVar7 >> 0x1a | uVar7 * 0x40);
uVar7 = (uVar14 ^ uVar29 ^ uVar30) + iStack_34 + uVar8;
uVar9 = uVar28 + (uVar7 >> 0x1b | uVar7 * 0x20);
uVar7 = uVar14 >> 0x16 | uVar14 * 0x400;
uVar8 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = (uVar30 ^ uVar7 ^ uVar9) + uStack_6c + uVar28;
uVar28 = uVar5 >> 0x16 | uVar5 * 0x400;
uVar5 = ((~uVar13 | uVar5) ^ uVar15) + iStack_54 + DAT_00011020 + uStack_a0;
uVar30 = uVar29 + (uVar30 >> 0x11 | uVar30 * 0x8000);
uVar14 = (uVar9 ^ uVar8 ^ uVar30) + iStack_60 + uVar29;
uVar5 = uStack_78 + (uVar5 >> 0x18 | uVar5 * 0x100);
uVar29 = uVar9 >> 0x16 | uVar9 * 0x400;
uVar9 = uVar7 + (uVar14 >> 0x13 | uVar14 * 0x2000);
uVar15 = ((~uVar28 | uVar15) ^ uVar5) + iStack_30 + DAT_00011020 + uStack_78;
uVar7 = (uVar30 ^ uVar29 ^ uVar9) + iStack_48 + uVar7;
uVar14 = uVar8 + (uVar7 >> 0x15 | uVar7 * 0x800);
uVar15 = uVar13 + (uVar15 >> 0x1b | uVar15 * 0x20);
uVar7 = uVar30 >> 0x16 | uVar30 * 0x400;
uVar30 = ((~uVar19 | uVar5) ^ uVar15) + iStack_38 + DAT_00011020 + uVar13;
uVar13 = (uVar9 ^ uVar7 ^ uVar14) + iStack_40 + uVar8;
*(uint *)(local_a8 + 0x58) = uStack_b0 + (uVar5 >> 0x16 | uVar5 * 0x400);
*(uint *)(local_a8 + 0x4c) = iStack_a4 + uVar28;
*(uint *)(local_a8 + 0x50) = uStack_b8 + uVar28 + (uVar30 >> 0x1a | uVar30 * 0x40);
*(uint *)(local_a8 + 0x60) = iStack_98 + uVar29;
uVar28 = *puVar26;
*(uint *)(local_a8 + 0x54) = uStack_b4 + uVar15;
iVar21 = iStack_9c + uVar7;
iVar24 = uVar27 + (uVar9 >> 0x16 | uVar9 * 0x400);
*(int *)(local_a8 + 0x5c) = iVar21;
*(uint *)(local_a8 + 100) = uStack_94 + uVar29 + (uVar13 >> 0x15 | uVar13 * 0x800);
*(uint *)(local_a8 + 0x70) = iVar23 + uVar19;
*(uint *)(local_a8 + 0x68) = uVar12 + uVar14;
*(int *)(local_a8 + 0x6c) = iVar24;
if (local_2c[0] == uVar28) {
return;
}
uVar33 = 0x11abc;
uStack_ac = uVar19;
uStack_90 = uVar12;
uStack_8c = uVar27;
iStack_88 = iVar23;
uVar36 = FUN_00011ab8(0);
piVar2 = piRam00011d3c;
iVar22 = (int)((ulonglong)uVar36 >> 0x20);
puVar17 = (uint *)uVar36;
uStack_d8 = uVar16;
iStack_dc = *piRam00011d3c;
uVar35 = puVar17 == (uint *)0x0;
iStack_d4 = iVar21;
uStack_d0 = uVar27;
uStack_cc = uVar19;
iStack_c8 = iVar24;
iStack_c4 = iVar23;
uStack_c0 = uVar12;
uStack_bc = uVar33;
uVar1 = CONCAT44(iVar21,puVar17);
if ((bool)uVar35) goto LAB_00011d2c;
uVar35 = iVar22 == 0;
if (!(bool)uVar35) {
uVar28 = puVar17[0x12];
if (uVar28 < 0x40) {
uVar29 = *puVar17 + uVar28 * 8;
uVar16 = uVar28 + 1;
uVar13 = puVar17[1] + (uint)CARRY4(*puVar17,uVar28 * 8);
*puVar17 = uVar29;
puVar17[1] = uVar13;
puVar17[0x12] = uVar16;
*(undefined1 *)((int)puVar17 + uVar28 + 8) = 0x80;
if (uVar16 < 0x39) {
if (uVar16 != 0x38) goto LAB_00011b2c;
}
else {
if (uVar16 != 0x40) {
*(undefined1 *)((int)puVar17 + uVar28 + 9) = 0;
if (uVar28 != 0x3e) {
*(undefined1 *)((int)puVar17 + uVar28 + 10) = 0;
if (uVar28 != 0x3d) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xb) = 0;
if (uVar28 != 0x3c) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xc) = 0;
if (uVar28 != 0x3b) {
*(undefined1 *)((int)puVar17 + uVar28 + 0xd) = 0;
if ((uVar28 != 0x3a) &&
(*(undefined1 *)((int)puVar17 + uVar28 + 0xe) = 0, uVar28 == 0x38)) {
*(undefined1 *)((int)puVar17 + 0x47) = 0;
}
}
}
}
}
puVar17[0x12] = 0x40;
}
MASKED(puVar17,puVar17 + 2);
uVar16 = 0;
LAB_00011b2c:
uVar28 = 0x38 - uVar16 & 7;
puVar10 = (undefined1 *)((int)puVar17 + uVar16 + 8);
if (uVar28 == 0) goto LAB_00011bb0;
if (uVar28 != 1) {
puVar11 = puVar10;
if (uVar28 != 2) {
if (uVar28 != 3) {
if (uVar28 != 4) {
if (uVar28 != 5) {
if (uVar28 != 6) {
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
uVar16 = uVar16 + 1;
puVar11 = puVar10 + 1;
*puVar10 = 0;
}
uVar16 = uVar16 + 1;
puVar10 = puVar11 + 1;
*puVar11 = 0;
}
*puVar10 = 0;
puVar10 = puVar10 + 1;
for (uVar16 = uVar16 + 1; uVar16 != 0x38; uVar16 = uVar16 + 8) {
LAB_00011bb0:
*puVar10 = 0;
puVar10[1] = 0;
puVar10[2] = 0;
puVar10[3] = 0;
puVar10[4] = 0;
puVar10[5] = 0;
puVar10[6] = 0;
puVar10[7] = 0;
puVar10 = puVar10 + 8;
}
uVar29 = *puVar17;
uVar13 = puVar17[1];
puVar17[0x12] = 0x38;
}
*(char *)(puVar17 + 0x10) = (char)uVar29;
uVar16 = uVar29 >> 0x10;
*(char *)((int)puVar17 + 0x47) = (char)(uVar13 >> 0x18);
*(char *)((int)puVar17 + 0x43) = (char)(uVar29 >> 0x18);
*(char *)(puVar17 + 0x11) = (char)uVar13;
*(char *)((int)puVar17 + 0x46) = (char)(uVar13 >> 0x10);
*(char *)((int)puVar17 + 0x45) = (char)(uVar13 >> 8);
*(char *)((int)puVar17 + 0x42) = (char)(uVar29 >> 0x10);
*(char *)((int)puVar17 + 0x41) = (char)(uVar29 >> 8);
MASKED(puVar17,puVar17 + 2);
puVar26 = puVar17 + 0x12;
do {
puVar26 = puVar26 + 1;
uStack_e0 = *puVar26;
FUN_00011c4c(iVar22,&uStack_e0,4);
iVar22 = iVar22 + 4;
uVar36 = CONCAT44(iVar22,puVar17 + 0x1c);
} while (puVar17 + 0x1c != puVar26);
uVar33 = 0;
}
else {
uVar33 = 0x10;
}
uVar35 = iStack_dc == *piVar2;
if ((bool)uVar35) {
return;
}
FUN_00011d18(uVar33);
}
FUN_00011d28(uRam00011d44,uRam00011d40,0x17c);
uVar1 = uVar36;
LAB_00011d2c:
iVar21 = (int)((ulonglong)uVar1 >> 0x20);
UNRECOVERED_JUMPTABLE = (code *)0x11d3c;
puVar6 = (undefined4 *)FUN_00011d38(uRam00011d4c,uRam00011d40,uRam00011d48);
uVar33 = uRam00011de0;
if ((bool)uVar35) {
puVar6 = (undefined4 *)0x0;
}
bVar34 = false;
if (puVar6 != (undefined4 *)0x0) {
puVar6[0x14] = uRam00011ddc;
uVar4 = DAT_00011dec;
uVar3 = DAT_00011de8;
iVar21 = DAT_00011de4;
puVar6[0x13] = uVar33;
uVar33 = DAT_00011df0;
puVar6[0x18] = iVar21;
puVar6[0x15] = uVar3;
puVar6[0x16] = uVar4;
uVar4 = DAT_00011df8;
uVar3 = DAT_00011df4;
puVar6[0x17] = uVar33;
uVar33 = DAT_00011dfc;
puVar6[0x12] = 0;
*puVar6 = 0;
puVar6[1] = 0;
puVar6[0x19] = uVar3;
puVar6[0x1a] = uVar4;
puVar6[0x1b] = uVar33;
puVar6[0x1c] = iVar21 + -0x3a271401;
/* WARNING: Could not recover jumptable at 0x00011dc8. Too many branches */
/* WARNING: Treating indirect jump as call */
(*UNRECOVERED_JUMPTABLE)();
return;
}
uVar35 = 0x58;
FUN_00011dd8(DAT_00011e04,DAT_00011e00,0x158,0,uVar16,iVar21,(int)uVar1);
software_interrupt(0xcdab89);
if (bVar34) {
*(undefined1 *)(iVar21 + extraout_r1 * -0x40) = uVar35;
}
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 52,995 |
||
1485_libMagickCore-7.Q16HDRI.so.8.0_and_libMagickCore-7.Q16HDRI.so.8.0_strip.c
|
PrintChannelMoments
|
FUN_00105360
|
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
ssize_t PrintChannelMoments(FILE *file,PixelChannel channel,char *name,double scale,
ChannelMoments *channel_moments)
{
double powers [8];
/* WARNING: Subroutine does not return */
FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name);
}
|
void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,int param_7)
{
int iVar1;
undefined4 uVar2;
int iVar3;
int iVar4;
int iVar5;
int iVar6;
int iVar7;
undefined4 extraout_r1;
int iVar8;
undefined4 *puVar9;
int iVar10;
undefined4 uVar11;
int *piVar12;
undefined4 uVar13;
undefined4 uVar14;
double __x;
double __y;
undefined8 uVar15;
undefined4 uVar16;
undefined4 in_stack_ffffff64;
piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);
iVar8 = *piVar12;
puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);
iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);
uVar2 = GetMagickPrecision();
GetMagickPrecision();
iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);
uVar2 = GetMagickPrecision();
GetMagickPrecision();
iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);
uVar2 = GetMagickPrecision();
iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);
uVar2 = GetMagickPrecision();
uVar13 = puVar9[0x1c];
uVar14 = puVar9[0x1d];
iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);
uVar2 = GetMagickPrecision();
__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);
uVar13 = GetMagickPrecision();
iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);
__y = (double)CONCAT44(in_stack_ffffff64,uVar13);
iVar10 = 0;
iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;
iVar1 = DAT_0010560c + 0x105524;
do {
uVar13 = GetMagickPrecision();
uVar16 = (undefined4)((ulonglong)__x >> 0x20);
uVar14 = *puVar9;
uVar11 = puVar9[1];
uVar2 = param_5;
pow(__x,__y);
__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);
GetMagickPrecision();
uVar15 = FUN_002ea1f0(iVar10);
uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);
puVar9 = puVar9 + 2;
iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));
__x = (double)CONCAT44(uVar16,uVar13);
iVar10 = iVar10 + 1;
iVar7 = iVar7 + iVar3;
} while (iVar10 != 8);
if (iVar8 == *piVar12) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(iVar7);
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
cpy r4,r1
cpy r11,r0
cpy r6,r2
ldr r5,[0x1055e8]
ldr lr,[0x1055ec]
sub sp,sp,#0x84
ldr r3,[0x1055f0]
str r0,[sp,#0x2c]
add r5,pc,r5
add lr,pc,lr
add r12,sp,#0x38
ldr r8,[r5,r3]
ldmia lr!,{r0,r1,r2,r3}
stmia r12!,{r0,r1,r2,r3}
ldmia lr!,{r0,r1,r2,r3}
stmia r12!,{r0,r1,r2,r3}
ldmia lr!,{r0,r1,r2,r3}
stmia r12!,{r0,r1,r2,r3}
ldr r3,[r8,#0x0]
ldr r2,[sp,#0xb0]
str r8,[sp,#0x34]
add r4,r2,r4, lsl #0x7
str r3,[sp,#0x7c]
ldmia lr,{r0,r1,r2,r3}
stmia r12,{r0,r1,r2,r3}
ldr r1,[0x1055f4]
cpy r2,r6
add r1,pc,r1
cpy r0,r11
bl 0x00031284
cpy r5,r0
bl 0x00030774
add r7,r4,#0x48
ldmia r7,{r6,r7}
cpy r10,r0
bl 0x00030774
add r9,r4,#0x50
ldmia r9,{r8,r9}
ldr r1,[0x1055f8]
cpy r2,r10
add r1,pc,r1
stmia sp,{r6,r7}
str r0,[sp,#0x8]
str r8,[sp,#0x10]
str r9,[sp,#0x14]
cpy r0,r11
bl 0x00031284
add r6,r5,r0
bl 0x00030774
add r9,r4,#0x58
ldmia r9,{r8,r9}
cpy r7,r11
cpy r5,r0
bl 0x00030774
add r11,r4,#0x60
ldmia r11,{r10,r11}
ldr r1,[0x1055fc]
cpy r2,r5
add r1,pc,r1
stmia sp,{r8,r9}
str r0,[sp,#0x8]
str r10,[sp,#0x10]
str r11,[sp,#0x14]
cpy r0,r7
bl 0x00031284
add r6,r6,r0
bl 0x00030774
add r9,r4,#0x68
ldmia r9,{r8,r9}
ldr r1,[0x105600]
cpy r2,r0
add r1,pc,r1
stmia sp,{r8,r9}
cpy r0,r7
bl 0x00031284
add r6,r6,r0
bl 0x00030774
add r9,r4,#0x70
ldmia r9,{r8,r9}
ldr r1,[0x105604]
cpy r2,r0
stmia sp,{r8,r9}
add r1,pc,r1
cpy r0,r7
bl 0x00031284
add r6,r6,r0
bl 0x00030774
add r3,r4,#0x78
ldmia r3,{r2,r3}
cpy r5,r0
add r1,sp,#0xa8
ldmia r1,{r0,r1}
bl 0x002ea2d4
cpy r9,r1
cpy r8,r0
bl 0x00030774
add r11,r4,#0x78
ldmia r11,{r10,r11}
ldr r1,[0x105608]
stmia sp,{r8,r9}
str r0,[sp,#0x8]
cpy r2,r5
str r10,[sp,#0x10]
str r11,[sp,#0x14]
cpy r0,r7
add r1,pc,r1
bl 0x00031284
mov r5,#0x0
ldr r3,[0x10560c]
add r8,r6,r0
add r3,pc,r3
str r3,[sp,#0x30]
add r9,sp,#0x38
bl 0x00030774
ldmia r9!,{r2,r3}
ldmia r4,{r6,r7}
cpy r10,r0
add r1,sp,#0xa8
ldmia r1,{r0,r1}
bl 0x00030bd0
cpy r2,r0
cpy r3,r1
cpy r0,r6
cpy r1,r7
bl 0x002ea540
str r0,[sp,#0x20]
str r1,[sp,#0x24]
bl 0x00030774
cpy r11,r0
cpy r0,r5
bl 0x002ea1f0
mov r2,#0x0
ldr r3,[0x105610]
bl 0x002e9f20
ldmia r4!,{r6,r7}
cpy r2,r0
cpy r3,r1
add r1,sp,#0x20
ldmia r1,{r0,r1}
str r10,[sp,#0x0]
str r0,[sp,#0x8]
str r1,[sp,#0xc]
str r11,[sp,#0x10]
str r6,[sp,#0x18]
str r7,[sp,#0x1c]
ldr r1,[sp,#0x30]
ldr r0,[sp,#0x2c]
bl 0x00031284
add r5,r5,#0x1
cmp r5,#0x8
add r8,r8,r0
bne 0x00105528
ldr r3,[sp,#0x34]
ldr r2,[sp,#0x7c]
ldr r3,[r3,#0x0]
cpy r0,r8
cmp r2,r3
bne 0x001055e4
add sp,sp,#0x84
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,r11,pc}
bl 0x00032148
| null | null | null | null |
[('tmp_508', u'CALL_-1206954866'), (u'INT_ADD_-1206954867', u'CAST_-1206954750'), (u'CALL_-1206954866', u'INDIRECT_-1206954782'), ('const-1', u'RETURN_-1206954861'), (u'CAST_-1206954750', u'CALL_-1206954866'), (u'INDIRECT_-1206954780', u'COPY_-1206954839'), ('const-1070040', u'INT_ADD_-1206954867'), ('tmp_510', u'CALL_-1206954866'), (u'INDIRECT_-1206954778', u'COPY_-1206954837'), (u'INDIRECT_-1206954782', u'COPY_-1206954841'), (u'CALL_-1206954866', u'INDIRECT_-1206954776'), (u'INDIRECT_-1206954776', u'COPY_-1206954835'), (u'CALL_-1206954866', u'INDIRECT_-1206954780'), ('tmp_883', u'INT_ADD_-1206954867'), (u'CALL_-1206954866', u'INDIRECT_-1206954778')]
|
[(u'INT_ADD_-1206954492', u'INT_ADD_-1206954410'), (u'CALL_-1206954678', u'INDIRECT_-1206953332'), (u'CALL_-1206954253', u'INDIRECT_-1206953293'), (u'CALL_-1206953942', u'INDIRECT_-1206952966'), (u'CALL_-1206954578', u'CALL_-1206954512'), (u'CALL_-1206954819', u'INDIRECT_-1206953537'), (u'CALL_-1206954337', u'INDIRECT_-1206953286'), (u'CALL_-1206954578', u'INDIRECT_-1206953434'), (u'CALL_-1206954430', u'INDIRECT_-1206953177'), (u'INDIRECT_-1206953059', u'MULTIEQUAL_-1206953021'), ('const-0', u'CALL_-1206954041'), (u'INDIRECT_-1206952914', u'COPY_-1206952924'), (u'CALL_-1206954183', u'INDIRECT_-1206953238'), (u'INT_ADD_-1206954431', u'CALL_-1206954430'), (u'CALL_-1206954128', u'INDIRECT_-1206953187'), (u'CALL_-1206953796', u'INDIRECT_-1206953069'), (u'CALL_-1206954102', u'INDIRECT_-1206952861'), (u'CALL_-1206954102', u'CAST_-1206951930'), (u'CALL_-1206954866', u'INDIRECT_-1206953511'), (u'CALL_-1206954578', u'INDIRECT_-1206953252'), (u'INT_ADD_-1206953916', u'MULTIEQUAL_-1206953773'), (u'INDIRECT_-1206952992', u'MULTIEQUAL_-1206953125'), (u'CALL_-1206954855', u'INDIRECT_-1206953580'), (u'INDIRECT_-1206953096', u'COPY_-1206953106'), (u'CALL_-1206954430', u'INDIRECT_-1206953359'), (u'CALL_-1206954068', u'INDIRECT_-1206953166'), (u'CALL_-1206954855', u'INDIRECT_-1206953502'), (u'CALL_-1206954041', u'INDIRECT_-1206952997'), (u'CALL_-1206954353', u'INDIRECT_-1206953169'), (u'INDIRECT_-1206952966', u'COPY_-1206952976'), (u'CALL_-1206954337', u'INDIRECT_-1206953338'), ('const-4', u'PTRADD_-1206952127'), (u'CALL_-1206954102', u'INDIRECT_-1206953036'), (u'MULTIEQUAL_-1206953774', u'PTRADD_-1206951976'), (u'CALL_-1206954855', u'INDIRECT_-1206953632'), (u'CALL_-1206954866', u'INDIRECT_-1206953589'), (u'CALL_-1206954594', u'INDIRECT_-1206953313'), (u'CALL_-1206954678', u'INDIRECT_-1206953280'), (u'CALL_-1206954084', u'INDIRECT_-1206953075'), ('const-417', u'LOAD_-1206954172'), (u'CALL_-1206954084', u'INDIRECT_-1206953153'), ('const-29', u'PTRADD_-1206952127'), (u'MULTIEQUAL_-1206953773', u'CALL_-1206954068'), (u'CALL_-1206954430', u'INDIRECT_-1206952979'), (u'INT_RIGHT_-1206951935', u'SUBPIECE_-1206951919'), ('const-1070164', u'INT_ADD_-1206954622'), (u'CALL_-1206954041', u'SUBPIECE_-1206951920'), (u'INDIRECT_-1206951997', u'CALL_-1206954128'), (u'INT_ADD_-1206954763', u'CALL_-1206954735'), (u'INDIRECT_-1206953069', u'COPY_-1206953127'), (u'INDIRECT_-1206953319', u'MULTIEQUAL_-1206953281'), (u'INDIRECT_-1206952888', u'COPY_-1206952898'), (u'INDIRECT_-1206952887', u'COPY_-1206952945'), (u'CALL_-1206954430', u'INT_ADD_-1206954410'), (u'PTRADD_-1206951976', u'LOAD_-1206954170'), (u'CALL_-1206954430', u'INDIRECT_-1206953028'), (u'CALL_-1206954414', u'INDIRECT_-1206953272'), ('tmp_3868', u'CALL_-1206954866'), (u'INDIRECT_-1206953137', u'MULTIEQUAL_-1206953099'), ('const-0', u'SUBPIECE_-1206951934'), (u'CALL_-1206954102', u'INDIRECT_-1206953088'), (u'CALL_-1206954068', u'INDIRECT_-1206953192'), (u'CALL_-1206954855', u'INDIRECT_-1206953606'), 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(u'CALL_-1206953942', u'INDIRECT_-1206952992'), (u'INDIRECT_-1206953070', u'MULTIEQUAL_-1206953203'), (u'CALL_-1206954819', u'INDIRECT_-1206953589'), (u'CALL_-1206954578', u'INDIRECT_-1206953408'), (u'INT_ADD_-1206954867', u'CALL_-1206954866'), ('const-1070040', u'INT_ADD_-1206954867'), (u'CALL_-1206954183', u'INDIRECT_-1206953186'), (u'CALL_-1206953942', u'INDIRECT_-1206952940'), ('const-4', u'PTRADD_-1206952085'), (u'SUBPIECE_-1206951919', u'CALL_-1206953942'), (u'CALL_-1206954128', u'INDIRECT_-1206953161'), ('const-0', u'SUBPIECE_-1206951919'), ('const-8', u'INT_NOTEQUAL_-1206953905'), (u'INDIRECT_-1206953215', u'MULTIEQUAL_-1206953177'), (u'CALL_-1206954430', u'INDIRECT_-1206953229'), (u'CALL_-1206954496', u'INDIRECT_-1206953444'), (u'CALL_-1206954866', u'INDIRECT_-1206953209'), (u'PTRADD_-1206952127', u'LOAD_-1206954477'), (u'CALL_-1206954068', u'INDIRECT_-1206952984'), (u'CALL_-1206954496', u'INDIRECT_-1206953314'), (u'INT_ADD_-1206954920', u'CAST_-1206952346'), (u'CALL_-1206954855', u'INDIRECT_-1206953450'), (u'CAST_-1206951835', u'MULTIEQUAL_-1206951999'), (u'CALL_-1206954041', u'INDIRECT_-1206952971'), (u'CALL_-1206953796', u'INDIRECT_-1206953095'), (u'CALL_-1206954430', u'INDIRECT_-1206953281'), (u'INT_ADD_-1206954715', u'INT_ADD_-1206954574'), (u'CALL_-1206954183', u'INDIRECT_-1206953160'), (u'INT_ADD_-1206954212', u'MULTIEQUAL_-1206953770'), ('const-28', u'PTRADD_-1206952132'), (u'CALL_-1206954128', u'INDIRECT_-1206953109'), (u'CALL_-1206954735', u'INDIRECT_-1206953336'), (u'CALL_-1206954414', u'INDIRECT_-1206953402'), ('tmp_9095', u'CALL_-1206954353'), ('tmp_3868', u'CALL_-1206954512'), (u'CALL_-1206954353', u'INDIRECT_-1206952945'), (u'CALL_-1206954819', u'INDIRECT_-1206953563'), (u'CALL_-1206953942', u'INDIRECT_-1206953018'), (u'CALL_-1206954084', u'INDIRECT_-1206953049'), (u'CALL_-1206954512', u'INDIRECT_-1206953453'), (u'CALL_-1206954084', u'INDIRECT_-1206953127'), ('const-417', u'LOAD_-1206954477'), (u'INDIRECT_-1206953043', u'CALL_-1206954353'), (u'MULTIEQUAL_-1206953774', u'LOAD_-1206954172'), (u'INDIRECT_-1206953044', u'COPY_-1206953054'), (u'PTRADD_-1206952132', u'LOAD_-1206954479'), (u'CALL_-1206954102', u'INDIRECT_-1206953192'), (u'CALL_-1206954102', u'INDIRECT_-1206953010'), (u'INDIRECT_-1206952911', u'PIECE_-1206952022'), (u'CALL_-1206954041', u'INDIRECT_-1206953205'), ('const-1069964', u'INT_ADD_-1206955069'), (u'CAST_-1206951892', u'INT_RIGHT_-1206951935'), (u'CALL_-1206954496', u'INDIRECT_-1206953012'), (u'PTRADD_-1206952090', u'LOAD_-1206954397'), (u'CALL_-1206954735', u'INDIRECT_-1206953440'), (u'CALL_-1206954183', u'INDIRECT_-1206953108'), (u'CALL_-1206954102', u'INDIRECT_-1206952984'), (u'CAST_-1206952346', u'PTRADD_-1206952090'), (u'PIECE_-1206951862', u'CAST_-1206951835'), (u'CALL_-1206954102', u'INDIRECT_-1206953166'), (u'INT_ADD_-1206955035', u'CAST_-1206952387'), (u'CALL_-1206954253', u'INDIRECT_-1206953085'), (u'CALL_-1206954512', u'INDIRECT_-1206953193'), (u'CALL_-1206953942', u'INDIRECT_-1206952888'), (u'CALL_-1206953942', u'INT_ADD_-1206953886'), (u'CALL_-1206954496', u'INDIRECT_-1206953210'), (u'INDIRECT_-1206953019', u'CALL_-1206954353'), (u'INT_ADD_-1206954249', u'CALL_-1206954253'), (u'CALL_-1206954253', u'INDIRECT_-1206953319'), (u'INDIRECT_-1206953070', u'COPY_-1206953080'), (u'CALL_-1206954678', u'INDIRECT_-1206953540'), (u'CALL_-1206953942', u'INDIRECT_-1206951860'), (u'CALL_-1206954337', u'INDIRECT_-1206953364'), (u'CALL_-1206954068', u'INDIRECT_-1206953114'), (u'CALL_-1206954855', u'INDIRECT_-1206953372'), ('const-417', u'LOAD_-1206954395'), ('const-0', u'COPY_-1206954247'), ('const-128', u'INT_MULT_-1206954910'), (u'INDIRECT_-1206953044', u'MULTIEQUAL_-1206953177'), ('tmp_9096', u'CALL_-1206954353'), (u'CALL_-1206954496', u'INDIRECT_-1206953262'), (u'CAST_-1206952346', u'PTRADD_-1206952132'), (u'CALL_-1206954337', u'INDIRECT_-1206953156'), (u'CALL_-1206954578', u'INDIRECT_-1206953330'), (u'CALL_-1206954512', u'INDIRECT_-1206953401'), (u'CALL_-1206954414', u'INDIRECT_-1206953142'), (u'INT_ADD_-1206953916', u'INT_NOTEQUAL_-1206953905'), (u'CALL_-1206954128', u'INDIRECT_-1206953213'), (u'CALL_-1206954678', u'INDIRECT_-1206953436'), (u'CALL_-1206954183', u'INDIRECT_-1206953264'), (u'CALL_-1206954414', u'INDIRECT_-1206953376'), (u'INDIRECT_-1206952966', u'MULTIEQUAL_-1206953099'), ('const-0', u'SUBPIECE_-1206951920'), ('tmp_3868', u'CALL_-1206954253'), (u'CALL_-1206954496', u'CALL_-1206954430'), (u'CALL_-1206954041', u'INDIRECT_-1206952822'), (u'CALL_-1206954866', u'INDIRECT_-1206953433'), (u'CALL_-1206954128', u'INDIRECT_-1206953057'), (u'SUBPIECE_-1206951933', u'CALL_-1206954041'), ('const-1070372', u'INT_ADD_-1206954201'), (u'CALL_-1206954512', u'INDIRECT_-1206953245'), (u'INDIRECT_-1206951997', u'CAST_-1206951975'), (u'INT_RIGHT_-1206951948', u'SUBPIECE_-1206951933'), (u'CALL_-1206954253', u'INDIRECT_-1206953059'), (u'CALL_-1206954102', u'INDIRECT_-1206953062'), ('tmp_9087', u'INT_ADD_-1206954867'), (u'CALL_-1206954496', u'INDIRECT_-1206953366'), (u'CALL_-1206954041', u'INDIRECT_-1206952945'), ('tmp_1853', u'CBRANCH_-1206953892'), (u'CALL_-1206954128', u'INDIRECT_-1206953239'), (u'CALL_-1206954041', u'INDIRECT_-1206953075'), (u'CALL_-1206954735', u'INDIRECT_-1206953544'), (u'INDIRECT_-1206952940', u'MULTIEQUAL_-1206953073'), (u'CALL_-1206954678', u'INDIRECT_-1206953462'), ('const-1070260', u'INT_ADD_-1206954431'), ('tmp_3868', u'CALL_-1206954735')]
| null | null |
00105360
|
arm
|
O2
|
(translation_unit "void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}\n\n" (function_definition "void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" primitive_type (function_declarator "FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" identifier (parameter_list "(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "int param_7" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "int iVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "undefined4 extraout_r1;" type_identifier identifier ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "undefined4 *puVar9;" type_identifier (pointer_declarator "*puVar9" * identifier) ;) (declaration "int iVar10;" primitive_type identifier ;) (declaration "undefined4 uVar11;" type_identifier identifier ;) (declaration "int *piVar12;" primitive_type (pointer_declarator "*piVar12" * identifier) ;) (declaration "undefined4 uVar13;" type_identifier identifier ;) (declaration "undefined4 uVar14;" type_identifier identifier ;) (declaration "double __x;" primitive_type identifier ;) (declaration "double __y;" primitive_type identifier ;) (declaration "undefined8 uVar15;" type_identifier identifier ;) (declaration "undefined4 uVar16;" type_identifier identifier ;) (declaration "undefined4 in_stack_ffffff64;" type_identifier identifier ;) (expression_statement "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);" (assignment_expression "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" identifier = (pointer_expression "*(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" * (cast_expression "(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_001055e8 + 0x10538c + DAT_001055f0)" ( (binary_expression "DAT_001055e8 + 0x10538c + DAT_001055f0" (binary_expression "DAT_001055e8 + 0x10538c" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar8 = *piVar12;" (assignment_expression "iVar8 = *piVar12" identifier = (pointer_expression "*piVar12" * identifier)) ;) (expression_statement "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);" (assignment_expression "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80)" identifier = (cast_expression "(undefined4 *)(param_7 + param_2 * 0x80)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_7 + param_2 * 0x80)" ( (binary_expression "param_7 + param_2 * 0x80" identifier + (binary_expression "param_2 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);" (assignment_expression "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" identifier (argument_list "(param_1,DAT_001055f4 + 0x1053d8,param_3)" ( identifier , (binary_expression "DAT_001055f4 + 0x1053d8" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);" (assignment_expression "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" identifier (argument_list "(param_1,DAT_001055f8 + 0x10540c,uVar2)" ( identifier , (binary_expression "DAT_001055f8 + 0x10540c" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);" (assignment_expression "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" identifier (argument_list "(param_1,DAT_001055fc + 0x105454,uVar2)" ( identifier , (binary_expression "DAT_001055fc + 0x105454" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);" (assignment_expression "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" identifier (argument_list "(param_1,DAT_00105600 + 0x105488,uVar2)" ( identifier , (binary_expression "DAT_00105600 + 0x105488" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar13 = puVar9[0x1c];" (assignment_expression "uVar13 = puVar9[0x1c]" identifier = (subscript_expression "puVar9[0x1c]" identifier [ number_literal ])) ;) (expression_statement "uVar14 = puVar9[0x1d];" (assignment_expression "uVar14 = puVar9[0x1d]" identifier = (subscript_expression "puVar9[0x1d]" identifier [ number_literal ])) ;) (expression_statement "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);" (assignment_expression "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" identifier (argument_list "(param_1,DAT_00105604 + 0x1054b4,uVar2)" ( identifier , (binary_expression "DAT_00105604 + 0x1054b4" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);" (assignment_expression "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" identifier = (cast_expression "(double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" ( (type_descriptor "double" primitive_type) ) (call_expression "FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" identifier (argument_list "(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" ( identifier , identifier , (subscript_expression "puVar9[0x1e]" identifier [ number_literal ]) , (subscript_expression "puVar9[0x1f]" identifier [ number_literal ]) , identifier , identifier ))))) ;) (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);" (assignment_expression "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" identifier (argument_list "(param_1,DAT_00105608 + 0x105510,uVar2)" ( identifier , (binary_expression "DAT_00105608 + 0x105510" identifier + number_literal) , identifier )))) ;) (expression_statement "__y = (double)CONCAT44(in_stack_ffffff64,uVar13);" (assignment_expression "__y = (double)CONCAT44(in_stack_ffffff64,uVar13)" identifier = (cast_expression "(double)CONCAT44(in_stack_ffffff64,uVar13)" ( (type_descriptor "double" primitive_type) ) (call_expression "CONCAT44(in_stack_ffffff64,uVar13)" identifier (argument_list "(in_stack_ffffff64,uVar13)" ( identifier , identifier ))))) ;) (expression_statement "iVar10 = 0;" (assignment_expression "iVar10 = 0" identifier = number_literal) ;) (expression_statement "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;" (assignment_expression "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" identifier = (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5" (binary_expression "iVar1 + iVar3 + iVar4" (binary_expression "iVar1 + iVar3" identifier + identifier) + identifier) + identifier) + identifier) + identifier)) ;) (expression_statement "iVar1 = DAT_0010560c + 0x105524;" (assignment_expression "iVar1 = DAT_0010560c + 0x105524" identifier = (binary_expression "DAT_0010560c + 0x105524" identifier + number_literal)) ;) (do_statement "do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);" do (compound_statement "{\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n }" { (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar16 = (undefined4)((ulonglong)__x >> 0x20);" (assignment_expression "uVar16 = (undefined4)((ulonglong)__x >> 0x20)" identifier = (call_expression "(undefined4)((ulonglong)__x >> 0x20)" (parenthesized_expression "(undefined4)" ( identifier )) (argument_list "((ulonglong)__x >> 0x20)" ( (binary_expression "(ulonglong)__x >> 0x20" (cast_expression "(ulonglong)__x" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "uVar14 = *puVar9;" (assignment_expression "uVar14 = *puVar9" identifier = (pointer_expression "*puVar9" * identifier)) ;) (expression_statement "uVar11 = puVar9[1];" (assignment_expression "uVar11 = puVar9[1]" identifier = (subscript_expression "puVar9[1]" identifier [ number_literal ])) ;) (expression_statement "uVar2 = param_5;" (assignment_expression "uVar2 = param_5" identifier = identifier) ;) (expression_statement "pow(__x,__y);" (call_expression "pow(__x,__y)" identifier (argument_list "(__x,__y)" ( identifier , identifier ))) ;) (expression_statement "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);" (assignment_expression "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" identifier = (cast_expression "(double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" ( (type_descriptor "double" primitive_type) ) (call_expression "FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" identifier (argument_list "(uVar14,uVar11,uVar2,extraout_r1)" ( identifier , identifier , identifier , identifier ))))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar15 = FUN_002ea1f0(iVar10);" (assignment_expression "uVar15 = FUN_002ea1f0(iVar10)" identifier = (call_expression "FUN_002ea1f0(iVar10)" identifier (argument_list "(iVar10)" ( identifier )))) ;) (expression_statement "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);" (assignment_expression "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" identifier = (call_expression "FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" identifier (argument_list "((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" ( (cast_expression "(int)uVar15" ( (type_descriptor "int" primitive_type) ) identifier) , (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" ( (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) ))) , number_literal , identifier )))) ;) (expression_statement "puVar9 = puVar9 + 2;" (assignment_expression "puVar9 = puVar9 + 2" identifier = (binary_expression "puVar9 + 2" identifier + number_literal)) ;) (expression_statement "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));" (assignment_expression "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" identifier = (call_expression "FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" identifier (argument_list "(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" ( identifier , identifier , (cast_expression "(int)uVar15" ( (type_descriptor "int" primitive_type) ) identifier) , (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" ( (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) ))) )))) ;) (expression_statement "__x = (double)CONCAT44(uVar16,uVar13);" (assignment_expression "__x = (double)CONCAT44(uVar16,uVar13)" identifier = (cast_expression "(double)CONCAT44(uVar16,uVar13)" ( (type_descriptor "double" primitive_type) ) (call_expression "CONCAT44(uVar16,uVar13)" identifier (argument_list "(uVar16,uVar13)" ( identifier , identifier ))))) ;) (expression_statement "iVar10 = iVar10 + 1;" (assignment_expression "iVar10 = iVar10 + 1" identifier = (binary_expression "iVar10 + 1" identifier + number_literal)) ;) (expression_statement "iVar7 = iVar7 + iVar3;" (assignment_expression "iVar7 = iVar7 + iVar3" identifier = (binary_expression "iVar7 + iVar3" identifier + identifier)) ;) }) while (parenthesized_expression "(iVar10 != 8)" ( (binary_expression "iVar10 != 8" identifier != number_literal) )) ;) (if_statement "if (iVar8 == *piVar12) {\n return;\n }" if (parenthesized_expression "(iVar8 == *piVar12)" ( (binary_expression "iVar8 == *piVar12" identifier == (pointer_expression "*piVar12" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail(iVar7);" (call_expression "__stack_chk_fail(iVar7)" identifier (argument_list "(iVar7)" ( identifier ))) ;) })))
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(translation_unit "/* WARNING: Enum "PixelChannel": Some values do not have unique names */\n\nssize_t PrintChannelMoments(FILE *file,PixelChannel channel,char *name,double scale,\n ChannelMoments *channel_moments)\n\n{\n double powers [8];\n \n /* WARNING: Subroutine does not return */\n FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name);\n}\n\n" comment (function_definition "ssize_t PrintChannelMoments(FILE *file,PixelChannel channel,char *name,double scale,\n ChannelMoments *channel_moments)\n\n{\n double powers [8];\n \n /* WARNING: Subroutine does not return */\n FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name);\n}" primitive_type (function_declarator "PrintChannelMoments(FILE *file,PixelChannel channel,char *name,double scale,\n ChannelMoments *channel_moments)" identifier (parameter_list "(FILE *file,PixelChannel channel,char *name,double scale,\n ChannelMoments *channel_moments)" ( (parameter_declaration "FILE *file" type_identifier (pointer_declarator "*file" * identifier)) , (parameter_declaration "PixelChannel channel" type_identifier identifier) , (parameter_declaration "char *name" primitive_type (pointer_declarator "*name" * identifier)) , (parameter_declaration "double scale" primitive_type identifier) , (parameter_declaration "ChannelMoments *channel_moments" type_identifier (pointer_declarator "*channel_moments" * identifier)) ))) (compound_statement "{\n double powers [8];\n \n /* WARNING: Subroutine does not return */\n FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name);\n}" { (declaration "double powers [8];" primitive_type (array_declarator "powers [8]" identifier [ number_literal ]) ;) comment (expression_statement "FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name);" (call_expression "FormatLocaleFile(file,(char *)(DAT_001055f4 + 0x1053d8),name)" identifier (argument_list "(file,(char *)(DAT_001055f4 + 0x1053d8),name)" ( identifier , (cast_expression "(char *)(DAT_001055f4 + 0x1053d8)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_001055f4 + 0x1053d8)" ( (binary_expression "DAT_001055f4 + 0x1053d8" identifier + number_literal) ))) , identifier ))) ;) })))
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(translation_unit "void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}\n\n" (function_definition "void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" primitive_type (function_declarator "FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" identifier (parameter_list "(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "int param_7" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "int iVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "undefined4 extraout_r1;" type_identifier identifier ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "undefined4 *puVar9;" type_identifier (pointer_declarator "*puVar9" * identifier) ;) (declaration "int iVar10;" primitive_type identifier ;) (declaration "undefined4 uVar11;" type_identifier identifier ;) (declaration "int *piVar12;" primitive_type (pointer_declarator "*piVar12" * identifier) ;) (declaration "undefined4 uVar13;" type_identifier identifier ;) (declaration "undefined4 uVar14;" type_identifier identifier ;) (declaration "double __x;" primitive_type identifier ;) (declaration "double __y;" primitive_type identifier ;) (declaration "undefined8 uVar15;" type_identifier identifier ;) (declaration "undefined4 uVar16;" type_identifier identifier ;) (declaration "undefined4 in_stack_ffffff64;" type_identifier identifier ;) (expression_statement "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);" (assignment_expression "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" identifier = (pointer_expression "*(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" * (cast_expression "(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_001055e8 + 0x10538c + DAT_001055f0)" ( (binary_expression "DAT_001055e8 + 0x10538c + DAT_001055f0" (binary_expression "DAT_001055e8 + 0x10538c" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar8 = *piVar12;" (assignment_expression "iVar8 = *piVar12" identifier = (pointer_expression "*piVar12" * identifier)) ;) (expression_statement "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);" (assignment_expression "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80)" identifier = (cast_expression "(undefined4 *)(param_7 + param_2 * 0x80)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_7 + param_2 * 0x80)" ( (binary_expression "param_7 + param_2 * 0x80" identifier + (binary_expression "param_2 * 0x80" identifier * number_literal)) )))) ;) (expression_statement "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);" (assignment_expression "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" identifier (argument_list "(param_1,DAT_001055f4 + 0x1053d8,param_3)" ( identifier , (binary_expression "DAT_001055f4 + 0x1053d8" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);" (assignment_expression "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" identifier (argument_list "(param_1,DAT_001055f8 + 0x10540c,uVar2)" ( identifier , (binary_expression "DAT_001055f8 + 0x10540c" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);" (assignment_expression "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" identifier (argument_list "(param_1,DAT_001055fc + 0x105454,uVar2)" ( identifier , (binary_expression "DAT_001055fc + 0x105454" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);" (assignment_expression "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" identifier (argument_list "(param_1,DAT_00105600 + 0x105488,uVar2)" ( identifier , (binary_expression "DAT_00105600 + 0x105488" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar13 = puVar9[0x1c];" (assignment_expression "uVar13 = puVar9[0x1c]" identifier = (subscript_expression "puVar9[0x1c]" identifier [ number_literal ])) ;) (expression_statement "uVar14 = puVar9[0x1d];" (assignment_expression "uVar14 = puVar9[0x1d]" identifier = (subscript_expression "puVar9[0x1d]" identifier [ number_literal ])) ;) (expression_statement "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);" (assignment_expression "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" identifier (argument_list "(param_1,DAT_00105604 + 0x1054b4,uVar2)" ( identifier , (binary_expression "DAT_00105604 + 0x1054b4" identifier + number_literal) , identifier )))) ;) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);" (assignment_expression "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" identifier = (cast_expression "(double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" ( (type_descriptor "double" primitive_type) ) (call_expression "FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" identifier (argument_list "(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" ( identifier , identifier , (subscript_expression "puVar9[0x1e]" identifier [ number_literal ]) , (subscript_expression "puVar9[0x1f]" identifier [ number_literal ]) , identifier , identifier ))))) ;) (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);" (assignment_expression "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" identifier = (call_expression "FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" identifier (argument_list "(param_1,DAT_00105608 + 0x105510,uVar2)" ( identifier , (binary_expression "DAT_00105608 + 0x105510" identifier + number_literal) , identifier )))) ;) (expression_statement "__y = (double)CONCAT44(in_stack_ffffff64,uVar13);" (assignment_expression "__y = (double)CONCAT44(in_stack_ffffff64,uVar13)" identifier = (cast_expression "(double)CONCAT44(in_stack_ffffff64,uVar13)" ( (type_descriptor "double" primitive_type) ) (call_expression "CONCAT44(in_stack_ffffff64,uVar13)" identifier (argument_list "(in_stack_ffffff64,uVar13)" ( identifier , identifier ))))) ;) (expression_statement "iVar10 = 0;" (assignment_expression "iVar10 = 0" identifier = number_literal) ;) (expression_statement "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;" (assignment_expression "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" identifier = (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5" (binary_expression "iVar1 + iVar3 + iVar4" (binary_expression "iVar1 + iVar3" identifier + identifier) + identifier) + identifier) + identifier) + identifier)) ;) (expression_statement "iVar1 = DAT_0010560c + 0x105524;" (assignment_expression "iVar1 = DAT_0010560c + 0x105524" identifier = (binary_expression "DAT_0010560c + 0x105524" identifier + number_literal)) ;) (do_statement "do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);" do (compound_statement "{\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n }" { (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" identifier = (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( )))) ;) (expression_statement "uVar16 = (undefined4)((ulonglong)__x >> 0x20);" (assignment_expression "uVar16 = (undefined4)((ulonglong)__x >> 0x20)" identifier = (call_expression "(undefined4)((ulonglong)__x >> 0x20)" (parenthesized_expression "(undefined4)" ( identifier )) (argument_list "((ulonglong)__x >> 0x20)" ( (binary_expression "(ulonglong)__x >> 0x20" (cast_expression "(ulonglong)__x" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) )))) ;) (expression_statement "uVar14 = *puVar9;" (assignment_expression "uVar14 = *puVar9" identifier = (pointer_expression "*puVar9" * identifier)) ;) (expression_statement "uVar11 = puVar9[1];" (assignment_expression "uVar11 = puVar9[1]" identifier = (subscript_expression "puVar9[1]" identifier [ number_literal ])) ;) (expression_statement "uVar2 = param_5;" (assignment_expression "uVar2 = param_5" identifier = identifier) ;) (expression_statement "pow(__x,__y);" (call_expression "pow(__x,__y)" identifier (argument_list "(__x,__y)" ( identifier , identifier ))) ;) (expression_statement "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);" (assignment_expression "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" identifier = (cast_expression "(double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" ( (type_descriptor "double" primitive_type) ) (call_expression "FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" identifier (argument_list "(uVar14,uVar11,uVar2,extraout_r1)" ( identifier , identifier , identifier , identifier ))))) ;) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar15 = FUN_002ea1f0(iVar10);" (assignment_expression "uVar15 = FUN_002ea1f0(iVar10)" identifier = (call_expression "FUN_002ea1f0(iVar10)" identifier (argument_list "(iVar10)" ( identifier )))) ;) (expression_statement "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);" (assignment_expression "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" identifier = (call_expression "FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" identifier (argument_list "((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" ( (cast_expression "(int)uVar15" ( (type_descriptor "int" primitive_type) ) identifier) , (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" ( (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) ))) , number_literal , identifier )))) ;) (expression_statement "puVar9 = puVar9 + 2;" (assignment_expression "puVar9 = puVar9 + 2" identifier = (binary_expression "puVar9 + 2" identifier + number_literal)) ;) (expression_statement "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));" (assignment_expression "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" identifier = (call_expression "FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" identifier (argument_list "(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" ( identifier , identifier , (cast_expression "(int)uVar15" ( (type_descriptor "int" primitive_type) ) identifier) , (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" ( (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" ( (type_descriptor "ulonglong" type_identifier) ) identifier) >> number_literal) ))) )))) ;) (expression_statement "__x = (double)CONCAT44(uVar16,uVar13);" (assignment_expression "__x = (double)CONCAT44(uVar16,uVar13)" identifier = (cast_expression "(double)CONCAT44(uVar16,uVar13)" ( (type_descriptor "double" primitive_type) ) (call_expression "CONCAT44(uVar16,uVar13)" identifier (argument_list "(uVar16,uVar13)" ( identifier , identifier ))))) ;) (expression_statement "iVar10 = iVar10 + 1;" (assignment_expression "iVar10 = iVar10 + 1" identifier = (binary_expression "iVar10 + 1" identifier + number_literal)) ;) (expression_statement "iVar7 = iVar7 + iVar3;" (assignment_expression "iVar7 = iVar7 + iVar3" identifier = (binary_expression "iVar7 + iVar3" identifier + identifier)) ;) }) while (parenthesized_expression "(iVar10 != 8)" ( (binary_expression "iVar10 != 8" identifier != number_literal) )) ;) (if_statement "if (iVar8 == *piVar12) {\n return;\n }" if (parenthesized_expression "(iVar8 == *piVar12)" ( (binary_expression "iVar8 == *piVar12" identifier == (pointer_expression "*piVar12" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail(iVar7);" (call_expression "__stack_chk_fail(iVar7)" identifier (argument_list "(iVar7)" ( identifier ))) ;) })))
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(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT , (subscript_expression IDENT [ LIT ]) , (subscript_expression IDENT [ LIT ]) , IDENT , IDENT ))))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (binary_expression IDENT + LIT) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT ))))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression (binary_expression (binary_expression (binary_expression IDENT + IDENT) + IDENT) + IDENT) + IDENT) + IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))))) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE) ) IDENT) , (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))) , LIT , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT , (cast_expression ( (type_descriptor TYPE) ) IDENT) , (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))) )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + IDENT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT != LIT) )) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (pointer_expression * IDENT)) )) (compound_statement { (return_statement return ;) })) comment (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })))
|
(function_definition "void FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" (primitive_type "void") (function_declarator "FUN_00105360(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" (identifier "FUN_00105360") (parameter_list "(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,int param_7)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) (, ",") (parameter_declaration "undefined4 param_5" (type_identifier "undefined4") (identifier "param_5")) (, ",") (parameter_declaration "undefined4 param_6" (type_identifier "undefined4") (identifier "param_6")) (, ",") (parameter_declaration "int param_7" (primitive_type "int") (identifier "param_7")) () ")"))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 extraout_r1;\n int iVar8;\n undefined4 *puVar9;\n int iVar10;\n undefined4 uVar11;\n int *piVar12;\n undefined4 uVar13;\n undefined4 uVar14;\n double __x;\n double __y;\n undefined8 uVar15;\n undefined4 uVar16;\n undefined4 in_stack_ffffff64;\n \n piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);\n iVar8 = *piVar12;\n puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);\n iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);\n uVar2 = GetMagickPrecision();\n GetMagickPrecision();\n iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);\n uVar2 = GetMagickPrecision();\n iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);\n uVar2 = GetMagickPrecision();\n uVar13 = puVar9[0x1c];\n uVar14 = puVar9[0x1d];\n iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);\n uVar2 = GetMagickPrecision();\n __x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);\n uVar13 = GetMagickPrecision();\n iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);\n __y = (double)CONCAT44(in_stack_ffffff64,uVar13);\n iVar10 = 0;\n iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;\n iVar1 = DAT_0010560c + 0x105524;\n do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);\n if (iVar8 == *piVar12) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(iVar7);\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "int iVar5;" (primitive_type "int") (identifier "iVar5") (; ";")) (declaration "int iVar6;" (primitive_type "int") (identifier "iVar6") (; ";")) (declaration "int iVar7;" (primitive_type "int") (identifier "iVar7") (; ";")) (declaration "undefined4 extraout_r1;" (type_identifier "undefined4") (identifier "extraout_r1") (; ";")) (declaration "int iVar8;" (primitive_type "int") (identifier "iVar8") (; ";")) (declaration "undefined4 *puVar9;" (type_identifier "undefined4") (pointer_declarator "*puVar9" (* "*") (identifier "puVar9")) (; ";")) (declaration "int iVar10;" (primitive_type "int") (identifier "iVar10") (; ";")) (declaration "undefined4 uVar11;" (type_identifier "undefined4") (identifier "uVar11") (; ";")) (declaration "int *piVar12;" (primitive_type "int") (pointer_declarator "*piVar12" (* "*") (identifier "piVar12")) (; ";")) (declaration "undefined4 uVar13;" (type_identifier "undefined4") (identifier "uVar13") (; ";")) (declaration "undefined4 uVar14;" (type_identifier "undefined4") (identifier "uVar14") (; ";")) (declaration "double __x;" (primitive_type "double") (identifier "__x") (; ";")) (declaration "double __y;" (primitive_type "double") (identifier "__y") (; ";")) (declaration "undefined8 uVar15;" (type_identifier "undefined8") (identifier "uVar15") (; ";")) (declaration "undefined4 uVar16;" (type_identifier "undefined4") (identifier "uVar16") (; ";")) (declaration "undefined4 in_stack_ffffff64;" (type_identifier "undefined4") (identifier "in_stack_ffffff64") (; ";")) (expression_statement "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);" (assignment_expression "piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" (identifier "piVar12") (= "=") (pointer_expression "*(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" (* "*") (cast_expression "(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_001055e8 + 0x10538c + DAT_001055f0)" (( "(") (binary_expression "DAT_001055e8 + 0x10538c + DAT_001055f0" (binary_expression "DAT_001055e8 + 0x10538c" (identifier "DAT_001055e8") (+ "+") (number_literal "0x10538c")) (+ "+") (identifier "DAT_001055f0")) () ")"))))) (; ";")) (expression_statement "iVar8 = *piVar12;" (assignment_expression "iVar8 = *piVar12" (identifier "iVar8") (= "=") (pointer_expression "*piVar12" (* "*") (identifier "piVar12"))) (; ";")) (expression_statement "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);" (assignment_expression "puVar9 = (undefined4 *)(param_7 + param_2 * 0x80)" (identifier "puVar9") (= "=") (cast_expression "(undefined4 *)(param_7 + param_2 * 0x80)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_7 + param_2 * 0x80)" (( "(") (binary_expression "param_7 + param_2 * 0x80" (identifier "param_7") (+ "+") (binary_expression "param_2 * 0x80" (identifier "param_2") (* "*") (number_literal "0x80"))) () ")")))) (; ";")) (expression_statement "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);" (assignment_expression "iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" (identifier "iVar1") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_001055f4 + 0x1053d8,param_3)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_001055f4 + 0x1053d8" (identifier "DAT_001055f4") (+ "+") (number_literal "0x1053d8")) (, ",") (identifier "param_3") () ")")))) (; ";")) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" (identifier "uVar2") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);" (assignment_expression "iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" (identifier "iVar3") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_001055f8 + 0x10540c,uVar2)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_001055f8 + 0x10540c" (identifier "DAT_001055f8") (+ "+") (number_literal "0x10540c")) (, ",") (identifier "uVar2") () ")")))) (; ";")) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" (identifier "uVar2") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);" (assignment_expression "iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" (identifier "iVar4") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_001055fc + 0x105454,uVar2)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_001055fc + 0x105454" (identifier "DAT_001055fc") (+ "+") (number_literal "0x105454")) (, ",") (identifier "uVar2") () ")")))) (; ";")) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" (identifier "uVar2") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);" (assignment_expression "iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" (identifier "iVar5") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_00105600 + 0x105488,uVar2)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_00105600 + 0x105488" (identifier "DAT_00105600") (+ "+") (number_literal "0x105488")) (, ",") (identifier "uVar2") () ")")))) (; ";")) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" (identifier "uVar2") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "uVar13 = puVar9[0x1c];" (assignment_expression "uVar13 = puVar9[0x1c]" (identifier "uVar13") (= "=") (subscript_expression "puVar9[0x1c]" (identifier "puVar9") ([ "[") (number_literal "0x1c") (] "]"))) (; ";")) (expression_statement "uVar14 = puVar9[0x1d];" (assignment_expression "uVar14 = puVar9[0x1d]" (identifier "uVar14") (= "=") (subscript_expression "puVar9[0x1d]" (identifier "puVar9") ([ "[") (number_literal "0x1d") (] "]"))) (; ";")) (expression_statement "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);" (assignment_expression "iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" (identifier "iVar6") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_00105604 + 0x1054b4,uVar2)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_00105604 + 0x1054b4" (identifier "DAT_00105604") (+ "+") (number_literal "0x1054b4")) (, ",") (identifier "uVar2") () ")")))) (; ";")) (expression_statement "uVar2 = GetMagickPrecision();" (assignment_expression "uVar2 = GetMagickPrecision()" (identifier "uVar2") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);" (assignment_expression "__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" (identifier "__x") (= "=") (cast_expression "(double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" (( "(") (type_descriptor "double" (primitive_type "double")) () ")") (call_expression "FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" (identifier "FUN_002ea2d4") (argument_list "(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14)" (( "(") (identifier "param_5") (, ",") (identifier "param_6") (, ",") (subscript_expression "puVar9[0x1e]" (identifier "puVar9") ([ "[") (number_literal "0x1e") (] "]")) (, ",") (subscript_expression "puVar9[0x1f]" (identifier "puVar9") ([ "[") (number_literal "0x1f") (] "]")) (, ",") (identifier "uVar13") (, ",") (identifier "uVar14") () ")"))))) (; ";")) (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" (identifier "uVar13") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);" (assignment_expression "iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" (identifier "iVar7") (= "=") (call_expression "FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2)" (identifier "FormatLocaleFile") (argument_list "(param_1,DAT_00105608 + 0x105510,uVar2)" (( "(") (identifier "param_1") (, ",") (binary_expression "DAT_00105608 + 0x105510" (identifier "DAT_00105608") (+ "+") (number_literal "0x105510")) (, ",") (identifier "uVar2") () ")")))) (; ";")) (expression_statement "__y = (double)CONCAT44(in_stack_ffffff64,uVar13);" (assignment_expression "__y = (double)CONCAT44(in_stack_ffffff64,uVar13)" (identifier "__y") (= "=") (cast_expression "(double)CONCAT44(in_stack_ffffff64,uVar13)" (( "(") (type_descriptor "double" (primitive_type "double")) () ")") (call_expression "CONCAT44(in_stack_ffffff64,uVar13)" (identifier "CONCAT44") (argument_list "(in_stack_ffffff64,uVar13)" (( "(") (identifier "in_stack_ffffff64") (, ",") (identifier "uVar13") () ")"))))) (; ";")) (expression_statement "iVar10 = 0;" (assignment_expression "iVar10 = 0" (identifier "iVar10") (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;" (assignment_expression "iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" (identifier "iVar7") (= "=") (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5 + iVar6" (binary_expression "iVar1 + iVar3 + iVar4 + iVar5" (binary_expression "iVar1 + iVar3 + iVar4" (binary_expression "iVar1 + iVar3" (identifier "iVar1") (+ "+") (identifier "iVar3")) (+ "+") (identifier "iVar4")) (+ "+") (identifier "iVar5")) (+ "+") (identifier "iVar6")) (+ "+") (identifier "iVar7"))) (; ";")) (expression_statement "iVar1 = DAT_0010560c + 0x105524;" (assignment_expression "iVar1 = DAT_0010560c + 0x105524" (identifier "iVar1") (= "=") (binary_expression "DAT_0010560c + 0x105524" (identifier "DAT_0010560c") (+ "+") (number_literal "0x105524"))) (; ";")) (do_statement "do {\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n } while (iVar10 != 8);" (do "do") (compound_statement "{\n uVar13 = GetMagickPrecision();\n uVar16 = (undefined4)((ulonglong)__x >> 0x20);\n uVar14 = *puVar9;\n uVar11 = puVar9[1];\n uVar2 = param_5;\n pow(__x,__y);\n __y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);\n GetMagickPrecision();\n uVar15 = FUN_002ea1f0(iVar10);\n uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);\n puVar9 = puVar9 + 2;\n iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));\n __x = (double)CONCAT44(uVar16,uVar13);\n iVar10 = iVar10 + 1;\n iVar7 = iVar7 + iVar3;\n }" ({ "{") (expression_statement "uVar13 = GetMagickPrecision();" (assignment_expression "uVar13 = GetMagickPrecision()" (identifier "uVar13") (= "=") (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "uVar16 = (undefined4)((ulonglong)__x >> 0x20);" (assignment_expression "uVar16 = (undefined4)((ulonglong)__x >> 0x20)" (identifier "uVar16") (= "=") (call_expression "(undefined4)((ulonglong)__x >> 0x20)" (parenthesized_expression "(undefined4)" (( "(") (identifier "undefined4") () ")")) (argument_list "((ulonglong)__x >> 0x20)" (( "(") (binary_expression "(ulonglong)__x >> 0x20" (cast_expression "(ulonglong)__x" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "__x")) (>> ">>") (number_literal "0x20")) () ")")))) (; ";")) (expression_statement "uVar14 = *puVar9;" (assignment_expression "uVar14 = *puVar9" (identifier "uVar14") (= "=") (pointer_expression "*puVar9" (* "*") (identifier "puVar9"))) (; ";")) (expression_statement "uVar11 = puVar9[1];" (assignment_expression "uVar11 = puVar9[1]" (identifier "uVar11") (= "=") (subscript_expression "puVar9[1]" (identifier "puVar9") ([ "[") (number_literal "1") (] "]"))) (; ";")) (expression_statement "uVar2 = param_5;" (assignment_expression "uVar2 = param_5" (identifier "uVar2") (= "=") (identifier "param_5")) (; ";")) (expression_statement "pow(__x,__y);" (call_expression "pow(__x,__y)" (identifier "pow") (argument_list "(__x,__y)" (( "(") (identifier "__x") (, ",") (identifier "__y") () ")"))) (; ";")) (expression_statement "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);" (assignment_expression "__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" (identifier "__y") (= "=") (cast_expression "(double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" (( "(") (type_descriptor "double" (primitive_type "double")) () ")") (call_expression "FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1)" (identifier "FUN_002ea540") (argument_list "(uVar14,uVar11,uVar2,extraout_r1)" (( "(") (identifier "uVar14") (, ",") (identifier "uVar11") (, ",") (identifier "uVar2") (, ",") (identifier "extraout_r1") () ")"))))) (; ";")) (expression_statement "GetMagickPrecision();" (call_expression "GetMagickPrecision()" (identifier "GetMagickPrecision") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "uVar15 = FUN_002ea1f0(iVar10);" (assignment_expression "uVar15 = FUN_002ea1f0(iVar10)" (identifier "uVar15") (= "=") (call_expression "FUN_002ea1f0(iVar10)" (identifier "FUN_002ea1f0") (argument_list "(iVar10)" (( "(") (identifier "iVar10") () ")")))) (; ";")) (expression_statement "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);" (assignment_expression "uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" (identifier "uVar15") (= "=") (call_expression "FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" (identifier "FUN_002e9f20") (argument_list "((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610)" (( "(") (cast_expression "(int)uVar15" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar15")) (, ",") (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar15")) (>> ">>") (number_literal "0x20")) () ")"))) (, ",") (number_literal "0") (, ",") (identifier "DAT_00105610") () ")")))) (; ";")) (expression_statement "puVar9 = puVar9 + 2;" (assignment_expression "puVar9 = puVar9 + 2" (identifier "puVar9") (= "=") (binary_expression "puVar9 + 2" (identifier "puVar9") (+ "+") (number_literal "2"))) (; ";")) (expression_statement "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));" (assignment_expression "iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" (identifier "iVar3") (= "=") (call_expression "FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" (identifier "FormatLocaleFile") (argument_list "(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20))" (( "(") (identifier "param_1") (, ",") (identifier "iVar1") (, ",") (cast_expression "(int)uVar15" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar15")) (, ",") (cast_expression "(int)((ulonglong)uVar15 >> 0x20)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "((ulonglong)uVar15 >> 0x20)" (( "(") (binary_expression "(ulonglong)uVar15 >> 0x20" (cast_expression "(ulonglong)uVar15" (( "(") (type_descriptor "ulonglong" (type_identifier "ulonglong")) () ")") (identifier "uVar15")) (>> ">>") (number_literal "0x20")) () ")"))) () ")")))) (; ";")) (expression_statement "__x = (double)CONCAT44(uVar16,uVar13);" (assignment_expression "__x = (double)CONCAT44(uVar16,uVar13)" (identifier "__x") (= "=") (cast_expression "(double)CONCAT44(uVar16,uVar13)" (( "(") (type_descriptor "double" (primitive_type "double")) () ")") (call_expression "CONCAT44(uVar16,uVar13)" (identifier "CONCAT44") (argument_list "(uVar16,uVar13)" (( "(") (identifier "uVar16") (, ",") (identifier "uVar13") () ")"))))) (; ";")) (expression_statement "iVar10 = iVar10 + 1;" (assignment_expression "iVar10 = iVar10 + 1" (identifier "iVar10") (= "=") (binary_expression "iVar10 + 1" (identifier "iVar10") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "iVar7 = iVar7 + iVar3;" (assignment_expression "iVar7 = iVar7 + iVar3" (identifier "iVar7") (= "=") (binary_expression "iVar7 + iVar3" (identifier "iVar7") (+ "+") (identifier "iVar3"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar10 != 8)" (( "(") (binary_expression "iVar10 != 8" (identifier "iVar10") (!= "!=") (number_literal "8")) () ")")) (; ";")) (if_statement "if (iVar8 == *piVar12) {\n return;\n }" (if "if") (parenthesized_expression "(iVar8 == *piVar12)" (( "(") (binary_expression "iVar8 == *piVar12" (identifier "iVar8") (== "==") (pointer_expression "*piVar12" (* "*") (identifier "piVar12"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail(iVar7);" (call_expression "__stack_chk_fail(iVar7)" (identifier "__stack_chk_fail") (argument_list "(iVar7)" (( "(") (identifier "iVar7") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
ssize_t function_1(type_1 *file,type_2 channel,char *name,double scale,
type_3 *channel_moments)
{
double powers [8];
/* WARNING: Subroutine does not return */
var_1(file,(char *)(var_2 + 0x1053d8),name);
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (subscript_expression argument: (identifier) index: (number_literal)) (subscript_expression argument: (identifier) index: (number_literal)) (identifier) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (identifier)) right: (identifier)) right: (identifier)) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))) (number_literal) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)) right: (number_literal)))))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (identifier))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (return_statement))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))))))
|
void MASKED(undefined4 param_1,int param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,int param_7)
{
int iVar1;
undefined4 uVar2;
int iVar3;
int iVar4;
int iVar5;
int iVar6;
int iVar7;
undefined4 extraout_r1;
int iVar8;
undefined4 *puVar9;
int iVar10;
undefined4 uVar11;
int *piVar12;
undefined4 uVar13;
undefined4 uVar14;
double __x;
double __y;
undefined8 uVar15;
undefined4 uVar16;
undefined4 in_stack_ffffff64;
piVar12 = *(int **)(DAT_001055e8 + 0x10538c + DAT_001055f0);
iVar8 = *piVar12;
puVar9 = (undefined4 *)(param_7 + param_2 * 0x80);
iVar1 = FormatLocaleFile(param_1,DAT_001055f4 + 0x1053d8,param_3);
uVar2 = GetMagickPrecision();
GetMagickPrecision();
iVar3 = FormatLocaleFile(param_1,DAT_001055f8 + 0x10540c,uVar2);
uVar2 = GetMagickPrecision();
GetMagickPrecision();
iVar4 = FormatLocaleFile(param_1,DAT_001055fc + 0x105454,uVar2);
uVar2 = GetMagickPrecision();
iVar5 = FormatLocaleFile(param_1,DAT_00105600 + 0x105488,uVar2);
uVar2 = GetMagickPrecision();
uVar13 = puVar9[0x1c];
uVar14 = puVar9[0x1d];
iVar6 = FormatLocaleFile(param_1,DAT_00105604 + 0x1054b4,uVar2);
uVar2 = GetMagickPrecision();
__x = (double)FUN_002ea2d4(param_5,param_6,puVar9[0x1e],puVar9[0x1f],uVar13,uVar14);
uVar13 = GetMagickPrecision();
iVar7 = FormatLocaleFile(param_1,DAT_00105608 + 0x105510,uVar2);
__y = (double)CONCAT44(in_stack_ffffff64,uVar13);
iVar10 = 0;
iVar7 = iVar1 + iVar3 + iVar4 + iVar5 + iVar6 + iVar7;
iVar1 = DAT_0010560c + 0x105524;
do {
uVar13 = GetMagickPrecision();
uVar16 = (undefined4)((ulonglong)__x >> 0x20);
uVar14 = *puVar9;
uVar11 = puVar9[1];
uVar2 = param_5;
pow(__x,__y);
__y = (double)FUN_002ea540(uVar14,uVar11,uVar2,extraout_r1);
GetMagickPrecision();
uVar15 = FUN_002ea1f0(iVar10);
uVar15 = FUN_002e9f20((int)uVar15,(int)((ulonglong)uVar15 >> 0x20),0,DAT_00105610);
puVar9 = puVar9 + 2;
iVar3 = FormatLocaleFile(param_1,iVar1,(int)uVar15,(int)((ulonglong)uVar15 >> 0x20));
__x = (double)CONCAT44(uVar16,uVar13);
iVar10 = iVar10 + 1;
iVar7 = iVar7 + iVar3;
} while (iVar10 != 8);
if (iVar8 == *piVar12) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(iVar7);
}
| 78,953 |
||
692_arm-linux-gnueabi-as_and_arm-linux-gnueabi-as_strip.c
|
do_vfp_nsyn_nmul
|
FUN_000695b0
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void do_vfp_nsyn_nmul(void)
{
/* WARNING: Subroutine does not return */
neon_select_shape(NS_HHH,0x1d,0,0x37);
}
|
void FUN_000695b0(void)
{
int *piVar1;
int iVar2;
int iVar3;
int iVar4;
undefined1 auStack_10 [8];
iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);
FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);
iVar3 = DAT_000696d4;
iVar2 = DAT_000696c8;
if (iVar4 == 0x32 || iVar4 == 0x1d) {
*(uint *)(DAT_000696c8 + 0x69610) =
*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |
*(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;
*(undefined4 *)(iVar2 + 0x69648) = 1;
FUN_000548c8();
if (iVar4 == 0x32) {
FUN_00068d84();
}
}
else {
*(uint *)(DAT_000696d4 + 0x69690) =
*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |
*(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;
*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;
FUN_0005479c();
}
iVar2 = DAT_000696d0;
piVar1 = (int *)(DAT_000696d0 + 0x69738);
*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;
if (*piVar1 != 0) {
*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;
return;
}
FUN_0005a1ac();
return;
}
|
stmdb sp!,{r4,lr}
mov r3,#0x37
sub sp,sp,#0x10
mov r2,#0x0
mov r1,#0x1d
mov r0,#0x32
bl 0x0005835c
ldr r1,[0x696c4]
mov r3,#0x6000000
str r1,[sp,#0x4]
str r3,[sp,#0x0]
mov r1,#0x3
cpy r4,r0
cpy r2,r0
add r0,sp,#0x8
bl 0x0005b940
cmp r4,#0x32
cmpne r4,#0x1d
bne 0x0006967c
ldr r0,[0x696c8]
mov r12,#0x1
add r0,pc,r0
ldr r2,[r0,#0x4]
ldr r3,[0x696cc]
bic r1,r2,#0xf0000000
add r1,r1,r1, lsl r12
add r3,pc,r3
add r3,r3,r1, lsl #0x2
ldr r3,[r3,#0xae8]
and r2,r2,#0xf0000000
orr r2,r3,r2
str r2,[r0,#0x4]
str r12,[r0,#0x3c]
bl 0x000548c8
cmp r4,#0x32
beq 0x000696bc
ldr r3,[0x696d0]
mov r1,#0x1
add r3,pc,r3
ldr r2,[r3,#0xe8]
str r1,[r3,#0x3c]
cmp r2,#0x0
beq 0x00069670
ldr r2,[r3,#0x4]
orr r2,r2,#0xe0000000
str r2,[r3,#0x4]
add sp,sp,#0x10
ldmia sp!,{r4,pc}
add sp,sp,#0x10
ldmia sp!,{r4,lr}
b 0x0005a1ac
ldr r0,[0x696d4]
mov r12,#0x1
add r0,pc,r0
ldr r2,[r0,#0x4]
ldr r3,[0x696d8]
bic r1,r2,#0xf0000000
add r1,r1,r1, lsl r12
add r3,pc,r3
add r3,r3,r1, lsl #0x2
ldr r3,[r3,#0xaec]
and r2,r2,#0xf0000000
orr r2,r3,r2
str r2,[r0,#0x4]
str r12,[r0,#0x3c]
bl 0x0005479c
b 0x00069640
bl 0x00068d84
b 0x00069640
| null | null | null | null |
[('const-1', u'RETURN_-1206282729'), ('const-0', u'CALL_-1206282734'), ('const-55', u'CALL_-1206282734'), ('const-50', u'CALL_-1206282734'), ('const-29', u'CALL_-1206282734')]
|
[(u'CALL_-1206282734', u'INDIRECT_-1206282050'), (u'INDIRECT_-1206281968', u'INT_ADD_-1206282146'), ('const-268435455', u'INT_AND_-1206282185'), (u'BOOL_OR_-1206282572', u'CBRANCH_-1206282606'), (u'CALL_-1206282734', u'INDIRECT_-1206282005'), (u'INT_ADD_-1206282482', u'CAST_-1206281856'), (u'LOAD_-1206282228', u'INT_AND_-1206282118'), (u'INDIRECT_-1206281839', u'COPY_-1206281897'), (u'CALL_-1206282734', u'INT_EQUAL_-1206282091'), ('const-0', u'INT_NOTEQUAL_-1206282359'), ('tmp_841', u'CBRANCH_-1206282357'), (u'INDIRECT_-1206282028', u'INT_ADD_-1206282555'), (u'INT_ADD_-1206282369', u'CAST_-1206281804'), (u'LOAD_-1206282354', u'INT_OR_-1206282316'), (u'STORE_-1206282465', u'INDIRECT_-1206281957'), (u'STORE_-1206282459', u'INDIRECT_-1206281952'), (u'COPY_-1206281980', u'INT_ADD_-1206282444'), (u'INDIRECT_-1206281894', u'MULTIEQUAL_-1206281872'), (u'STORE_-1206282331', u'INDIRECT_-1206281913'), (u'INDIRECT_-1206281983', u'COPY_-1206281978'), (u'STORE_-1206282384', u'INDIRECT_-1206281889'), (u'CALL_-1206282106', u'INDIRECT_-1206281812'), ('const-434572', u'INT_ADD_-1206282139'), (u'COPY_-1206281978', u'INT_ADD_-1206282101'), ('const-0', u'CALL_-1206282734'), (u'CAST_-1206281809', u'LOAD_-1206282391'), (u'INT_AND_-1206282118', u'INT_OR_-1206282107'), (u'CALL_-1206282106', u'INDIRECT_-1206281782'), (u'CALL_-1206282265', u'INDIRECT_-1206281869'), (u'INT_EQUAL_-1206282429', u'CBRANCH_-1206282426'), ('tmp_1012', u'BRANCH_-1206282192'), (u'INDIRECT_-1206281853', u'COPY_-1206281910'), ('const-431760', u'INT_ADD_-1206282107'), (u'COPY_-1206281895', u'INT_ADD_-1206282316'), ('const-100663296', u'CALL_-1206282653'), (u'INDIRECT_-1206281983', u'INT_ADD_-1206282107'), (u'INDIRECT_-1206281913', u'COPY_-1206281970'), (u'INDIRECT_-1206281854', u'COPY_-1206281912'), ('const-417', u'STORE_-1206282465'), ('const-29', u'INT_EQUAL_-1206282091'), (u'STORE_-1206282459', u'INDIRECT_-1206281907'), (u'CALL_-1206282265', u'INDIRECT_-1206281854'), (u'INDIRECT_-1206281909', u'MULTIEQUAL_-1206281887'), (u'CALL_-1206282653', u'INDIRECT_-1206282043'), ('const-100663296', u'CALL_-1206282653'), (u'INDIRECT_-1206282013', u'INT_ADD_-1206282489'), (u'STORE_-1206282116', u'INDIRECT_-1206281835'), (u'INT_ADD_-1206282489', u'INT_ADD_-1206282482'), ('tmp_727', u'CBRANCH_-1206282426'), (u'INDIRECT_-1206281939', u'MULTIEQUAL_-1206281917'), (u'INDIRECT_-1206281782', u'MULTIEQUAL_-1206281887'), (u'STORE_-1206282384', u'INDIRECT_-1206281904'), (u'STORE_-1206282331', u'INDIRECT_-1206281868'), ('const-268435455', u'INT_AND_-1206282528'), ('const-50', u'INT_EQUAL_-1206282429'), (u'STORE_-1206282465', u'INDIRECT_-1206281897'), (u'INDIRECT_-1206281898', u'COPY_-1206281955'), (u'CALL_-1206282194', u'INDIRECT_-1206281772'), (u'CALL_-1206282653', u'INDIRECT_-1206282013'), ('const-417', u'STORE_-1206282459'), (u'CALL_-1206282734', u'INT_EQUAL_-1206282633'), (u'STORE_-1206282459', u'INDIRECT_-1206281967'), (u'INT_EQUAL_-1206282633', u'BOOL_OR_-1206282572'), ('const-431760', u'INT_ADD_-1206282212'), ('const-417', u'LOAD_-1206282354'), (u'INT_OR_-1206282107', u'STORE_-1206282122'), (u'CALL_-1206282194', u'INDIRECT_-1206281757'), (u'STORE_-1206282465', u'INDIRECT_-1206281972'), (u'CALL_-1206282194', u'INDIRECT_-1206281787'), (u'STORE_-1206282116', u'INDIRECT_-1206281790'), (u'STORE_-1206282122', u'INDIRECT_-1206281825'), (u'CALL_-1206282734', u'INDIRECT_-1206282020'), (u'STORE_-1206282331', u'INDIRECT_-1206281883'), (u'CALL_-1206282734', u'INDIRECT_-1206282065'), (u'CALL_-1206282653', u'INDIRECT_-1206281968'), (u'PTRSUB_-1206281723', u'CAST_-1206281715'), (u'CALL_-1206282734', u'INDIRECT_-1206282035'), (u'CALL_-1206282653', u'INDIRECT_-1206282028'), ('const-417', u'LOAD_-1206282498'), (u'CALL_-1206282449', u'INDIRECT_-1206281909'), (u'COPY_-1206281895', u'INT_ADD_-1206282338'), (u'STORE_-1206282116', u'INDIRECT_-1206281775'), ('const-3758096384', u'INT_OR_-1206282316'), ('const-50', u'INT_EQUAL_-1206282633'), (u'INDIRECT_-1206281767', u'MULTIEQUAL_-1206281872'), (u'LOAD_-1206282155', u'INT_OR_-1206282107'), (u'CALL_-1206282449', u'INDIRECT_-1206281924'), (u'CALL_-1206282653', u'INDIRECT_-1206281983'), ('const-55', u'CALL_-1206282734'), (u'CALL_-1206282106', u'INDIRECT_-1206281842'), (u'INT_ADD_-1206282316', u'CAST_-1206281782'), (u'STORE_-1206282465', u'INDIRECT_-1206281942'), (u'INT_ADD_-1206282450', u'CAST_-1206281843'), (u'CALL_-1206282449', u'INDIRECT_-1206281939'), (u'INDIRECT_-1206281954', u'MULTIEQUAL_-1206281932'), (u'CALL_-1206282734', u'CALL_-1206282653'), (u'INT_OR_-1206282316', u'STORE_-1206282331'), ('const-12', u'INT_MULT_-1206282479'), (u'STORE_-1206282384', u'INDIRECT_-1206281859'), ('const-4026531840', u'INT_AND_-1206282118'), (u'STORE_-1206282116', u'INDIRECT_-1206281760'), ('const-1', u'STORE_-1206282116'), (u'CALL_-1206282194', u'INDIRECT_-1206281817'), (u'INDIRECT_-1206281817', u'MULTIEQUAL_-1206281932'), (u'CAST_-1206281838', u'STORE_-1206282459'), (u'LOAD_-1206282498', u'INT_OR_-1206282450'), (u'INT_ADD_-1206282375', u'CAST_-1206281809'), (u'INDIRECT_-1206281802', u'MULTIEQUAL_-1206281917'), ('const-0', u'RETURN_-1206282293'), ('const-417', u'LOAD_-1206282391'), ('tmp_1929', u'PTRSUB_-1206281922'), (u'INDIRECT_-1206282028', u'INT_ADD_-1206282450'), (u'INDIRECT_-1206281924', u'MULTIEQUAL_-1206281902'), ('const-4026531840', u'INT_AND_-1206282461'), (u'STORE_-1206282459', u'INDIRECT_-1206281937'), (u'STORE_-1206282331', u'INDIRECT_-1206281853'), ('const-1', u'STORE_-1206282384'), (u'INDIRECT_-1206281883', u'COPY_-1206281940'), (u'CAST_-1206281714', u'STORE_-1206282116'), (u'INT_ADD_-1206282101', u'CAST_-1206281714'), (u'INT_MULT_-1206282136', u'INT_ADD_-1206282146'), (u'STORE_-1206282465', u'INDIRECT_-1206281912'), ('const-0', u'RETURN_-1206282261'), (u'STORE_-1206282122', u'INDIRECT_-1206281780'), (u'LOAD_-1206282571', u'INT_AND_-1206282528'), (u'STORE_-1206282122', u'INDIRECT_-1206281810'), (u'INT_ADD_-1206282107', u'CAST_-1206281720'), ('tmp_411', u'CBRANCH_-1206282606'), ('const-431928', u'INT_ADD_-1206282375'), (u'CAST_-1206281791', u'LOAD_-1206282354'), (u'INDIRECT_-1206281884', u'COPY_-1206281942'), (u'INT_AND_-1206282185', u'INT_MULT_-1206282136'), (u'STORE_-1206282384', u'INDIRECT_-1206281874'), ('const-431756', u'INT_ADD_-1206282369'), (u'CAST_-1206281804', u'STORE_-1206282384'), ('const-431700', u'INT_ADD_-1206282338'), (u'CAST_-1206281782', u'STORE_-1206282331'), (u'CALL_-1206282265', u'INDIRECT_-1206281899'), ('const-431632', u'INT_ADD_-1206282555'), (u'CALL_-1206282106', u'INDIRECT_-1206281797'), (u'MULTIEQUAL_-1206281902', u'INT_ADD_-1206282375'), (u'STORE_-1206282384', u'INDIRECT_-1206281919'), (u'MULTIEQUAL_-1206281902', u'INT_ADD_-1206282369'), ('const-417', u'LOAD_-1206282228'), (u'CALL_-1206282734', u'INDIRECT_-1206282080'), (u'CAST_-1206281856', u'LOAD_-1206282498'), ('const-3', u'CALL_-1206282653'), ('const-12', u'INT_MULT_-1206282136'), ('const-417', u'LOAD_-1206282571'), (u'CALL_-1206282265', u'INDIRECT_-1206281824'), (u'INDIRECT_-1206281832', u'MULTIEQUAL_-1206281947'), (u'CALL_-1206282194', u'INDIRECT_-1206281802'), (u'CALL_-1206282265', u'INDIRECT_-1206281884'), (u'INDIRECT_-1206281827', u'MULTIEQUAL_-1206281932'), ('const-417', u'STORE_-1206282384'), ('const-1', u'STORE_-1206282459'), (u'INT_AND_-1206282461', u'INT_OR_-1206282450'), ('const-417', u'STORE_-1206282122'), (u'INDIRECT_-1206281824', u'COPY_-1206281882'), (u'INDIRECT_-1206281899', u'COPY_-1206281957'), (u'INDIRECT_-1206281787', u'MULTIEQUAL_-1206281902'), (u'STORE_-1206282116', u'INDIRECT_-1206281805'), (u'INT_ADD_-1206282555', u'CAST_-1206281881'), (u'LOAD_-1206282228', u'INT_AND_-1206282185'), (u'INDIRECT_-1206281842', u'MULTIEQUAL_-1206281947'), ('const-417', u'LOAD_-1206282155'), (u'STORE_-1206282459', u'INDIRECT_-1206281922'), (u'INT_ADD_-1206282444', u'CAST_-1206281838'), (u'STORE_-1206282122', u'INDIRECT_-1206281840'), ('const-431816', u'PTRSUB_-1206281723'), (u'INDIRECT_-1206282028', u'COPY_-1206281980'), (u'CALL_-1206282194', u'INDIRECT_-1206281832'), ('const-431700', u'INT_ADD_-1206282316'), (u'STORE_-1206282122', u'INDIRECT_-1206281765'), (u'INT_AND_-1206282528', u'INT_MULT_-1206282479'), (u'INT_NOTEQUAL_-1206282359', u'CBRANCH_-1206282357'), (u'PTRSUB_-1206281922', u'CALL_-1206282653'), ('const-0', u'PTRSUB_-1206281723'), (u'CAST_-1206281720', u'STORE_-1206282122'), ('const-50', u'CALL_-1206282734'), (u'INDIRECT_-1206281983', u'INT_ADD_-1206282212'), (u'CALL_-1206282449', u'INDIRECT_-1206281969'), (u'LOAD_-1206282571', u'INT_AND_-1206282461'), (u'STORE_-1206282116', u'INDIRECT_-1206281820'), (u'INT_EQUAL_-1206282091', u'BOOL_OR_-1206282572'), (u'CALL_-1206282653', u'INDIRECT_-1206281998'), (u'INDIRECT_-1206281757', u'MULTIEQUAL_-1206281872'), (u'MULTIEQUAL_-1206281902', u'COPY_-1206281895'), (u'INDIRECT_-1206281772', u'MULTIEQUAL_-1206281887'), (u'INDIRECT_-1206281797', u'MULTIEQUAL_-1206281902'), (u'CAST_-1206281733', u'LOAD_-1206282155'), ('const-434440', u'INT_ADD_-1206282482'), (u'CAST_-1206281715', u'INT_ADD_-1206282101'), (u'INT_MULT_-1206282479', u'INT_ADD_-1206282489'), (u'STORE_-1206282384', u'INDIRECT_-1206281934'), ('const-4294967280', u'PTRSUB_-1206281922'), (u'CAST_-1206281758', u'LOAD_-1206282228'), ('const-417', u'STORE_-1206282116'), (u'INT_OR_-1206282450', u'STORE_-1206282465'), (u'INDIRECT_-1206281868', u'COPY_-1206281925'), (u'INT_ADD_-1206282338', u'CAST_-1206281791'), (u'STORE_-1206282465', u'INDIRECT_-1206281927'), (u'STORE_-1206282331', u'INDIRECT_-1206281838'), (u'INDIRECT_-1206282080', u'CALL_-1206282653'), (u'CALL_-1206282449', u'INDIRECT_-1206281894'), ('const-417', u'STORE_-1206282331'), (u'CALL_-1206282734', u'INT_EQUAL_-1206282429'), (u'CALL_-1206282449', u'INDIRECT_-1206281954'), (u'CALL_-1206282106', u'INDIRECT_-1206281827'), (u'CALL_-1206282265', u'INDIRECT_-1206281839'), (u'LOAD_-1206282391', u'INT_NOTEQUAL_-1206282359'), (u'INT_ADD_-1206282139', u'CAST_-1206281733'), ('tmp_1283', u'BRANCH_-1206282104'), (u'INDIRECT_-1206281812', u'MULTIEQUAL_-1206281917'), ('const-431632', u'INT_ADD_-1206282450'), (u'STORE_-1206282331', u'INDIRECT_-1206281898'), (u'CAST_-1206281843', u'STORE_-1206282465'), (u'CAST_-1206281881', u'LOAD_-1206282571'), ('const-29', u'CALL_-1206282734'), (u'INDIRECT_-1206281838', u'COPY_-1206281895'), (u'STORE_-1206282122', u'INDIRECT_-1206281795'), (u'CALL_-1206282106', u'INDIRECT_-1206281767'), (u'INDIRECT_-1206281969', u'MULTIEQUAL_-1206281947'), (u'INDIRECT_-1206281869', u'COPY_-1206281927'), (u'INT_ADD_-1206282146', u'INT_ADD_-1206282139'), (u'INT_ADD_-1206282212', u'CAST_-1206281758'), ('const-431688', u'INT_ADD_-1206282444'), (u'STORE_-1206282459', u'INDIRECT_-1206281892')]
| null | null |
000695b0
|
arm
|
O2
|
(translation_unit "void FUN_000695b0(void)\n\n{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}\n\n" (function_definition "void FUN_000695b0(void)\n\n{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" primitive_type (function_declarator "FUN_000695b0(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "undefined1 auStack_10 [8];" type_identifier (array_declarator "auStack_10 [8]" identifier [ number_literal ]) ;) (expression_statement "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);" (assignment_expression "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37)" identifier = (call_expression "FUN_0005835c(0x32,0x1d,0,0x37)" identifier (argument_list "(0x32,0x1d,0,0x37)" ( number_literal , number_literal , number_literal , number_literal )))) ;) (expression_statement "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);" (call_expression "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" identifier (argument_list "(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" ( identifier , number_literal , identifier , number_literal , number_literal , identifier ))) ;) (expression_statement "iVar3 = DAT_000696d4;" (assignment_expression "iVar3 = DAT_000696d4" identifier = identifier) ;) (expression_statement "iVar2 = DAT_000696c8;" (assignment_expression "iVar2 = DAT_000696c8" identifier = identifier) ;) (if_statement "if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" if (parenthesized_expression "(iVar4 == 0x32 || iVar4 == 0x1d)" ( (binary_expression "iVar4 == 0x32 || iVar4 == 0x1d" (binary_expression "iVar4 == 0x32" identifier == number_literal) || (binary_expression "iVar4 == 0x1d" identifier == number_literal)) )) (compound_statement "{\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }" { (expression_statement "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) = (binary_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" * (cast_expression "(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" ( (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108" (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" identifier + (binary_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff)" ( (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) & number_literal) )) * number_literal)) + number_literal) )))) | (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) & number_literal))) ;) (expression_statement "*(undefined4 *)(iVar2 + 0x69648) = 1;" (assignment_expression "*(undefined4 *)(iVar2 + 0x69648) = 1" (pointer_expression "*(undefined4 *)(iVar2 + 0x69648)" * (cast_expression "(undefined4 *)(iVar2 + 0x69648)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69648)" ( (binary_expression "iVar2 + 0x69648" identifier + number_literal) )))) = number_literal) ;) (expression_statement "FUN_000548c8();" (call_expression "FUN_000548c8()" identifier (argument_list "()" ( ))) ;) (if_statement "if (iVar4 == 0x32) {\n FUN_00068d84();\n }" if (parenthesized_expression "(iVar4 == 0x32)" ( (binary_expression "iVar4 == 0x32" identifier == number_literal) )) (compound_statement "{\n FUN_00068d84();\n }" { (expression_statement "FUN_00068d84();" (call_expression "FUN_00068d84()" identifier (argument_list "()" ( ))) ;) })) }) (else_clause "else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" else (compound_statement "{\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" { (expression_statement "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) = (binary_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" * (cast_expression "(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" ( (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c" (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" identifier + (binary_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff)" ( (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) & number_literal) )) * number_literal)) + number_literal) )))) | (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) & number_literal))) ;) (expression_statement "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;" (assignment_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1" (pointer_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3)" * (cast_expression "(undefined4 *)((int)&DAT_000696c8 + iVar3)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_000696c8 + iVar3)" ( (binary_expression "(int)&DAT_000696c8 + iVar3" (cast_expression "(int)&DAT_000696c8" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_000696c8" & identifier)) + identifier) )))) = number_literal) ;) (expression_statement "FUN_0005479c();" (call_expression "FUN_0005479c()" identifier (argument_list "()" ( ))) ;) }))) (expression_statement "iVar2 = DAT_000696d0;" (assignment_expression "iVar2 = DAT_000696d0" identifier = identifier) ;) (expression_statement "piVar1 = (int *)(DAT_000696d0 + 0x69738);" (assignment_expression "piVar1 = (int *)(DAT_000696d0 + 0x69738)" identifier = (cast_expression "(int *)(DAT_000696d0 + 0x69738)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d0 + 0x69738)" ( (binary_expression "DAT_000696d0 + 0x69738" identifier + number_literal) )))) ;) (expression_statement "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;" (assignment_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1" (pointer_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c)" * (cast_expression "(undefined4 *)(DAT_000696d0 + 0x6968c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d0 + 0x6968c)" ( (binary_expression "DAT_000696d0 + 0x6968c" identifier + number_literal) )))) = number_literal) ;) (if_statement "if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" if (parenthesized_expression "(*piVar1 != 0)" ( (binary_expression "*piVar1 != 0" (pointer_expression "*piVar1" * identifier) != number_literal) )) (compound_statement "{\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" { (expression_statement "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;" (assignment_expression "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" * (cast_expression "(uint *)(iVar2 + 0x69654)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69654)" ( (binary_expression "iVar2 + 0x69654" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" * (cast_expression "(uint *)(iVar2 + 0x69654)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69654)" ( (binary_expression "iVar2 + 0x69654" identifier + number_literal) )))) | number_literal)) ;) (return_statement "return;" return ;) })) (expression_statement "FUN_0005a1ac();" (call_expression "FUN_0005a1ac()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid do_vfp_nsyn_nmul(void)\n\n{\n /* WARNING: Subroutine does not return */\n neon_select_shape(NS_HHH,0x1d,0,0x37);\n}\n\n" comment (function_definition "void do_vfp_nsyn_nmul(void)\n\n{\n /* WARNING: Subroutine does not return */\n neon_select_shape(NS_HHH,0x1d,0,0x37);\n}" primitive_type (function_declarator "do_vfp_nsyn_nmul(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Subroutine does not return */\n neon_select_shape(NS_HHH,0x1d,0,0x37);\n}" { comment (expression_statement "neon_select_shape(NS_HHH,0x1d,0,0x37);" (call_expression "neon_select_shape(NS_HHH,0x1d,0,0x37)" identifier (argument_list "(NS_HHH,0x1d,0,0x37)" ( identifier , number_literal , number_literal , number_literal ))) ;) })))
|
(translation_unit "void FUN_000695b0(void)\n\n{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}\n\n" (function_definition "void FUN_000695b0(void)\n\n{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" primitive_type (function_declarator "FUN_000695b0(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "undefined1 auStack_10 [8];" type_identifier (array_declarator "auStack_10 [8]" identifier [ number_literal ]) ;) (expression_statement "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);" (assignment_expression "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37)" identifier = (call_expression "FUN_0005835c(0x32,0x1d,0,0x37)" identifier (argument_list "(0x32,0x1d,0,0x37)" ( number_literal , number_literal , number_literal , number_literal )))) ;) (expression_statement "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);" (call_expression "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" identifier (argument_list "(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" ( identifier , number_literal , identifier , number_literal , number_literal , identifier ))) ;) (expression_statement "iVar3 = DAT_000696d4;" (assignment_expression "iVar3 = DAT_000696d4" identifier = identifier) ;) (expression_statement "iVar2 = DAT_000696c8;" (assignment_expression "iVar2 = DAT_000696c8" identifier = identifier) ;) (if_statement "if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" if (parenthesized_expression "(iVar4 == 0x32 || iVar4 == 0x1d)" ( (binary_expression "iVar4 == 0x32 || iVar4 == 0x1d" (binary_expression "iVar4 == 0x32" identifier == number_literal) || (binary_expression "iVar4 == 0x1d" identifier == number_literal)) )) (compound_statement "{\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }" { (expression_statement "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) = (binary_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" * (cast_expression "(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" ( (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108" (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" identifier + (binary_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff)" ( (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) & number_literal) )) * number_literal)) + number_literal) )))) | (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" * (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696c8 + 0x69610)" ( (binary_expression "DAT_000696c8 + 0x69610" identifier + number_literal) )))) & number_literal))) ;) (expression_statement "*(undefined4 *)(iVar2 + 0x69648) = 1;" (assignment_expression "*(undefined4 *)(iVar2 + 0x69648) = 1" (pointer_expression "*(undefined4 *)(iVar2 + 0x69648)" * (cast_expression "(undefined4 *)(iVar2 + 0x69648)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69648)" ( (binary_expression "iVar2 + 0x69648" identifier + number_literal) )))) = number_literal) ;) (expression_statement "FUN_000548c8();" (call_expression "FUN_000548c8()" identifier (argument_list "()" ( ))) ;) (if_statement "if (iVar4 == 0x32) {\n FUN_00068d84();\n }" if (parenthesized_expression "(iVar4 == 0x32)" ( (binary_expression "iVar4 == 0x32" identifier == number_literal) )) (compound_statement "{\n FUN_00068d84();\n }" { (expression_statement "FUN_00068d84();" (call_expression "FUN_00068d84()" identifier (argument_list "()" ( ))) ;) })) }) (else_clause "else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" else (compound_statement "{\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" { (expression_statement "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) = (binary_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" * (cast_expression "(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" ( (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c" (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" identifier + (binary_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff)" ( (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) & number_literal) )) * number_literal)) + number_literal) )))) | (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" * (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d4 + 0x69690)" ( (binary_expression "DAT_000696d4 + 0x69690" identifier + number_literal) )))) & number_literal))) ;) (expression_statement "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;" (assignment_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1" (pointer_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3)" * (cast_expression "(undefined4 *)((int)&DAT_000696c8 + iVar3)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_000696c8 + iVar3)" ( (binary_expression "(int)&DAT_000696c8 + iVar3" (cast_expression "(int)&DAT_000696c8" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_000696c8" & identifier)) + identifier) )))) = number_literal) ;) (expression_statement "FUN_0005479c();" (call_expression "FUN_0005479c()" identifier (argument_list "()" ( ))) ;) }))) (expression_statement "iVar2 = DAT_000696d0;" (assignment_expression "iVar2 = DAT_000696d0" identifier = identifier) ;) (expression_statement "piVar1 = (int *)(DAT_000696d0 + 0x69738);" (assignment_expression "piVar1 = (int *)(DAT_000696d0 + 0x69738)" identifier = (cast_expression "(int *)(DAT_000696d0 + 0x69738)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d0 + 0x69738)" ( (binary_expression "DAT_000696d0 + 0x69738" identifier + number_literal) )))) ;) (expression_statement "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;" (assignment_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1" (pointer_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c)" * (cast_expression "(undefined4 *)(DAT_000696d0 + 0x6968c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000696d0 + 0x6968c)" ( (binary_expression "DAT_000696d0 + 0x6968c" identifier + number_literal) )))) = number_literal) ;) (if_statement "if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" if (parenthesized_expression "(*piVar1 != 0)" ( (binary_expression "*piVar1 != 0" (pointer_expression "*piVar1" * identifier) != number_literal) )) (compound_statement "{\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" { (expression_statement "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;" (assignment_expression "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" * (cast_expression "(uint *)(iVar2 + 0x69654)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69654)" ( (binary_expression "iVar2 + 0x69654" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" * (cast_expression "(uint *)(iVar2 + 0x69654)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x69654)" ( (binary_expression "iVar2 + 0x69654" identifier + number_literal) )))) | number_literal)) ;) (return_statement "return;" return ;) })) (expression_statement "FUN_0005a1ac();" (call_expression "FUN_0005a1ac()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , LIT , LIT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , IDENT , LIT , LIT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) || (binary_expression IDENT == LIT)) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) * LIT)) + LIT) )))) | (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) }) (else_clause else (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) * LIT)) + LIT) )))) | (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) (pointer_expression & IDENT)) + IDENT) )))) = LIT) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) }))) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) | LIT)) ;) (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000695b0(void)\n\n{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" (primitive_type "void") (function_declarator "FUN_000695b0(void)" (identifier "FUN_000695b0") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined1 auStack_10 [8];\n \n iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);\n FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);\n iVar3 = DAT_000696d4;\n iVar2 = DAT_000696c8;\n if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }\n iVar2 = DAT_000696d0;\n piVar1 = (int *)(DAT_000696d0 + 0x69738);\n *(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;\n if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }\n FUN_0005a1ac();\n return;\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "undefined1 auStack_10 [8];" (type_identifier "undefined1") (array_declarator "auStack_10 [8]" (identifier "auStack_10") ([ "[") (number_literal "8") (] "]")) (; ";")) (expression_statement "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);" (assignment_expression "iVar4 = FUN_0005835c(0x32,0x1d,0,0x37)" (identifier "iVar4") (= "=") (call_expression "FUN_0005835c(0x32,0x1d,0,0x37)" (identifier "FUN_0005835c") (argument_list "(0x32,0x1d,0,0x37)" (( "(") (number_literal "0x32") (, ",") (number_literal "0x1d") (, ",") (number_literal "0") (, ",") (number_literal "0x37") () ")")))) (; ";")) (expression_statement "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);" (call_expression "FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" (identifier "FUN_0005b940") (argument_list "(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4)" (( "(") (identifier "auStack_10") (, ",") (number_literal "3") (, ",") (identifier "iVar4") (, ",") (number_literal "0x6000000") (, ",") (number_literal "0x6000000") (, ",") (identifier "DAT_000696c4") () ")"))) (; ";")) (expression_statement "iVar3 = DAT_000696d4;" (assignment_expression "iVar3 = DAT_000696d4" (identifier "iVar3") (= "=") (identifier "DAT_000696d4")) (; ";")) (expression_statement "iVar2 = DAT_000696c8;" (assignment_expression "iVar2 = DAT_000696c8" (identifier "iVar2") (= "=") (identifier "DAT_000696c8")) (; ";")) (if_statement "if (iVar4 == 0x32 || iVar4 == 0x1d) {\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }\n else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" (if "if") (parenthesized_expression "(iVar4 == 0x32 || iVar4 == 0x1d)" (( "(") (binary_expression "iVar4 == 0x32 || iVar4 == 0x1d" (binary_expression "iVar4 == 0x32" (identifier "iVar4") (== "==") (number_literal "0x32")) (|| "||") (binary_expression "iVar4 == 0x1d" (identifier "iVar4") (== "==") (number_literal "0x1d"))) () ")")) (compound_statement "{\n *(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;\n *(undefined4 *)(iVar2 + 0x69648) = 1;\n FUN_000548c8();\n if (iVar4 == 0x32) {\n FUN_00068d84();\n }\n }" ({ "{") (expression_statement "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696c8 + 0x69610) =\n *(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" (* "*") (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696c8 + 0x69610)" (( "(") (binary_expression "DAT_000696c8 + 0x69610" (identifier "DAT_000696c8") (+ "+") (number_literal "0x69610")) () ")")))) (= "=") (binary_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |\n *(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" (* "*") (cast_expression "(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108)" (( "(") (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108" (binary_expression "DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" (identifier "DAT_000696cc") (+ "+") (binary_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff)" (( "(") (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" (* "*") (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696c8 + 0x69610)" (( "(") (binary_expression "DAT_000696c8 + 0x69610" (identifier "DAT_000696c8") (+ "+") (number_literal "0x69610")) () ")")))) (& "&") (number_literal "0xfffffff")) () ")")) (* "*") (number_literal "0xc"))) (+ "+") (number_literal "0x6a108")) () ")")))) (| "|") (binary_expression "*(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696c8 + 0x69610)" (* "*") (cast_expression "(uint *)(DAT_000696c8 + 0x69610)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696c8 + 0x69610)" (( "(") (binary_expression "DAT_000696c8 + 0x69610" (identifier "DAT_000696c8") (+ "+") (number_literal "0x69610")) () ")")))) (& "&") (number_literal "0xf0000000")))) (; ";")) (expression_statement "*(undefined4 *)(iVar2 + 0x69648) = 1;" (assignment_expression "*(undefined4 *)(iVar2 + 0x69648) = 1" (pointer_expression "*(undefined4 *)(iVar2 + 0x69648)" (* "*") (cast_expression "(undefined4 *)(iVar2 + 0x69648)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x69648)" (( "(") (binary_expression "iVar2 + 0x69648" (identifier "iVar2") (+ "+") (number_literal "0x69648")) () ")")))) (= "=") (number_literal "1")) (; ";")) (expression_statement "FUN_000548c8();" (call_expression "FUN_000548c8()" (identifier "FUN_000548c8") (argument_list "()" (( "(") () ")"))) (; ";")) (if_statement "if (iVar4 == 0x32) {\n FUN_00068d84();\n }" (if "if") (parenthesized_expression "(iVar4 == 0x32)" (( "(") (binary_expression "iVar4 == 0x32" (identifier "iVar4") (== "==") (number_literal "0x32")) () ")")) (compound_statement "{\n FUN_00068d84();\n }" ({ "{") (expression_statement "FUN_00068d84();" (call_expression "FUN_00068d84()" (identifier "FUN_00068d84") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (} "}")) (else_clause "else {\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" (else "else") (compound_statement "{\n *(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;\n *(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;\n FUN_0005479c();\n }" ({ "{") (expression_statement "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;" (assignment_expression "*(uint *)(DAT_000696d4 + 0x69690) =\n *(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" (* "*") (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d4 + 0x69690)" (( "(") (binary_expression "DAT_000696d4 + 0x69690" (identifier "DAT_000696d4") (+ "+") (number_literal "0x69690")) () ")")))) (= "=") (binary_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |\n *(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" (* "*") (cast_expression "(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c)" (( "(") (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c" (binary_expression "DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" (identifier "DAT_000696d8") (+ "+") (binary_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc" (parenthesized_expression "(*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff)" (( "(") (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" (* "*") (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d4 + 0x69690)" (( "(") (binary_expression "DAT_000696d4 + 0x69690" (identifier "DAT_000696d4") (+ "+") (number_literal "0x69690")) () ")")))) (& "&") (number_literal "0xfffffff")) () ")")) (* "*") (number_literal "0xc"))) (+ "+") (number_literal "0x6a18c")) () ")")))) (| "|") (binary_expression "*(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000" (pointer_expression "*(uint *)(DAT_000696d4 + 0x69690)" (* "*") (cast_expression "(uint *)(DAT_000696d4 + 0x69690)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d4 + 0x69690)" (( "(") (binary_expression "DAT_000696d4 + 0x69690" (identifier "DAT_000696d4") (+ "+") (number_literal "0x69690")) () ")")))) (& "&") (number_literal "0xf0000000")))) (; ";")) (expression_statement "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;" (assignment_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1" (pointer_expression "*(undefined4 *)((int)&DAT_000696c8 + iVar3)" (* "*") (cast_expression "(undefined4 *)((int)&DAT_000696c8 + iVar3)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)&DAT_000696c8 + iVar3)" (( "(") (binary_expression "(int)&DAT_000696c8 + iVar3" (cast_expression "(int)&DAT_000696c8" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (pointer_expression "&DAT_000696c8" (& "&") (identifier "DAT_000696c8"))) (+ "+") (identifier "iVar3")) () ")")))) (= "=") (number_literal "1")) (; ";")) (expression_statement "FUN_0005479c();" (call_expression "FUN_0005479c()" (identifier "FUN_0005479c") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))) (expression_statement "iVar2 = DAT_000696d0;" (assignment_expression "iVar2 = DAT_000696d0" (identifier "iVar2") (= "=") (identifier "DAT_000696d0")) (; ";")) (expression_statement "piVar1 = (int *)(DAT_000696d0 + 0x69738);" (assignment_expression "piVar1 = (int *)(DAT_000696d0 + 0x69738)" (identifier "piVar1") (= "=") (cast_expression "(int *)(DAT_000696d0 + 0x69738)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d0 + 0x69738)" (( "(") (binary_expression "DAT_000696d0 + 0x69738" (identifier "DAT_000696d0") (+ "+") (number_literal "0x69738")) () ")")))) (; ";")) (expression_statement "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;" (assignment_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1" (pointer_expression "*(undefined4 *)(DAT_000696d0 + 0x6968c)" (* "*") (cast_expression "(undefined4 *)(DAT_000696d0 + 0x6968c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000696d0 + 0x6968c)" (( "(") (binary_expression "DAT_000696d0 + 0x6968c" (identifier "DAT_000696d0") (+ "+") (number_literal "0x6968c")) () ")")))) (= "=") (number_literal "1")) (; ";")) (if_statement "if (*piVar1 != 0) {\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" (if "if") (parenthesized_expression "(*piVar1 != 0)" (( "(") (binary_expression "*piVar1 != 0" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n *(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;\n return;\n }" ({ "{") (expression_statement "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;" (assignment_expression "*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" (* "*") (cast_expression "(uint *)(iVar2 + 0x69654)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x69654)" (( "(") (binary_expression "iVar2 + 0x69654" (identifier "iVar2") (+ "+") (number_literal "0x69654")) () ")")))) (= "=") (binary_expression "*(uint *)(iVar2 + 0x69654) | 0xe0000000" (pointer_expression "*(uint *)(iVar2 + 0x69654)" (* "*") (cast_expression "(uint *)(iVar2 + 0x69654)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x69654)" (( "(") (binary_expression "iVar2 + 0x69654" (identifier "iVar2") (+ "+") (number_literal "0x69654")) () ")")))) (| "|") (number_literal "0xe0000000"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "FUN_0005a1ac();" (call_expression "FUN_0005a1ac()" (identifier "FUN_0005a1ac") (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(void)
{
/* WARNING: Subroutine does not return */
var_1(NS_HHH,0x1d,0,0x37);
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (number_literal) (number_literal) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (identifier) (number_literal) (number_literal) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list)))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (pointer_expression argument: (identifier))) right: (identifier))))) right: (number_literal))) (expression_statement (call_expression function: (identifier) arguments: (argument_list)))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (return_statement))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
int *piVar1;
int iVar2;
int iVar3;
int iVar4;
undefined1 auStack_10 [8];
iVar4 = FUN_0005835c(0x32,0x1d,0,0x37);
FUN_0005b940(auStack_10,3,iVar4,0x6000000,0x6000000,DAT_000696c4);
iVar3 = DAT_000696d4;
iVar2 = DAT_000696c8;
if (iVar4 == 0x32 || iVar4 == 0x1d) {
*(uint *)(DAT_000696c8 + 0x69610) =
*(uint *)(DAT_000696cc + (*(uint *)(DAT_000696c8 + 0x69610) & 0xfffffff) * 0xc + 0x6a108) |
*(uint *)(DAT_000696c8 + 0x69610) & 0xf0000000;
*(undefined4 *)(iVar2 + 0x69648) = 1;
FUN_000548c8();
if (iVar4 == 0x32) {
FUN_00068d84();
}
}
else {
*(uint *)(DAT_000696d4 + 0x69690) =
*(uint *)(DAT_000696d8 + (*(uint *)(DAT_000696d4 + 0x69690) & 0xfffffff) * 0xc + 0x6a18c) |
*(uint *)(DAT_000696d4 + 0x69690) & 0xf0000000;
*(undefined4 *)((int)&DAT_000696c8 + iVar3) = 1;
FUN_0005479c();
}
iVar2 = DAT_000696d0;
piVar1 = (int *)(DAT_000696d0 + 0x69738);
*(undefined4 *)(DAT_000696d0 + 0x6968c) = 1;
if (*piVar1 != 0) {
*(uint *)(iVar2 + 0x69654) = *(uint *)(iVar2 + 0x69654) | 0xe0000000;
return;
}
FUN_0005a1ac();
return;
}
| 77,189 |
||
1561_putty_and_putty_strip.c
|
printer_job_data
|
FUN_0009b668
|
void printer_job_data(printer_job *pj,void *data,int len)
{
if (pj == (printer_job *)0x0) {
return;
}
fwrite(data,1,len,(FILE *)pj->fp);
return;
}
|
void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)
{
if (param_1 == (undefined4 *)0x0) {
return;
}
fwrite(param_2,1,param_3,(FILE *)*param_1);
return;
}
|
cmp r0,#0x0
bxeq lr
ldr r3,[r0,#0x0]
cpy r0,r1
mov r1,#0x1
b 0x0001ac60
| null | null | null | null |
[('const-0', u'INT_EQUAL_-1206471042'), ('const-417', u'LOAD_-1206471030'), (u'INT_EQUAL_-1206471042', u'CBRANCH_-1206471038'), ('tmp_109', u'CALL_-1206470999'), ('tmp_108', u'CALL_-1206470999'), ('tmp_107', u'PTRSUB_-1206470928'), (u'LOAD_-1206471030', u'CAST_-1206470929'), ('const-0', u'RETURN_-1206471028'), ('tmp_46', u'CBRANCH_-1206471038'), (u'CAST_-1206470929', u'CALL_-1206470999'), ('const-0', u'PTRSUB_-1206470928'), ('const-1', u'CALL_-1206470999'), ('const-0', u'RETURN_-1206470995'), (u'PTRSUB_-1206470928', u'LOAD_-1206471030'), ('tmp_107', u'INT_EQUAL_-1206471042')]
|
[('const-417', u'LOAD_-1206471030'), (u'LOAD_-1206471030', u'CAST_-1206470930'), ('const-1', u'CALL_-1206470999'), (u'INT_EQUAL_-1206471042', u'CBRANCH_-1206471038'), ('tmp_173', u'LOAD_-1206471030'), ('const-0', u'INT_EQUAL_-1206471042'), ('const-0', u'RETURN_-1206471028'), ('tmp_46', u'CBRANCH_-1206471038'), ('tmp_173', u'INT_EQUAL_-1206471042'), ('tmp_174', u'CALL_-1206470999'), ('tmp_176', u'CALL_-1206470999'), ('const-0', u'RETURN_-1206470995'), (u'CAST_-1206470930', u'CALL_-1206470999')]
| null | null |
0009b668
|
arm
|
O2
|
(translation_unit "void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)\n\n{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}\n\n" (function_definition "void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)\n\n{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" primitive_type (function_declarator "FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)" identifier (parameter_list "(undefined4 *param_1,void *param_2,size_t param_3)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "void *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "size_t param_3" primitive_type identifier) ))) (compound_statement "{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" { (if_statement "if (param_1 == (undefined4 *)0x0) {\n return;\n }" if (parenthesized_expression "(param_1 == (undefined4 *)0x0)" ( (binary_expression "param_1 == (undefined4 *)0x0" identifier == (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "fwrite(param_2,1,param_3,(FILE *)*param_1);" (call_expression "fwrite(param_2,1,param_3,(FILE *)*param_1)" identifier (argument_list "(param_2,1,param_3,(FILE *)*param_1)" ( identifier , number_literal , identifier , (cast_expression "(FILE *)*param_1" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "*param_1" * identifier)) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void printer_job_data(printer_job *pj,void *data,int len)\n\n{\n if (pj == (printer_job *)0x0) {\n return;\n }\n fwrite(data,1,len,(FILE *)pj->fp);\n return;\n}\n\n" (function_definition "void printer_job_data(printer_job *pj,void *data,int len)\n\n{\n if (pj == (printer_job *)0x0) {\n return;\n }\n fwrite(data,1,len,(FILE *)pj->fp);\n return;\n}" primitive_type (function_declarator "printer_job_data(printer_job *pj,void *data,int len)" identifier (parameter_list "(printer_job *pj,void *data,int len)" ( (parameter_declaration "printer_job *pj" type_identifier (pointer_declarator "*pj" * identifier)) , (parameter_declaration "void *data" primitive_type (pointer_declarator "*data" * identifier)) , (parameter_declaration "int len" primitive_type identifier) ))) (compound_statement "{\n if (pj == (printer_job *)0x0) {\n return;\n }\n fwrite(data,1,len,(FILE *)pj->fp);\n return;\n}" { (if_statement "if (pj == (printer_job *)0x0) {\n return;\n }" if (parenthesized_expression "(pj == (printer_job *)0x0)" ( (binary_expression "pj == (printer_job *)0x0" identifier == (cast_expression "(printer_job *)0x0" ( (type_descriptor "printer_job *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "fwrite(data,1,len,(FILE *)pj->fp);" (call_expression "fwrite(data,1,len,(FILE *)pj->fp)" identifier (argument_list "(data,1,len,(FILE *)pj->fp)" ( identifier , number_literal , identifier , (cast_expression "(FILE *)pj->fp" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (field_expression "pj->fp" identifier -> field_identifier)) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)\n\n{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}\n\n" (function_definition "void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)\n\n{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" primitive_type (function_declarator "FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)" identifier (parameter_list "(undefined4 *param_1,void *param_2,size_t param_3)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "void *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "size_t param_3" primitive_type identifier) ))) (compound_statement "{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" { (if_statement "if (param_1 == (undefined4 *)0x0) {\n return;\n }" if (parenthesized_expression "(param_1 == (undefined4 *)0x0)" ( (binary_expression "param_1 == (undefined4 *)0x0" identifier == (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "fwrite(param_2,1,param_3,(FILE *)*param_1);" (call_expression "fwrite(param_2,1,param_3,(FILE *)*param_1)" identifier (argument_list "(param_2,1,param_3,(FILE *)*param_1)" ( identifier , number_literal , identifier , (cast_expression "(FILE *)*param_1" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "*param_1" * identifier)) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , IDENT , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT)) ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)\n\n{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" (primitive_type "void") (function_declarator "FUN_0009b668(undefined4 *param_1,void *param_2,size_t param_3)" (identifier "FUN_0009b668") (parameter_list "(undefined4 *param_1,void *param_2,size_t param_3)" (( "(") (parameter_declaration "undefined4 *param_1" (type_identifier "undefined4") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "void *param_2" (primitive_type "void") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "size_t param_3" (primitive_type "size_t") (identifier "param_3")) () ")"))) (compound_statement "{\n if (param_1 == (undefined4 *)0x0) {\n return;\n }\n fwrite(param_2,1,param_3,(FILE *)*param_1);\n return;\n}" ({ "{") (if_statement "if (param_1 == (undefined4 *)0x0) {\n return;\n }" (if "if") (parenthesized_expression "(param_1 == (undefined4 *)0x0)" (( "(") (binary_expression "param_1 == (undefined4 *)0x0" (identifier "param_1") (== "==") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "fwrite(param_2,1,param_3,(FILE *)*param_1);" (call_expression "fwrite(param_2,1,param_3,(FILE *)*param_1)" (identifier "fwrite") (argument_list "(param_2,1,param_3,(FILE *)*param_1)" (( "(") (identifier "param_2") (, ",") (number_literal "1") (, ",") (identifier "param_3") (, ",") (cast_expression "(FILE *)*param_1" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*param_1" (* "*") (identifier "param_1"))) () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(type_1 *var_1,void *data,int len)
{
if (var_1 == (type_1 *)0x0) {
return;
}
var_2(data,1,len,(type_2 *)var_1->fp);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (identifier) (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier)))))) (return_statement))))
|
void MASKED(undefined4 *param_1,void *param_2,size_t param_3)
{
if (param_1 == (undefined4 *)0x0) {
return;
}
fwrite(param_2,1,param_3,(FILE *)*param_1);
return;
}
| 66,557 |
||
42_sha256sum_and_sha256sum_strip.c
|
fclose
|
fclose
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fclose(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_fclose_0002c0bc)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fclose(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_fclose_0002c0bc)();
return iVar1;
}
|
adr r12,0x11090
add r12,r12,#0x1b000
ldr pc,[r12,#0x2c]!
| null | null | null | null |
[(u'INDIRECT_-1205989135', u'COPY_-1205989194'), (u'CAST_-1205989130', u'CALLIND_-1205989205'), ('tmp_120', u'CAST_-1205989130'), (u'CALLIND_-1205989205', u'INDIRECT_-1205989135'), ('const-0', u'RETURN_-1205989202'), (u'CALLIND_-1205989205', u'RETURN_-1205989202')]
|
[(u'INDIRECT_-1205989135', u'COPY_-1205989194'), (u'CAST_-1205989130', u'CALLIND_-1205989205'), ('tmp_120', u'CAST_-1205989130'), (u'CALLIND_-1205989205', u'INDIRECT_-1205989135'), ('const-0', u'RETURN_-1205989202'), (u'CALLIND_-1205989205', u'RETURN_-1205989202')]
| null | null |
00011088
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0002c0bc)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0002c0bc)()" identifier = (call_expression "(*(code *)PTR_fclose_0002c0bc)()" (parenthesized_expression "(*(code *)PTR_fclose_0002c0bc)" ( (pointer_expression "*(code *)PTR_fclose_0002c0bc" * (cast_expression "(code *)PTR_fclose_0002c0bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0002c0bc)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0002c0bc)()" identifier = (call_expression "(*(code *)PTR_fclose_0002c0bc)()" (parenthesized_expression "(*(code *)PTR_fclose_0002c0bc)" ( (pointer_expression "*(code *)PTR_fclose_0002c0bc" * (cast_expression "(code *)PTR_fclose_0002c0bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0002c0bc)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0002c0bc)()" identifier = (call_expression "(*(code *)PTR_fclose_0002c0bc)()" (parenthesized_expression "(*(code *)PTR_fclose_0002c0bc)" ( (pointer_expression "*(code *)PTR_fclose_0002c0bc" * (cast_expression "(code *)PTR_fclose_0002c0bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "fclose(FILE *__stream)" (identifier "fclose") (parameter_list "(FILE *__stream)" (( "(") (parameter_declaration "FILE *__stream" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream"))) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0002c0bc)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_fclose_0002c0bc)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0002c0bc)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_fclose_0002c0bc)()" (parenthesized_expression "(*(code *)PTR_fclose_0002c0bc)" (( "(") (pointer_expression "*(code *)PTR_fclose_0002c0bc" (* "*") (cast_expression "(code *)PTR_fclose_0002c0bc" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_fclose_0002c0bc"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(type_1 *__stream)
{
int iVar1;
iVar1 = (*(type_2 *)PTR_fclose_0002c0bc)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_0002c0bc)();
return iVar1;
}
| 19,457 |
||
761_find_and_find_strip.c
|
fputc
|
fputc
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fputc(int __c,FILE *__stream)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* fputc@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fputc(int __c,FILE *__stream)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206296002')]
|
[('const-1', u'RETURN_-1206296002')]
| null | null |
00066234
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "fputc(int __c,FILE *__stream)" identifier (parameter_list "(int __c,FILE *__stream)" ( (parameter_declaration "int __c" primitive_type identifier) , (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* fputc@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "int fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* fputc@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "fputc(int __c,FILE *__stream)" identifier (parameter_list "(int __c,FILE *__stream)" ( (parameter_declaration "int __c" primitive_type identifier) , (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* fputc@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "fputc(int __c,FILE *__stream)" identifier (parameter_list "(int __c,FILE *__stream)" ( (parameter_declaration "int __c" primitive_type identifier) , (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int fputc(int __c,FILE *__stream)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "int") (function_declarator "fputc(int __c,FILE *__stream)" (identifier "fputc") (parameter_list "(int __c,FILE *__stream)" (( "(") (parameter_declaration "int __c" (primitive_type "int") (identifier "__c")) (, ",") (parameter_declaration "FILE *__stream" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream"))) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(int __c,type_1 *__stream)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* fputc@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(int __c,FILE *__stream)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 69,479 |
||
2125_putty_and_putty_strip.c
|
g_object_ref_sink
|
g_object_ref_sink
|
/* WARNING: Control flow encountered bad instruction data */
void g_object_ref_sink(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void g_object_ref_sink(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206827162')]
|
[('const-1', u'RETURN_-1206827162')]
| null | null |
000e475c
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "g_object_ref_sink(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "g_object_ref_sink(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "g_object_ref_sink(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void g_object_ref_sink(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "g_object_ref_sink(void)" (identifier "g_object_ref_sink") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 67,121 |
||
1719_busybox_and_busybox_strip.c
|
load_string
|
FUN_000c7f38
|
size_t load_string(char *src)
{
wchar_t *dest;
size_t sVar1;
wchar_t wVar2;
uint uVar3;
int iVar4;
wchar_t *pwVar5;
iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);
dest = *(wchar_t **)(iVar4 + 0x20);
if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {
sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);
uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);
*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;
return uVar3;
}
wVar2 = (wchar_t)(byte)*src;
if (wVar2 == L'\0') {
sVar1 = 0;
}
else if (*(int *)(iVar4 + 0x1c) == 1) {
sVar1 = 0;
}
else {
sVar1 = 0;
pwVar5 = dest;
do {
dest = pwVar5 + 1;
*pwVar5 = wVar2;
src = (char *)((byte *)src + 1);
wVar2 = (wchar_t)(byte)*src;
sVar1 = sVar1 + 1;
if (wVar2 == L'\0') break;
pwVar5 = dest;
} while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);
}
*dest = L'\0';
return sVar1;
}
|
uint FUN_000c7f38(byte *param_1)
{
uint *puVar1;
uint uVar2;
uint uVar3;
int iVar4;
uint *puVar5;
iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);
puVar1 = *(uint **)(iVar4 + 0x20);
if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {
uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);
uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);
*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;
return uVar2;
}
uVar2 = (uint)*param_1;
if (uVar2 == 0) {
uVar3 = 0;
}
else if (*(int *)(iVar4 + 0x1c) == 1) {
uVar3 = 0;
}
else {
uVar3 = 0;
puVar5 = puVar1;
do {
puVar1 = puVar5 + 1;
*puVar5 = uVar2;
param_1 = param_1 + 1;
uVar2 = (uint)*param_1;
uVar3 = uVar3 + 1;
if (uVar2 == 0) break;
puVar5 = puVar1;
} while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);
}
*puVar1 = 0;
return uVar3;
}
|
ldr r3,[0xc7ff4]
ldr r1,[0xc7ff8]
ldr r2,[0xc7ffc]
add r3,pc,r3
stmdb sp!,{r4,lr}
ldr r1,[r3,r1]
add r2,pc,r2
ldrb r2,[r2,#0x0]
ldr r4,[r1,#0x0]
cmp r2,#0x2
cpy r1,r0
ldr r0,[r4,#0x20]
bne 0x000c7f90
ldr r2,[r4,#0x1c]
sub r2,r2,#0x1
bl 0x000d052c
ldr r2,[r4,#0x20]
mov r1,#0x0
bic r3,r0,r0, asr #0x1f
str r1,[r2,r3,lsl #0x2]
cpy r0,r3
ldmia sp!,{r4,pc}
ldrb r2,[r1,#0x0]
cmp r2,#0x0
cpyeq r3,r2
bne 0x000c7fb0
mov r2,#0x0
str r2,[r0,#0x0]
cpy r0,r3
ldmia sp!,{r4,pc}
ldr r3,[r4,#0x1c]
cmp r3,#0x1
moveq r3,#0x0
beq 0x000c7fa0
cpy r12,r0
mov r3,#0x0
str r2,[r12],#0x4
ldrb r2,[r1,#0x1]!
add r3,r3,#0x1
cmp r2,#0x0
cpy r0,r12
beq 0x000c7fa0
ldr lr,[r4,#0x1c]
sub lr,lr,#0x1
cmp lr,r3
bhi 0x000c7fc8
b 0x000c7fa0
| null | null | null | null |
[(u'INDIRECT_-1206681258', u'COPY_-1206681312'), (u'LOAD_-1206681737', u'INT_ADD_-1206681690'), (u'CAST_-1206681206', u'LOAD_-1206681520'), (u'STORE_-1206681545', u'INDIRECT_-1206681242'), ('const-417', u'LOAD_-1206681520'), ('tmp_1215', u'INT_ADD_-1206681745'), (u'CAST_-1206681309', u'LOAD_-1206681744'), ('tmp_1215', u'MULTIEQUAL_-1206681253'), (u'STORE_-1206681545', u'INDIRECT_-1206681250'), (u'INT_ADD_-1206681612', u'CAST_-1206681252'), (u'LOAD_-1206681694', u'INT_SUB_-1206681662'), ('tmp_1216', u'MULTIEQUAL_-1206681204'), (u'INT_ADD_-1206681411', u'INT_LESS_-1206681341'), ('tmp_733', u'CALL_-1206681667'), ('const-417', u'LOAD_-1206681737'), ('const-31', u'INT_SRIGHT_-1206681612'), ('const-417', u'LOAD_-1206681761'), (u'LOAD_-1206681706', u'MULTIEQUAL_-1206681333'), ('tmp_480', u'CBRANCH_-1206681491'), (u'STORE_-1206681448', u'INDIRECT_-1206681213'), (u'INT_ADD_-1206681745', u'CAST_-1206681314'), (u'INDIRECT_-1206681205', u'MULTIEQUAL_-1206681245'), (u'INT_ADD_-1206681411', u'MULTIEQUAL_-1206681283'), (u'CAST_-1206681177', u'PTRADD_-1206681381'), (u'CAST_-1206681175', u'INT_ZEXT_-1206681427'), ('const-1', u'PTRADD_-1206681192'), (u'LOAD_-1206681706', u'CALL_-1206681667'), ('const-0', u'INT_EQUAL_-1206681576'), (u'MULTIEQUAL_-1206681283', u'INT_ADD_-1206681411'), (u'INT_ZEXT_-1206681427', u'MULTIEQUAL_-1206681286'), (u'INDIRECT_-1206681213', u'MULTIEQUAL_-1206681212'), ('const-0', u'STORE_-1206681545'), ('const-417', u'LOAD_-1206681602'), ('const-32', u'INT_ADD_-1206681650'), ('const-32', u'INT_ADD_-1206681690'), (u'CALL_-1206681667', u'INDIRECT_-1206681310'), (u'INDIRECT_-1206681283', u'COPY_-1206681337'), (u'INT_AND_-1206681614', u'INT_MULT_-1206681600'), (u'INT_ZEXT_-1206681427', u'INT_EQUAL_-1206681401'), (u'INT_MULT_-1206681600', u'INT_ADD_-1206681612'), (u'INT_AND_-1206681614', u'COPY_-1206681624'), (u'PTRADD_-1206681381', u'CAST_-1206681176'), (u'COPY_-1206681487', u'MULTIEQUAL_-1206681324'), (u'LOAD_-1206681737', u'INT_ADD_-1206681374'), (u'MULTIEQUAL_-1206681324', u'COPY_-1206681542'), (u'PTRADD_-1206681192', u'COPY_-1206681218'), ('const-417', u'STORE_-1206681545'), (u'COPY_-1206681259', u'MULTIEQUAL_-1206681278'), (u'STORE_-1206681448', u'INDIRECT_-1206681205'), (u'CAST_-1206681279', u'LOAD_-1206681694'), ('tmp_724', u'CBRANCH_-1206681350'), (u'STORE_-1206681545', u'INDIRECT_-1206681258'), (u'LOAD_-1206681520', u'INT_EQUAL_-1206681495'), (u'LOAD_-1206681666', u'INT_ADD_-1206681612'), ('const-1', u'INT_EQUAL_-1206681495'), (u'LOAD_-1206681737', u'INT_ADD_-1206681650'), (u'CALL_-1206681667', u'CAST_-1206681257'), (u'INT_EQUAL_-1206681495', u'CBRANCH_-1206681491'), (u'INDIRECT_-1206681221', u'MULTIEQUAL_-1206681220'), (u'LOAD_-1206681761', u'LOAD_-1206681737'), (u'INDIRECT_-1206681275', u'COPY_-1206681329'), (u'CAST_-1206681257', u'INT_SRIGHT_-1206681612'), (u'MULTIEQUAL_-1206681333', u'STORE_-1206681545'), ('const-0', u'STORE_-1206681627'), ('const-819032', u'INT_ADD_-1206681735'), (u'COPY_-1206681218', u'MULTIEQUAL_-1206681278'), ('const-1', u'INT_SUB_-1206681358'), (u'INT_ADD_-1206681411', u'MULTIEQUAL_-1206681324'), (u'INDIRECT_-1206681205', u'MULTIEQUAL_-1206681204'), ('const-1', u'INT_ADD_-1206681411'), ('const-28', u'INT_ADD_-1206681374'), (u'LOAD_-1206681744', u'INT_EQUAL_-1206681712'), (u'LOAD_-1206681706', u'COPY_-1206681259'), ('tmp_650', u'CBRANCH_-1206681393'), ('tmp_733', u'LOAD_-1206681602'), ('tmp_1216', u'INT_ADD_-1206681735'), (u'LOAD_-1206681737', u'INT_ADD_-1206681504'), ('const-0', u'COPY_-1206681487'), (u'LOAD_-1206681390', u'INT_SUB_-1206681358'), ('const-0', u'COPY_-1206681461'), ('tmp_1214', u'MULTIEQUAL_-1206681261'), (u'STORE_-1206681448', u'INDIRECT_-1206681221'), (u'CALL_-1206681667', u'INT_AND_-1206681614'), (u'STORE_-1206681627', u'INDIRECT_-1206681275'), (u'INT_ZEXT_-1206681586', u'MULTIEQUAL_-1206681286'), ('const-0', u'RETURN_-1206681600'), (u'INDIRECT_-1206681221', u'MULTIEQUAL_-1206681261'), (u'INT_SUB_-1206681662', u'CALL_-1206681667'), ('tmp_1215', u'MULTIEQUAL_-1206681212'), ('tmp_1216', u'MULTIEQUAL_-1206681245'), (u'STORE_-1206681627', u'INDIRECT_-1206681291'), (u'INT_EQUAL_-1206681401', u'CBRANCH_-1206681393'), (u'STORE_-1206681627', u'INDIRECT_-1206681283'), (u'CAST_-1206681252', u'STORE_-1206681627'), (u'INT_LESS_-1206681341', u'CBRANCH_-1206681350'), ('const-417', u'STORE_-1206681627'), ('const-4', u'PTRADD_-1206681192'), ('const-417', u'LOAD_-1206681706'), ('tmp_351', u'CBRANCH_-1206681572'), ('const-28', u'INT_ADD_-1206681504'), (u'INT_SRIGHT_-1206681612', u'INT_NEGATE_-1206681617'), (u'CAST_-1206681176', u'LOAD_-1206681443'), (u'INT_ZEXT_-1206681586', u'INT_EQUAL_-1206681576'), (u'CAST_-1206681314', u'LOAD_-1206681761'), (u'INDIRECT_-1206681291', u'COPY_-1206681345'), (u'CAST_-1206681176', u'MULTIEQUAL_-1206681289'), ('const-4', u'INT_MULT_-1206681600'), (u'COPY_-1206681297', u'MULTIEQUAL_-1206681324'), (u'INT_ADD_-1206681678', u'CAST_-1206681279'), ('const-417', u'LOAD_-1206681666'), (u'COPY_-1206681542', u'RETURN_-1206681518'), (u'INT_EQUAL_-1206681576', u'CBRANCH_-1206681572'), ('const-0', u'COPY_-1206681297'), ('tmp_1214', u'MULTIEQUAL_-1206681220'), ('const-0', u'INT_EQUAL_-1206681401'), (u'INT_ADD_-1206681374', u'CAST_-1206681154'), ('const-0', u'RETURN_-1206681518'), (u'INT_NEGATE_-1206681617', u'INT_AND_-1206681614'), (u'INT_EQUAL_-1206681712', u'CBRANCH_-1206681697'), (u'LOAD_-1206681737', u'INT_ADD_-1206681678'), (u'INDIRECT_-1206681242', u'COPY_-1206681296'), (u'LOAD_-1206681443', u'CAST_-1206681175'), (u'MULTIEQUAL_-1206681278', u'STORE_-1206681448'), (u'CALL_-1206681667', u'INDIRECT_-1206681302'), (u'MULTIEQUAL_-1206681286', u'STORE_-1206681448'), (u'MULTIEQUAL_-1206681278', u'PTRADD_-1206681192'), (u'INT_SUB_-1206681358', u'INT_LESS_-1206681341'), (u'MULTIEQUAL_-1206681289', u'CAST_-1206681177'), ('const-417', u'LOAD_-1206681390'), (u'LOAD_-1206681602', u'CAST_-1206681239'), (u'INT_ADD_-1206681650', u'CAST_-1206681266'), ('const-819020', u'INT_ADD_-1206681762'), (u'INDIRECT_-1206681213', u'MULTIEQUAL_-1206681253'), ('const-1', u'INT_SUB_-1206681662'), (u'CAST_-1206681288', u'LOAD_-1206681706'), (u'INT_ADD_-1206681762', u'INT_ADD_-1206681745'), (u'COPY_-1206681624', u'RETURN_-1206681600'), (u'PTRADD_-1206681192', u'MULTIEQUAL_-1206681333'), ('tmp_1214', u'INT_ADD_-1206681762'), (u'COPY_-1206681461', u'MULTIEQUAL_-1206681283'), (u'CAST_-1206681266', u'LOAD_-1206681666'), (u'CAST_-1206681239', u'INT_ZEXT_-1206681586'), ('tmp_733', u'MULTIEQUAL_-1206681289'), ('const-1', u'PTRADD_-1206681381'), ('const-1', u'PTRADD_-1206681381'), ('const-417', u'LOAD_-1206681744'), (u'CALL_-1206681667', u'INDIRECT_-1206681294'), ('const-417', u'STORE_-1206681448'), ('const-417', u'LOAD_-1206681694'), (u'INDIRECT_-1206681250', u'COPY_-1206681304'), ('const-417', u'LOAD_-1206681443'), (u'CAST_-1206681154', u'LOAD_-1206681390'), ('tmp_141', u'CBRANCH_-1206681697'), (u'INT_ADD_-1206681690', u'CAST_-1206681288'), (u'INT_ADD_-1206681504', u'CAST_-1206681206'), (u'INT_ADD_-1206681735', u'CAST_-1206681309'), ('const-28', u'INT_ADD_-1206681678'), ('const-2', u'INT_EQUAL_-1206681712')]
|
[(u'INT_ADD_-1206681678', u'CAST_-1206681278'), ('const-0', u'INT_EQUAL_-1206681576'), (u'LOAD_-1206681737', u'INT_ADD_-1206681690'), ('const-417', u'LOAD_-1206681390'), ('const-417', u'STORE_-1206681448'), (u'INT_ADD_-1206681411', u'MULTIEQUAL_-1206681323'), (u'CAST_-1206681206', u'LOAD_-1206681520'), ('const-417', u'LOAD_-1206681666'), (u'CAST_-1206681251', u'STORE_-1206681627'), ('tmp_1220', u'INT_ADD_-1206681762'), (u'PTRADD_-1206681381', u'MULTIEQUAL_-1206681288'), ('const-1', u'PTRADD_-1206681191'), (u'CAST_-1206681265', u'LOAD_-1206681666'), (u'INT_ADD_-1206681663', u'CALL_-1206681667'), (u'INDIRECT_-1206681249', u'COPY_-1206681303'), (u'INT_ADD_-1206681411', u'INT_LESS_-1206681341'), ('const-819032', u'INT_ADD_-1206681735'), ('const-31', u'INT_SRIGHT_-1206681612'), (u'COPY_-1206681296', u'MULTIEQUAL_-1206681323'), ('const-417', u'LOAD_-1206681694'), ('tmp_480', u'CBRANCH_-1206681491'), (u'INT_ADD_-1206681690', u'CAST_-1206681287'), ('const-417', u'LOAD_-1206681443'), ('tmp_1221', u'MULTIEQUAL_-1206681252'), (u'CALL_-1206681667', u'INDIRECT_-1206681309'), (u'LOAD_-1206681706', u'CALL_-1206681667'), (u'STORE_-1206681545', u'INDIRECT_-1206681249'), (u'COPY_-1206681258', u'MULTIEQUAL_-1206681277'), (u'CALL_-1206681667', u'INDIRECT_-1206681301'), ('tmp_1220', u'MULTIEQUAL_-1206681260'), ('const-32', u'INT_ADD_-1206681690'), ('const-32', u'INT_ADD_-1206681650'), (u'INT_AND_-1206681614', u'INT_MULT_-1206681600'), (u'INT_ZEXT_-1206681427', u'INT_EQUAL_-1206681401'), (u'INT_MULT_-1206681600', u'INT_ADD_-1206681612'), (u'INT_AND_-1206681614', u'COPY_-1206681624'), (u'INT_ADD_-1206681612', u'CAST_-1206681251'), ('const-417', u'LOAD_-1206681706'), (u'LOAD_-1206681737', u'INT_ADD_-1206681374'), ('tmp_1222', u'MULTIEQUAL_-1206681203'), (u'LOAD_-1206681443', u'INT_ZEXT_-1206681427'), (u'CAST_-1206681313', u'LOAD_-1206681761'), ('const-4294967295', u'INT_ADD_-1206681663'), ('tmp_724', u'CBRANCH_-1206681350'), (u'PTRADD_-1206681191', u'MULTIEQUAL_-1206681332'), (u'LOAD_-1206681520', u'INT_EQUAL_-1206681495'), (u'MULTIEQUAL_-1206681277', u'STORE_-1206681448'), (u'CAST_-1206681157', u'LOAD_-1206681390'), (u'LOAD_-1206681666', u'INT_ADD_-1206681612'), ('tmp_1221', u'MULTIEQUAL_-1206681211'), ('const-1', u'PTRADD_-1206681381'), (u'LOAD_-1206681737', u'INT_ADD_-1206681650'), (u'INDIRECT_-1206681282', u'COPY_-1206681336'), (u'STORE_-1206681627', u'INDIRECT_-1206681290'), (u'INT_EQUAL_-1206681495', u'CBRANCH_-1206681491'), (u'LOAD_-1206681761', u'LOAD_-1206681737'), ('tmp_1222', u'MULTIEQUAL_-1206681244'), (u'INT_ADD_-1206681650', u'CAST_-1206681265'), (u'CAST_-1206681256', u'INT_SRIGHT_-1206681612'), ('const-417', u'STORE_-1206681545'), (u'INT_ADD_-1206681735', u'CAST_-1206681308'), (u'COPY_-1206681487', u'MULTIEQUAL_-1206681323'), ('const-1', u'INT_ADD_-1206681411'), ('const-28', u'INT_ADD_-1206681374'), (u'CALL_-1206681667', u'INDIRECT_-1206681293'), (u'LOAD_-1206681744', u'INT_EQUAL_-1206681712'), (u'INDIRECT_-1206681290', u'COPY_-1206681344'), ('const-1', u'INT_SUB_-1206681358'), ('const-0', u'COPY_-1206681296'), ('tmp_650', u'CBRANCH_-1206681393'), ('tmp_1076', u'MULTIEQUAL_-1206681288'), ('tmp_1222', u'INT_ADD_-1206681735'), ('tmp_1076', u'CALL_-1206681667'), (u'LOAD_-1206681737', u'INT_ADD_-1206681504'), ('const-0', u'COPY_-1206681487'), (u'INDIRECT_-1206681212', u'MULTIEQUAL_-1206681211'), (u'LOAD_-1206681390', u'INT_SUB_-1206681358'), ('const-417', u'LOAD_-1206681761'), ('const-0', u'COPY_-1206681461'), (u'INT_ADD_-1206681745', u'CAST_-1206681313'), ('const-4', u'PTRADD_-1206681191'), (u'CALL_-1206681667', u'INT_AND_-1206681614'), (u'LOAD_-1206681706', u'COPY_-1206681258'), (u'MULTIEQUAL_-1206681282', u'INT_ADD_-1206681411'), ('const-0', u'RETURN_-1206681600'), ('tmp_1076', u'LOAD_-1206681602'), (u'STORE_-1206681545', u'INDIRECT_-1206681257'), (u'INT_EQUAL_-1206681401', u'CBRANCH_-1206681393'), (u'INDIRECT_-1206681204', u'MULTIEQUAL_-1206681244'), ('const-2', u'INT_EQUAL_-1206681712'), (u'CAST_-1206681278', u'LOAD_-1206681694'), (u'INT_LESS_-1206681341', u'CBRANCH_-1206681350'), ('const-819020', u'INT_ADD_-1206681762'), (u'STORE_-1206681627', u'INDIRECT_-1206681274'), ('tmp_351', u'CBRANCH_-1206681572'), (u'STORE_-1206681627', u'INDIRECT_-1206681282'), ('const-28', u'INT_ADD_-1206681504'), (u'STORE_-1206681448', u'INDIRECT_-1206681212'), (u'INT_SRIGHT_-1206681612', u'INT_NEGATE_-1206681617'), (u'INT_ZEXT_-1206681586', u'INT_EQUAL_-1206681576'), (u'COPY_-1206681217', u'MULTIEQUAL_-1206681277'), ('const-417', u'STORE_-1206681627'), (u'COPY_-1206681542', u'RETURN_-1206681518'), ('const-417', u'LOAD_-1206681520'), (u'INT_EQUAL_-1206681576', u'CBRANCH_-1206681572'), (u'PTRADD_-1206681191', u'COPY_-1206681217'), (u'PTRADD_-1206681381', u'LOAD_-1206681443'), (u'CALL_-1206681667', u'CAST_-1206681256'), ('const-0', u'RETURN_-1206681518'), (u'MULTIEQUAL_-1206681277', u'PTRADD_-1206681191'), (u'INT_ADD_-1206681374', u'CAST_-1206681157'), (u'INT_NEGATE_-1206681617', u'INT_AND_-1206681614'), (u'MULTIEQUAL_-1206681285', u'STORE_-1206681448'), ('tmp_1220', u'MULTIEQUAL_-1206681219'), (u'INT_EQUAL_-1206681712', u'CBRANCH_-1206681697'), (u'INDIRECT_-1206681220', u'MULTIEQUAL_-1206681260'), (u'LOAD_-1206681737', u'INT_ADD_-1206681678'), (u'INT_ZEXT_-1206681427', u'MULTIEQUAL_-1206681285'), (u'INDIRECT_-1206681257', u'COPY_-1206681311'), (u'STORE_-1206681448', u'INDIRECT_-1206681220'), (u'INDIRECT_-1206681220', u'MULTIEQUAL_-1206681219'), ('const-4', u'INT_MULT_-1206681600'), ('const-0', u'INT_EQUAL_-1206681401'), (u'MULTIEQUAL_-1206681288', u'PTRADD_-1206681381'), (u'INT_ADD_-1206681411', u'MULTIEQUAL_-1206681282'), ('const-417', u'LOAD_-1206681737'), (u'INDIRECT_-1206681212', u'MULTIEQUAL_-1206681252'), (u'STORE_-1206681448', u'INDIRECT_-1206681204'), (u'INT_SUB_-1206681358', u'INT_LESS_-1206681341'), (u'CAST_-1206681287', u'LOAD_-1206681706'), (u'LOAD_-1206681694', u'INT_ADD_-1206681663'), ('const-0', u'STORE_-1206681545'), (u'COPY_-1206681461', u'MULTIEQUAL_-1206681282'), ('tmp_1221', u'INT_ADD_-1206681745'), ('const-417', u'LOAD_-1206681602'), (u'INT_ZEXT_-1206681586', u'MULTIEQUAL_-1206681285'), (u'INT_ADD_-1206681762', u'INT_ADD_-1206681745'), (u'COPY_-1206681624', u'RETURN_-1206681600'), (u'INDIRECT_-1206681274', u'COPY_-1206681328'), (u'MULTIEQUAL_-1206681332', u'STORE_-1206681545'), ('const-0', u'STORE_-1206681627'), (u'INDIRECT_-1206681241', u'COPY_-1206681295'), (u'LOAD_-1206681706', u'MULTIEQUAL_-1206681332'), ('const-1', u'PTRADD_-1206681381'), ('const-1', u'INT_EQUAL_-1206681495'), ('const-417', u'LOAD_-1206681744'), (u'CAST_-1206681308', u'LOAD_-1206681744'), ('tmp_141', u'CBRANCH_-1206681697'), (u'STORE_-1206681545', u'INDIRECT_-1206681241'), (u'INT_ADD_-1206681504', u'CAST_-1206681206'), ('const-28', u'INT_ADD_-1206681678'), (u'LOAD_-1206681602', u'INT_ZEXT_-1206681586'), (u'MULTIEQUAL_-1206681323', u'COPY_-1206681542'), (u'INDIRECT_-1206681204', u'MULTIEQUAL_-1206681203')]
| null | null |
000c7f38
|
arm
|
O2
|
(translation_unit "uint FUN_000c7f38(byte *param_1)\n\n{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}\n\n" (function_definition "uint FUN_000c7f38(byte *param_1)\n\n{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" type_identifier (function_declarator "FUN_000c7f38(byte *param_1)" identifier (parameter_list "(byte *param_1)" ( (parameter_declaration "byte *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" { (declaration "uint *puVar1;" type_identifier (pointer_declarator "*puVar1" * identifier) ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "uint *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (expression_statement "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);" (assignment_expression "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" identifier = (pointer_expression "**(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (pointer_expression "*(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (cast_expression "(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (binary_expression "DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8" (binary_expression "DAT_000c7ff4 + 0xc7f4c" identifier + number_literal) + identifier) )))))) ;) (expression_statement "puVar1 = *(uint **)(iVar4 + 0x20);" (assignment_expression "puVar1 = *(uint **)(iVar4 + 0x20)" identifier = (pointer_expression "*(uint **)(iVar4 + 0x20)" * (cast_expression "(uint **)(iVar4 + 0x20)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) ))))) ;) (if_statement "if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" if (parenthesized_expression "(*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02')" ( (binary_expression "*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02'" (pointer_expression "*(char *)(DAT_000c7ffc + 0xc7f58)" * (cast_expression "(char *)(DAT_000c7ffc + 0xc7f58)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000c7ffc + 0xc7f58)" ( (binary_expression "DAT_000c7ffc + 0xc7f58" identifier + number_literal) )))) == (char_literal "'\x02'" ' escape_sequence ')) )) (compound_statement "{\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);" (assignment_expression "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" identifier = (call_expression "FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" identifier (argument_list "(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" ( identifier , identifier , (binary_expression "*(int *)(iVar4 + 0x1c) + -1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) + number_literal) )))) ;) (expression_statement "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);" (assignment_expression "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f)" identifier = (binary_expression "uVar2 & ~((int)uVar2 >> 0x1f)" identifier & (unary_expression "~((int)uVar2 >> 0x1f)" ~ (parenthesized_expression "((int)uVar2 >> 0x1f)" ( (binary_expression "(int)uVar2 >> 0x1f" (cast_expression "(int)uVar2" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (expression_statement "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;" (assignment_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0" (pointer_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" * (cast_expression "(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar4 + 0x20) + uVar2 * 4)" ( (binary_expression "*(int *)(iVar4 + 0x20) + uVar2 * 4" (pointer_expression "*(int *)(iVar4 + 0x20)" * (cast_expression "(int *)(iVar4 + 0x20)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) )))) + (binary_expression "uVar2 * 4" identifier * number_literal)) )))) = number_literal) ;) (return_statement "return uVar2;" return identifier ;) })) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" identifier = (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (if_statement "if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(uVar2 == 0)" ( (binary_expression "uVar2 == 0" identifier == number_literal) )) (compound_statement "{\n uVar3 = 0;\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) }) (else_clause "else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (if_statement "if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(*(int *)(iVar4 + 0x1c) == 1)" ( (binary_expression "*(int *)(iVar4 + 0x1c) == 1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n uVar3 = 0;\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) }) (else_clause "else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (compound_statement "{\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" identifier = identifier) ;) (do_statement "do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);" do (compound_statement "{\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n }" { (expression_statement "puVar1 = puVar5 + 1;" (assignment_expression "puVar1 = puVar5 + 1" identifier = (binary_expression "puVar5 + 1" identifier + number_literal)) ;) (expression_statement "*puVar5 = uVar2;" (assignment_expression "*puVar5 = uVar2" (pointer_expression "*puVar5" * identifier) = identifier) ;) (expression_statement "param_1 = param_1 + 1;" (assignment_expression "param_1 = param_1 + 1" identifier = (binary_expression "param_1 + 1" identifier + number_literal)) ;) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" identifier = (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (expression_statement "uVar3 = uVar3 + 1;" (assignment_expression "uVar3 = uVar3 + 1" identifier = (binary_expression "uVar3 + 1" identifier + number_literal)) ;) (if_statement "if (uVar2 == 0) break;" if (parenthesized_expression "(uVar2 == 0)" ( (binary_expression "uVar2 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" identifier = identifier) ;) }) while (parenthesized_expression "(uVar3 < *(int *)(iVar4 + 0x1c) - 1U)" ( (binary_expression "uVar3 < *(int *)(iVar4 + 0x1c) - 1U" identifier < (binary_expression "*(int *)(iVar4 + 0x1c) - 1U" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) - number_literal)) )) ;) }))))) (expression_statement "*puVar1 = 0;" (assignment_expression "*puVar1 = 0" (pointer_expression "*puVar1" * identifier) = number_literal) ;) (return_statement "return uVar3;" return identifier ;) })))
|
(translation_unit "size_t load_string(char *src)\n\n{\n wchar_t *dest;\n size_t sVar1;\n wchar_t wVar2;\n uint uVar3;\n int iVar4;\n wchar_t *pwVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n dest = *(wchar_t **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);\n uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;\n return uVar3;\n }\n wVar2 = (wchar_t)(byte)*src;\n if (wVar2 == L'\0') {\n sVar1 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *dest = L'\0';\n return sVar1;\n}\n\n" (function_definition "size_t load_string(char *src)\n\n{\n wchar_t *dest;\n size_t sVar1;\n wchar_t wVar2;\n uint uVar3;\n int iVar4;\n wchar_t *pwVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n dest = *(wchar_t **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);\n uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;\n return uVar3;\n }\n wVar2 = (wchar_t)(byte)*src;\n if (wVar2 == L'\0') {\n sVar1 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *dest = L'\0';\n return sVar1;\n}" primitive_type (function_declarator "load_string(char *src)" identifier (parameter_list "(char *src)" ( (parameter_declaration "char *src" primitive_type (pointer_declarator "*src" * identifier)) ))) (compound_statement "{\n wchar_t *dest;\n size_t sVar1;\n wchar_t wVar2;\n uint uVar3;\n int iVar4;\n wchar_t *pwVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n dest = *(wchar_t **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);\n uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;\n return uVar3;\n }\n wVar2 = (wchar_t)(byte)*src;\n if (wVar2 == L'\0') {\n sVar1 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *dest = L'\0';\n return sVar1;\n}" { (declaration "wchar_t *dest;" type_identifier (pointer_declarator "*dest" * identifier) ;) (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "wchar_t wVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "wchar_t *pwVar5;" type_identifier (pointer_declarator "*pwVar5" * identifier) ;) (expression_statement "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);" (assignment_expression "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" identifier = (pointer_expression "**(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (pointer_expression "*(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (cast_expression "(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (binary_expression "DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8" (binary_expression "DAT_000c7ff4 + 0xc7f4c" identifier + number_literal) + identifier) )))))) ;) (expression_statement "dest = *(wchar_t **)(iVar4 + 0x20);" (assignment_expression "dest = *(wchar_t **)(iVar4 + 0x20)" identifier = (pointer_expression "*(wchar_t **)(iVar4 + 0x20)" * (cast_expression "(wchar_t **)(iVar4 + 0x20)" ( (type_descriptor "wchar_t **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) ))))) ;) (if_statement "if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);\n uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;\n return uVar3;\n }" if (parenthesized_expression "(*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02')" ( (binary_expression "*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02'" (pointer_expression "*(char *)(DAT_000c7ffc + 0xc7f58)" * (cast_expression "(char *)(DAT_000c7ffc + 0xc7f58)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000c7ffc + 0xc7f58)" ( (binary_expression "DAT_000c7ffc + 0xc7f58" identifier + number_literal) )))) == (char_literal "'\x02'" ' escape_sequence ')) )) (compound_statement "{\n sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);\n uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;\n return uVar3;\n }" { (expression_statement "sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1);" (assignment_expression "sVar1 = bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1)" identifier = (call_expression "bb_mbstowcs(dest,src,*(int *)(iVar4 + 0x1c) - 1)" identifier (argument_list "(dest,src,*(int *)(iVar4 + 0x1c) - 1)" ( identifier , identifier , (binary_expression "*(int *)(iVar4 + 0x1c) - 1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) - number_literal) )))) ;) (expression_statement "uVar3 = sVar1 & ~((int)sVar1 >> 0x1f);" (assignment_expression "uVar3 = sVar1 & ~((int)sVar1 >> 0x1f)" identifier = (binary_expression "sVar1 & ~((int)sVar1 >> 0x1f)" identifier & (unary_expression "~((int)sVar1 >> 0x1f)" ~ (parenthesized_expression "((int)sVar1 >> 0x1f)" ( (binary_expression "(int)sVar1 >> 0x1f" (cast_expression "(int)sVar1" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (expression_statement "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0;" (assignment_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4) = 0" (pointer_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4)" * (cast_expression "(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar3 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar4 + 0x20) + uVar3 * 4)" ( (binary_expression "*(int *)(iVar4 + 0x20) + uVar3 * 4" (pointer_expression "*(int *)(iVar4 + 0x20)" * (cast_expression "(int *)(iVar4 + 0x20)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) )))) + (binary_expression "uVar3 * 4" identifier * number_literal)) )))) = number_literal) ;) (return_statement "return uVar3;" return identifier ;) })) (expression_statement "wVar2 = (wchar_t)(byte)*src;" (assignment_expression "wVar2 = (wchar_t)(byte)*src" identifier = (binary_expression "(wchar_t)(byte)*src" (call_expression "(wchar_t)(byte)" (parenthesized_expression "(wchar_t)" ( identifier )) (argument_list "(byte)" ( identifier ))) * identifier)) ;) (if_statement "if (wVar2 == L'\0') {\n sVar1 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(wVar2 == L'\0')" ( (binary_expression "wVar2 == L'\0'" identifier == (char_literal "L'\0'" L' escape_sequence ')) )) (compound_statement "{\n sVar1 = 0;\n }" { (expression_statement "sVar1 = 0;" (assignment_expression "sVar1 = 0" identifier = number_literal) ;) }) (else_clause "else if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (if_statement "if (*(int *)(iVar4 + 0x1c) == 1) {\n sVar1 = 0;\n }\n else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(*(int *)(iVar4 + 0x1c) == 1)" ( (binary_expression "*(int *)(iVar4 + 0x1c) == 1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n sVar1 = 0;\n }" { (expression_statement "sVar1 = 0;" (assignment_expression "sVar1 = 0" identifier = number_literal) ;) }) (else_clause "else {\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (compound_statement "{\n sVar1 = 0;\n pwVar5 = dest;\n do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);\n }" { (expression_statement "sVar1 = 0;" (assignment_expression "sVar1 = 0" identifier = number_literal) ;) (expression_statement "pwVar5 = dest;" (assignment_expression "pwVar5 = dest" identifier = identifier) ;) (do_statement "do {\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n } while (sVar1 < *(int *)(iVar4 + 0x1c) - 1U);" do (compound_statement "{\n dest = pwVar5 + 1;\n *pwVar5 = wVar2;\n src = (char *)((byte *)src + 1);\n wVar2 = (wchar_t)(byte)*src;\n sVar1 = sVar1 + 1;\n if (wVar2 == L'\0') break;\n pwVar5 = dest;\n }" { (expression_statement "dest = pwVar5 + 1;" (assignment_expression "dest = pwVar5 + 1" identifier = (binary_expression "pwVar5 + 1" identifier + number_literal)) ;) (expression_statement "*pwVar5 = wVar2;" (assignment_expression "*pwVar5 = wVar2" (pointer_expression "*pwVar5" * identifier) = identifier) ;) (expression_statement "src = (char *)((byte *)src + 1);" (assignment_expression "src = (char *)((byte *)src + 1)" identifier = (cast_expression "(char *)((byte *)src + 1)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((byte *)src + 1)" ( (binary_expression "(byte *)src + 1" (cast_expression "(byte *)src" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier) + number_literal) )))) ;) (expression_statement "wVar2 = (wchar_t)(byte)*src;" (assignment_expression "wVar2 = (wchar_t)(byte)*src" identifier = (binary_expression "(wchar_t)(byte)*src" (call_expression "(wchar_t)(byte)" (parenthesized_expression "(wchar_t)" ( identifier )) (argument_list "(byte)" ( identifier ))) * identifier)) ;) (expression_statement "sVar1 = sVar1 + 1;" (assignment_expression "sVar1 = sVar1 + 1" identifier = (binary_expression "sVar1 + 1" identifier + number_literal)) ;) (if_statement "if (wVar2 == L'\0') break;" if (parenthesized_expression "(wVar2 == L'\0')" ( (binary_expression "wVar2 == L'\0'" identifier == (char_literal "L'\0'" L' escape_sequence ')) )) (break_statement "break;" break ;)) (expression_statement "pwVar5 = dest;" (assignment_expression "pwVar5 = dest" identifier = identifier) ;) }) while (parenthesized_expression "(sVar1 < *(int *)(iVar4 + 0x1c) - 1U)" ( (binary_expression "sVar1 < *(int *)(iVar4 + 0x1c) - 1U" identifier < (binary_expression "*(int *)(iVar4 + 0x1c) - 1U" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) - number_literal)) )) ;) }))))) (expression_statement "*dest = L'\0';" (assignment_expression "*dest = L'\0'" (pointer_expression "*dest" * identifier) = (char_literal "L'\0'" L' escape_sequence ')) ;) (return_statement "return sVar1;" return identifier ;) })))
|
(translation_unit "uint FUN_000c7f38(byte *param_1)\n\n{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}\n\n" (function_definition "uint FUN_000c7f38(byte *param_1)\n\n{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" type_identifier (function_declarator "FUN_000c7f38(byte *param_1)" identifier (parameter_list "(byte *param_1)" ( (parameter_declaration "byte *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" { (declaration "uint *puVar1;" type_identifier (pointer_declarator "*puVar1" * identifier) ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "uint *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (expression_statement "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);" (assignment_expression "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" identifier = (pointer_expression "**(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (pointer_expression "*(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" * (cast_expression "(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" ( (binary_expression "DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8" (binary_expression "DAT_000c7ff4 + 0xc7f4c" identifier + number_literal) + identifier) )))))) ;) (expression_statement "puVar1 = *(uint **)(iVar4 + 0x20);" (assignment_expression "puVar1 = *(uint **)(iVar4 + 0x20)" identifier = (pointer_expression "*(uint **)(iVar4 + 0x20)" * (cast_expression "(uint **)(iVar4 + 0x20)" ( (type_descriptor "uint **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) ))))) ;) (if_statement "if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" if (parenthesized_expression "(*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02')" ( (binary_expression "*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02'" (pointer_expression "*(char *)(DAT_000c7ffc + 0xc7f58)" * (cast_expression "(char *)(DAT_000c7ffc + 0xc7f58)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000c7ffc + 0xc7f58)" ( (binary_expression "DAT_000c7ffc + 0xc7f58" identifier + number_literal) )))) == (char_literal "'\x02'" ' escape_sequence ')) )) (compound_statement "{\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);" (assignment_expression "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" identifier = (call_expression "FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" identifier (argument_list "(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" ( identifier , identifier , (binary_expression "*(int *)(iVar4 + 0x1c) + -1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) + number_literal) )))) ;) (expression_statement "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);" (assignment_expression "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f)" identifier = (binary_expression "uVar2 & ~((int)uVar2 >> 0x1f)" identifier & (unary_expression "~((int)uVar2 >> 0x1f)" ~ (parenthesized_expression "((int)uVar2 >> 0x1f)" ( (binary_expression "(int)uVar2 >> 0x1f" (cast_expression "(int)uVar2" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))))) ;) (expression_statement "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;" (assignment_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0" (pointer_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" * (cast_expression "(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar4 + 0x20) + uVar2 * 4)" ( (binary_expression "*(int *)(iVar4 + 0x20) + uVar2 * 4" (pointer_expression "*(int *)(iVar4 + 0x20)" * (cast_expression "(int *)(iVar4 + 0x20)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x20)" ( (binary_expression "iVar4 + 0x20" identifier + number_literal) )))) + (binary_expression "uVar2 * 4" identifier * number_literal)) )))) = number_literal) ;) (return_statement "return uVar2;" return identifier ;) })) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" identifier = (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (if_statement "if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(uVar2 == 0)" ( (binary_expression "uVar2 == 0" identifier == number_literal) )) (compound_statement "{\n uVar3 = 0;\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) }) (else_clause "else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (if_statement "if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" if (parenthesized_expression "(*(int *)(iVar4 + 0x1c) == 1)" ( (binary_expression "*(int *)(iVar4 + 0x1c) == 1" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n uVar3 = 0;\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) }) (else_clause "else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" else (compound_statement "{\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" { (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" identifier = number_literal) ;) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" identifier = identifier) ;) (do_statement "do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);" do (compound_statement "{\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n }" { (expression_statement "puVar1 = puVar5 + 1;" (assignment_expression "puVar1 = puVar5 + 1" identifier = (binary_expression "puVar5 + 1" identifier + number_literal)) ;) (expression_statement "*puVar5 = uVar2;" (assignment_expression "*puVar5 = uVar2" (pointer_expression "*puVar5" * identifier) = identifier) ;) (expression_statement "param_1 = param_1 + 1;" (assignment_expression "param_1 = param_1 + 1" identifier = (binary_expression "param_1 + 1" identifier + number_literal)) ;) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" identifier = (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (expression_statement "uVar3 = uVar3 + 1;" (assignment_expression "uVar3 = uVar3 + 1" identifier = (binary_expression "uVar3 + 1" identifier + number_literal)) ;) (if_statement "if (uVar2 == 0) break;" if (parenthesized_expression "(uVar2 == 0)" ( (binary_expression "uVar2 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" identifier = identifier) ;) }) while (parenthesized_expression "(uVar3 < *(int *)(iVar4 + 0x1c) - 1U)" ( (binary_expression "uVar3 < *(int *)(iVar4 + 0x1c) - 1U" identifier < (binary_expression "*(int *)(iVar4 + 0x1c) - 1U" (pointer_expression "*(int *)(iVar4 + 0x1c)" * (cast_expression "(int *)(iVar4 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar4 + 0x1c)" ( (binary_expression "iVar4 + 0x1c" identifier + number_literal) )))) - number_literal)) )) ;) }))))) (expression_statement "*puVar1 = 0;" (assignment_expression "*puVar1 = 0" (pointer_expression "*puVar1" * identifier) = number_literal) ;) (return_statement "return uVar3;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) )))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT , (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT & (unary_expression ~ (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + (binary_expression IDENT * LIT)) )))) = LIT) ;) (return_statement return IDENT ;) })) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( IDENT )) * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( IDENT )) * IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = IDENT) ;) }) while (parenthesized_expression ( (binary_expression IDENT < (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) - LIT)) )) ;) }))))) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (return_statement return IDENT ;) })))
|
(function_definition "uint FUN_000c7f38(byte *param_1)\n\n{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" (type_identifier "uint") (function_declarator "FUN_000c7f38(byte *param_1)" (identifier "FUN_000c7f38") (parameter_list "(byte *param_1)" (( "(") (parameter_declaration "byte *param_1" (type_identifier "byte") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")"))) (compound_statement "{\n uint *puVar1;\n uint uVar2;\n uint uVar3;\n int iVar4;\n uint *puVar5;\n \n iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);\n puVar1 = *(uint **)(iVar4 + 0x20);\n if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }\n uVar2 = (uint)*param_1;\n if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }\n *puVar1 = 0;\n return uVar3;\n}" ({ "{") (declaration "uint *puVar1;" (type_identifier "uint") (pointer_declarator "*puVar1" (* "*") (identifier "puVar1")) (; ";")) (declaration "uint uVar2;" (type_identifier "uint") (identifier "uVar2") (; ";")) (declaration "uint uVar3;" (type_identifier "uint") (identifier "uVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "uint *puVar5;" (type_identifier "uint") (pointer_declarator "*puVar5" (* "*") (identifier "puVar5")) (; ";")) (expression_statement "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);" (assignment_expression "iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" (identifier "iVar4") (= "=") (pointer_expression "**(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" (* "*") (pointer_expression "*(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" (* "*") (cast_expression "(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8)" (( "(") (binary_expression "DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8" (binary_expression "DAT_000c7ff4 + 0xc7f4c" (identifier "DAT_000c7ff4") (+ "+") (number_literal "0xc7f4c")) (+ "+") (identifier "DAT_000c7ff8")) () ")")))))) (; ";")) (expression_statement "puVar1 = *(uint **)(iVar4 + 0x20);" (assignment_expression "puVar1 = *(uint **)(iVar4 + 0x20)" (identifier "puVar1") (= "=") (pointer_expression "*(uint **)(iVar4 + 0x20)" (* "*") (cast_expression "(uint **)(iVar4 + 0x20)" (( "(") (type_descriptor "uint **" (type_identifier "uint") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + 0x20)" (( "(") (binary_expression "iVar4 + 0x20" (identifier "iVar4") (+ "+") (number_literal "0x20")) () ")"))))) (; ";")) (if_statement "if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" (if "if") (parenthesized_expression "(*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02')" (( "(") (binary_expression "*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02'" (pointer_expression "*(char *)(DAT_000c7ffc + 0xc7f58)" (* "*") (cast_expression "(char *)(DAT_000c7ffc + 0xc7f58)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000c7ffc + 0xc7f58)" (( "(") (binary_expression "DAT_000c7ffc + 0xc7f58" (identifier "DAT_000c7ffc") (+ "+") (number_literal "0xc7f58")) () ")")))) (== "==") (char_literal "'\x02'" (' "'") (escape_sequence "\x02") (' "'"))) () ")")) (compound_statement "{\n uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);\n uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);\n *(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;\n return uVar2;\n }" ({ "{") (expression_statement "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);" (assignment_expression "uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" (identifier "uVar2") (= "=") (call_expression "FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" (identifier "FUN_000d052c") (argument_list "(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1)" (( "(") (identifier "puVar1") (, ",") (identifier "param_1") (, ",") (binary_expression "*(int *)(iVar4 + 0x1c) + -1" (pointer_expression "*(int *)(iVar4 + 0x1c)" (* "*") (cast_expression "(int *)(iVar4 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar4 + 0x1c)" (( "(") (binary_expression "iVar4 + 0x1c" (identifier "iVar4") (+ "+") (number_literal "0x1c")) () ")")))) (+ "+") (number_literal "-1")) () ")")))) (; ";")) (expression_statement "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);" (assignment_expression "uVar2 = uVar2 & ~((int)uVar2 >> 0x1f)" (identifier "uVar2") (= "=") (binary_expression "uVar2 & ~((int)uVar2 >> 0x1f)" (identifier "uVar2") (& "&") (unary_expression "~((int)uVar2 >> 0x1f)" (~ "~") (parenthesized_expression "((int)uVar2 >> 0x1f)" (( "(") (binary_expression "(int)uVar2 >> 0x1f" (cast_expression "(int)uVar2" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "uVar2")) (>> ">>") (number_literal "0x1f")) () ")"))))) (; ";")) (expression_statement "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;" (assignment_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0" (pointer_expression "*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" (* "*") (cast_expression "(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(iVar4 + 0x20) + uVar2 * 4)" (( "(") (binary_expression "*(int *)(iVar4 + 0x20) + uVar2 * 4" (pointer_expression "*(int *)(iVar4 + 0x20)" (* "*") (cast_expression "(int *)(iVar4 + 0x20)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar4 + 0x20)" (( "(") (binary_expression "iVar4 + 0x20" (identifier "iVar4") (+ "+") (number_literal "0x20")) () ")")))) (+ "+") (binary_expression "uVar2 * 4" (identifier "uVar2") (* "*") (number_literal "4"))) () ")")))) (= "=") (number_literal "0")) (; ";")) (return_statement "return uVar2;" (return "return") (identifier "uVar2") (; ";")) (} "}"))) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" (identifier "uVar2") (= "=") (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (* "*") (identifier "param_1"))) (; ";")) (if_statement "if (uVar2 == 0) {\n uVar3 = 0;\n }\n else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" (if "if") (parenthesized_expression "(uVar2 == 0)" (( "(") (binary_expression "uVar2 == 0" (identifier "uVar2") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n uVar3 = 0;\n }" ({ "{") (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" (identifier "uVar3") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" (else "else") (if_statement "if (*(int *)(iVar4 + 0x1c) == 1) {\n uVar3 = 0;\n }\n else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" (if "if") (parenthesized_expression "(*(int *)(iVar4 + 0x1c) == 1)" (( "(") (binary_expression "*(int *)(iVar4 + 0x1c) == 1" (pointer_expression "*(int *)(iVar4 + 0x1c)" (* "*") (cast_expression "(int *)(iVar4 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar4 + 0x1c)" (( "(") (binary_expression "iVar4 + 0x1c" (identifier "iVar4") (+ "+") (number_literal "0x1c")) () ")")))) (== "==") (number_literal "1")) () ")")) (compound_statement "{\n uVar3 = 0;\n }" ({ "{") (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" (identifier "uVar3") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" (else "else") (compound_statement "{\n uVar3 = 0;\n puVar5 = puVar1;\n do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);\n }" ({ "{") (expression_statement "uVar3 = 0;" (assignment_expression "uVar3 = 0" (identifier "uVar3") (= "=") (number_literal "0")) (; ";")) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" (identifier "puVar5") (= "=") (identifier "puVar1")) (; ";")) (do_statement "do {\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n } while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);" (do "do") (compound_statement "{\n puVar1 = puVar5 + 1;\n *puVar5 = uVar2;\n param_1 = param_1 + 1;\n uVar2 = (uint)*param_1;\n uVar3 = uVar3 + 1;\n if (uVar2 == 0) break;\n puVar5 = puVar1;\n }" ({ "{") (expression_statement "puVar1 = puVar5 + 1;" (assignment_expression "puVar1 = puVar5 + 1" (identifier "puVar1") (= "=") (binary_expression "puVar5 + 1" (identifier "puVar5") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar5 = uVar2;" (assignment_expression "*puVar5 = uVar2" (pointer_expression "*puVar5" (* "*") (identifier "puVar5")) (= "=") (identifier "uVar2")) (; ";")) (expression_statement "param_1 = param_1 + 1;" (assignment_expression "param_1 = param_1 + 1" (identifier "param_1") (= "=") (binary_expression "param_1 + 1" (identifier "param_1") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "uVar2 = (uint)*param_1;" (assignment_expression "uVar2 = (uint)*param_1" (identifier "uVar2") (= "=") (binary_expression "(uint)*param_1" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (* "*") (identifier "param_1"))) (; ";")) (expression_statement "uVar3 = uVar3 + 1;" (assignment_expression "uVar3 = uVar3 + 1" (identifier "uVar3") (= "=") (binary_expression "uVar3 + 1" (identifier "uVar3") (+ "+") (number_literal "1"))) (; ";")) (if_statement "if (uVar2 == 0) break;" (if "if") (parenthesized_expression "(uVar2 == 0)" (( "(") (binary_expression "uVar2 == 0" (identifier "uVar2") (== "==") (number_literal "0")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "puVar5 = puVar1;" (assignment_expression "puVar5 = puVar1" (identifier "puVar5") (= "=") (identifier "puVar1")) (; ";")) (} "}")) (while "while") (parenthesized_expression "(uVar3 < *(int *)(iVar4 + 0x1c) - 1U)" (( "(") (binary_expression "uVar3 < *(int *)(iVar4 + 0x1c) - 1U" (identifier "uVar3") (< "<") (binary_expression "*(int *)(iVar4 + 0x1c) - 1U" (pointer_expression "*(int *)(iVar4 + 0x1c)" (* "*") (cast_expression "(int *)(iVar4 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar4 + 0x1c)" (( "(") (binary_expression "iVar4 + 0x1c" (identifier "iVar4") (+ "+") (number_literal "0x1c")) () ")")))) (- "-") (number_literal "1U"))) () ")")) (; ";")) (} "}")))))) (expression_statement "*puVar1 = 0;" (assignment_expression "*puVar1 = 0" (pointer_expression "*puVar1" (* "*") (identifier "puVar1")) (= "=") (number_literal "0")) (; ";")) (return_statement "return uVar3;" (return "return") (identifier "uVar3") (; ";")) (} "}")))
|
size_t function_1(char *var_8)
{
type_1 *dest;
size_t var_6;
type_1 var_9;
type_2 var_7;
int var_3;
type_1 *var_10;
var_3 = **(int **)(var_1 + 0xc7f4c + var_2);
dest = *(type_1 **)(var_3 + 0x20);
if (*(char *)(var_4 + 0xc7f58) == '\x02') {
var_6 = var_5(dest,var_8,*(int *)(var_3 + 0x1c) - 1);
var_7 = var_6 & ~((int)var_6 >> 0x1f);
*(type_3 *)(*(int *)(var_3 + 0x20) + var_7 * 4) = 0;
return var_7;
}
var_9 = (type_1)(type_4)*var_8;
if (var_9 == L'\0') {
var_6 = 0;
}
else if (*(int *)(var_3 + 0x1c) == 1) {
var_6 = 0;
}
else {
var_6 = 0;
var_10 = dest;
do {
dest = var_10 + 1;
*var_10 = var_9;
var_8 = (char *)((type_4 *)var_8 + 1);
var_9 = (type_1)(type_4)*var_8;
var_6 = var_6 + 1;
if (var_9 == L'\0') break;
var_10 = dest;
} while (var_6 < *(int *)(var_3 + 0x1c) - 1U);
}
*dest = L'\0';
return var_6;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (unary_expression argument: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal)))))) right: (number_literal))) (return_statement (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (identifier)) right: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (identifier)) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (identifier)))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (return_statement (identifier)))))
|
uint MASKED(byte *param_1)
{
uint *puVar1;
uint uVar2;
uint uVar3;
int iVar4;
uint *puVar5;
iVar4 = **(int **)(DAT_000c7ff4 + 0xc7f4c + DAT_000c7ff8);
puVar1 = *(uint **)(iVar4 + 0x20);
if (*(char *)(DAT_000c7ffc + 0xc7f58) == '\x02') {
uVar2 = FUN_000d052c(puVar1,param_1,*(int *)(iVar4 + 0x1c) + -1);
uVar2 = uVar2 & ~((int)uVar2 >> 0x1f);
*(undefined4 *)(*(int *)(iVar4 + 0x20) + uVar2 * 4) = 0;
return uVar2;
}
uVar2 = (uint)*param_1;
if (uVar2 == 0) {
uVar3 = 0;
}
else if (*(int *)(iVar4 + 0x1c) == 1) {
uVar3 = 0;
}
else {
uVar3 = 0;
puVar5 = puVar1;
do {
puVar1 = puVar5 + 1;
*puVar5 = uVar2;
param_1 = param_1 + 1;
uVar2 = (uint)*param_1;
uVar3 = uVar3 + 1;
if (uVar2 == 0) break;
puVar5 = puVar1;
} while (uVar3 < *(int *)(iVar4 + 0x1c) - 1U);
}
*puVar1 = 0;
return uVar3;
}
| 35,920 |
||
2609_libMagickCore-7.Q16HDRI.so.8.0_and_libMagickCore-7.Q16HDRI.so.8.0_strip.c
|
RegisterJSONImage
|
RegisterJSONImage
|
/* WARNING: Unknown calling convention */
/* WARNING: Enum "GravityType": Some values do not have unique names */
/* WARNING: Enum "DisposeType": Some values do not have unique names */
/* WARNING: Enum "ChannelType": Some values do not have unique names */
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
/* WARNING: Enum "ExceptionType": Some values do not have unique names */
size_t RegisterJSONImage(void)
{
/* WARNING: Subroutine does not return */
AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),
(char *)(DAT_0025420c + 0x2541c4));
}
|
undefined4 RegisterJSONImage(void)
{
int iVar1;
int iVar2;
undefined4 uVar3;
iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)
;
iVar1 = DAT_00254214;
*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;
uVar3 = ConstantString(iVar1 + 0x2541e4);
*(undefined4 *)(iVar2 + 0xc) = uVar3;
*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;
RegisterMagickInfo(iVar2);
return 0x810;
}
|
ldr r1,[0x254208]
ldr r2,[0x25420c]
add r1,pc,r1
stmdb sp!,{r4,lr}
add r2,pc,r2
cpy r0,r1
bl 0x0003111c
cpy r4,r0
ldr r3,[0x254210]
ldr r0,[0x254214]
add r3,pc,r3
str r3,[r4,#0x1c]
add r0,pc,r0
bl 0x00032058
ldr r3,[r4,#0x2c]
str r0,[r4,#0xc]
orr r3,r3,#0x10
eor r3,r3,#0x2
str r3,[r4,#0x2c]
cpy r0,r4
bl 0x0003261c
mov r0,#0x810
ldmia sp!,{r4,pc}
| null | null | null | null |
[(u'CAST_-1204141521', u'CALL_-1204141597'), (u'INT_ADD_-1204141598', u'CAST_-1204141521'), ('const-2441660', u'INT_ADD_-1204141619'), ('const-2441668', u'INT_ADD_-1204141598'), ('tmp_161', u'INT_ADD_-1204141598'), (u'INT_ADD_-1204141619', u'CAST_-1204141530'), (u'CALL_-1204141597', u'INDIRECT_-1204141523'), (u'INDIRECT_-1204141521', u'COPY_-1204141580'), (u'CAST_-1204141530', u'CALL_-1204141597'), ('const-1', u'RETURN_-1204141592'), (u'CALL_-1204141597', u'INDIRECT_-1204141521'), ('tmp_160', u'INT_ADD_-1204141619'), (u'INDIRECT_-1204141523', u'COPY_-1204141582')]
|
[(u'CALL_-1204141597', u'INDIRECT_-1204141404'), (u'CALL_-1204141597', u'INT_ADD_-1204141531'), (u'COPY_-1204141481', u'RETURN_-1204141453'), (u'STORE_-1204141502', u'INDIRECT_-1204141336'), (u'CALL_-1204141487', u'INDIRECT_-1204141346'), (u'STORE_-1204141502', u'INDIRECT_-1204141350'), (u'CALL_-1204141597', u'INDIRECT_-1204141383'), ('const-417', u'LOAD_-1204141547'), ('const-417', u'STORE_-1204141540'), (u'STORE_-1204141502', u'INDIRECT_-1204141329'), ('const-417', u'STORE_-1204141569'), (u'CALL_-1204141548', u'STORE_-1204141540'), (u'INDIRECT_-1204141390', u'INT_ADD_-1204141561'), ('const-2441692', u'INT_ADD_-1204141561'), (u'STORE_-1204141502', u'INDIRECT_-1204141343'), (u'INT_XOR_-1204141489', u'STORE_-1204141502'), (u'INDIRECT_-1204141339', u'COPY_-1204141390'), (u'STORE_-1204141540', u'INDIRECT_-1204141349'), ('const-2441660', u'INT_ADD_-1204141619'), ('const-2064', u'COPY_-1204141481'), (u'CAST_-1204141333', u'LOAD_-1204141547'), (u'CALL_-1204141597', u'INDIRECT_-1204141390'), (u'CALL_-1204141597', u'INT_ADD_-1204141487'), (u'CALL_-1204141597', u'CALL_-1204141487'), (u'CALL_-1204141487', u'INDIRECT_-1204141339'), ('const-0', u'RETURN_-1204141453'), (u'INT_ADD_-1204141598', u'CALL_-1204141597'), ('tmp_614', u'INT_ADD_-1204141598'), (u'STORE_-1204141540', u'INDIRECT_-1204141356'), (u'CAST_-1204141328', u'STORE_-1204141540'), (u'STORE_-1204141569', u'INDIRECT_-1204141366'), ('const-12', u'INT_ADD_-1204141525'), ('const-44', u'INT_ADD_-1204141487'), ('const-2441668', u'INT_ADD_-1204141598'), (u'STORE_-1204141569', u'INDIRECT_-1204141380'), (u'INT_ADD_-1204141554', u'CAST_-1204141346'), (u'LOAD_-1204141547', u'INT_OR_-1204141503'), (u'STORE_-1204141569', u'INDIRECT_-1204141359'), (u'CALL_-1204141548', u'INDIRECT_-1204141368'), (u'INT_ADD_-1204141525', u'CAST_-1204141328'), (u'CALL_-1204141487', u'INDIRECT_-1204141325'), (u'STORE_-1204141540', u'INDIRECT_-1204141342'), (u'CALL_-1204141548', u'INDIRECT_-1204141354'), (u'INT_ADD_-1204141544', u'CALL_-1204141548'), (u'INT_ADD_-1204141487', u'CAST_-1204141315'), ('const-28', u'INT_ADD_-1204141554'), ('const-2441700', u'INT_ADD_-1204141544'), (u'INT_ADD_-1204141619', u'CALL_-1204141597'), (u'INDIRECT_-1204141325', u'COPY_-1204141376'), (u'INT_ADD_-1204141531', u'CAST_-1204141333'), (u'CALL_-1204141548', u'INDIRECT_-1204141361'), (u'CALL_-1204141487', u'INDIRECT_-1204141332'), (u'INDIRECT_-1204141332', u'COPY_-1204141383'), ('const-44', u'INT_ADD_-1204141531'), ('const-16', u'INT_OR_-1204141503'), (u'CAST_-1204141315', u'STORE_-1204141502'), (u'INDIRECT_-1204141346', u'COPY_-1204141397'), (u'CAST_-1204141346', u'STORE_-1204141569'), (u'STORE_-1204141540', u'INDIRECT_-1204141363'), (u'CALL_-1204141597', u'INT_ADD_-1204141525'), (u'CALL_-1204141597', u'INT_ADD_-1204141554'), ('tmp_613', u'INT_ADD_-1204141619'), ('const-417', u'STORE_-1204141502'), (u'CALL_-1204141548', u'INDIRECT_-1204141375'), (u'COPY_-1204141430', u'INT_ADD_-1204141544'), (u'CALL_-1204141597', u'INDIRECT_-1204141397'), (u'INT_ADD_-1204141561', u'STORE_-1204141569'), (u'INDIRECT_-1204141383', u'COPY_-1204141430'), ('const-2', u'INT_XOR_-1204141489'), (u'STORE_-1204141569', u'INDIRECT_-1204141373'), (u'INT_OR_-1204141503', u'INT_XOR_-1204141489')]
| null | null |
002541ac
|
arm
|
O2
|
(translation_unit "undefined4 RegisterJSONImage(void)\n\n{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}\n\n" (function_definition "undefined4 RegisterJSONImage(void)\n\n{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" type_identifier (function_declarator "RegisterJSONImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (expression_statement "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;" (assignment_expression "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" identifier = (call_expression "AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" identifier (argument_list "(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" ( (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) , (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) , (binary_expression "DAT_0025420c + 0x2541c4" identifier + number_literal) )))) ;) (expression_statement "iVar1 = DAT_00254214;" (assignment_expression "iVar1 = DAT_00254214" identifier = identifier) ;) (expression_statement "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;" (assignment_expression "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc" (pointer_expression "*(int *)(iVar2 + 0x1c)" * (cast_expression "(int *)(iVar2 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x1c)" ( (binary_expression "iVar2 + 0x1c" identifier + number_literal) )))) = (binary_expression "DAT_00254210 + 0x2541dc" identifier + number_literal)) ;) (expression_statement "uVar3 = ConstantString(iVar1 + 0x2541e4);" (assignment_expression "uVar3 = ConstantString(iVar1 + 0x2541e4)" identifier = (call_expression "ConstantString(iVar1 + 0x2541e4)" identifier (argument_list "(iVar1 + 0x2541e4)" ( (binary_expression "iVar1 + 0x2541e4" identifier + number_literal) )))) ;) (expression_statement "*(undefined4 *)(iVar2 + 0xc) = uVar3;" (assignment_expression "*(undefined4 *)(iVar2 + 0xc) = uVar3" (pointer_expression "*(undefined4 *)(iVar2 + 0xc)" * (cast_expression "(undefined4 *)(iVar2 + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0xc)" ( (binary_expression "iVar2 + 0xc" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;" (assignment_expression "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (pointer_expression "*(uint *)(iVar2 + 0x2c)" * (cast_expression "(uint *)(iVar2 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x2c)" ( (binary_expression "iVar2 + 0x2c" identifier + number_literal) )))) = (binary_expression "(*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (parenthesized_expression "(*(uint *)(iVar2 + 0x2c) | 0x10)" ( (binary_expression "*(uint *)(iVar2 + 0x2c) | 0x10" (pointer_expression "*(uint *)(iVar2 + 0x2c)" * (cast_expression "(uint *)(iVar2 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x2c)" ( (binary_expression "iVar2 + 0x2c" identifier + number_literal) )))) | number_literal) )) ^ number_literal)) ;) (expression_statement "RegisterMagickInfo(iVar2);" (call_expression "RegisterMagickInfo(iVar2)" identifier (argument_list "(iVar2)" ( identifier ))) ;) (return_statement "return 0x810;" return number_literal ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n/* WARNING: Enum "GravityType": Some values do not have unique names */\n/* WARNING: Enum "DisposeType": Some values do not have unique names */\n/* WARNING: Enum "ChannelType": Some values do not have unique names */\n/* WARNING: Enum "PixelChannel": Some values do not have unique names */\n/* WARNING: Enum "ExceptionType": Some values do not have unique names */\n\nsize_t RegisterJSONImage(void)\n\n{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4));\n}\n\n" comment comment comment comment comment comment (function_definition "size_t RegisterJSONImage(void)\n\n{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4));\n}" primitive_type (function_declarator "RegisterJSONImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4));\n}" { comment (expression_statement "AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4));" (call_expression "AcquireMagickInfo((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4))" identifier (argument_list "((char *)(DAT_00254208 + 0x2541bc),(char *)(DAT_00254208 + 0x2541bc),\n (char *)(DAT_0025420c + 0x2541c4))" ( (cast_expression "(char *)(DAT_00254208 + 0x2541bc)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00254208 + 0x2541bc)" ( (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) ))) , (cast_expression "(char *)(DAT_00254208 + 0x2541bc)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00254208 + 0x2541bc)" ( (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) ))) , (cast_expression "(char *)(DAT_0025420c + 0x2541c4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0025420c + 0x2541c4)" ( (binary_expression "DAT_0025420c + 0x2541c4" identifier + number_literal) ))) ))) ;) })))
|
(translation_unit "undefined4 RegisterJSONImage(void)\n\n{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}\n\n" (function_definition "undefined4 RegisterJSONImage(void)\n\n{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" type_identifier (function_declarator "RegisterJSONImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (expression_statement "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;" (assignment_expression "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" identifier = (call_expression "AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" identifier (argument_list "(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" ( (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) , (binary_expression "DAT_00254208 + 0x2541bc" identifier + number_literal) , (binary_expression "DAT_0025420c + 0x2541c4" identifier + number_literal) )))) ;) (expression_statement "iVar1 = DAT_00254214;" (assignment_expression "iVar1 = DAT_00254214" identifier = identifier) ;) (expression_statement "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;" (assignment_expression "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc" (pointer_expression "*(int *)(iVar2 + 0x1c)" * (cast_expression "(int *)(iVar2 + 0x1c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x1c)" ( (binary_expression "iVar2 + 0x1c" identifier + number_literal) )))) = (binary_expression "DAT_00254210 + 0x2541dc" identifier + number_literal)) ;) (expression_statement "uVar3 = ConstantString(iVar1 + 0x2541e4);" (assignment_expression "uVar3 = ConstantString(iVar1 + 0x2541e4)" identifier = (call_expression "ConstantString(iVar1 + 0x2541e4)" identifier (argument_list "(iVar1 + 0x2541e4)" ( (binary_expression "iVar1 + 0x2541e4" identifier + number_literal) )))) ;) (expression_statement "*(undefined4 *)(iVar2 + 0xc) = uVar3;" (assignment_expression "*(undefined4 *)(iVar2 + 0xc) = uVar3" (pointer_expression "*(undefined4 *)(iVar2 + 0xc)" * (cast_expression "(undefined4 *)(iVar2 + 0xc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0xc)" ( (binary_expression "iVar2 + 0xc" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;" (assignment_expression "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (pointer_expression "*(uint *)(iVar2 + 0x2c)" * (cast_expression "(uint *)(iVar2 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x2c)" ( (binary_expression "iVar2 + 0x2c" identifier + number_literal) )))) = (binary_expression "(*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (parenthesized_expression "(*(uint *)(iVar2 + 0x2c) | 0x10)" ( (binary_expression "*(uint *)(iVar2 + 0x2c) | 0x10" (pointer_expression "*(uint *)(iVar2 + 0x2c)" * (cast_expression "(uint *)(iVar2 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 0x2c)" ( (binary_expression "iVar2 + 0x2c" identifier + number_literal) )))) | number_literal) )) ^ number_literal)) ;) (expression_statement "RegisterMagickInfo(iVar2);" (call_expression "RegisterMagickInfo(iVar2)" identifier (argument_list "(iVar2)" ( identifier ))) ;) (return_statement "return 0x810;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , (binary_expression IDENT + LIT) , (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) | LIT) )) ^ LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (return_statement return LIT ;) })))
|
(function_definition "undefined4 RegisterJSONImage(void)\n\n{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" (type_identifier "undefined4") (function_declarator "RegisterJSONImage(void)" (identifier "RegisterJSONImage") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n int iVar1;\n int iVar2;\n undefined4 uVar3;\n \n iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;\n iVar1 = DAT_00254214;\n *(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;\n uVar3 = ConstantString(iVar1 + 0x2541e4);\n *(undefined4 *)(iVar2 + 0xc) = uVar3;\n *(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;\n RegisterMagickInfo(iVar2);\n return 0x810;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "undefined4 uVar3;" (type_identifier "undefined4") (identifier "uVar3") (; ";")) (expression_statement "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)\n ;" (assignment_expression "iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" (identifier "iVar2") (= "=") (call_expression "AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" (identifier "AcquireMagickInfo") (argument_list "(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)" (( "(") (binary_expression "DAT_00254208 + 0x2541bc" (identifier "DAT_00254208") (+ "+") (number_literal "0x2541bc")) (, ",") (binary_expression "DAT_00254208 + 0x2541bc" (identifier "DAT_00254208") (+ "+") (number_literal "0x2541bc")) (, ",") (binary_expression "DAT_0025420c + 0x2541c4" (identifier "DAT_0025420c") (+ "+") (number_literal "0x2541c4")) () ")")))) (; ";")) (expression_statement "iVar1 = DAT_00254214;" (assignment_expression "iVar1 = DAT_00254214" (identifier "iVar1") (= "=") (identifier "DAT_00254214")) (; ";")) (expression_statement "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;" (assignment_expression "*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc" (pointer_expression "*(int *)(iVar2 + 0x1c)" (* "*") (cast_expression "(int *)(iVar2 + 0x1c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x1c)" (( "(") (binary_expression "iVar2 + 0x1c" (identifier "iVar2") (+ "+") (number_literal "0x1c")) () ")")))) (= "=") (binary_expression "DAT_00254210 + 0x2541dc" (identifier "DAT_00254210") (+ "+") (number_literal "0x2541dc"))) (; ";")) (expression_statement "uVar3 = ConstantString(iVar1 + 0x2541e4);" (assignment_expression "uVar3 = ConstantString(iVar1 + 0x2541e4)" (identifier "uVar3") (= "=") (call_expression "ConstantString(iVar1 + 0x2541e4)" (identifier "ConstantString") (argument_list "(iVar1 + 0x2541e4)" (( "(") (binary_expression "iVar1 + 0x2541e4" (identifier "iVar1") (+ "+") (number_literal "0x2541e4")) () ")")))) (; ";")) (expression_statement "*(undefined4 *)(iVar2 + 0xc) = uVar3;" (assignment_expression "*(undefined4 *)(iVar2 + 0xc) = uVar3" (pointer_expression "*(undefined4 *)(iVar2 + 0xc)" (* "*") (cast_expression "(undefined4 *)(iVar2 + 0xc)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0xc)" (( "(") (binary_expression "iVar2 + 0xc" (identifier "iVar2") (+ "+") (number_literal "0xc")) () ")")))) (= "=") (identifier "uVar3")) (; ";")) (expression_statement "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;" (assignment_expression "*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (pointer_expression "*(uint *)(iVar2 + 0x2c)" (* "*") (cast_expression "(uint *)(iVar2 + 0x2c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x2c)" (( "(") (binary_expression "iVar2 + 0x2c" (identifier "iVar2") (+ "+") (number_literal "0x2c")) () ")")))) (= "=") (binary_expression "(*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2" (parenthesized_expression "(*(uint *)(iVar2 + 0x2c) | 0x10)" (( "(") (binary_expression "*(uint *)(iVar2 + 0x2c) | 0x10" (pointer_expression "*(uint *)(iVar2 + 0x2c)" (* "*") (cast_expression "(uint *)(iVar2 + 0x2c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 0x2c)" (( "(") (binary_expression "iVar2 + 0x2c" (identifier "iVar2") (+ "+") (number_literal "0x2c")) () ")")))) (| "|") (number_literal "0x10")) () ")")) (^ "^") (number_literal "2"))) (; ";")) (expression_statement "RegisterMagickInfo(iVar2);" (call_expression "RegisterMagickInfo(iVar2)" (identifier "RegisterMagickInfo") (argument_list "(iVar2)" (( "(") (identifier "iVar2") () ")"))) (; ";")) (return_statement "return 0x810;" (return "return") (number_literal "0x810") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
/* WARNING: Enum "GravityType": Some values do not have unique names */
/* WARNING: Enum "DisposeType": Some values do not have unique names */
/* WARNING: Enum "ChannelType": Some values do not have unique names */
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
/* WARNING: Enum "ExceptionType": Some values do not have unique names */
size_t function_1(void)
{
/* WARNING: Subroutine does not return */
var_1((char *)(var_2 + 0x2541bc),(char *)(var_2 + 0x2541bc),
(char *)(var_3 + 0x2541c4));
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (binary_expression left: (identifier) right: (number_literal)) (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (return_statement (number_literal)))))
|
undefined4 MASKED(void)
{
int iVar1;
int iVar2;
undefined4 uVar3;
iVar2 = AcquireMagickInfo(DAT_00254208 + 0x2541bc,DAT_00254208 + 0x2541bc,DAT_0025420c + 0x2541c4)
;
iVar1 = DAT_00254214;
*(int *)(iVar2 + 0x1c) = DAT_00254210 + 0x2541dc;
uVar3 = ConstantString(iVar1 + 0x2541e4);
*(undefined4 *)(iVar2 + 0xc) = uVar3;
*(uint *)(iVar2 + 0x2c) = (*(uint *)(iVar2 + 0x2c) | 0x10) ^ 2;
RegisterMagickInfo(iVar2);
return 0x810;
}
| 80,077 |
||
140_shuf_and_shuf_strip.c
|
rpl_getopt_internal
|
FUN_00018d08
|
int rpl_getopt_internal(int argc,char **argv,char *optstring,rpl_option *longopts,int *longind,
int long_only,int posixly_correct)
{
int iVar1;
int iVar2;
int iVar3;
int iVar4;
int iVar5;
_getopt_data *d;
int *piVar6;
iVar2 = DAT_00018d9c;
iVar1 = DAT_00018d98;
iVar5 = DAT_00018d90 + 0x18d1c;
piVar6 = *(int **)(iVar5 + DAT_00018d94);
d = (_getopt_data *)(DAT_00018d98 + 0x18d30);
d->rpl_optind = *piVar6;
*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2);
iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);
iVar2 = DAT_00018da0;
*piVar6 = d->rpl_optind;
iVar3 = DAT_00018da4;
**(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);
**(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);
return iVar4;
}
|
void FUN_00018d08(void)
{
int iVar1;
int iVar2;
int iVar3;
int iVar4;
undefined4 *puVar5;
undefined4 *puVar6;
iVar2 = DAT_00018d9c;
iVar1 = DAT_00018d98;
iVar4 = DAT_00018d90 + 0x18d1c;
puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);
puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);
*puVar5 = *puVar6;
*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);
FUN_0001870c();
iVar2 = DAT_00018da0;
*puVar6 = *puVar5;
iVar3 = DAT_00018da4;
**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);
**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);
return;
}
|
stmdb sp!,{r4,r5,r6,lr}
ldr r4,[0x18d90]
ldr r12,[0x18d94]
add r4,pc,r4
ldr r6,[r4,r12]
ldr r5,[0x18d98]
ldr r12,[0x18d9c]
ldr lr,[r6,#0x0]
add r5,pc,r5
sub sp,sp,#0x10
str lr,[r5,#0x0]
ldr r12,[r4,r12]
ldr lr,[sp,#0x20]
ldr r12,[r12,#0x0]
str lr,[sp,#0x0]
ldr lr,[sp,#0x24]
str lr,[sp,#0x4]
ldr lr,[sp,#0x28]
str r5,[sp,#0x8]
str lr,[sp,#0xc]
str r12,[r5,#0x4]
bl 0x0001870c
ldr r2,[0x18da0]
ldr r3,[r5,#0x0]
str r3,[r6,#0x0]
ldr r3,[0x18da4]
ldr r2,[r4,r2]
ldr r1,[r5,#0xc]
str r1,[r2,#0x0]
ldr r3,[r4,r3]
ldr r2,[r5,#0x8]
str r2,[r3,#0x0]
add sp,sp,#0x10
ldmia sp!,{r4,r5,r6,pc}
| null | null | null | null |
[(u'COPY_-1205957168', u'INT_ADD_-1205957147'), (u'STORE_-1205957220', u'INDIRECT_-1205957066'), ('const-417', u'LOAD_-1205957169'), (u'COPY_-1205957168', u'INT_ADD_-1205957165'), ('tmp_657', u'COPY_-1205957168'), (u'CALL_-1205957210', u'RETURN_-1205957114'), ('const-417', u'LOAD_-1205957187'), ('const-417', u'LOAD_-1205957275'), (u'LOAD_-1205957330', u'LOAD_-1205957314'), (u'COPY_-1205957168', u'INT_ADD_-1205957205'), (u'COPY_-1205957082', u'INT_ADD_-1205957171'), (u'STORE_-1205957280', u'INDIRECT_-1205957114'), (u'STORE_-1205957174', u'INDIRECT_-1205957046'), (u'LOAD_-1205957163', u'STORE_-1205957156'), (u'STORE_-1205957156', u'INDIRECT_-1205956998'), (u'COPY_-1205957167', u'INT_ADD_-1205957259'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957259'), ('const-417', u'LOAD_-1205957330'), ('tmp_340', u'CALL_-1205957210'), (u'PTRSUB_-1205957065', u'STORE_-1205957280'), (u'LOAD_-1205957187', u'STORE_-1205957174'), (u'CAST_-1205956974', u'LOAD_-1205957163'), (u'INDIRECT_-1205957019', u'COPY_-1205957076'), ('tmp_334', u'CALL_-1205957210'), (u'CALL_-1205957210', u'INDIRECT_-1205957072'), (u'INDIRECT_-1205957033', u'COPY_-1205957090'), (u'LOAD_-1205957181', u'STORE_-1205957174'), ('const-417', u'STORE_-1205957220'), (u'LOAD_-1205957275', u'LOAD_-1205957263'), (u'STORE_-1205957197', u'INDIRECT_-1205957063'), (u'LOAD_-1205957330', u'STORE_-1205957197'), ('const-417', u'LOAD_-1205957263'), ('tmp_335', u'CALL_-1205957210'), (u'CAST_-1205956979', u'LOAD_-1205957169'), ('tmp_337', u'CALL_-1205957210'), (u'CALL_-1205957210', u'INDIRECT_-1205957044'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957314'), (u'STORE_-1205957280', u'INDIRECT_-1205957093'), ('const-417', u'STORE_-1205957197'), ('tmp_339', u'CALL_-1205957210'), ('const-417', u'LOAD_-1205957314'), ('const-101688', u'INT_ADD_-1205957147'), (u'CALL_-1205957210', u'INDIRECT_-1205957065'), ('const-0', u'PTRSUB_-1205957012'), (u'CAST_-1205957068', u'PTRSUB_-1205957065'), (u'LOAD_-1205957263', u'STORE_-1205957220'), (u'STORE_-1205957280', u'INDIRECT_-1205957100'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957171'), (u'INT_ADD_-1205957171', u'CAST_-1205956993'), ('const-417', u'LOAD_-1205957204'), (u'STORE_-1205957156', u'INDIRECT_-1205957005'), ('const-417', u'STORE_-1205957174'), ('const-417', u'LOAD_-1205957163'), ('const-417', u'STORE_-1205957280'), (u'CALL_-1205957210', u'INDIRECT_-1205957051'), (u'CAST_-1205957085', u'LOAD_-1205957330'), (u'STORE_-1205957220', u'INDIRECT_-1205957045'), (u'INT_ADD_-1205957259', u'CAST_-1205957055'), (u'STORE_-1205957280', u'INDIRECT_-1205957121'), ('const-101684', u'INT_ADD_-1205957205'), (u'STORE_-1205957197', u'INDIRECT_-1205957028'), (u'INT_ADD_-1205957288', u'CAST_-1205957068'), ('const-417', u'LOAD_-1205957181'), (u'CAST_-1205957068', u'PTRSUB_-1205957012'), (u'INDIRECT_-1205957028', u'COPY_-1205957069'), (u'INDIRECT_-1205957051', u'COPY_-1205957082'), ('const-101660', u'INT_ADD_-1205957321'), (u'STORE_-1205957197', u'INDIRECT_-1205957035'), (u'LOAD_-1205957314', u'STORE_-1205957280'), (u'INDIRECT_-1205957026', u'COPY_-1205957083'), (u'PTRSUB_-1205957012', u'LOAD_-1205957204'), ('const-0', u'PTRSUB_-1205957065'), (u'STORE_-1205957174', u'INDIRECT_-1205957032'), (u'CAST_-1205956988', u'LOAD_-1205957181'), (u'STORE_-1205957174', u'INDIRECT_-1205957039'), ('tmp_655', u'INT_ADD_-1205957321'), (u'INT_ADD_-1205957147', u'CAST_-1205956974'), ('const-417', u'STORE_-1205957156'), (u'CAST_-1205957055', u'LOAD_-1205957275'), (u'CAST_-1205957068', u'CALL_-1205957210'), (u'STORE_-1205957174', u'INDIRECT_-1205957018'), (u'STORE_-1205957220', u'INDIRECT_-1205957080'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957153'), (u'CAST_-1205956993', u'LOAD_-1205957187'), ('const-101692', u'INT_ADD_-1205957165'), (u'STORE_-1205957280', u'INDIRECT_-1205957107'), ('tmp_338', u'CALL_-1205957210'), (u'STORE_-1205957156', u'INDIRECT_-1205957019'), (u'STORE_-1205957156', u'INDIRECT_-1205957012'), (u'STORE_-1205957156', u'INDIRECT_-1205957026'), (u'INT_ADD_-1205957153', u'CAST_-1205956979'), (u'STORE_-1205957197', u'INDIRECT_-1205957049'), (u'STORE_-1205957197', u'INDIRECT_-1205957056'), (u'INDIRECT_-1205957005', u'COPY_-1205957062'), (u'STORE_-1205957220', u'INDIRECT_-1205957052'), (u'INT_ADD_-1205957165', u'CAST_-1205956988'), ('tmp_658', u'COPY_-1205957167'), (u'STORE_-1205957174', u'INDIRECT_-1205957011'), (u'STORE_-1205957197', u'INDIRECT_-1205957042'), (u'INDIRECT_-1205956998', u'COPY_-1205957055'), (u'CALL_-1205957210', u'INDIRECT_-1205957079'), ('const-0', u'RETURN_-1205957114'), (u'STORE_-1205957220', u'INDIRECT_-1205957059'), (u'INT_ADD_-1205957205', u'CAST_-1205957018'), ('tmp_656', u'INT_ADD_-1205957314'), ('const-101680', u'INT_ADD_-1205957288'), (u'STORE_-1205957280', u'INDIRECT_-1205957086'), (u'STORE_-1205957220', u'INDIRECT_-1205957073'), (u'INT_ADD_-1205957314', u'CAST_-1205957085'), (u'STORE_-1205957174', u'INDIRECT_-1205957025'), (u'STORE_-1205957156', u'INDIRECT_-1205957033'), (u'INDIRECT_-1205957012', u'COPY_-1205957069'), ('tmp_657', u'INT_ADD_-1205957288'), (u'CAST_-1205957018', u'STORE_-1205957220'), (u'COPY_-1205957069', u'INT_ADD_-1205957153'), (u'LOAD_-1205957169', u'STORE_-1205957156'), ('tmp_336', u'CALL_-1205957210'), (u'LOAD_-1205957204', u'STORE_-1205957197'), (u'CALL_-1205957210', u'INDIRECT_-1205957058')]
|
[(u'CALL_-1205957210', u'INDIRECT_-1205957057'), ('const-417', u'LOAD_-1205957163'), (u'STORE_-1205957156', u'INDIRECT_-1205957018'), (u'CALL_-1205957210', u'INDIRECT_-1205957071'), ('const-417', u'STORE_-1205957174'), (u'STORE_-1205957156', u'INDIRECT_-1205957039'), (u'INT_ADD_-1205957147', u'CAST_-1205956982'), ('const-417', u'STORE_-1205957156'), ('tmp_633', u'INT_ADD_-1205957314'), (u'INDIRECT_-1205957034', u'COPY_-1205957077'), (u'STORE_-1205957220', u'INDIRECT_-1205957072'), (u'LOAD_-1205957330', u'LOAD_-1205957314'), (u'STORE_-1205957280', u'INDIRECT_-1205957092'), (u'LOAD_-1205957163', u'STORE_-1205957156'), (u'INT_ADD_-1205957153', u'CAST_-1205956987'), (u'CAST_-1205957001', u'LOAD_-1205957187'), (u'CALL_-1205957210', u'INDIRECT_-1205957078'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957259'), (u'COPY_-1205957176', u'INT_ADD_-1205957147'), (u'LOAD_-1205957187', u'STORE_-1205957174'), (u'STORE_-1205957280', u'INDIRECT_-1205957106'), ('const-417', u'LOAD_-1205957330'), ('const-101688', u'INT_ADD_-1205957147'), (u'LOAD_-1205957181', u'STORE_-1205957174'), (u'STORE_-1205957156', u'INDIRECT_-1205957004'), (u'LOAD_-1205957275', u'LOAD_-1205957263'), (u'STORE_-1205957280', u'INDIRECT_-1205957120'), ('tmp_632', u'INT_ADD_-1205957321'), (u'LOAD_-1205957330', u'STORE_-1205957197'), (u'STORE_-1205957174', u'INDIRECT_-1205957045'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957314'), (u'INDIRECT_-1205957018', u'COPY_-1205957075'), (u'CALL_-1205957210', u'INDIRECT_-1205957085'), (u'COPY_-1205957090', u'INT_ADD_-1205957171'), (u'INT_ADD_-1205957171', u'CAST_-1205957001'), ('const-417', u'STORE_-1205957220'), (u'LOAD_-1205957263', u'STORE_-1205957220'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957171'), ('const-417', u'LOAD_-1205957181'), ('const-417', u'STORE_-1205957197'), (u'CAST_-1205957076', u'STORE_-1205957280'), (u'COPY_-1205957176', u'INT_ADD_-1205957165'), ('const-417', u'LOAD_-1205957314'), (u'STORE_-1205957197', u'INDIRECT_-1205957034'), (u'STORE_-1205957280', u'INDIRECT_-1205957099'), (u'CAST_-1205957076', u'LOAD_-1205957204'), (u'STORE_-1205957220', u'INDIRECT_-1205957065'), (u'INDIRECT_-1205957011', u'COPY_-1205957068'), (u'STORE_-1205957220', u'INDIRECT_-1205957079'), (u'INDIRECT_-1205957039', u'COPY_-1205957096'), (u'INT_ADD_-1205957288', u'CAST_-1205957076'), ('const-101692', u'INT_ADD_-1205957165'), (u'LOAD_-1205957314', u'STORE_-1205957280'), (u'STORE_-1205957174', u'INDIRECT_-1205957031'), (u'STORE_-1205957174', u'INDIRECT_-1205957024'), (u'COPY_-1205957175', u'INT_ADD_-1205957259'), (u'COPY_-1205957077', u'INT_ADD_-1205957153'), ('const-417', u'LOAD_-1205957275'), (u'INT_ADD_-1205957314', u'CAST_-1205957093'), (u'STORE_-1205957174', u'INDIRECT_-1205957052'), (u'STORE_-1205957174', u'INDIRECT_-1205957038'), (u'CAST_-1205956982', u'LOAD_-1205957163'), (u'CALL_-1205957210', u'INDIRECT_-1205957050'), (u'STORE_-1205957156', u'INDIRECT_-1205957032'), ('const-417', u'LOAD_-1205957263'), (u'CAST_-1205957093', u'LOAD_-1205957330'), (u'INT_ADD_-1205957321', u'INT_ADD_-1205957153'), (u'STORE_-1205957197', u'INDIRECT_-1205957069'), (u'STORE_-1205957156', u'INDIRECT_-1205957025'), (u'STORE_-1205957197', u'INDIRECT_-1205957062'), (u'INT_ADD_-1205957259', u'CAST_-1205957063'), (u'CAST_-1205957063', u'LOAD_-1205957275'), (u'STORE_-1205957197', u'INDIRECT_-1205957048'), (u'COPY_-1205957176', u'INT_ADD_-1205957205'), ('tmp_634', u'INT_ADD_-1205957288'), (u'INDIRECT_-1205957004', u'COPY_-1205957061'), ('const-101660', u'INT_ADD_-1205957321'), (u'STORE_-1205957220', u'INDIRECT_-1205957058'), (u'STORE_-1205957280', u'INDIRECT_-1205957113'), (u'CAST_-1205956996', u'LOAD_-1205957181'), ('tmp_635', u'COPY_-1205957175'), ('const-101684', u'INT_ADD_-1205957205'), (u'INDIRECT_-1205957032', u'COPY_-1205957089'), (u'STORE_-1205957280', u'INDIRECT_-1205957127'), (u'STORE_-1205957197', u'INDIRECT_-1205957041'), ('const-0', u'RETURN_-1205957114'), ('const-417', u'LOAD_-1205957169'), (u'CAST_-1205957026', u'STORE_-1205957220'), (u'INDIRECT_-1205957025', u'COPY_-1205957082'), ('const-417', u'STORE_-1205957280'), (u'INDIRECT_-1205957057', u'COPY_-1205957090'), (u'CAST_-1205956987', u'LOAD_-1205957169'), (u'STORE_-1205957220', u'INDIRECT_-1205957051'), (u'STORE_-1205957220', u'INDIRECT_-1205957086'), (u'STORE_-1205957156', u'INDIRECT_-1205957011'), (u'CALL_-1205957210', u'INDIRECT_-1205957064'), ('const-417', u'LOAD_-1205957187'), ('tmp_634', u'COPY_-1205957176'), ('const-417', u'LOAD_-1205957204'), ('const-101680', u'INT_ADD_-1205957288'), (u'INT_ADD_-1205957165', u'CAST_-1205956996'), (u'INT_ADD_-1205957205', u'CAST_-1205957026'), (u'STORE_-1205957197', u'INDIRECT_-1205957055'), (u'LOAD_-1205957169', u'STORE_-1205957156'), (u'LOAD_-1205957204', u'STORE_-1205957197'), (u'STORE_-1205957174', u'INDIRECT_-1205957017')]
| null | null |
00018d08
|
arm
|
O2
|
(translation_unit "void FUN_00018d08(void)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}\n\n" (function_definition "void FUN_00018d08(void)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" primitive_type (function_declarator "FUN_00018d08(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "undefined4 *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (declaration "undefined4 *puVar6;" type_identifier (pointer_declarator "*puVar6" * identifier) ;) (expression_statement "iVar2 = DAT_00018d9c;" (assignment_expression "iVar2 = DAT_00018d9c" identifier = identifier) ;) (expression_statement "iVar1 = DAT_00018d98;" (assignment_expression "iVar1 = DAT_00018d98" identifier = identifier) ;) (expression_statement "iVar4 = DAT_00018d90 + 0x18d1c;" (assignment_expression "iVar4 = DAT_00018d90 + 0x18d1c" identifier = (binary_expression "DAT_00018d90 + 0x18d1c" identifier + number_literal)) ;) (expression_statement "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);" (assignment_expression "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94)" identifier = (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018d94)" * (cast_expression "(undefined4 **)(iVar4 + DAT_00018d94)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_00018d94)" ( (binary_expression "iVar4 + DAT_00018d94" identifier + identifier) ))))) ;) (expression_statement "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);" (assignment_expression "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30)" identifier = (cast_expression "(undefined4 *)(DAT_00018d98 + 0x18d30)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018d98 + 0x18d30)" ( (binary_expression "DAT_00018d98 + 0x18d30" identifier + number_literal) )))) ;) (expression_statement "*puVar5 = *puVar6;" (assignment_expression "*puVar5 = *puVar6" (pointer_expression "*puVar5" * identifier) = (pointer_expression "*puVar6" * identifier)) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);" (assignment_expression "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2)" (pointer_expression "*(undefined4 *)(iVar1 + 0x18d34)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d34)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d34)" ( (binary_expression "iVar1 + 0x18d34" identifier + number_literal) )))) = (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" * (cast_expression "(undefined4 **)(iVar4 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar2)" ( (binary_expression "iVar4 + iVar2" identifier + identifier) )))))) ;) (expression_statement "FUN_0001870c();" (call_expression "FUN_0001870c()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar2 = DAT_00018da0;" (assignment_expression "iVar2 = DAT_00018da0" identifier = identifier) ;) (expression_statement "*puVar6 = *puVar5;" (assignment_expression "*puVar6 = *puVar5" (pointer_expression "*puVar6" * identifier) = (pointer_expression "*puVar5" * identifier)) ;) (expression_statement "iVar3 = DAT_00018da4;" (assignment_expression "iVar3 = DAT_00018da4" identifier = identifier) ;) (expression_statement "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);" (assignment_expression "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c)" (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" * (cast_expression "(undefined4 **)(iVar4 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar2)" ( (binary_expression "iVar4 + iVar2" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d3c)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d3c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d3c)" ( (binary_expression "iVar1 + 0x18d3c" identifier + number_literal) ))))) ;) (expression_statement "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);" (assignment_expression "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38)" (pointer_expression "**(undefined4 **)(iVar4 + iVar3)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar3)" * (cast_expression "(undefined4 **)(iVar4 + iVar3)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar3)" ( (binary_expression "iVar4 + iVar3" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d38)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d38)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d38)" ( (binary_expression "iVar1 + 0x18d38" identifier + number_literal) ))))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "int rpl_getopt_internal(int argc,char **argv,char *optstring,rpl_option *longopts,int *longind,\n int long_only,int posixly_correct)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n _getopt_data *d;\n int *piVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar5 = DAT_00018d90 + 0x18d1c;\n piVar6 = *(int **)(iVar5 + DAT_00018d94);\n d = (_getopt_data *)(DAT_00018d98 + 0x18d30);\n d->rpl_optind = *piVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2);\n iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);\n iVar2 = DAT_00018da0;\n *piVar6 = d->rpl_optind;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return iVar4;\n}\n\n" (function_definition "int rpl_getopt_internal(int argc,char **argv,char *optstring,rpl_option *longopts,int *longind,\n int long_only,int posixly_correct)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n _getopt_data *d;\n int *piVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar5 = DAT_00018d90 + 0x18d1c;\n piVar6 = *(int **)(iVar5 + DAT_00018d94);\n d = (_getopt_data *)(DAT_00018d98 + 0x18d30);\n d->rpl_optind = *piVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2);\n iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);\n iVar2 = DAT_00018da0;\n *piVar6 = d->rpl_optind;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return iVar4;\n}" primitive_type (function_declarator "rpl_getopt_internal(int argc,char **argv,char *optstring,rpl_option *longopts,int *longind,\n int long_only,int posixly_correct)" identifier (parameter_list "(int argc,char **argv,char *optstring,rpl_option *longopts,int *longind,\n int long_only,int posixly_correct)" ( (parameter_declaration "int argc" primitive_type identifier) , (parameter_declaration "char **argv" primitive_type (pointer_declarator "**argv" * (pointer_declarator "*argv" * identifier))) , (parameter_declaration "char *optstring" primitive_type (pointer_declarator "*optstring" * identifier)) , (parameter_declaration "rpl_option *longopts" type_identifier (pointer_declarator "*longopts" * identifier)) , (parameter_declaration "int *longind" primitive_type (pointer_declarator "*longind" * identifier)) , (parameter_declaration "int long_only" primitive_type identifier) , (parameter_declaration "int posixly_correct" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n int iVar5;\n _getopt_data *d;\n int *piVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar5 = DAT_00018d90 + 0x18d1c;\n piVar6 = *(int **)(iVar5 + DAT_00018d94);\n d = (_getopt_data *)(DAT_00018d98 + 0x18d30);\n d->rpl_optind = *piVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2);\n iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);\n iVar2 = DAT_00018da0;\n *piVar6 = d->rpl_optind;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return iVar4;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "_getopt_data *d;" type_identifier (pointer_declarator "*d" * identifier) ;) (declaration "int *piVar6;" primitive_type (pointer_declarator "*piVar6" * identifier) ;) (expression_statement "iVar2 = DAT_00018d9c;" (assignment_expression "iVar2 = DAT_00018d9c" identifier = identifier) ;) (expression_statement "iVar1 = DAT_00018d98;" (assignment_expression "iVar1 = DAT_00018d98" identifier = identifier) ;) (expression_statement "iVar5 = DAT_00018d90 + 0x18d1c;" (assignment_expression "iVar5 = DAT_00018d90 + 0x18d1c" identifier = (binary_expression "DAT_00018d90 + 0x18d1c" identifier + number_literal)) ;) (expression_statement "piVar6 = *(int **)(iVar5 + DAT_00018d94);" (assignment_expression "piVar6 = *(int **)(iVar5 + DAT_00018d94)" identifier = (pointer_expression "*(int **)(iVar5 + DAT_00018d94)" * (cast_expression "(int **)(iVar5 + DAT_00018d94)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + DAT_00018d94)" ( (binary_expression "iVar5 + DAT_00018d94" identifier + identifier) ))))) ;) (expression_statement "d = (_getopt_data *)(DAT_00018d98 + 0x18d30);" (assignment_expression "d = (_getopt_data *)(DAT_00018d98 + 0x18d30)" identifier = (cast_expression "(_getopt_data *)(DAT_00018d98 + 0x18d30)" ( (type_descriptor "_getopt_data *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018d98 + 0x18d30)" ( (binary_expression "DAT_00018d98 + 0x18d30" identifier + number_literal) )))) ;) (expression_statement "d->rpl_optind = *piVar6;" (assignment_expression "d->rpl_optind = *piVar6" (field_expression "d->rpl_optind" identifier -> field_identifier) = (pointer_expression "*piVar6" * identifier)) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2);" (assignment_expression "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar5 + iVar2)" (pointer_expression "*(undefined4 *)(iVar1 + 0x18d34)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d34)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d34)" ( (binary_expression "iVar1 + 0x18d34" identifier + number_literal) )))) = (pointer_expression "**(undefined4 **)(iVar5 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar5 + iVar2)" * (cast_expression "(undefined4 **)(iVar5 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + iVar2)" ( (binary_expression "iVar5 + iVar2" identifier + identifier) )))))) ;) (expression_statement "iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);" (assignment_expression "iVar4 = _getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct)" identifier = (call_expression "_getopt_internal_r(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct)" identifier (argument_list "(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct)" ( identifier , identifier , identifier , identifier , identifier , identifier , identifier , identifier )))) ;) (expression_statement "iVar2 = DAT_00018da0;" (assignment_expression "iVar2 = DAT_00018da0" identifier = identifier) ;) (expression_statement "*piVar6 = d->rpl_optind;" (assignment_expression "*piVar6 = d->rpl_optind" (pointer_expression "*piVar6" * identifier) = (field_expression "d->rpl_optind" identifier -> field_identifier)) ;) (expression_statement "iVar3 = DAT_00018da4;" (assignment_expression "iVar3 = DAT_00018da4" identifier = identifier) ;) (expression_statement "**(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);" (assignment_expression "**(undefined4 **)(iVar5 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c)" (pointer_expression "**(undefined4 **)(iVar5 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar5 + iVar2)" * (cast_expression "(undefined4 **)(iVar5 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + iVar2)" ( (binary_expression "iVar5 + iVar2" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d3c)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d3c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d3c)" ( (binary_expression "iVar1 + 0x18d3c" identifier + number_literal) ))))) ;) (expression_statement "**(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);" (assignment_expression "**(undefined4 **)(iVar5 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38)" (pointer_expression "**(undefined4 **)(iVar5 + iVar3)" * (pointer_expression "*(undefined4 **)(iVar5 + iVar3)" * (cast_expression "(undefined4 **)(iVar5 + iVar3)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + iVar3)" ( (binary_expression "iVar5 + iVar3" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d38)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d38)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d38)" ( (binary_expression "iVar1 + 0x18d38" identifier + number_literal) ))))) ;) (return_statement "return iVar4;" return identifier ;) })))
|
(translation_unit "void FUN_00018d08(void)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}\n\n" (function_definition "void FUN_00018d08(void)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" primitive_type (function_declarator "FUN_00018d08(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "undefined4 *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (declaration "undefined4 *puVar6;" type_identifier (pointer_declarator "*puVar6" * identifier) ;) (expression_statement "iVar2 = DAT_00018d9c;" (assignment_expression "iVar2 = DAT_00018d9c" identifier = identifier) ;) (expression_statement "iVar1 = DAT_00018d98;" (assignment_expression "iVar1 = DAT_00018d98" identifier = identifier) ;) (expression_statement "iVar4 = DAT_00018d90 + 0x18d1c;" (assignment_expression "iVar4 = DAT_00018d90 + 0x18d1c" identifier = (binary_expression "DAT_00018d90 + 0x18d1c" identifier + number_literal)) ;) (expression_statement "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);" (assignment_expression "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94)" identifier = (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018d94)" * (cast_expression "(undefined4 **)(iVar4 + DAT_00018d94)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + DAT_00018d94)" ( (binary_expression "iVar4 + DAT_00018d94" identifier + identifier) ))))) ;) (expression_statement "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);" (assignment_expression "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30)" identifier = (cast_expression "(undefined4 *)(DAT_00018d98 + 0x18d30)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00018d98 + 0x18d30)" ( (binary_expression "DAT_00018d98 + 0x18d30" identifier + number_literal) )))) ;) (expression_statement "*puVar5 = *puVar6;" (assignment_expression "*puVar5 = *puVar6" (pointer_expression "*puVar5" * identifier) = (pointer_expression "*puVar6" * identifier)) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);" (assignment_expression "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2)" (pointer_expression "*(undefined4 *)(iVar1 + 0x18d34)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d34)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d34)" ( (binary_expression "iVar1 + 0x18d34" identifier + number_literal) )))) = (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" * (cast_expression "(undefined4 **)(iVar4 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar2)" ( (binary_expression "iVar4 + iVar2" identifier + identifier) )))))) ;) (expression_statement "FUN_0001870c();" (call_expression "FUN_0001870c()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar2 = DAT_00018da0;" (assignment_expression "iVar2 = DAT_00018da0" identifier = identifier) ;) (expression_statement "*puVar6 = *puVar5;" (assignment_expression "*puVar6 = *puVar5" (pointer_expression "*puVar6" * identifier) = (pointer_expression "*puVar5" * identifier)) ;) (expression_statement "iVar3 = DAT_00018da4;" (assignment_expression "iVar3 = DAT_00018da4" identifier = identifier) ;) (expression_statement "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);" (assignment_expression "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c)" (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" * (cast_expression "(undefined4 **)(iVar4 + iVar2)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar2)" ( (binary_expression "iVar4 + iVar2" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d3c)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d3c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d3c)" ( (binary_expression "iVar1 + 0x18d3c" identifier + number_literal) ))))) ;) (expression_statement "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);" (assignment_expression "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38)" (pointer_expression "**(undefined4 **)(iVar4 + iVar3)" * (pointer_expression "*(undefined4 **)(iVar4 + iVar3)" * (cast_expression "(undefined4 **)(iVar4 + iVar3)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar4 + iVar3)" ( (binary_expression "iVar4 + iVar3" identifier + identifier) ))))) = (pointer_expression "*(undefined4 *)(iVar1 + 0x18d38)" * (cast_expression "(undefined4 *)(iVar1 + 0x18d38)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18d38)" ( (binary_expression "iVar1 + 0x18d38" identifier + number_literal) ))))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))))) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00018d08(void)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00018d08(void)" (identifier "FUN_00018d08") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n int iVar4;\n undefined4 *puVar5;\n undefined4 *puVar6;\n \n iVar2 = DAT_00018d9c;\n iVar1 = DAT_00018d98;\n iVar4 = DAT_00018d90 + 0x18d1c;\n puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);\n puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);\n *puVar5 = *puVar6;\n *(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);\n FUN_0001870c();\n iVar2 = DAT_00018da0;\n *puVar6 = *puVar5;\n iVar3 = DAT_00018da4;\n **(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);\n **(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);\n return;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "undefined4 *puVar5;" (type_identifier "undefined4") (pointer_declarator "*puVar5" (* "*") (identifier "puVar5")) (; ";")) (declaration "undefined4 *puVar6;" (type_identifier "undefined4") (pointer_declarator "*puVar6" (* "*") (identifier "puVar6")) (; ";")) (expression_statement "iVar2 = DAT_00018d9c;" (assignment_expression "iVar2 = DAT_00018d9c" (identifier "iVar2") (= "=") (identifier "DAT_00018d9c")) (; ";")) (expression_statement "iVar1 = DAT_00018d98;" (assignment_expression "iVar1 = DAT_00018d98" (identifier "iVar1") (= "=") (identifier "DAT_00018d98")) (; ";")) (expression_statement "iVar4 = DAT_00018d90 + 0x18d1c;" (assignment_expression "iVar4 = DAT_00018d90 + 0x18d1c" (identifier "iVar4") (= "=") (binary_expression "DAT_00018d90 + 0x18d1c" (identifier "DAT_00018d90") (+ "+") (number_literal "0x18d1c"))) (; ";")) (expression_statement "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);" (assignment_expression "puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94)" (identifier "puVar6") (= "=") (pointer_expression "*(undefined4 **)(iVar4 + DAT_00018d94)" (* "*") (cast_expression "(undefined4 **)(iVar4 + DAT_00018d94)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + DAT_00018d94)" (( "(") (binary_expression "iVar4 + DAT_00018d94" (identifier "iVar4") (+ "+") (identifier "DAT_00018d94")) () ")"))))) (; ";")) (expression_statement "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);" (assignment_expression "puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30)" (identifier "puVar5") (= "=") (cast_expression "(undefined4 *)(DAT_00018d98 + 0x18d30)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00018d98 + 0x18d30)" (( "(") (binary_expression "DAT_00018d98 + 0x18d30" (identifier "DAT_00018d98") (+ "+") (number_literal "0x18d30")) () ")")))) (; ";")) (expression_statement "*puVar5 = *puVar6;" (assignment_expression "*puVar5 = *puVar6" (pointer_expression "*puVar5" (* "*") (identifier "puVar5")) (= "=") (pointer_expression "*puVar6" (* "*") (identifier "puVar6"))) (; ";")) (expression_statement "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);" (assignment_expression "*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2)" (pointer_expression "*(undefined4 *)(iVar1 + 0x18d34)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x18d34)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x18d34)" (( "(") (binary_expression "iVar1 + 0x18d34" (identifier "iVar1") (+ "+") (number_literal "0x18d34")) () ")")))) (= "=") (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" (* "*") (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" (* "*") (cast_expression "(undefined4 **)(iVar4 + iVar2)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + iVar2)" (( "(") (binary_expression "iVar4 + iVar2" (identifier "iVar4") (+ "+") (identifier "iVar2")) () ")")))))) (; ";")) (expression_statement "FUN_0001870c();" (call_expression "FUN_0001870c()" (identifier "FUN_0001870c") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "iVar2 = DAT_00018da0;" (assignment_expression "iVar2 = DAT_00018da0" (identifier "iVar2") (= "=") (identifier "DAT_00018da0")) (; ";")) (expression_statement "*puVar6 = *puVar5;" (assignment_expression "*puVar6 = *puVar5" (pointer_expression "*puVar6" (* "*") (identifier "puVar6")) (= "=") (pointer_expression "*puVar5" (* "*") (identifier "puVar5"))) (; ";")) (expression_statement "iVar3 = DAT_00018da4;" (assignment_expression "iVar3 = DAT_00018da4" (identifier "iVar3") (= "=") (identifier "DAT_00018da4")) (; ";")) (expression_statement "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);" (assignment_expression "**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c)" (pointer_expression "**(undefined4 **)(iVar4 + iVar2)" (* "*") (pointer_expression "*(undefined4 **)(iVar4 + iVar2)" (* "*") (cast_expression "(undefined4 **)(iVar4 + iVar2)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + iVar2)" (( "(") (binary_expression "iVar4 + iVar2" (identifier "iVar4") (+ "+") (identifier "iVar2")) () ")"))))) (= "=") (pointer_expression "*(undefined4 *)(iVar1 + 0x18d3c)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x18d3c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x18d3c)" (( "(") (binary_expression "iVar1 + 0x18d3c" (identifier "iVar1") (+ "+") (number_literal "0x18d3c")) () ")"))))) (; ";")) (expression_statement "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);" (assignment_expression "**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38)" (pointer_expression "**(undefined4 **)(iVar4 + iVar3)" (* "*") (pointer_expression "*(undefined4 **)(iVar4 + iVar3)" (* "*") (cast_expression "(undefined4 **)(iVar4 + iVar3)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar4 + iVar3)" (( "(") (binary_expression "iVar4 + iVar3" (identifier "iVar4") (+ "+") (identifier "iVar3")) () ")"))))) (= "=") (pointer_expression "*(undefined4 *)(iVar1 + 0x18d38)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x18d38)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x18d38)" (( "(") (binary_expression "iVar1 + 0x18d38" (identifier "iVar1") (+ "+") (number_literal "0x18d38")) () ")"))))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
int function_1(int argc,char **argv,char *optstring,type_1 *longopts,int *longind,
int long_only,int posixly_correct)
{
int var_5;
int var_6;
int var_8;
int iVar4;
int var_2;
type_2 *d;
int *piVar6;
var_6 = DAT_00018d9c;
var_5 = var_4;
var_2 = var_1 + 0x18d1c;
piVar6 = *(int **)(var_2 + var_3);
d = (type_2 *)(var_4 + 0x18d30);
d->rpl_optind = *piVar6;
*(type_3 *)(var_5 + 0x18d34) = **(type_3 **)(var_2 + var_6);
iVar4 = var_7(argc,argv,optstring,longopts,longind,long_only,d,posixly_correct);
var_6 = DAT_00018da0;
*piVar6 = d->rpl_optind;
var_8 = DAT_00018da4;
**(type_3 **)(var_2 + var_6) = *(type_3 *)(var_5 + 0x18d3c);
**(type_3 **)(var_2 + var_8) = *(type_3 *)(var_5 + 0x18d38);
return iVar4;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (return_statement))))
|
void MASKED(void)
{
int iVar1;
int iVar2;
int iVar3;
int iVar4;
undefined4 *puVar5;
undefined4 *puVar6;
iVar2 = DAT_00018d9c;
iVar1 = DAT_00018d98;
iVar4 = DAT_00018d90 + 0x18d1c;
puVar6 = *(undefined4 **)(iVar4 + DAT_00018d94);
puVar5 = (undefined4 *)(DAT_00018d98 + 0x18d30);
*puVar5 = *puVar6;
*(undefined4 *)(iVar1 + 0x18d34) = **(undefined4 **)(iVar4 + iVar2);
FUN_0001870c();
iVar2 = DAT_00018da0;
*puVar6 = *puVar5;
iVar3 = DAT_00018da4;
**(undefined4 **)(iVar4 + iVar2) = *(undefined4 *)(iVar1 + 0x18d3c);
**(undefined4 **)(iVar4 + iVar3) = *(undefined4 *)(iVar1 + 0x18d38);
return;
}
| 17,159 |
||
933_pscp_and_pscp_strip.c
|
seek_file
|
FUN_00069344
|
int seek_file(WFile *f,uint64 offset,int whence)
{
int iVar1;
uint in_r3;
__off64_t _Var2;
undefined4 in_stack_ffffffdc;
uint64 offset_local;
if (in_r3 < 3) {
iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);
_Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);
iVar1 = (int)(_Var2 >> 0x3f);
}
else {
iVar1 = -1;
}
return iVar1;
}
|
int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)
{
int iVar1;
__off64_t _Var2;
undefined4 in_stack_ffffffdc;
if (param_4 < 3) {
iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);
_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);
iVar1 = (int)(_Var2 >> 0x3f);
}
else {
iVar1 = -1;
}
return iVar1;
}
|
stmdb sp!,{r4,r5,r6,r7,lr}
sub sp,sp,#0x14
add r12,sp,#0x10
stmdb r12,{r1,r2}
ldr r2,[sp,#0xc]
mov r6,#0x0
ldr r7,[sp,#0x8]
adds r4,r6,r2
adc r5,r7,#0x0
cmp r3,#0x2
bhi 0x000693a0
ldr r12,[0x693a8]
cpy r1,r3
add r12,pc,r12
ldr r1,[r12,r1,lsl #0x2]
ldr r0,[r0,#0x0]
cpy r2,r4
cpy r3,r5
str r1,[sp,#0x0]
bl 0x00013388
mov r0,r1, asr #0x1f
add sp,sp,#0x14
ldmia sp!,{r4,r5,r6,r7,pc}
mvn r0,#0x0
b 0x00069398
| null | null | null | null |
[('tmp_845', u'MULTIEQUAL_-1206283059'), ('const-417', u'LOAD_-1206283271'), (u'CALL_-1206283244', u'INT_SRIGHT_-1206283069'), (u'SUBPIECE_-1206283179', u'MULTIEQUAL_-1206283110'), (u'LOAD_-1206283277', u'CALL_-1206283244'), ('const-430976', u'INT_ADD_-1206283269'), ('const-4', u'INT_MULT_-1206283249'), (u'MULTIEQUAL_-1206283059', u'COPY_-1206283115'), ('const-417', u'LOAD_-1206283277'), (u'INDIRECT_-1206283068', u'MULTIEQUAL_-1206283059'), (u'CAST_-1206283059', u'LOAD_-1206283277'), (u'INT_ADD_-1206283269', u'INT_ADD_-1206283261'), (u'COPY_-1206283187', u'MULTIEQUAL_-1206283110'), ('tmp_498', u'BRANCH_-1206283175'), ('tmp_842', u'PIECE_-1206283062'), (u'PTRSUB_-1206283055', u'LOAD_-1206283271'), ('tmp_300', u'CBRANCH_-1206283302'), (u'INT_MULT_-1206283249', u'INT_ADD_-1206283261'), ('const-0', u'SUBPIECE_-1206283179'), ('tmp_690', u'INT_MULT_-1206283249'), ('const-4294967295', u'COPY_-1206283187'), (u'INT_LESS_-1206283293', u'CBRANCH_-1206283302'), (u'CALL_-1206283244', u'INDIRECT_-1206283068'), ('tmp_845', u'INT_ADD_-1206283269'), (u'INT_ADD_-1206283261', u'CAST_-1206283059'), ('const-3', u'INT_LESS_-1206283293'), ('const-0', u'PTRSUB_-1206283055'), (u'LOAD_-1206283271', u'CALL_-1206283244'), (u'PIECE_-1206283062', u'CALL_-1206283244'), (u'LOAD_-1206283277', u'PIECE_-1206283062'), (u'INT_SRIGHT_-1206283069', u'SUBPIECE_-1206283179'), ('const-0', u'RETURN_-1206283190'), ('tmp_690', u'INT_LESS_-1206283293'), ('tmp_503', u'PTRSUB_-1206283055'), ('const-63', u'INT_SRIGHT_-1206283069'), (u'MULTIEQUAL_-1206283110', u'RETURN_-1206283190')]
|
[('tmp_688', u'INT_MULT_-1206283249'), (u'SUBPIECE_-1206283179', u'MULTIEQUAL_-1206283110'), (u'LOAD_-1206283277', u'CALL_-1206283244'), (u'INT_SRIGHT_-1206283072', u'SUBPIECE_-1206283179'), (u'CAST_-1206283062', u'LOAD_-1206283277'), ('tmp_834', u'PIECE_-1206283064'), ('const-417', u'LOAD_-1206283277'), (u'MULTIEQUAL_-1206283059', u'COPY_-1206283115'), (u'INDIRECT_-1206283068', u'MULTIEQUAL_-1206283059'), ('tmp_836', u'MULTIEQUAL_-1206283059'), ('const-3', u'INT_LESS_-1206283293'), (u'INT_ADD_-1206283269', u'INT_ADD_-1206283261'), ('const-430976', u'INT_ADD_-1206283269'), (u'PIECE_-1206283064', u'CALL_-1206283244'), (u'COPY_-1206283187', u'MULTIEQUAL_-1206283110'), ('tmp_498', u'BRANCH_-1206283175'), ('const-63', u'INT_SRIGHT_-1206283072'), ('tmp_688', u'INT_LESS_-1206283293'), (u'INT_ADD_-1206283261', u'CAST_-1206283062'), ('tmp_300', u'CBRANCH_-1206283302'), ('tmp_836', u'INT_ADD_-1206283269'), (u'INT_MULT_-1206283249', u'INT_ADD_-1206283261'), ('const-0', u'SUBPIECE_-1206283179'), ('tmp_699', u'LOAD_-1206283271'), (u'LOAD_-1206283277', u'PIECE_-1206283064'), (u'INT_LESS_-1206283293', u'CBRANCH_-1206283302'), ('const-4', u'INT_MULT_-1206283249'), (u'CALL_-1206283244', u'INDIRECT_-1206283068'), (u'LOAD_-1206283271', u'CALL_-1206283244'), ('const-0', u'RETURN_-1206283190'), ('const-4294967295', u'COPY_-1206283187'), ('const-417', u'LOAD_-1206283271'), (u'CALL_-1206283244', u'INT_SRIGHT_-1206283072'), (u'MULTIEQUAL_-1206283110', u'RETURN_-1206283190')]
| null | null |
00069344
|
arm
|
O2
|
(translation_unit "int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)\n\n{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}\n\n" (function_definition "int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)\n\n{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" primitive_type (function_declarator "FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" identifier (parameter_list "(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "uint param_4" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "__off64_t _Var2;" type_identifier identifier ;) (declaration "undefined4 in_stack_ffffffdc;" type_identifier identifier ;) (if_statement "if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }" if (parenthesized_expression "(param_4 < 3)" ( (binary_expression "param_4 < 3" identifier < number_literal) )) (compound_statement "{\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }" { (expression_statement "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);" (assignment_expression "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" identifier = (pointer_expression "*(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" * (cast_expression "(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000693a8 + 0x69380 + param_4 * 4)" ( (binary_expression "DAT_000693a8 + 0x69380 + param_4 * 4" (binary_expression "DAT_000693a8 + 0x69380" identifier + number_literal) + (binary_expression "param_4 * 4" identifier * number_literal)) ))))) ;) (expression_statement "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);" (assignment_expression "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier = (call_expression "lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier (argument_list "(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" ( (pointer_expression "*param_1" * identifier) , (call_expression "CONCAT44(in_stack_ffffffdc,iVar1)" identifier (argument_list "(in_stack_ffffffdc,iVar1)" ( identifier , identifier ))) , identifier )))) ;) (expression_statement "iVar1 = (int)(_Var2 >> 0x3f);" (assignment_expression "iVar1 = (int)(_Var2 >> 0x3f)" identifier = (cast_expression "(int)(_Var2 >> 0x3f)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(_Var2 >> 0x3f)" ( (binary_expression "_Var2 >> 0x3f" identifier >> number_literal) )))) ;) }) (else_clause "else {\n iVar1 = -1;\n }" else (compound_statement "{\n iVar1 = -1;\n }" { (expression_statement "iVar1 = -1;" (assignment_expression "iVar1 = -1" identifier = number_literal) ;) }))) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "int seek_file(WFile *f,uint64 offset,int whence)\n\n{\n int iVar1;\n uint in_r3;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n uint64 offset_local;\n \n if (in_r3 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);\n _Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}\n\n" (function_definition "int seek_file(WFile *f,uint64 offset,int whence)\n\n{\n int iVar1;\n uint in_r3;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n uint64 offset_local;\n \n if (in_r3 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);\n _Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" primitive_type (function_declarator "seek_file(WFile *f,uint64 offset,int whence)" identifier (parameter_list "(WFile *f,uint64 offset,int whence)" ( (parameter_declaration "WFile *f" type_identifier (pointer_declarator "*f" * identifier)) , (parameter_declaration "uint64 offset" type_identifier identifier) , (parameter_declaration "int whence" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n uint in_r3;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n uint64 offset_local;\n \n if (in_r3 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);\n _Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "uint in_r3;" type_identifier identifier ;) (declaration "__off64_t _Var2;" type_identifier identifier ;) (declaration "undefined4 in_stack_ffffffdc;" type_identifier identifier ;) (declaration "uint64 offset_local;" type_identifier identifier ;) (if_statement "if (in_r3 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);\n _Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }" if (parenthesized_expression "(in_r3 < 3)" ( (binary_expression "in_r3 < 3" identifier < number_literal) )) (compound_statement "{\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);\n _Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }" { (expression_statement "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4);" (assignment_expression "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4)" identifier = (pointer_expression "*(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4)" * (cast_expression "(int *)(DAT_000693a8 + 0x69380 + in_r3 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000693a8 + 0x69380 + in_r3 * 4)" ( (binary_expression "DAT_000693a8 + 0x69380 + in_r3 * 4" (binary_expression "DAT_000693a8 + 0x69380" identifier + number_literal) + (binary_expression "in_r3 * 4" identifier * number_literal)) ))))) ;) (expression_statement "_Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);" (assignment_expression "_Var2 = lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier = (call_expression "lseek64(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier (argument_list "(f->fd,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" ( (field_expression "f->fd" identifier -> field_identifier) , (call_expression "CONCAT44(in_stack_ffffffdc,iVar1)" identifier (argument_list "(in_stack_ffffffdc,iVar1)" ( identifier , identifier ))) , identifier )))) ;) (expression_statement "iVar1 = (int)(_Var2 >> 0x3f);" (assignment_expression "iVar1 = (int)(_Var2 >> 0x3f)" identifier = (cast_expression "(int)(_Var2 >> 0x3f)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(_Var2 >> 0x3f)" ( (binary_expression "_Var2 >> 0x3f" identifier >> number_literal) )))) ;) }) (else_clause "else {\n iVar1 = -1;\n }" else (compound_statement "{\n iVar1 = -1;\n }" { (expression_statement "iVar1 = -1;" (assignment_expression "iVar1 = -1" identifier = number_literal) ;) }))) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)\n\n{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}\n\n" (function_definition "int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)\n\n{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" primitive_type (function_declarator "FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" identifier (parameter_list "(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "uint param_4" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "__off64_t _Var2;" type_identifier identifier ;) (declaration "undefined4 in_stack_ffffffdc;" type_identifier identifier ;) (if_statement "if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }" if (parenthesized_expression "(param_4 < 3)" ( (binary_expression "param_4 < 3" identifier < number_literal) )) (compound_statement "{\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }" { (expression_statement "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);" (assignment_expression "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" identifier = (pointer_expression "*(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" * (cast_expression "(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000693a8 + 0x69380 + param_4 * 4)" ( (binary_expression "DAT_000693a8 + 0x69380 + param_4 * 4" (binary_expression "DAT_000693a8 + 0x69380" identifier + number_literal) + (binary_expression "param_4 * 4" identifier * number_literal)) ))))) ;) (expression_statement "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);" (assignment_expression "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier = (call_expression "lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" identifier (argument_list "(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" ( (pointer_expression "*param_1" * identifier) , (call_expression "CONCAT44(in_stack_ffffffdc,iVar1)" identifier (argument_list "(in_stack_ffffffdc,iVar1)" ( identifier , identifier ))) , identifier )))) ;) (expression_statement "iVar1 = (int)(_Var2 >> 0x3f);" (assignment_expression "iVar1 = (int)(_Var2 >> 0x3f)" identifier = (cast_expression "(int)(_Var2 >> 0x3f)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(_Var2 >> 0x3f)" ( (binary_expression "_Var2 >> 0x3f" identifier >> number_literal) )))) ;) }) (else_clause "else {\n iVar1 = -1;\n }" else (compound_statement "{\n iVar1 = -1;\n }" { (expression_statement "iVar1 = -1;" (assignment_expression "iVar1 = -1" identifier = number_literal) ;) }))) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + (binary_expression IDENT * LIT)) ))))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * IDENT) , (call_expression IDENT (argument_list ( IDENT , IDENT ))) , IDENT )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT >> LIT) )))) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (return_statement return IDENT ;) })))
|
(function_definition "int FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)\n\n{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" (primitive_type "int") (function_declarator "FUN_00069344(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" (identifier "FUN_00069344") (parameter_list "(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)" (( "(") (parameter_declaration "int *param_1" (primitive_type "int") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "uint param_4" (type_identifier "uint") (identifier "param_4")) () ")"))) (compound_statement "{\n int iVar1;\n __off64_t _Var2;\n undefined4 in_stack_ffffffdc;\n \n if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "__off64_t _Var2;" (type_identifier "__off64_t") (identifier "_Var2") (; ";")) (declaration "undefined4 in_stack_ffffffdc;" (type_identifier "undefined4") (identifier "in_stack_ffffffdc") (; ";")) (if_statement "if (param_4 < 3) {\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }\n else {\n iVar1 = -1;\n }" (if "if") (parenthesized_expression "(param_4 < 3)" (( "(") (binary_expression "param_4 < 3" (identifier "param_4") (< "<") (number_literal "3")) () ")")) (compound_statement "{\n iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);\n _Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);\n iVar1 = (int)(_Var2 >> 0x3f);\n }" ({ "{") (expression_statement "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);" (assignment_expression "iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" (* "*") (cast_expression "(int *)(DAT_000693a8 + 0x69380 + param_4 * 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000693a8 + 0x69380 + param_4 * 4)" (( "(") (binary_expression "DAT_000693a8 + 0x69380 + param_4 * 4" (binary_expression "DAT_000693a8 + 0x69380" (identifier "DAT_000693a8") (+ "+") (number_literal "0x69380")) (+ "+") (binary_expression "param_4 * 4" (identifier "param_4") (* "*") (number_literal "4"))) () ")"))))) (; ";")) (expression_statement "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);" (assignment_expression "_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" (identifier "_Var2") (= "=") (call_expression "lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" (identifier "lseek64") (argument_list "(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1)" (( "(") (pointer_expression "*param_1" (* "*") (identifier "param_1")) (, ",") (call_expression "CONCAT44(in_stack_ffffffdc,iVar1)" (identifier "CONCAT44") (argument_list "(in_stack_ffffffdc,iVar1)" (( "(") (identifier "in_stack_ffffffdc") (, ",") (identifier "iVar1") () ")"))) (, ",") (identifier "iVar1") () ")")))) (; ";")) (expression_statement "iVar1 = (int)(_Var2 >> 0x3f);" (assignment_expression "iVar1 = (int)(_Var2 >> 0x3f)" (identifier "iVar1") (= "=") (cast_expression "(int)(_Var2 >> 0x3f)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(_Var2 >> 0x3f)" (( "(") (binary_expression "_Var2 >> 0x3f" (identifier "_Var2") (>> ">>") (number_literal "0x3f")) () ")")))) (; ";")) (} "}")) (else_clause "else {\n iVar1 = -1;\n }" (else "else") (compound_statement "{\n iVar1 = -1;\n }" ({ "{") (expression_statement "iVar1 = -1;" (assignment_expression "iVar1 = -1" (identifier "iVar1") (= "=") (number_literal "-1")) (; ";")) (} "}")))) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
int function_1(type_1 *f,type_2 offset,int whence)
{
int iVar1;
type_3 var_1;
type_4 var_5;
type_5 in_stack_ffffffdc;
type_2 offset_local;
if (var_1 < 3) {
iVar1 = *(int *)(var_2 + 0x69380 + var_1 * 4);
var_5 = var_3(f->fd,var_4(in_stack_ffffffdc,iVar1),iVar1);
iVar1 = (int)(var_5 >> 0x3f);
}
else {
iVar1 = -1;
}
return iVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))) (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))))) (return_statement (identifier)))))
|
int MASKED(int *param_1,undefined4 param_2,undefined4 param_3,uint param_4)
{
int iVar1;
__off64_t _Var2;
undefined4 in_stack_ffffffdc;
if (param_4 < 3) {
iVar1 = *(int *)(DAT_000693a8 + 0x69380 + param_4 * 4);
_Var2 = lseek64(*param_1,CONCAT44(in_stack_ffffffdc,iVar1),iVar1);
iVar1 = (int)(_Var2 >> 0x3f);
}
else {
iVar1 = -1;
}
return iVar1;
}
| 48,555 |
||
43_df_and_df_strip.c
|
getenv
|
getenv
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * getenv(char *__name)
{
char *pcVar1;
pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();
return pcVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * getenv(char *__name)
{
char *pcVar1;
pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();
return pcVar1;
}
|
adr r12,0x115e4
add r12,r12,#0x21000
ldr pc,[r12,#0xad0]!
| null | null | null | null |
[(u'INDIRECT_-1205987771', u'COPY_-1205987830'), ('tmp_120', u'CAST_-1205987766'), (u'CALLIND_-1205987841', u'CAST_-1205987765'), (u'CAST_-1205987766', u'CALLIND_-1205987841'), ('const-0', u'RETURN_-1205987838'), (u'CAST_-1205987765', u'RETURN_-1205987838'), (u'CALLIND_-1205987841', u'INDIRECT_-1205987771')]
|
[(u'INDIRECT_-1205987771', u'COPY_-1205987830'), ('tmp_120', u'CAST_-1205987766'), (u'CALLIND_-1205987841', u'CAST_-1205987765'), (u'CAST_-1205987766', u'CALLIND_-1205987841'), ('const-0', u'RETURN_-1205987838'), (u'CAST_-1205987765', u'RETURN_-1205987838'), (u'CALLIND_-1205987841', u'INDIRECT_-1205987771')]
| null | null |
000115dc
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}\n\n" comment (function_definition "char * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" primitive_type (pointer_declarator "* getenv(char *__name)" * (function_declarator "getenv(char *__name)" identifier (parameter_list "(char *__name)" ( (parameter_declaration "char *__name" primitive_type (pointer_declarator "*__name" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (expression_statement "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();" (assignment_expression "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)()" identifier = (cast_expression "(char *)(*(code *)PTR_getenv_000330b4)()" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_getenv_000330b4)()" (parenthesized_expression "(*(code *)PTR_getenv_000330b4)" ( (pointer_expression "*(code *)PTR_getenv_000330b4" * (cast_expression "(code *)PTR_getenv_000330b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}\n\n" comment (function_definition "char * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" primitive_type (pointer_declarator "* getenv(char *__name)" * (function_declarator "getenv(char *__name)" identifier (parameter_list "(char *__name)" ( (parameter_declaration "char *__name" primitive_type (pointer_declarator "*__name" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (expression_statement "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();" (assignment_expression "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)()" identifier = (cast_expression "(char *)(*(code *)PTR_getenv_000330b4)()" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_getenv_000330b4)()" (parenthesized_expression "(*(code *)PTR_getenv_000330b4)" ( (pointer_expression "*(code *)PTR_getenv_000330b4" * (cast_expression "(code *)PTR_getenv_000330b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}\n\n" comment (function_definition "char * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" primitive_type (pointer_declarator "* getenv(char *__name)" * (function_declarator "getenv(char *__name)" identifier (parameter_list "(char *__name)" ( (parameter_declaration "char *__name" primitive_type (pointer_declarator "*__name" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (expression_statement "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();" (assignment_expression "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)()" identifier = (cast_expression "(char *)(*(code *)PTR_getenv_000330b4)()" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_getenv_000330b4)()" (parenthesized_expression "(*(code *)PTR_getenv_000330b4)" ( (pointer_expression "*(code *)PTR_getenv_000330b4" * (cast_expression "(code *)PTR_getenv_000330b4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) )))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "char * getenv(char *__name)\n\n{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" (primitive_type "char") (pointer_declarator "* getenv(char *__name)" (* "*") (function_declarator "getenv(char *__name)" (identifier "getenv") (parameter_list "(char *__name)" (( "(") (parameter_declaration "char *__name" (primitive_type "char") (pointer_declarator "*__name" (* "*") (identifier "__name"))) () ")")))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();\n return pcVar1;\n}" ({ "{") (declaration "char *pcVar1;" (primitive_type "char") (pointer_declarator "*pcVar1" (* "*") (identifier "pcVar1")) (; ";")) (expression_statement "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)();" (assignment_expression "pcVar1 = (char *)(*(code *)PTR_getenv_000330b4)()" (identifier "pcVar1") (= "=") (cast_expression "(char *)(*(code *)PTR_getenv_000330b4)()" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "(*(code *)PTR_getenv_000330b4)()" (parenthesized_expression "(*(code *)PTR_getenv_000330b4)" (( "(") (pointer_expression "*(code *)PTR_getenv_000330b4" (* "*") (cast_expression "(code *)PTR_getenv_000330b4" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_getenv_000330b4"))) () ")")) (argument_list "()" (( "(") () ")"))))) (; ";")) (return_statement "return pcVar1;" (return "return") (identifier "pcVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * function_1(char *__name)
{
char *pcVar1;
pcVar1 = (char *)(*(type_1 *)PTR_getenv_000330b4)();
return pcVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier)))))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * MASKED(char *__name)
{
char *pcVar1;
pcVar1 = (char *)(*(code *)PTR_MASKED_000330b4)();
return pcVar1;
}
| 23,483 |
||
959_libsqlite3.so.0.8_and_libsqlite3.so.0.8_strip.c
|
sqlite3ResetAllSchemasOfConnection
|
FUN_00048e2c
|
void sqlite3ResetAllSchemasOfConnection(sqlite3 *db)
{
Schema *p;
int iVar1;
int iVar2;
if (db->noSharedCache == '\0') {
btreeEnterAll(db);
}
iVar1 = db->nDb;
if (0 < iVar1) {
iVar2 = 0;
LAB_00048e6c:
do {
p = db->aDb[iVar2].pSchema;
if (p != (Schema *)0x0) {
if (db->nSchemaLock == 0) {
sqlite3SchemaClear(p);
iVar1 = db->nDb;
iVar2 = iVar2 + 1;
if (iVar1 <= iVar2) break;
goto LAB_00048e6c;
}
p->schemaFlags = p->schemaFlags | 8;
}
iVar2 = iVar2 + 1;
} while (iVar2 < iVar1);
}
db->mDbFlags = db->mDbFlags & 0xffffffee;
sqlite3VtabUnlockList(db);
if (db->noSharedCache == '\0') {
btreeLeaveAll(db);
}
if (db->nSchemaLock != 0) {
return;
}
sqlite3CollapseDatabaseArray(db);
return;
}
|
void FUN_00048e2c(int param_1)
{
int iVar1;
int iVar2;
int iVar3;
if (*(char *)(param_1 + 0x59) == '\0') {
FUN_000288b0();
}
iVar2 = *(int *)(param_1 + 0x14);
if (0 < iVar2) {
iVar3 = 0;
LAB_00048e6c:
do {
iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);
if (iVar1 != 0) {
if (*(int *)(param_1 + 0x38) == 0) {
FUN_00048ce0();
iVar2 = *(int *)(param_1 + 0x14);
iVar3 = iVar3 + 1;
if (iVar2 <= iVar3) break;
goto LAB_00048e6c;
}
*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;
}
iVar3 = iVar3 + 1;
} while (iVar3 < iVar2);
}
*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;
FUN_0002cc24(param_1);
if (*(char *)(param_1 + 0x59) == '\0') {
FUN_00028928(param_1);
}
if (*(int *)(param_1 + 0x38) != 0) {
return;
}
FUN_0002b7e0(param_1);
return;
}
|
stmdb sp!,{r4,r5,r6,lr}
ldrb r3,[r0,#0x59]
cpy r5,r0
cmp r3,#0x0
beq 0x00048ee4
ldr r2,[r5,#0x14]
cmp r2,#0x0
ble 0x00048ea0
mov r4,#0x0
b 0x00048e6c
ldrh r3,[r0,#0x4e]
orr r3,r3,#0x8
strh r3,[r0,#0x4e]
add r4,r4,#0x1
cmp r2,r4
ble 0x00048ea0
ldr r3,[r5,#0x10]
add r3,r3,r4, lsl #0x4
ldr r0,[r3,#0xc]
cmp r0,#0x0
beq 0x00048e60
ldr r3,[r5,#0x38]
cmp r3,#0x0
bne 0x00048e54
bl 0x00048ce0
ldr r2,[r5,#0x14]
add r4,r4,#0x1
cmp r2,r4
bgt 0x00048e6c
ldr r3,[r5,#0x18]
cpy r0,r5
bic r3,r3,#0x11
str r3,[r5,#0x18]
bl 0x0002cc24
ldrb r3,[r5,#0x59]
cmp r3,#0x0
beq 0x00048ed8
ldr r3,[r5,#0x38]
cmp r3,#0x0
ldmiane sp!,{r4,r5,r6,pc}
cpy r0,r5
ldmia sp!,{r4,r5,r6,lr}
b 0x0002b7e0
cpy r0,r5
bl 0x00028928
b 0x00048ec0
bl 0x000288b0
b 0x00048e40
| null | null | null | null |
[(u'PTRSUB_-1206152874', u'LOAD_-1206153347'), ('const-0', u'INT_SLESS_-1206153593'), (u'PTRSUB_-1206152926', u'LOAD_-1206153463'), ('tmp_773', u'PTRSUB_-1206152926'), (u'INT_NOTEQUAL_-1206153321', u'CBRANCH_-1206153317'), (u'INT_OR_-1206153078', u'STORE_-1206153377'), (u'COPY_-1206153592', u'MULTIEQUAL_-1206153179'), ('const-417', u'LOAD_-1206153419'), ('const-417', u'LOAD_-1206153667'), (u'INT_EQUAL_-1206153476', u'CBRANCH_-1206153472'), ('const-417', u'LOAD_-1206153532'), (u'PTRSUB_-1206152956', u'LOAD_-1206153532'), (u'INT_ADD_-1206153432', u'MULTIEQUAL_-1206153179'), ('const-417', u'LOAD_-1206153630'), (u'INT_ADD_-1206153347', u'INT_SLESS_-1206153331'), (u'LOAD_-1206153501', u'INT_EQUAL_-1206153476'), (u'MULTIEQUAL_-1206153193', u'MULTIEQUAL_-1206153193'), (u'LOAD_-1206153463', u'INT_SLESSEQUAL_-1206153414'), (u'INT_ADD_-1206153432', u'INT_SLESSEQUAL_-1206153414'), ('const-89', u'PTRSUB_-1206152887'), ('const-24', u'PTRSUB_-1206152896'), (u'MULTIEQUAL_-1206153179', u'PTRADD_-1206152958'), (u'LOAD_-1206153463', u'MULTIEQUAL_-1206153193'), (u'INT_SLESS_-1206153593', u'CBRANCH_-1206153600'), (u'INT_ADD_-1206153347', u'MULTIEQUAL_-1206153179'), ('tmp_773', u'CALL_-1206153210'), ('const-0', u'INT_EQUAL_-1206153353'), ('tmp_773', u'PTRSUB_-1206152967'), ('tmp_773', u'CALL_-1206153276'), ('const-1', u'INT_ADD_-1206153432'), (u'PTRSUB_-1206152887', u'LOAD_-1206153379'), ('tmp_773', u'PTRSUB_-1206152874'), ('const-16', u'PTRADD_-1206152958'), (u'PTRSUB_-1206153014', u'LOAD_-1206153630'), (u'PTRSUB_-1206152993', u'LOAD_-1206153402'), (u'PTRSUB_-1206152967', u'LOAD_-1206153552'), (u'LOAD_-1206153552', u'PTRADD_-1206152958'), ('const-8', u'INT_OR_-1206153078'), ('tmp_644', u'BRANCH_-1206153262'), (u'PTRSUB_-1206152943', u'LOAD_-1206153501'), ('tmp_318', u'CBRANCH_-1206153472'), (u'MULTIEQUAL_-1206153193', u'INT_SLESS_-1206153331'), ('tmp_773', u'PTRSUB_-1206152896'), ('tmp_773', u'PTRSUB_-1206152887'), ('const-417', u'LOAD_-1206153463'), ('const-417', u'LOAD_-1206153347'), (u'LOAD_-1206153347', u'INT_NOTEQUAL_-1206153321'), ('const-0', u'RETURN_-1206153272'), (u'INT_SLESSEQUAL_-1206153414', u'CBRANCH_-1206153422'), ('tmp_177', u'BRANCH_-1206153580'), ('tmp_773', u'PTRSUB_-1206152909'), (u'LOAD_-1206153419', u'INT_AND_-1206153376'), (u'PTRSUB_-1206153031', u'LOAD_-1206153667'), ('tmp_769', u'BRANCH_-1206153208'), ('tmp_773', u'PTRSUB_-1206152943'), ('tmp_763', u'CBRANCH_-1206153338'), ('const-0', u'INT_NOTEQUAL_-1206153321'), ('tmp_773', u'CALL_-1206153380'), ('const-89', u'PTRSUB_-1206153031'), (u'LOAD_-1206153667', u'INT_EQUAL_-1206153636'), ('tmp_773', u'PTRSUB_-1206153031'), ('const-56', u'PTRSUB_-1206152943'), (u'PTRSUB_-1206152984', u'STORE_-1206153377'), ('tmp_773', u'PTRSUB_-1206153014'), ('const-417', u'STORE_-1206153390'), ('const-417', u'LOAD_-1206153402'), ('tmp_399', u'CBRANCH_-1206153422'), ('tmp_142', u'CBRANCH_-1206153600'), ('const-0', u'INT_EQUAL_-1206153476'), ('tmp_264', u'CBRANCH_-1206153504'), (u'INT_EQUAL_-1206153636', u'CBRANCH_-1206153633'), ('const-417', u'LOAD_-1206153379'), ('tmp_773', u'CALL_-1206153264'), ('const-56', u'PTRSUB_-1206152874'), ('const-0', u'COPY_-1206153592'), (u'LOAD_-1206153532', u'PTRSUB_-1206152984'), (u'LOAD_-1206153532', u'INT_NOTEQUAL_-1206153506'), ('const-0', u'RETURN_-1206153297'), (u'INT_EQUAL_-1206153353', u'CBRANCH_-1206153350'), (u'LOAD_-1206153630', u'INT_SLESS_-1206153593'), ('const-12', u'PTRSUB_-1206152956'), ('const-417', u'LOAD_-1206153501'), (u'LOAD_-1206153630', u'MULTIEQUAL_-1206153193'), (u'LOAD_-1206153532', u'CALL_-1206153464'), ('const-417', u'STORE_-1206153377'), ('const-78', u'PTRSUB_-1206152984'), ('const-0', u'INT_NOTEQUAL_-1206153506'), (u'PTRADD_-1206152958', u'PTRSUB_-1206152956'), ('const-78', u'PTRSUB_-1206152993'), (u'PTRSUB_-1206152909', u'LOAD_-1206153419'), ('const-20', u'PTRSUB_-1206153014'), (u'INT_NOTEQUAL_-1206153506', u'CBRANCH_-1206153504'), ('tmp_507', u'CBRANCH_-1206153350'), (u'LOAD_-1206153379', u'INT_EQUAL_-1206153353'), ('const-0', u'INT_EQUAL_-1206153636'), (u'MULTIEQUAL_-1206153179', u'INT_ADD_-1206153432'), ('const-16', u'PTRSUB_-1206152967'), ('const-4294967278', u'INT_AND_-1206153376'), (u'LOAD_-1206153532', u'PTRSUB_-1206152993'), ('const-1', u'INT_ADD_-1206153347'), (u'LOAD_-1206153402', u'INT_OR_-1206153078'), ('tmp_563', u'CBRANCH_-1206153317'), ('tmp_84', u'CBRANCH_-1206153633'), ('const-20', u'PTRSUB_-1206152926'), (u'MULTIEQUAL_-1206153179', u'INT_ADD_-1206153347'), (u'INT_AND_-1206153376', u'STORE_-1206153390'), ('const-417', u'LOAD_-1206153552'), (u'INT_SLESS_-1206153331', u'CBRANCH_-1206153338'), ('const-24', u'PTRSUB_-1206152909'), (u'PTRSUB_-1206152896', u'STORE_-1206153390')]
|
[('const-0', u'INT_SLESS_-1206153593'), ('tmp_1592', u'INT_ADD_-1206153363'), ('tmp_1592', u'CALL_-1206153276'), (u'INT_NOTEQUAL_-1206153321', u'CBRANCH_-1206153317'), (u'INT_MULT_-1206153513', u'INT_ADD_-1206153523'), ('const-417', u'STORE_-1206153390'), (u'INT_OR_-1206153078', u'STORE_-1206153377'), (u'CAST_-1206152990', u'LOAD_-1206153402'), ('const-24', u'INT_ADD_-1206153375'), (u'COPY_-1206153592', u'MULTIEQUAL_-1206153179'), ('const-417', u'LOAD_-1206153532'), ('tmp_1592', u'INT_ADD_-1206153331'), ('const-0', u'INT_EQUAL_-1206153476'), (u'INT_EQUAL_-1206153476', u'CBRANCH_-1206153472'), ('const-20', u'INT_ADD_-1206153447'), ('tmp_1592', u'INT_ADD_-1206153403'), (u'INT_ADD_-1206153432', u'MULTIEQUAL_-1206153179'), (u'CAST_-1206152898', u'STORE_-1206153390'), (u'INT_ADD_-1206153347', u'INT_SLESS_-1206153331'), (u'INT_ADD_-1206153614', u'CAST_-1206153014'), (u'LOAD_-1206153501', u'INT_EQUAL_-1206153476'), (u'MULTIEQUAL_-1206153193', u'MULTIEQUAL_-1206153193'), (u'CAST_-1206152889', u'LOAD_-1206153379'), (u'LOAD_-1206153463', u'INT_SLESSEQUAL_-1206153414'), (u'INT_ADD_-1206153432', u'INT_SLESSEQUAL_-1206153414'), ('const-56', u'INT_ADD_-1206153331'), (u'CAST_-1206152981', u'STORE_-1206153377'), (u'LOAD_-1206153463', u'MULTIEQUAL_-1206153193'), ('const-78', u'INT_ADD_-1206153386'), ('const-417', u'STORE_-1206153377'), (u'INT_SLESS_-1206153593', u'CBRANCH_-1206153600'), (u'INT_ADD_-1206153347', u'MULTIEQUAL_-1206153179'), ('tmp_1592', u'CALL_-1206153264'), ('const-417', u'LOAD_-1206153402'), (u'INT_ADD_-1206153363', u'CAST_-1206152889'), ('const-1', u'INT_ADD_-1206153432'), (u'INT_ADD_-1206153651', u'CAST_-1206153031'), ('tmp_1592', u'INT_ADD_-1206153447'), (u'LOAD_-1206153532', u'INT_ADD_-1206153386'), ('const-417', u'LOAD_-1206153463'), (u'INT_ADD_-1206153375', u'CAST_-1206152898'), (u'CAST_-1206153014', u'LOAD_-1206153630'), ('tmp_1592', u'INT_ADD_-1206153375'), (u'CAST_-1206152947', u'LOAD_-1206153501'), ('tmp_1592', u'CALL_-1206153380'), (u'CAST_-1206152960', u'LOAD_-1206153532'), (u'INT_ADD_-1206153403', u'CAST_-1206152911'), ('const-0', u'INT_EQUAL_-1206153353'), ('const-417', u'LOAD_-1206153667'), ('tmp_644', u'BRANCH_-1206153262'), ('const-0', u'INT_NOTEQUAL_-1206153506'), ('tmp_318', u'CBRANCH_-1206153472'), (u'MULTIEQUAL_-1206153193', u'INT_SLESS_-1206153331'), ('const-0', u'INT_EQUAL_-1206153636'), (u'LOAD_-1206153347', u'INT_NOTEQUAL_-1206153321'), ('const-0', u'RETURN_-1206153272'), (u'INT_SLESSEQUAL_-1206153414', u'CBRANCH_-1206153422'), ('tmp_177', u'BRANCH_-1206153580'), (u'CAST_-1206152928', u'LOAD_-1206153463'), (u'LOAD_-1206153419', u'INT_AND_-1206153376'), (u'CAST_-1206153031', u'LOAD_-1206153667'), ('const-16', u'INT_MULT_-1206153513'), ('tmp_769', u'BRANCH_-1206153208'), ('const-78', u'INT_ADD_-1206153363'), ('const-8', u'INT_OR_-1206153078'), ('tmp_763', u'CBRANCH_-1206153338'), (u'CAST_-1206152911', u'LOAD_-1206153419'), (u'LOAD_-1206153667', u'INT_EQUAL_-1206153636'), (u'LOAD_-1206153552', u'INT_ADD_-1206153523'), ('const-417', u'LOAD_-1206153501'), ('tmp_399', u'CBRANCH_-1206153422'), ('tmp_142', u'CBRANCH_-1206153600'), (u'INT_ADD_-1206153485', u'CAST_-1206152947'), (u'CAST_-1206152969', u'LOAD_-1206153552'), ('const-417', u'LOAD_-1206153419'), ('tmp_264', u'CBRANCH_-1206153504'), (u'INT_EQUAL_-1206153636', u'CBRANCH_-1206153633'), ('const-417', u'LOAD_-1206153630'), ('const-0', u'INT_NOTEQUAL_-1206153321'), ('const-0', u'COPY_-1206153592'), ('const-12', u'INT_ADD_-1206153516'), (u'LOAD_-1206153532', u'INT_NOTEQUAL_-1206153506'), ('const-4294967278', u'INT_AND_-1206153376'), ('const-417', u'LOAD_-1206153552'), ('tmp_1592', u'INT_ADD_-1206153651'), ('const-0', u'RETURN_-1206153297'), ('tmp_1592', u'INT_ADD_-1206153614'), (u'INT_EQUAL_-1206153353', u'CBRANCH_-1206153350'), (u'LOAD_-1206153630', u'INT_SLESS_-1206153593'), ('tmp_1592', u'INT_ADD_-1206153536'), ('const-89', u'INT_ADD_-1206153363'), ('const-20', u'INT_ADD_-1206153614'), ('const-16', u'INT_ADD_-1206153536'), (u'MULTIEQUAL_-1206153179', u'INT_MULT_-1206153513'), (u'INT_ADD_-1206153536', u'CAST_-1206152969'), (u'INT_ADD_-1206153331', u'CAST_-1206152876'), (u'LOAD_-1206153630', u'MULTIEQUAL_-1206153193'), (u'INT_ADD_-1206153516', u'CAST_-1206152960'), (u'INT_ADD_-1206153386', u'CAST_-1206152990'), ('const-24', u'INT_ADD_-1206153403'), (u'INT_NOTEQUAL_-1206153506', u'CBRANCH_-1206153504'), ('tmp_507', u'CBRANCH_-1206153350'), ('const-89', u'INT_ADD_-1206153651'), (u'LOAD_-1206153379', u'INT_EQUAL_-1206153353'), (u'MULTIEQUAL_-1206153179', u'INT_ADD_-1206153432'), ('const-1', u'INT_ADD_-1206153347'), (u'LOAD_-1206153532', u'INT_ADD_-1206153363'), (u'INT_ADD_-1206153523', u'INT_ADD_-1206153516'), (u'LOAD_-1206153402', u'INT_OR_-1206153078'), ('tmp_563', u'CBRANCH_-1206153317'), ('const-417', u'LOAD_-1206153347'), ('const-417', u'LOAD_-1206153379'), ('tmp_84', u'CBRANCH_-1206153633'), ('tmp_1592', u'INT_ADD_-1206153485'), (u'MULTIEQUAL_-1206153179', u'INT_ADD_-1206153347'), ('const-56', u'INT_ADD_-1206153485'), (u'INT_AND_-1206153376', u'STORE_-1206153390'), (u'INT_ADD_-1206153363', u'CAST_-1206152981'), (u'INT_SLESS_-1206153331', u'CBRANCH_-1206153338'), (u'CAST_-1206152876', u'LOAD_-1206153347'), (u'INT_ADD_-1206153447', u'CAST_-1206152928')]
| null | null |
00048e2c
|
arm
|
O2
|
(translation_unit "void FUN_00048e2c(int param_1)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}\n\n" (function_definition "void FUN_00048e2c(int param_1)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" primitive_type (function_declarator "FUN_00048e2c(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }" if (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" ( (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" * (cast_expression "(char *)(param_1 + 0x59)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x59)" ( (binary_expression "param_1 + 0x59" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n FUN_000288b0();\n }" { (expression_statement "FUN_000288b0();" (call_expression "FUN_000288b0()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" identifier = (pointer_expression "*(int *)(param_1 + 0x14)" * (cast_expression "(int *)(param_1 + 0x14)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x14)" ( (binary_expression "param_1 + 0x14" identifier + number_literal) ))))) ;) (if_statement "if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" if (parenthesized_expression "(0 < iVar2)" ( (binary_expression "0 < iVar2" number_literal < identifier) )) (compound_statement "{\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" statement_identifier : (do_statement "do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" do (compound_statement "{\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n }" { (expression_statement "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);" (assignment_expression "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" identifier = (pointer_expression "*(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" * (cast_expression "(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" ( (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc" (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) + (binary_expression "iVar3 * 0x10" identifier * number_literal)) + number_literal) ))))) ;) (if_statement "if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" { (if_statement "if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x38) == 0)" ( (binary_expression "*(int *)(param_1 + 0x38) == 0" (pointer_expression "*(int *)(param_1 + 0x38)" * (cast_expression "(int *)(param_1 + 0x38)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x38)" ( (binary_expression "param_1 + 0x38" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" { (expression_statement "FUN_00048ce0();" (call_expression "FUN_00048ce0()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" identifier = (pointer_expression "*(int *)(param_1 + 0x14)" * (cast_expression "(int *)(param_1 + 0x14)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x14)" ( (binary_expression "param_1 + 0x14" identifier + number_literal) ))))) ;) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (if_statement "if (iVar2 <= iVar3) break;" if (parenthesized_expression "(iVar2 <= iVar3)" ( (binary_expression "iVar2 <= iVar3" identifier <= identifier) )) (break_statement "break;" break ;)) (goto_statement "goto LAB_00048e6c;" goto statement_identifier ;) })) (expression_statement "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;" (assignment_expression "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" * (cast_expression "(ushort *)(iVar1 + 0x4e)" ( (type_descriptor "ushort *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x4e)" ( (binary_expression "iVar1 + 0x4e" identifier + number_literal) )))) = (binary_expression "*(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" * (cast_expression "(ushort *)(iVar1 + 0x4e)" ( (type_descriptor "ushort *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x4e)" ( (binary_expression "iVar1 + 0x4e" identifier + number_literal) )))) | number_literal)) ;) })) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 < iVar2)" ( (binary_expression "iVar3 < iVar2" identifier < identifier) )) ;)) })) (expression_statement "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;" (assignment_expression "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" * (cast_expression "(uint *)(param_1 + 0x18)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x18)" ( (binary_expression "param_1 + 0x18" identifier + number_literal) )))) = (binary_expression "*(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" * (cast_expression "(uint *)(param_1 + 0x18)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x18)" ( (binary_expression "param_1 + 0x18" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "FUN_0002cc24(param_1);" (call_expression "FUN_0002cc24(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }" if (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" ( (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" * (cast_expression "(char *)(param_1 + 0x59)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x59)" ( (binary_expression "param_1 + 0x59" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n FUN_00028928(param_1);\n }" { (expression_statement "FUN_00028928(param_1);" (call_expression "FUN_00028928(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) })) (if_statement "if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x38) != 0)" ( (binary_expression "*(int *)(param_1 + 0x38) != 0" (pointer_expression "*(int *)(param_1 + 0x38)" * (cast_expression "(int *)(param_1 + 0x38)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x38)" ( (binary_expression "param_1 + 0x38" identifier + number_literal) )))) != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_0002b7e0(param_1);" (call_expression "FUN_0002b7e0(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void sqlite3ResetAllSchemasOfConnection(sqlite3 *db)\n\n{\n Schema *p;\n int iVar1;\n int iVar2;\n \n if (db->noSharedCache == '\0') {\n btreeEnterAll(db);\n }\n iVar1 = db->nDb;\n if (0 < iVar1) {\n iVar2 = 0;\nLAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);\n }\n db->mDbFlags = db->mDbFlags & 0xffffffee;\n sqlite3VtabUnlockList(db);\n if (db->noSharedCache == '\0') {\n btreeLeaveAll(db);\n }\n if (db->nSchemaLock != 0) {\n return;\n }\n sqlite3CollapseDatabaseArray(db);\n return;\n}\n\n" (function_definition "void sqlite3ResetAllSchemasOfConnection(sqlite3 *db)\n\n{\n Schema *p;\n int iVar1;\n int iVar2;\n \n if (db->noSharedCache == '\0') {\n btreeEnterAll(db);\n }\n iVar1 = db->nDb;\n if (0 < iVar1) {\n iVar2 = 0;\nLAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);\n }\n db->mDbFlags = db->mDbFlags & 0xffffffee;\n sqlite3VtabUnlockList(db);\n if (db->noSharedCache == '\0') {\n btreeLeaveAll(db);\n }\n if (db->nSchemaLock != 0) {\n return;\n }\n sqlite3CollapseDatabaseArray(db);\n return;\n}" primitive_type (function_declarator "sqlite3ResetAllSchemasOfConnection(sqlite3 *db)" identifier (parameter_list "(sqlite3 *db)" ( (parameter_declaration "sqlite3 *db" type_identifier (pointer_declarator "*db" * identifier)) ))) (compound_statement "{\n Schema *p;\n int iVar1;\n int iVar2;\n \n if (db->noSharedCache == '\0') {\n btreeEnterAll(db);\n }\n iVar1 = db->nDb;\n if (0 < iVar1) {\n iVar2 = 0;\nLAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);\n }\n db->mDbFlags = db->mDbFlags & 0xffffffee;\n sqlite3VtabUnlockList(db);\n if (db->noSharedCache == '\0') {\n btreeLeaveAll(db);\n }\n if (db->nSchemaLock != 0) {\n return;\n }\n sqlite3CollapseDatabaseArray(db);\n return;\n}" { (declaration "Schema *p;" type_identifier (pointer_declarator "*p" * identifier) ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (if_statement "if (db->noSharedCache == '\0') {\n btreeEnterAll(db);\n }" if (parenthesized_expression "(db->noSharedCache == '\0')" ( (binary_expression "db->noSharedCache == '\0'" (field_expression "db->noSharedCache" identifier -> field_identifier) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n btreeEnterAll(db);\n }" { (expression_statement "btreeEnterAll(db);" (call_expression "btreeEnterAll(db)" identifier (argument_list "(db)" ( identifier ))) ;) })) (expression_statement "iVar1 = db->nDb;" (assignment_expression "iVar1 = db->nDb" identifier = (field_expression "db->nDb" identifier -> field_identifier)) ;) (if_statement "if (0 < iVar1) {\n iVar2 = 0;\nLAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);\n }" if (parenthesized_expression "(0 < iVar1)" ( (binary_expression "0 < iVar1" number_literal < identifier) )) (compound_statement "{\n iVar2 = 0;\nLAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);\n }" { (expression_statement "iVar2 = 0;" (assignment_expression "iVar2 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00048e6c:\n do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);" statement_identifier : (do_statement "do {\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n } while (iVar2 < iVar1);" do (compound_statement "{\n p = db->aDb[iVar2].pSchema;\n if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }\n iVar2 = iVar2 + 1;\n }" { (expression_statement "p = db->aDb[iVar2].pSchema;" (assignment_expression "p = db->aDb[iVar2].pSchema" identifier = (field_expression "db->aDb[iVar2].pSchema" (subscript_expression "db->aDb[iVar2]" (field_expression "db->aDb" identifier -> field_identifier) [ identifier ]) . field_identifier)) ;) (if_statement "if (p != (Schema *)0x0) {\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }" if (parenthesized_expression "(p != (Schema *)0x0)" ( (binary_expression "p != (Schema *)0x0" identifier != (cast_expression "(Schema *)0x0" ( (type_descriptor "Schema *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }\n p->schemaFlags = p->schemaFlags | 8;\n }" { (if_statement "if (db->nSchemaLock == 0) {\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }" if (parenthesized_expression "(db->nSchemaLock == 0)" ( (binary_expression "db->nSchemaLock == 0" (field_expression "db->nSchemaLock" identifier -> field_identifier) == number_literal) )) (compound_statement "{\n sqlite3SchemaClear(p);\n iVar1 = db->nDb;\n iVar2 = iVar2 + 1;\n if (iVar1 <= iVar2) break;\n goto LAB_00048e6c;\n }" { (expression_statement "sqlite3SchemaClear(p);" (call_expression "sqlite3SchemaClear(p)" identifier (argument_list "(p)" ( identifier ))) ;) (expression_statement "iVar1 = db->nDb;" (assignment_expression "iVar1 = db->nDb" identifier = (field_expression "db->nDb" identifier -> field_identifier)) ;) (expression_statement "iVar2 = iVar2 + 1;" (assignment_expression "iVar2 = iVar2 + 1" identifier = (binary_expression "iVar2 + 1" identifier + number_literal)) ;) (if_statement "if (iVar1 <= iVar2) break;" if (parenthesized_expression "(iVar1 <= iVar2)" ( (binary_expression "iVar1 <= iVar2" identifier <= identifier) )) (break_statement "break;" break ;)) (goto_statement "goto LAB_00048e6c;" goto statement_identifier ;) })) (expression_statement "p->schemaFlags = p->schemaFlags | 8;" (assignment_expression "p->schemaFlags = p->schemaFlags | 8" (field_expression "p->schemaFlags" identifier -> field_identifier) = (binary_expression "p->schemaFlags | 8" (field_expression "p->schemaFlags" identifier -> field_identifier) | number_literal)) ;) })) (expression_statement "iVar2 = iVar2 + 1;" (assignment_expression "iVar2 = iVar2 + 1" identifier = (binary_expression "iVar2 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar2 < iVar1)" ( (binary_expression "iVar2 < iVar1" identifier < identifier) )) ;)) })) (expression_statement "db->mDbFlags = db->mDbFlags & 0xffffffee;" (assignment_expression "db->mDbFlags = db->mDbFlags & 0xffffffee" (field_expression "db->mDbFlags" identifier -> field_identifier) = (binary_expression "db->mDbFlags & 0xffffffee" (field_expression "db->mDbFlags" identifier -> field_identifier) & number_literal)) ;) (expression_statement "sqlite3VtabUnlockList(db);" (call_expression "sqlite3VtabUnlockList(db)" identifier (argument_list "(db)" ( identifier ))) ;) (if_statement "if (db->noSharedCache == '\0') {\n btreeLeaveAll(db);\n }" if (parenthesized_expression "(db->noSharedCache == '\0')" ( (binary_expression "db->noSharedCache == '\0'" (field_expression "db->noSharedCache" identifier -> field_identifier) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n btreeLeaveAll(db);\n }" { (expression_statement "btreeLeaveAll(db);" (call_expression "btreeLeaveAll(db)" identifier (argument_list "(db)" ( identifier ))) ;) })) (if_statement "if (db->nSchemaLock != 0) {\n return;\n }" if (parenthesized_expression "(db->nSchemaLock != 0)" ( (binary_expression "db->nSchemaLock != 0" (field_expression "db->nSchemaLock" identifier -> field_identifier) != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "sqlite3CollapseDatabaseArray(db);" (call_expression "sqlite3CollapseDatabaseArray(db)" identifier (argument_list "(db)" ( identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_00048e2c(int param_1)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}\n\n" (function_definition "void FUN_00048e2c(int param_1)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" primitive_type (function_declarator "FUN_00048e2c(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }" if (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" ( (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" * (cast_expression "(char *)(param_1 + 0x59)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x59)" ( (binary_expression "param_1 + 0x59" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n FUN_000288b0();\n }" { (expression_statement "FUN_000288b0();" (call_expression "FUN_000288b0()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" identifier = (pointer_expression "*(int *)(param_1 + 0x14)" * (cast_expression "(int *)(param_1 + 0x14)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x14)" ( (binary_expression "param_1 + 0x14" identifier + number_literal) ))))) ;) (if_statement "if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" if (parenthesized_expression "(0 < iVar2)" ( (binary_expression "0 < iVar2" number_literal < identifier) )) (compound_statement "{\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" statement_identifier : (do_statement "do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" do (compound_statement "{\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n }" { (expression_statement "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);" (assignment_expression "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" identifier = (pointer_expression "*(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" * (cast_expression "(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" ( (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc" (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) + (binary_expression "iVar3 * 0x10" identifier * number_literal)) + number_literal) ))))) ;) (if_statement "if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" { (if_statement "if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x38) == 0)" ( (binary_expression "*(int *)(param_1 + 0x38) == 0" (pointer_expression "*(int *)(param_1 + 0x38)" * (cast_expression "(int *)(param_1 + 0x38)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x38)" ( (binary_expression "param_1 + 0x38" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" { (expression_statement "FUN_00048ce0();" (call_expression "FUN_00048ce0()" identifier (argument_list "()" ( ))) ;) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" identifier = (pointer_expression "*(int *)(param_1 + 0x14)" * (cast_expression "(int *)(param_1 + 0x14)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x14)" ( (binary_expression "param_1 + 0x14" identifier + number_literal) ))))) ;) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (if_statement "if (iVar2 <= iVar3) break;" if (parenthesized_expression "(iVar2 <= iVar3)" ( (binary_expression "iVar2 <= iVar3" identifier <= identifier) )) (break_statement "break;" break ;)) (goto_statement "goto LAB_00048e6c;" goto statement_identifier ;) })) (expression_statement "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;" (assignment_expression "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" * (cast_expression "(ushort *)(iVar1 + 0x4e)" ( (type_descriptor "ushort *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x4e)" ( (binary_expression "iVar1 + 0x4e" identifier + number_literal) )))) = (binary_expression "*(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" * (cast_expression "(ushort *)(iVar1 + 0x4e)" ( (type_descriptor "ushort *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x4e)" ( (binary_expression "iVar1 + 0x4e" identifier + number_literal) )))) | number_literal)) ;) })) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 < iVar2)" ( (binary_expression "iVar3 < iVar2" identifier < identifier) )) ;)) })) (expression_statement "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;" (assignment_expression "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" * (cast_expression "(uint *)(param_1 + 0x18)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x18)" ( (binary_expression "param_1 + 0x18" identifier + number_literal) )))) = (binary_expression "*(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" * (cast_expression "(uint *)(param_1 + 0x18)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x18)" ( (binary_expression "param_1 + 0x18" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "FUN_0002cc24(param_1);" (call_expression "FUN_0002cc24(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }" if (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" ( (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" * (cast_expression "(char *)(param_1 + 0x59)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x59)" ( (binary_expression "param_1 + 0x59" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n FUN_00028928(param_1);\n }" { (expression_statement "FUN_00028928(param_1);" (call_expression "FUN_00028928(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) })) (if_statement "if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x38) != 0)" ( (binary_expression "*(int *)(param_1 + 0x38) != 0" (pointer_expression "*(int *)(param_1 + 0x38)" * (cast_expression "(int *)(param_1 + 0x38)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x38)" ( (binary_expression "param_1 + 0x38" identifier + number_literal) )))) != number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "FUN_0002b7e0(param_1);" (call_expression "FUN_0002b7e0(param_1)" identifier (argument_list "(param_1)" ( identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (labeled_statement statement_identifier : (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + (binary_expression IDENT * LIT)) + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT <= IDENT) )) (break_statement break ;)) (goto_statement goto statement_identifier ;) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) | LIT)) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT < IDENT) )) ;)) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) != LIT) )) (compound_statement { (return_statement return ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00048e2c(int param_1)\n\n{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" (primitive_type "void") (function_declarator "FUN_00048e2c(int param_1)" (identifier "FUN_00048e2c") (parameter_list "(int param_1)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) () ")"))) (compound_statement "{\n int iVar1;\n int iVar2;\n int iVar3;\n \n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }\n iVar2 = *(int *)(param_1 + 0x14);\n if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }\n *(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;\n FUN_0002cc24(param_1);\n if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }\n if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }\n FUN_0002b7e0(param_1);\n return;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_000288b0();\n }" (if "if") (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" (( "(") (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" (* "*") (cast_expression "(char *)(param_1 + 0x59)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x59)" (( "(") (binary_expression "param_1 + 0x59" (identifier "param_1") (+ "+") (number_literal "0x59")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n FUN_000288b0();\n }" ({ "{") (expression_statement "FUN_000288b0();" (call_expression "FUN_000288b0()" (identifier "FUN_000288b0") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(param_1 + 0x14)" (* "*") (cast_expression "(int *)(param_1 + 0x14)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x14)" (( "(") (binary_expression "param_1 + 0x14" (identifier "param_1") (+ "+") (number_literal "0x14")) () ")"))))) (; ";")) (if_statement "if (0 < iVar2) {\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" (if "if") (parenthesized_expression "(0 < iVar2)" (( "(") (binary_expression "0 < iVar2" (number_literal "0") (< "<") (identifier "iVar2")) () ")")) (compound_statement "{\n iVar3 = 0;\nLAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);\n }" ({ "{") (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" (identifier "iVar3") (= "=") (number_literal "0")) (; ";")) (labeled_statement "LAB_00048e6c:\n do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" (statement_identifier "LAB_00048e6c") (: ":") (do_statement "do {\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar2);" (do "do") (compound_statement "{\n iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);\n if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }\n iVar3 = iVar3 + 1;\n }" ({ "{") (expression_statement "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);" (assignment_expression "iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" (* "*") (cast_expression "(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc)" (( "(") (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc" (binary_expression "*(int *)(param_1 + 0x10) + iVar3 * 0x10" (pointer_expression "*(int *)(param_1 + 0x10)" (* "*") (cast_expression "(int *)(param_1 + 0x10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x10)" (( "(") (binary_expression "param_1 + 0x10" (identifier "param_1") (+ "+") (number_literal "0x10")) () ")")))) (+ "+") (binary_expression "iVar3 * 0x10" (identifier "iVar3") (* "*") (number_literal "0x10"))) (+ "+") (number_literal "0xc")) () ")"))))) (; ";")) (if_statement "if (iVar1 != 0) {\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" (if "if") (parenthesized_expression "(iVar1 != 0)" (( "(") (binary_expression "iVar1 != 0" (identifier "iVar1") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }\n *(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;\n }" ({ "{") (if_statement "if (*(int *)(param_1 + 0x38) == 0) {\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" (if "if") (parenthesized_expression "(*(int *)(param_1 + 0x38) == 0)" (( "(") (binary_expression "*(int *)(param_1 + 0x38) == 0" (pointer_expression "*(int *)(param_1 + 0x38)" (* "*") (cast_expression "(int *)(param_1 + 0x38)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x38)" (( "(") (binary_expression "param_1 + 0x38" (identifier "param_1") (+ "+") (number_literal "0x38")) () ")")))) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n FUN_00048ce0();\n iVar2 = *(int *)(param_1 + 0x14);\n iVar3 = iVar3 + 1;\n if (iVar2 <= iVar3) break;\n goto LAB_00048e6c;\n }" ({ "{") (expression_statement "FUN_00048ce0();" (call_expression "FUN_00048ce0()" (identifier "FUN_00048ce0") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "iVar2 = *(int *)(param_1 + 0x14);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x14)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(param_1 + 0x14)" (* "*") (cast_expression "(int *)(param_1 + 0x14)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x14)" (( "(") (binary_expression "param_1 + 0x14" (identifier "param_1") (+ "+") (number_literal "0x14")) () ")"))))) (; ";")) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 1" (identifier "iVar3") (+ "+") (number_literal "1"))) (; ";")) (if_statement "if (iVar2 <= iVar3) break;" (if "if") (parenthesized_expression "(iVar2 <= iVar3)" (( "(") (binary_expression "iVar2 <= iVar3" (identifier "iVar2") (<= "<=") (identifier "iVar3")) () ")")) (break_statement "break;" (break "break") (; ";"))) (goto_statement "goto LAB_00048e6c;" (goto "goto") (statement_identifier "LAB_00048e6c") (; ";")) (} "}"))) (expression_statement "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;" (assignment_expression "*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" (* "*") (cast_expression "(ushort *)(iVar1 + 0x4e)" (( "(") (type_descriptor "ushort *" (type_identifier "ushort") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x4e)" (( "(") (binary_expression "iVar1 + 0x4e" (identifier "iVar1") (+ "+") (number_literal "0x4e")) () ")")))) (= "=") (binary_expression "*(ushort *)(iVar1 + 0x4e) | 8" (pointer_expression "*(ushort *)(iVar1 + 0x4e)" (* "*") (cast_expression "(ushort *)(iVar1 + 0x4e)" (( "(") (type_descriptor "ushort *" (type_identifier "ushort") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x4e)" (( "(") (binary_expression "iVar1 + 0x4e" (identifier "iVar1") (+ "+") (number_literal "0x4e")) () ")")))) (| "|") (number_literal "8"))) (; ";")) (} "}"))) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 1" (identifier "iVar3") (+ "+") (number_literal "1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar3 < iVar2)" (( "(") (binary_expression "iVar3 < iVar2" (identifier "iVar3") (< "<") (identifier "iVar2")) () ")")) (; ";"))) (} "}"))) (expression_statement "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;" (assignment_expression "*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" (* "*") (cast_expression "(uint *)(param_1 + 0x18)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x18)" (( "(") (binary_expression "param_1 + 0x18" (identifier "param_1") (+ "+") (number_literal "0x18")) () ")")))) (= "=") (binary_expression "*(uint *)(param_1 + 0x18) & 0xffffffee" (pointer_expression "*(uint *)(param_1 + 0x18)" (* "*") (cast_expression "(uint *)(param_1 + 0x18)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x18)" (( "(") (binary_expression "param_1 + 0x18" (identifier "param_1") (+ "+") (number_literal "0x18")) () ")")))) (& "&") (number_literal "0xffffffee"))) (; ";")) (expression_statement "FUN_0002cc24(param_1);" (call_expression "FUN_0002cc24(param_1)" (identifier "FUN_0002cc24") (argument_list "(param_1)" (( "(") (identifier "param_1") () ")"))) (; ";")) (if_statement "if (*(char *)(param_1 + 0x59) == '\0') {\n FUN_00028928(param_1);\n }" (if "if") (parenthesized_expression "(*(char *)(param_1 + 0x59) == '\0')" (( "(") (binary_expression "*(char *)(param_1 + 0x59) == '\0'" (pointer_expression "*(char *)(param_1 + 0x59)" (* "*") (cast_expression "(char *)(param_1 + 0x59)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x59)" (( "(") (binary_expression "param_1 + 0x59" (identifier "param_1") (+ "+") (number_literal "0x59")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n FUN_00028928(param_1);\n }" ({ "{") (expression_statement "FUN_00028928(param_1);" (call_expression "FUN_00028928(param_1)" (identifier "FUN_00028928") (argument_list "(param_1)" (( "(") (identifier "param_1") () ")"))) (; ";")) (} "}"))) (if_statement "if (*(int *)(param_1 + 0x38) != 0) {\n return;\n }" (if "if") (parenthesized_expression "(*(int *)(param_1 + 0x38) != 0)" (( "(") (binary_expression "*(int *)(param_1 + 0x38) != 0" (pointer_expression "*(int *)(param_1 + 0x38)" (* "*") (cast_expression "(int *)(param_1 + 0x38)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x38)" (( "(") (binary_expression "param_1 + 0x38" (identifier "param_1") (+ "+") (number_literal "0x38")) () ")")))) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "FUN_0002b7e0(param_1);" (call_expression "FUN_0002b7e0(param_1)" (identifier "FUN_0002b7e0") (argument_list "(param_1)" (( "(") (identifier "param_1") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(type_1 *db)
{
type_2 *var_3;
int var_2;
int var_5;
if (db->noSharedCache == '\0') {
var_1(db);
}
var_2 = db->nDb;
if (0 < var_2) {
var_5 = 0;
LAB_00048e6c:
do {
var_3 = db->aDb[var_5].pSchema;
if (var_3 != (type_2 *)0x0) {
if (db->nSchemaLock == 0) {
var_4(var_3);
var_2 = db->nDb;
var_5 = var_5 + 1;
if (var_2 <= var_5) break;
goto LAB_00048e6c;
}
var_3->schemaFlags = var_3->schemaFlags | 8;
}
var_5 = var_5 + 1;
} while (var_5 < var_2);
}
db->mDbFlags = db->mDbFlags & 0xffffffee;
var_6(db);
if (db->noSharedCache == '\0') {
var_7(db);
}
if (db->nSchemaLock != 0) {
return;
}
var_8(db);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (labeled_statement label: (statement_identifier) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (break_statement)) (goto_statement label: (statement_identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (return_statement))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (return_statement))))
|
void MASKED(int param_1)
{
int iVar1;
int iVar2;
int iVar3;
if (*(char *)(param_1 + 0x59) == '\0') {
FUN_000288b0();
}
iVar2 = *(int *)(param_1 + 0x14);
if (0 < iVar2) {
iVar3 = 0;
LAB_00048e6c:
do {
iVar1 = *(int *)(*(int *)(param_1 + 0x10) + iVar3 * 0x10 + 0xc);
if (iVar1 != 0) {
if (*(int *)(param_1 + 0x38) == 0) {
FUN_00048ce0();
iVar2 = *(int *)(param_1 + 0x14);
iVar3 = iVar3 + 1;
if (iVar2 <= iVar3) break;
goto LAB_00048e6c;
}
*(ushort *)(iVar1 + 0x4e) = *(ushort *)(iVar1 + 0x4e) | 8;
}
iVar3 = iVar3 + 1;
} while (iVar3 < iVar2);
}
*(uint *)(param_1 + 0x18) = *(uint *)(param_1 + 0x18) & 0xffffffee;
FUN_0002cc24(param_1);
if (*(char *)(param_1 + 0x59) == '\0') {
FUN_00028928(param_1);
}
if (*(int *)(param_1 + 0x38) != 0) {
return;
}
FUN_0002b7e0(param_1);
return;
}
| 68,148 |
||
106_sort_and_sort_strip.c
|
bindtextdomain
|
bindtextdomain
|
void bindtextdomain(void)
{
(*(code *)PTR_bindtextdomain_000391c4)();
return;
}
|
void bindtextdomain(void)
{
(*(code *)PTR_bindtextdomain_000391c4)();
return;
}
|
adr r12,0x11f1c
add r12,r12,#0x27000
ldr pc,[r12,#0x2a8]!
| null | null | null | null |
[('const-0', u'RETURN_-1205985478'), (u'CALLIND_-1205985481', u'INDIRECT_-1205985412'), (u'CAST_-1205985407', u'CALLIND_-1205985481'), (u'INDIRECT_-1205985412', u'COPY_-1205985471'), ('tmp_113', u'CAST_-1205985407')]
|
[('const-0', u'RETURN_-1205985478'), (u'CALLIND_-1205985481', u'INDIRECT_-1205985412'), (u'CAST_-1205985407', u'CALLIND_-1205985481'), (u'INDIRECT_-1205985412', u'COPY_-1205985471'), ('tmp_113', u'CAST_-1205985407')]
| null | null |
00011f14
|
arm
|
O2
|
(translation_unit "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}\n\n" (function_definition "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" primitive_type (function_declarator "bindtextdomain(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" { (expression_statement "(*(code *)PTR_bindtextdomain_000391c4)();" (call_expression "(*(code *)PTR_bindtextdomain_000391c4)()" (parenthesized_expression "(*(code *)PTR_bindtextdomain_000391c4)" ( (pointer_expression "*(code *)PTR_bindtextdomain_000391c4" * (cast_expression "(code *)PTR_bindtextdomain_000391c4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}\n\n" (function_definition "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" primitive_type (function_declarator "bindtextdomain(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" { (expression_statement "(*(code *)PTR_bindtextdomain_000391c4)();" (call_expression "(*(code *)PTR_bindtextdomain_000391c4)()" (parenthesized_expression "(*(code *)PTR_bindtextdomain_000391c4)" ( (pointer_expression "*(code *)PTR_bindtextdomain_000391c4" * (cast_expression "(code *)PTR_bindtextdomain_000391c4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}\n\n" (function_definition "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" primitive_type (function_declarator "bindtextdomain(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" { (expression_statement "(*(code *)PTR_bindtextdomain_000391c4)();" (call_expression "(*(code *)PTR_bindtextdomain_000391c4)()" (parenthesized_expression "(*(code *)PTR_bindtextdomain_000391c4)" ( (pointer_expression "*(code *)PTR_bindtextdomain_000391c4" * (cast_expression "(code *)PTR_bindtextdomain_000391c4" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void bindtextdomain(void)\n\n{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" (primitive_type "void") (function_declarator "bindtextdomain(void)" (identifier "bindtextdomain") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_bindtextdomain_000391c4)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_bindtextdomain_000391c4)();" (call_expression "(*(code *)PTR_bindtextdomain_000391c4)()" (parenthesized_expression "(*(code *)PTR_bindtextdomain_000391c4)" (( "(") (pointer_expression "*(code *)PTR_bindtextdomain_000391c4" (* "*") (cast_expression "(code *)PTR_bindtextdomain_000391c4" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_bindtextdomain_000391c4"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_bindtextdomain_000391c4)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_000391c4)();
return;
}
| 23,897 |
||
55_arm-linux-gnueabi-as_and_arm-linux-gnueabi-as_strip.c
|
bfd_get_section_by_name
|
bfd_get_section_by_name
|
void bfd_get_section_by_name(void)
{
(*(code *)PTR_bfd_get_section_by_name_000c20e0)();
return;
}
|
void bfd_get_section_by_name(void)
{
(*(code *)PTR_bfd_get_section_by_name_000c20e0)();
return;
}
|
adr r12,0x24984
add r12,r12,#0x9d000
ldr pc,[r12,#0x75c]!
| null | null | null | null |
[(u'CALLIND_-1206040161', u'INDIRECT_-1206040092'), ('const-0', u'RETURN_-1206040158'), (u'CAST_-1206040087', u'CALLIND_-1206040161'), (u'INDIRECT_-1206040092', u'COPY_-1206040151'), ('tmp_113', u'CAST_-1206040087')]
|
[(u'CALLIND_-1206040161', u'INDIRECT_-1206040092'), ('const-0', u'RETURN_-1206040158'), (u'CAST_-1206040087', u'CALLIND_-1206040161'), (u'INDIRECT_-1206040092', u'COPY_-1206040151'), ('tmp_113', u'CAST_-1206040087')]
| null | null |
0002497c
|
arm
|
O2
|
(translation_unit "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}\n\n" (function_definition "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" primitive_type (function_declarator "bfd_get_section_by_name(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_section_by_name_000c20e0)();" (call_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)()" (parenthesized_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)" ( (pointer_expression "*(code *)PTR_bfd_get_section_by_name_000c20e0" * (cast_expression "(code *)PTR_bfd_get_section_by_name_000c20e0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}\n\n" (function_definition "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" primitive_type (function_declarator "bfd_get_section_by_name(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_section_by_name_000c20e0)();" (call_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)()" (parenthesized_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)" ( (pointer_expression "*(code *)PTR_bfd_get_section_by_name_000c20e0" * (cast_expression "(code *)PTR_bfd_get_section_by_name_000c20e0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}\n\n" (function_definition "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" primitive_type (function_declarator "bfd_get_section_by_name(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_section_by_name_000c20e0)();" (call_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)()" (parenthesized_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)" ( (pointer_expression "*(code *)PTR_bfd_get_section_by_name_000c20e0" * (cast_expression "(code *)PTR_bfd_get_section_by_name_000c20e0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void bfd_get_section_by_name(void)\n\n{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" (primitive_type "void") (function_declarator "bfd_get_section_by_name(void)" (identifier "bfd_get_section_by_name") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_bfd_get_section_by_name_000c20e0)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_bfd_get_section_by_name_000c20e0)();" (call_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)()" (parenthesized_expression "(*(code *)PTR_bfd_get_section_by_name_000c20e0)" (( "(") (pointer_expression "*(code *)PTR_bfd_get_section_by_name_000c20e0" (* "*") (cast_expression "(code *)PTR_bfd_get_section_by_name_000c20e0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_bfd_get_section_by_name_000c20e0"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_bfd_get_section_by_name_000c20e0)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_000c20e0)();
return;
}
| 76,552 |
||
427_diff_and_diff_strip.c
|
strcmp
|
strcmp
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int strcmp(char *__s1,char *__s2)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strcmp@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int strcmp(char *__s1,char *__s2)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206251462')]
|
[('const-1', u'RETURN_-1206251462')]
| null | null |
00051030
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strcmp@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strcmp@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strcmp@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "strcmp(char *__s1,char *__s2)" identifier (parameter_list "(char *__s1,char *__s2)" ( (parameter_declaration "char *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "char *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int strcmp(char *__s1,char *__s2)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "int") (function_declarator "strcmp(char *__s1,char *__s2)" (identifier "strcmp") (parameter_list "(char *__s1,char *__s2)" (( "(") (parameter_declaration "char *__s1" (primitive_type "char") (pointer_declarator "*__s1" (* "*") (identifier "__s1"))) (, ",") (parameter_declaration "char *__s2" (primitive_type "char") (pointer_declarator "*__s2" (* "*") (identifier "__s2"))) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(char *__s1,char *__s2)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strcmp@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(char *__s1,char *__s2)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 43,001 |
||
2580_openssl_and_openssl_strip.c
|
SRP_VBASE_new
|
SRP_VBASE_new
|
/* WARNING: Control flow encountered bad instruction data */
void SRP_VBASE_new(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* SRP_VBASE_new@@OPENSSL_1_1_0 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void SRP_VBASE_new(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206641026')]
|
[('const-1', u'RETURN_-1206641026')]
| null | null |
000b1e74
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "SRP_VBASE_new(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* SRP_VBASE_new@@OPENSSL_1_1_0 */\n halt_baddata();\n}\n\n" comment (function_definition "void SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* SRP_VBASE_new@@OPENSSL_1_1_0 */\n halt_baddata();\n}" primitive_type (function_declarator "SRP_VBASE_new(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* SRP_VBASE_new@@OPENSSL_1_1_0 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "SRP_VBASE_new(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void SRP_VBASE_new(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "SRP_VBASE_new(void)" (identifier "SRP_VBASE_new") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* SRP_VBASE_new@@OPENSSL_1_1_0 */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 73,969 |
||
262_cp_and_cp_strip.c
|
quotearg_colon
|
FUN_0001fc44
|
char * quotearg_colon(char *arg)
{
char *pcVar1;
pcVar1 = quotearg_char(arg,':');
return pcVar1;
}
|
void FUN_0001fc44(undefined4 param_1)
{
int *piVar1;
undefined4 local_4c;
undefined4 uStack_48;
undefined4 uStack_44;
undefined4 uStack_40;
undefined4 local_3c;
undefined4 uStack_38;
undefined4 uStack_34;
undefined4 uStack_30;
undefined4 local_2c;
undefined4 uStack_28;
undefined4 uStack_24;
undefined4 uStack_20;
int local_1c;
local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);
uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);
uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);
uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);
piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);
local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);
uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);
uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);
uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);
local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);
uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);
uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);
uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);
local_1c = *piVar1;
FUN_0001f764(&local_4c,0x3a,1);
FUN_0001f510(0,param_1,0xffffffff,&local_4c);
if (local_1c == *piVar1) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
ldr r12,[0x1fc2c]
stmdb sp!,{r4,r5,r6,r7,r8,lr}
add r12,pc,r12
add r12,r12,#0x100
cpy r5,r0
cpy r7,r1
cpy r8,r2
ldr r4,[0x1fc30]
ldmia r12!,{r0,r1,r2,r3}
sub sp,sp,#0x38
ldr r6,[0x1fc34]
add r4,pc,r4
add lr,sp,#0x4
ldr r6,[r4,r6]
stmia lr!,{r0,r1,r2,r3}
ldmia r12!,{r0,r1,r2,r3}
stmia lr!,{r0,r1,r2,r3}
ldmia r12,{r0,r1,r2,r3}
add r4,sp,#0x4
stmia lr,{r0,r1,r2,r3}
ldr r3,[r6,#0x0]
cpy r1,r8
mov r2,#0x1
cpy r0,r4
str r3,[sp,#0x34]
bl 0x0001f764
cpy r3,r4
cpy r2,r7
cpy r1,r5
mov r0,#0x0
bl 0x0001f510
ldr r2,[sp,#0x34]
ldr r3,[r6,#0x0]
cmp r2,r3
bne 0x0001fc28
add sp,sp,#0x38
ldmia sp!,{r4,r5,r6,r7,r8,pc}
bl 0x000120e4
cpy r2,r1
mvn r1,#0x0
b 0x0001fb94
mov r1,#0x3a
b 0x0001fc38
| null | null | null | null |
[('const-58', u'CALL_-1205928869'), ('tmp_39', u'CALL_-1205928869'), (u'CALL_-1205928869', u'RETURN_-1205928865'), ('const-0', u'RETURN_-1205928865')]
|
[('const-417', u'LOAD_-1205928968'), (u'CALL_-1205928659', u'INDIRECT_-1205928479'), (u'CALL_-1205928736', u'INDIRECT_-1205928529'), ('tmp_933', u'CALL_-1205928736'), (u'CALL_-1205928659', u'INDIRECT_-1205928514'), (u'CAST_-1205928540', u'LOAD_-1205928906'), (u'CALL_-1205928736', u'INDIRECT_-1205928526'), ('const-130248', u'INT_ADD_-1205928840'), (u'CALL_-1205928773', u'INDIRECT_-1205928523'), ('tmp_1343', u'INT_ADD_-1205928840'), (u'CALL_-1205928736', u'INDIRECT_-1205928553'), (u'CAST_-1205928563', u'LOAD_-1205928964'), (u'CALL_-1205928773', u'INDIRECT_-1205928544'), (u'CALL_-1205928659', u'INDIRECT_-1205928500'), (u'CALL_-1205928773', u'INDIRECT_-1205928538'), (u'CALL_-1205928773', u'INDIRECT_-1205928553'), (u'CALL_-1205928773', u'INDIRECT_-1205928529'), ('const-417', u'LOAD_-1205928852'), (u'CALL_-1205928736', u'INDIRECT_-1205928538'), ('tmp_1343', u'INT_ADD_-1205928838'), (u'CALL_-1205928659', u'INDIRECT_-1205928488'), (u'INT_ADD_-1205928840', u'CAST_-1205928519'), (u'CALL_-1205928659', u'INDIRECT_-1205928482'), (u'CAST_-1205928562', u'LOAD_-1205928962'), ('tmp_1343', u'INT_ADD_-1205928950'), (u'CALL_-1205928736', u'INDIRECT_-1205928514'), ('const-130252', u'INT_ADD_-1205928838'), (u'INDIRECT_-1205928548', u'COPY_-1205928582'), ('tmp_1343', u'INT_ADD_-1205928944'), ('const-129992', u'INT_ADD_-1205928913'), ('const-130220', u'INT_ADD_-1205928948'), ('const-130236', u'INT_ADD_-1205928866'), (u'CAST_-1205928564', u'LOAD_-1205928966'), ('const-417', u'LOAD_-1205928858'), (u'CAST_-1205928518', u'LOAD_-1205928854'), (u'CALL_-1205928659', u'INDIRECT_-1205928503'), (u'CALL_-1205928659', u'INDIRECT_-1205928473'), ('const-417', u'LOAD_-1205928854'), ('tmp_1343', u'INT_ADD_-1205928979'), ('const-58', u'CALL_-1205928773'), (u'INDIRECT_-1205928553', u'COPY_-1205928587'), (u'CALL_-1205928736', u'INDIRECT_-1205928532'), (u'INDIRECT_-1205928519', u'COPY_-1205928577'), ('const-130212', u'INT_ADD_-1205928979'), ('const-4294967220', u'PTRSUB_-1205928524'), (u'CALL_-1205928659', u'INDIRECT_-1205928485'), (u'INT_ADD_-1205928864', u'CAST_-1205928529'), ('const-0', u'RETURN_-1205928662'), ('const-130216', u'INT_ADD_-1205928950'), (u'INT_ADD_-1205928836', u'CAST_-1205928517'), (u'PTRSUB_-1205928524', u'CALL_-1205928773'), ('const-130256', u'INT_ADD_-1205928836'), ('const-130224', u'INT_ADD_-1205928946'), (u'CALL_-1205928659', u'INDIRECT_-1205928509'), (u'PTRSUB_-1205928524', u'CALL_-1205928736'), ('const-130244', u'INT_ADD_-1205928862'), (u'LOAD_-1205928906', u'LOAD_-1205928729'), (u'CALL_-1205928736', u'INDIRECT_-1205928523'), (u'INDIRECT_-1205928514', u'COPY_-1205928572'), (u'INT_ADD_-1205928838', u'CAST_-1205928518'), (u'CALL_-1205928773', u'INDIRECT_-1205928535'), ('const-417', u'LOAD_-1205928886'), ('tmp_1343', u'INT_ADD_-1205928864'), ('const-1', u'RETURN_-1205928654'), (u'LOAD_-1205928729', u'INT_EQUAL_-1205928710'), ('const-417', u'LOAD_-1205928816'), (u'LOAD_-1205928906', u'LOAD_-1205928816'), (u'CALL_-1205928659', u'INDIRECT_-1205928491'), (u'CALL_-1205928773', u'INDIRECT_-1205928526'), (u'CALL_-1205928773', u'INDIRECT_-1205928569'), (u'CALL_-1205928659', u'INDIRECT_-1205928476'), (u'CALL_-1205928736', u'INDIRECT_-1205928517'), (u'CALL_-1205928773', u'INDIRECT_-1205928564'), (u'CAST_-1205928528', u'LOAD_-1205928858'), (u'CALL_-1205928736', u'INDIRECT_-1205928535'), (u'CALL_-1205928659', u'INDIRECT_-1205928524'), ('const-0', u'CALL_-1205928736'), (u'CALL_-1205928659', u'INDIRECT_-1205928506'), (u'CAST_-1205928529', u'LOAD_-1205928880'), ('const-130240', u'INT_ADD_-1205928864'), (u'INT_ADD_-1205928946', u'CAST_-1205928562'), ('tmp_1343', u'INT_ADD_-1205928836'), ('tmp_1343', u'INT_ADD_-1205928868'), ('const-417', u'LOAD_-1205928966'), ('const-417', u'LOAD_-1205928884'), (u'CAST_-1205928517', u'LOAD_-1205928852'), (u'CALL_-1205928659', u'INDIRECT_-1205928497'), (u'INT_ADD_-1205928862', u'CAST_-1205928528'), ('const-417', u'LOAD_-1205928906'), ('const-417', u'LOAD_-1205928880'), ('tmp_1345', u'INT_ADD_-1205928890'), (u'CALL_-1205928659', u'INDIRECT_-1205928494'), (u'CAST_-1205928530', u'LOAD_-1205928882'), (u'INDIRECT_-1205928502', u'INT_EQUAL_-1205928710'), ('const-1', u'CALL_-1205928773'), (u'INT_ADD_-1205928944', u'CAST_-1205928561'), (u'CALL_-1205928736', u'INDIRECT_-1205928548'), (u'CALL_-1205928736', u'INDIRECT_-1205928502'), (u'CALL_-1205928773', u'INDIRECT_-1205928574'), ('tmp_1343', u'INT_ADD_-1205928862'), (u'CALL_-1205928773', u'INDIRECT_-1205928559'), (u'CALL_-1205928773', u'INDIRECT_-1205928532'), (u'INT_ADD_-1205928979', u'CAST_-1205928585'), (u'CALL_-1205928736', u'INDIRECT_-1205928505'), (u'CALL_-1205928773', u'INDIRECT_-1205928550'), (u'CALL_-1205928773', u'INDIRECT_-1205928556'), ('const-417', u'LOAD_-1205928964'), ('const-417', u'LOAD_-1205928856'), ('const-417', u'LOAD_-1205928729'), (u'INT_ADD_-1205928890', u'CAST_-1205928540'), (u'CAST_-1205928519', u'LOAD_-1205928856'), ('const-130232', u'INT_ADD_-1205928868'), (u'INDIRECT_-1205928524', u'COPY_-1205928582'), ('tmp_1343', u'INT_ADD_-1205928948'), (u'CALL_-1205928773', u'INDIRECT_-1205928541'), (u'INT_ADD_-1205928948', u'CAST_-1205928563'), ('tmp_1343', u'INT_ADD_-1205928946'), (u'CAST_-1205928585', u'LOAD_-1205928968'), ('const-417', u'LOAD_-1205928882'), (u'CALL_-1205928773', u'INDIRECT_-1205928547'), (u'INT_ADD_-1205928868', u'CAST_-1205928531'), ('tmp_926', u'PTRSUB_-1205928524'), ('tmp_1344', u'INT_ADD_-1205928913'), (u'INT_ADD_-1205928866', u'CAST_-1205928530'), (u'CALL_-1205928736', u'INDIRECT_-1205928543'), ('tmp_616', u'CBRANCH_-1205928706'), ('const-130228', u'INT_ADD_-1205928944'), ('const-4294967295', u'CALL_-1205928736'), (u'INDIRECT_-1205928543', u'COPY_-1205928577'), (u'INT_EQUAL_-1205928710', u'CBRANCH_-1205928706'), (u'INT_ADD_-1205928913', u'INT_ADD_-1205928890'), (u'INT_ADD_-1205928950', u'CAST_-1205928564'), ('tmp_1343', u'INT_ADD_-1205928866'), ('const-417', u'LOAD_-1205928962'), (u'CAST_-1205928531', u'LOAD_-1205928884'), (u'CALL_-1205928659', u'INDIRECT_-1205928519'), (u'CAST_-1205928561', u'LOAD_-1205928886'), (u'CALL_-1205928736', u'INDIRECT_-1205928508'), (u'CALL_-1205928736', u'INDIRECT_-1205928511'), (u'CALL_-1205928736', u'INDIRECT_-1205928520')]
| null | null |
0001fc44
|
arm
|
O2
|
(translation_unit "void FUN_0001fc44(undefined4 param_1)\n\n{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "void FUN_0001fc44(undefined4 param_1)\n\n{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "FUN_0001fc44(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "undefined4 local_4c;" type_identifier identifier ;) (declaration "undefined4 uStack_48;" type_identifier identifier ;) (declaration "undefined4 uStack_44;" type_identifier identifier ;) (declaration "undefined4 uStack_40;" type_identifier identifier ;) (declaration "undefined4 local_3c;" type_identifier identifier ;) (declaration "undefined4 uStack_38;" type_identifier identifier ;) (declaration "undefined4 uStack_34;" type_identifier identifier ;) (declaration "undefined4 uStack_30;" type_identifier identifier ;) (declaration "undefined4 local_2c;" type_identifier identifier ;) (declaration "undefined4 uStack_28;" type_identifier identifier ;) (declaration "undefined4 uStack_24;" type_identifier identifier ;) (declaration "undefined4 uStack_20;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);" (assignment_expression "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fca4)" ( (binary_expression "DAT_0001fc2c + 0x1fca4" identifier + number_literal) ))))) ;) (expression_statement "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);" (assignment_expression "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fca8)" ( (binary_expression "DAT_0001fc2c + 0x1fca8" identifier + number_literal) ))))) ;) (expression_statement "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);" (assignment_expression "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcac)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcac)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcac)" ( (binary_expression "DAT_0001fc2c + 0x1fcac" identifier + number_literal) ))))) ;) (expression_statement "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);" (assignment_expression "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb0)" ( (binary_expression "DAT_0001fc2c + 0x1fcb0" identifier + number_literal) ))))) ;) (expression_statement "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);" (assignment_expression "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" identifier = (pointer_expression "*(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" * (cast_expression "(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" ( (binary_expression "DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34" (binary_expression "DAT_0001fc30 + 0x1fbc8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);" (assignment_expression "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb4)" ( (binary_expression "DAT_0001fc2c + 0x1fcb4" identifier + number_literal) ))))) ;) (expression_statement "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);" (assignment_expression "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb8)" ( (binary_expression "DAT_0001fc2c + 0x1fcb8" identifier + number_literal) ))))) ;) (expression_statement "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);" (assignment_expression "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcbc)" ( (binary_expression "DAT_0001fc2c + 0x1fcbc" identifier + number_literal) ))))) ;) (expression_statement "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);" (assignment_expression "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc0)" ( (binary_expression "DAT_0001fc2c + 0x1fcc0" identifier + number_literal) ))))) ;) (expression_statement "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);" (assignment_expression "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc4)" ( (binary_expression "DAT_0001fc2c + 0x1fcc4" identifier + number_literal) ))))) ;) (expression_statement "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);" (assignment_expression "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc8)" ( (binary_expression "DAT_0001fc2c + 0x1fcc8" identifier + number_literal) ))))) ;) (expression_statement "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);" (assignment_expression "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fccc)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fccc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fccc)" ( (binary_expression "DAT_0001fc2c + 0x1fccc" identifier + number_literal) ))))) ;) (expression_statement "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);" (assignment_expression "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcd0)" ( (binary_expression "DAT_0001fc2c + 0x1fcd0" identifier + number_literal) ))))) ;) (expression_statement "local_1c = *piVar1;" (assignment_expression "local_1c = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (expression_statement "FUN_0001f764(&local_4c,0x3a,1);" (call_expression "FUN_0001f764(&local_4c,0x3a,1)" identifier (argument_list "(&local_4c,0x3a,1)" ( (pointer_expression "&local_4c" & identifier) , number_literal , number_literal ))) ;) (expression_statement "FUN_0001f510(0,param_1,0xffffffff,&local_4c);" (call_expression "FUN_0001f510(0,param_1,0xffffffff,&local_4c)" identifier (argument_list "(0,param_1,0xffffffff,&local_4c)" ( number_literal , identifier , number_literal , (pointer_expression "&local_4c" & identifier) ))) ;) (if_statement "if (local_1c == *piVar1) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar1)" ( (binary_expression "local_1c == *piVar1" identifier == (pointer_expression "*piVar1" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "char * quotearg_colon(char *arg)\n\n{\n char *pcVar1;\n \n pcVar1 = quotearg_char(arg,':');\n return pcVar1;\n}\n\n" (function_definition "char * quotearg_colon(char *arg)\n\n{\n char *pcVar1;\n \n pcVar1 = quotearg_char(arg,':');\n return pcVar1;\n}" primitive_type (pointer_declarator "* quotearg_colon(char *arg)" * (function_declarator "quotearg_colon(char *arg)" identifier (parameter_list "(char *arg)" ( (parameter_declaration "char *arg" primitive_type (pointer_declarator "*arg" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n \n pcVar1 = quotearg_char(arg,':');\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (expression_statement "pcVar1 = quotearg_char(arg,':');" (assignment_expression "pcVar1 = quotearg_char(arg,':')" identifier = (call_expression "quotearg_char(arg,':')" identifier (argument_list "(arg,':')" ( identifier , (char_literal "':'" ' character ') )))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit "void FUN_0001fc44(undefined4 param_1)\n\n{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "void FUN_0001fc44(undefined4 param_1)\n\n{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "FUN_0001fc44(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "undefined4 local_4c;" type_identifier identifier ;) (declaration "undefined4 uStack_48;" type_identifier identifier ;) (declaration "undefined4 uStack_44;" type_identifier identifier ;) (declaration "undefined4 uStack_40;" type_identifier identifier ;) (declaration "undefined4 local_3c;" type_identifier identifier ;) (declaration "undefined4 uStack_38;" type_identifier identifier ;) (declaration "undefined4 uStack_34;" type_identifier identifier ;) (declaration "undefined4 uStack_30;" type_identifier identifier ;) (declaration "undefined4 local_2c;" type_identifier identifier ;) (declaration "undefined4 uStack_28;" type_identifier identifier ;) (declaration "undefined4 uStack_24;" type_identifier identifier ;) (declaration "undefined4 uStack_20;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);" (assignment_expression "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fca4)" ( (binary_expression "DAT_0001fc2c + 0x1fca4" identifier + number_literal) ))))) ;) (expression_statement "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);" (assignment_expression "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fca8)" ( (binary_expression "DAT_0001fc2c + 0x1fca8" identifier + number_literal) ))))) ;) (expression_statement "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);" (assignment_expression "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcac)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcac)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcac)" ( (binary_expression "DAT_0001fc2c + 0x1fcac" identifier + number_literal) ))))) ;) (expression_statement "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);" (assignment_expression "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb0)" ( (binary_expression "DAT_0001fc2c + 0x1fcb0" identifier + number_literal) ))))) ;) (expression_statement "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);" (assignment_expression "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" identifier = (pointer_expression "*(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" * (cast_expression "(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" ( (binary_expression "DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34" (binary_expression "DAT_0001fc30 + 0x1fbc8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);" (assignment_expression "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb4)" ( (binary_expression "DAT_0001fc2c + 0x1fcb4" identifier + number_literal) ))))) ;) (expression_statement "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);" (assignment_expression "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcb8)" ( (binary_expression "DAT_0001fc2c + 0x1fcb8" identifier + number_literal) ))))) ;) (expression_statement "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);" (assignment_expression "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcbc)" ( (binary_expression "DAT_0001fc2c + 0x1fcbc" identifier + number_literal) ))))) ;) (expression_statement "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);" (assignment_expression "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc0)" ( (binary_expression "DAT_0001fc2c + 0x1fcc0" identifier + number_literal) ))))) ;) (expression_statement "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);" (assignment_expression "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc4)" ( (binary_expression "DAT_0001fc2c + 0x1fcc4" identifier + number_literal) ))))) ;) (expression_statement "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);" (assignment_expression "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcc8)" ( (binary_expression "DAT_0001fc2c + 0x1fcc8" identifier + number_literal) ))))) ;) (expression_statement "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);" (assignment_expression "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fccc)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fccc)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fccc)" ( (binary_expression "DAT_0001fc2c + 0x1fccc" identifier + number_literal) ))))) ;) (expression_statement "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);" (assignment_expression "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" * (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001fc2c + 0x1fcd0)" ( (binary_expression "DAT_0001fc2c + 0x1fcd0" identifier + number_literal) ))))) ;) (expression_statement "local_1c = *piVar1;" (assignment_expression "local_1c = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (expression_statement "FUN_0001f764(&local_4c,0x3a,1);" (call_expression "FUN_0001f764(&local_4c,0x3a,1)" identifier (argument_list "(&local_4c,0x3a,1)" ( (pointer_expression "&local_4c" & identifier) , number_literal , number_literal ))) ;) (expression_statement "FUN_0001f510(0,param_1,0xffffffff,&local_4c);" (call_expression "FUN_0001f510(0,param_1,0xffffffff,&local_4c)" identifier (argument_list "(0,param_1,0xffffffff,&local_4c)" ( number_literal , identifier , number_literal , (pointer_expression "&local_4c" & identifier) ))) ;) (if_statement "if (local_1c == *piVar1) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar1)" ( (binary_expression "local_1c == *piVar1" identifier == (pointer_expression "*piVar1" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (call_expression IDENT (argument_list ( (pointer_expression & IDENT) , LIT , LIT ))) ;) (expression_statement (call_expression IDENT (argument_list ( LIT , IDENT , LIT , (pointer_expression & IDENT) ))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (pointer_expression * IDENT)) )) (compound_statement { (return_statement return ;) })) comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(function_definition "void FUN_0001fc44(undefined4 param_1)\n\n{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" (primitive_type "void") (function_declarator "FUN_0001fc44(undefined4 param_1)" (identifier "FUN_0001fc44") (parameter_list "(undefined4 param_1)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) () ")"))) (compound_statement "{\n int *piVar1;\n undefined4 local_4c;\n undefined4 uStack_48;\n undefined4 uStack_44;\n undefined4 uStack_40;\n undefined4 local_3c;\n undefined4 uStack_38;\n undefined4 uStack_34;\n undefined4 uStack_30;\n undefined4 local_2c;\n undefined4 uStack_28;\n undefined4 uStack_24;\n undefined4 uStack_20;\n int local_1c;\n \n local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);\n uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);\n uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);\n uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);\n piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);\n local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);\n uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);\n uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);\n uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);\n local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);\n uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);\n uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);\n uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);\n local_1c = *piVar1;\n FUN_0001f764(&local_4c,0x3a,1);\n FUN_0001f510(0,param_1,0xffffffff,&local_4c);\n if (local_1c == *piVar1) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (declaration "undefined4 local_4c;" (type_identifier "undefined4") (identifier "local_4c") (; ";")) (declaration "undefined4 uStack_48;" (type_identifier "undefined4") (identifier "uStack_48") (; ";")) (declaration "undefined4 uStack_44;" (type_identifier "undefined4") (identifier "uStack_44") (; ";")) (declaration "undefined4 uStack_40;" (type_identifier "undefined4") (identifier "uStack_40") (; ";")) (declaration "undefined4 local_3c;" (type_identifier "undefined4") (identifier "local_3c") (; ";")) (declaration "undefined4 uStack_38;" (type_identifier "undefined4") (identifier "uStack_38") (; ";")) (declaration "undefined4 uStack_34;" (type_identifier "undefined4") (identifier "uStack_34") (; ";")) (declaration "undefined4 uStack_30;" (type_identifier "undefined4") (identifier "uStack_30") (; ";")) (declaration "undefined4 local_2c;" (type_identifier "undefined4") (identifier "local_2c") (; ";")) (declaration "undefined4 uStack_28;" (type_identifier "undefined4") (identifier "uStack_28") (; ";")) (declaration "undefined4 uStack_24;" (type_identifier "undefined4") (identifier "uStack_24") (; ";")) (declaration "undefined4 uStack_20;" (type_identifier "undefined4") (identifier "uStack_20") (; ";")) (declaration "int local_1c;" (primitive_type "int") (identifier "local_1c") (; ";")) (expression_statement "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);" (assignment_expression "local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4)" (identifier "local_4c") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca4)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fca4)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fca4" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fca4")) () ")"))))) (; ";")) (expression_statement "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);" (assignment_expression "uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8)" (identifier "uStack_48") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fca8)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fca8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fca8)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fca8" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fca8")) () ")"))))) (; ";")) (expression_statement "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);" (assignment_expression "uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac)" (identifier "uStack_44") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcac)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcac)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcac)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcac" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcac")) () ")"))))) (; ";")) (expression_statement "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);" (assignment_expression "uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" (identifier "uStack_40") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb0)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcb0)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcb0" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcb0")) () ")"))))) (; ";")) (expression_statement "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);" (assignment_expression "piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" (identifier "piVar1") (= "=") (pointer_expression "*(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" (* "*") (cast_expression "(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34)" (( "(") (binary_expression "DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34" (binary_expression "DAT_0001fc30 + 0x1fbc8" (identifier "DAT_0001fc30") (+ "+") (number_literal "0x1fbc8")) (+ "+") (identifier "DAT_0001fc34")) () ")"))))) (; ";")) (expression_statement "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);" (assignment_expression "local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" (identifier "local_3c") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcb4)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcb4" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcb4")) () ")"))))) (; ";")) (expression_statement "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);" (assignment_expression "uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" (identifier "uStack_38") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcb8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcb8)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcb8" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcb8")) () ")"))))) (; ";")) (expression_statement "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);" (assignment_expression "uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" (identifier "uStack_34") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcbc)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcbc)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcbc" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcbc")) () ")"))))) (; ";")) (expression_statement "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);" (assignment_expression "uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" (identifier "uStack_30") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc0)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcc0)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcc0" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcc0")) () ")"))))) (; ";")) (expression_statement "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);" (assignment_expression "local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" (identifier "local_2c") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcc4)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcc4" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcc4")) () ")"))))) (; ";")) (expression_statement "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);" (assignment_expression "uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" (identifier "uStack_28") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcc8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcc8)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcc8" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcc8")) () ")"))))) (; ";")) (expression_statement "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);" (assignment_expression "uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc)" (identifier "uStack_24") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fccc)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fccc)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fccc)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fccc" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fccc")) () ")"))))) (; ";")) (expression_statement "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);" (assignment_expression "uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" (identifier "uStack_20") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" (* "*") (cast_expression "(undefined4 *)(DAT_0001fc2c + 0x1fcd0)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001fc2c + 0x1fcd0)" (( "(") (binary_expression "DAT_0001fc2c + 0x1fcd0" (identifier "DAT_0001fc2c") (+ "+") (number_literal "0x1fcd0")) () ")"))))) (; ";")) (expression_statement "local_1c = *piVar1;" (assignment_expression "local_1c = *piVar1" (identifier "local_1c") (= "=") (pointer_expression "*piVar1" (* "*") (identifier "piVar1"))) (; ";")) (expression_statement "FUN_0001f764(&local_4c,0x3a,1);" (call_expression "FUN_0001f764(&local_4c,0x3a,1)" (identifier "FUN_0001f764") (argument_list "(&local_4c,0x3a,1)" (( "(") (pointer_expression "&local_4c" (& "&") (identifier "local_4c")) (, ",") (number_literal "0x3a") (, ",") (number_literal "1") () ")"))) (; ";")) (expression_statement "FUN_0001f510(0,param_1,0xffffffff,&local_4c);" (call_expression "FUN_0001f510(0,param_1,0xffffffff,&local_4c)" (identifier "FUN_0001f510") (argument_list "(0,param_1,0xffffffff,&local_4c)" (( "(") (number_literal "0") (, ",") (identifier "param_1") (, ",") (number_literal "0xffffffff") (, ",") (pointer_expression "&local_4c" (& "&") (identifier "local_4c")) () ")"))) (; ";")) (if_statement "if (local_1c == *piVar1) {\n return;\n }" (if "if") (parenthesized_expression "(local_1c == *piVar1)" (( "(") (binary_expression "local_1c == *piVar1" (identifier "local_1c") (== "==") (pointer_expression "*piVar1" (* "*") (identifier "piVar1"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" (identifier "__stack_chk_fail") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
char * function_1(char *arg)
{
char *pcVar1;
pcVar1 = var_1(arg,':');
return pcVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (number_literal) (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal) (pointer_expression argument: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (return_statement))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
void MASKED(undefined4 param_1)
{
int *piVar1;
undefined4 local_4c;
undefined4 uStack_48;
undefined4 uStack_44;
undefined4 uStack_40;
undefined4 local_3c;
undefined4 uStack_38;
undefined4 uStack_34;
undefined4 uStack_30;
undefined4 local_2c;
undefined4 uStack_28;
undefined4 uStack_24;
undefined4 uStack_20;
int local_1c;
local_4c = *(undefined4 *)(DAT_0001fc2c + 0x1fca4);
uStack_48 = *(undefined4 *)(DAT_0001fc2c + 0x1fca8);
uStack_44 = *(undefined4 *)(DAT_0001fc2c + 0x1fcac);
uStack_40 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb0);
piVar1 = *(int **)(DAT_0001fc30 + 0x1fbc8 + DAT_0001fc34);
local_3c = *(undefined4 *)(DAT_0001fc2c + 0x1fcb4);
uStack_38 = *(undefined4 *)(DAT_0001fc2c + 0x1fcb8);
uStack_34 = *(undefined4 *)(DAT_0001fc2c + 0x1fcbc);
uStack_30 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc0);
local_2c = *(undefined4 *)(DAT_0001fc2c + 0x1fcc4);
uStack_28 = *(undefined4 *)(DAT_0001fc2c + 0x1fcc8);
uStack_24 = *(undefined4 *)(DAT_0001fc2c + 0x1fccc);
uStack_20 = *(undefined4 *)(DAT_0001fc2c + 0x1fcd0);
local_1c = *piVar1;
FUN_0001f764(&local_4c,0x3a,1);
FUN_0001f510(0,param_1,0xffffffff,&local_4c);
if (local_1c == *piVar1) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
| 8,792 |
||
123_truncate_and_truncate_strip.c
|
dcgettext
|
dcgettext
|
/* WARNING: Control flow encountered bad instruction data */
void dcgettext(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* dcgettext@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void dcgettext(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206017974')]
|
[('const-1', u'RETURN_-1206017974')]
| null | null |
0002a040
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "dcgettext(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* dcgettext@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment (function_definition "void dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* dcgettext@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "dcgettext(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* dcgettext@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "dcgettext(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void dcgettext(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "dcgettext(void)" (identifier "dcgettext") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* dcgettext@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 10,627 |
||
2570_libMagickCore-7.Q16HDRI.so.8.0_and_libMagickCore-7.Q16HDRI.so.8.0_strip.c
|
RegisterHALDImage
|
RegisterHALDImage
|
/* WARNING: Unknown calling convention */
/* WARNING: Enum "GravityType": Some values do not have unique names */
/* WARNING: Enum "DisposeType": Some values do not have unique names */
/* WARNING: Enum "ChannelType": Some values do not have unique names */
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
/* WARNING: Enum "ExceptionType": Some values do not have unique names */
size_t RegisterHALDImage(void)
{
/* WARNING: Subroutine does not return */
AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),
(char *)(DAT_00244a10 + 0x2449d8));
}
|
undefined4 RegisterHALDImage(void)
{
int iVar1;
iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)
;
*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;
*(undefined4 *)(iVar1 + 0x28) = 1;
*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;
RegisterMagickInfo();
return 0x810;
}
|
ldr r1,[0x244a0c]
ldr r2,[0x244a10]
add r1,pc,r1
stmdb sp!,{r4,lr}
add r2,pc,r2
cpy r0,r1
bl 0x0003111c
mov r12,#0x1
ldr r3,[r0,#0x2c]
ldr r1,[0x244a14]
eor r3,r3,r12
add r1,pc,r1
orr r3,r3,#0x30
str r1,[r0,#0x18]
str r12,[r0,#0x28]
str r3,[r0,#0x2c]
bl 0x0003261c
mov r0,#0x810
ldmia sp!,{r4,pc}
| null | null | null | null |
[('tmp_161', u'INT_ADD_-1204073994'), (u'CALL_-1204073993', u'INDIRECT_-1204073919'), (u'INDIRECT_-1204073919', u'COPY_-1204073978'), (u'CALL_-1204073993', u'INDIRECT_-1204073917'), (u'CAST_-1204073917', u'CALL_-1204073993'), ('const-2378192', u'INT_ADD_-1204074015'), ('const-2378200', u'INT_ADD_-1204073994'), (u'INT_ADD_-1204073994', u'CAST_-1204073917'), (u'INDIRECT_-1204073917', u'COPY_-1204073976'), ('const-1', u'RETURN_-1204073988'), (u'CAST_-1204073926', u'CALL_-1204073993'), ('tmp_160', u'INT_ADD_-1204074015'), (u'INT_ADD_-1204074015', u'CAST_-1204073926')]
|
[(u'COPY_-1204073899', u'RETURN_-1204073871'), ('const-40', u'INT_ADD_-1204073906'), (u'CALL_-1204073993', u'INT_ADD_-1204073960'), (u'STORE_-1204073927', u'INDIRECT_-1204073786'), ('const-24', u'INT_ADD_-1204073912'), (u'CAST_-1204073790', u'LOAD_-1204073976'), (u'LOAD_-1204073976', u'INT_XOR_-1204073941'), ('const-417', u'LOAD_-1204073976'), (u'CALL_-1204073993', u'INDIRECT_-1204073811'), ('const-48', u'INT_OR_-1204073912'), (u'STORE_-1204073915', u'INDIRECT_-1204073782'), (u'INT_ADD_-1204073906', u'CAST_-1204073764'), (u'INT_OR_-1204073912', u'STORE_-1204073915'), (u'CAST_-1204073769', u'STORE_-1204073927'), (u'INDIRECT_-1204073811', u'INT_ADD_-1204073935'), (u'STORE_-1204073921', u'INDIRECT_-1204073775'), ('const-1', u'INT_XOR_-1204073941'), (u'INT_ADD_-1204073912', u'CAST_-1204073769'), (u'STORE_-1204073921', u'INDIRECT_-1204073781'), ('const-417', u'STORE_-1204073927'), (u'CALL_-1204073993', u'INT_ADD_-1204073900'), ('const-44', u'INT_ADD_-1204073960'), (u'STORE_-1204073915', u'INDIRECT_-1204073776'), (u'CALL_-1204073993', u'INDIRECT_-1204073823'), ('tmp_504', u'INT_ADD_-1204073994'), (u'INT_ADD_-1204074015', u'CALL_-1204073993'), (u'CALL_-1204073993', u'INT_ADD_-1204073906'), (u'INT_ADD_-1204073960', u'CAST_-1204073790'), (u'CALL_-1204073993', u'INT_ADD_-1204073912'), (u'CALL_-1204073905', u'INDIRECT_-1204073782'), (u'INT_ADD_-1204073935', u'STORE_-1204073927'), (u'CALL_-1204073905', u'INDIRECT_-1204073776'), ('const-2378200', u'INT_ADD_-1204073994'), ('const-417', u'STORE_-1204073915'), (u'STORE_-1204073927', u'INDIRECT_-1204073792'), (u'STORE_-1204073915', u'INDIRECT_-1204073770'), (u'INT_ADD_-1204073900', u'CAST_-1204073759'), (u'INDIRECT_-1204073776', u'COPY_-1204073827'), (u'CAST_-1204073759', u'STORE_-1204073915'), (u'CALL_-1204073905', u'INDIRECT_-1204073770'), (u'INDIRECT_-1204073782', u'COPY_-1204073833'), ('const-0', u'RETURN_-1204073871'), ('const-2378192', u'INT_ADD_-1204074015'), (u'STORE_-1204073921', u'INDIRECT_-1204073787'), (u'INDIRECT_-1204073770', u'COPY_-1204073821'), ('const-44', u'INT_ADD_-1204073900'), (u'INT_ADD_-1204073994', u'CALL_-1204073993'), ('const-2064', u'COPY_-1204073899'), (u'CALL_-1204073993', u'INDIRECT_-1204073817'), ('const-417', u'STORE_-1204073921'), ('const-2378228', u'INT_ADD_-1204073935'), (u'CAST_-1204073764', u'STORE_-1204073921'), (u'STORE_-1204073927', u'INDIRECT_-1204073780'), ('const-1', u'STORE_-1204073921'), (u'INT_XOR_-1204073941', u'INT_OR_-1204073912'), ('tmp_503', u'INT_ADD_-1204074015')]
| null | null |
002449c0
|
arm
|
O2
|
(translation_unit "undefined4 RegisterHALDImage(void)\n\n{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}\n\n" (function_definition "undefined4 RegisterHALDImage(void)\n\n{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" type_identifier (function_declarator "RegisterHALDImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;" (assignment_expression "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" identifier = (call_expression "AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" identifier (argument_list "(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" ( (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) , (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) , (binary_expression "DAT_00244a10 + 0x2449d8" identifier + number_literal) )))) ;) (expression_statement "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;" (assignment_expression "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4" (pointer_expression "*(int *)(iVar1 + 0x18)" * (cast_expression "(int *)(iVar1 + 0x18)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18)" ( (binary_expression "iVar1 + 0x18" identifier + number_literal) )))) = (binary_expression "DAT_00244a14 + 0x2449f4" identifier + number_literal)) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x28) = 1;" (assignment_expression "*(undefined4 *)(iVar1 + 0x28) = 1" (pointer_expression "*(undefined4 *)(iVar1 + 0x28)" * (cast_expression "(undefined4 *)(iVar1 + 0x28)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x28)" ( (binary_expression "iVar1 + 0x28" identifier + number_literal) )))) = number_literal) ;) (expression_statement "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;" (assignment_expression "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (pointer_expression "*(uint *)(iVar1 + 0x2c)" * (cast_expression "(uint *)(iVar1 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x2c)" ( (binary_expression "iVar1 + 0x2c" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1" (pointer_expression "*(uint *)(iVar1 + 0x2c)" * (cast_expression "(uint *)(iVar1 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x2c)" ( (binary_expression "iVar1 + 0x2c" identifier + number_literal) )))) ^ number_literal) | number_literal)) ;) (expression_statement "RegisterMagickInfo();" (call_expression "RegisterMagickInfo()" identifier (argument_list "()" ( ))) ;) (return_statement "return 0x810;" return number_literal ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n/* WARNING: Enum "GravityType": Some values do not have unique names */\n/* WARNING: Enum "DisposeType": Some values do not have unique names */\n/* WARNING: Enum "ChannelType": Some values do not have unique names */\n/* WARNING: Enum "PixelChannel": Some values do not have unique names */\n/* WARNING: Enum "ExceptionType": Some values do not have unique names */\n\nsize_t RegisterHALDImage(void)\n\n{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8));\n}\n\n" comment comment comment comment comment comment (function_definition "size_t RegisterHALDImage(void)\n\n{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8));\n}" primitive_type (function_declarator "RegisterHALDImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Subroutine does not return */\n AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8));\n}" { comment (expression_statement "AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8));" (call_expression "AcquireMagickInfo((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8))" identifier (argument_list "((char *)(DAT_00244a0c + 0x2449d0),(char *)(DAT_00244a0c + 0x2449d0),\n (char *)(DAT_00244a10 + 0x2449d8))" ( (cast_expression "(char *)(DAT_00244a0c + 0x2449d0)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00244a0c + 0x2449d0)" ( (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) ))) , (cast_expression "(char *)(DAT_00244a0c + 0x2449d0)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00244a0c + 0x2449d0)" ( (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) ))) , (cast_expression "(char *)(DAT_00244a10 + 0x2449d8)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00244a10 + 0x2449d8)" ( (binary_expression "DAT_00244a10 + 0x2449d8" identifier + number_literal) ))) ))) ;) })))
|
(translation_unit "undefined4 RegisterHALDImage(void)\n\n{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}\n\n" (function_definition "undefined4 RegisterHALDImage(void)\n\n{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" type_identifier (function_declarator "RegisterHALDImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;" (assignment_expression "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" identifier = (call_expression "AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" identifier (argument_list "(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" ( (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) , (binary_expression "DAT_00244a0c + 0x2449d0" identifier + number_literal) , (binary_expression "DAT_00244a10 + 0x2449d8" identifier + number_literal) )))) ;) (expression_statement "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;" (assignment_expression "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4" (pointer_expression "*(int *)(iVar1 + 0x18)" * (cast_expression "(int *)(iVar1 + 0x18)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x18)" ( (binary_expression "iVar1 + 0x18" identifier + number_literal) )))) = (binary_expression "DAT_00244a14 + 0x2449f4" identifier + number_literal)) ;) (expression_statement "*(undefined4 *)(iVar1 + 0x28) = 1;" (assignment_expression "*(undefined4 *)(iVar1 + 0x28) = 1" (pointer_expression "*(undefined4 *)(iVar1 + 0x28)" * (cast_expression "(undefined4 *)(iVar1 + 0x28)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x28)" ( (binary_expression "iVar1 + 0x28" identifier + number_literal) )))) = number_literal) ;) (expression_statement "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;" (assignment_expression "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (pointer_expression "*(uint *)(iVar1 + 0x2c)" * (cast_expression "(uint *)(iVar1 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x2c)" ( (binary_expression "iVar1 + 0x2c" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1" (pointer_expression "*(uint *)(iVar1 + 0x2c)" * (cast_expression "(uint *)(iVar1 + 0x2c)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x2c)" ( (binary_expression "iVar1 + 0x2c" identifier + number_literal) )))) ^ number_literal) | number_literal)) ;) (expression_statement "RegisterMagickInfo();" (call_expression "RegisterMagickInfo()" identifier (argument_list "()" ( ))) ;) (return_statement "return 0x810;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , (binary_expression IDENT + LIT) , (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ^ LIT) | LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (return_statement return LIT ;) })))
|
(function_definition "undefined4 RegisterHALDImage(void)\n\n{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" (type_identifier "undefined4") (function_declarator "RegisterHALDImage(void)" (identifier "RegisterHALDImage") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;\n *(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;\n *(undefined4 *)(iVar1 + 0x28) = 1;\n *(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;\n RegisterMagickInfo();\n return 0x810;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)\n ;" (assignment_expression "iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" (identifier "iVar1") (= "=") (call_expression "AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" (identifier "AcquireMagickInfo") (argument_list "(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)" (( "(") (binary_expression "DAT_00244a0c + 0x2449d0" (identifier "DAT_00244a0c") (+ "+") (number_literal "0x2449d0")) (, ",") (binary_expression "DAT_00244a0c + 0x2449d0" (identifier "DAT_00244a0c") (+ "+") (number_literal "0x2449d0")) (, ",") (binary_expression "DAT_00244a10 + 0x2449d8" (identifier "DAT_00244a10") (+ "+") (number_literal "0x2449d8")) () ")")))) (; ";")) (expression_statement "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;" (assignment_expression "*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4" (pointer_expression "*(int *)(iVar1 + 0x18)" (* "*") (cast_expression "(int *)(iVar1 + 0x18)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x18)" (( "(") (binary_expression "iVar1 + 0x18" (identifier "iVar1") (+ "+") (number_literal "0x18")) () ")")))) (= "=") (binary_expression "DAT_00244a14 + 0x2449f4" (identifier "DAT_00244a14") (+ "+") (number_literal "0x2449f4"))) (; ";")) (expression_statement "*(undefined4 *)(iVar1 + 0x28) = 1;" (assignment_expression "*(undefined4 *)(iVar1 + 0x28) = 1" (pointer_expression "*(undefined4 *)(iVar1 + 0x28)" (* "*") (cast_expression "(undefined4 *)(iVar1 + 0x28)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x28)" (( "(") (binary_expression "iVar1 + 0x28" (identifier "iVar1") (+ "+") (number_literal "0x28")) () ")")))) (= "=") (number_literal "1")) (; ";")) (expression_statement "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;" (assignment_expression "*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (pointer_expression "*(uint *)(iVar1 + 0x2c)" (* "*") (cast_expression "(uint *)(iVar1 + 0x2c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x2c)" (( "(") (binary_expression "iVar1 + 0x2c" (identifier "iVar1") (+ "+") (number_literal "0x2c")) () ")")))) (= "=") (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1 | 0x30" (binary_expression "*(uint *)(iVar1 + 0x2c) ^ 1" (pointer_expression "*(uint *)(iVar1 + 0x2c)" (* "*") (cast_expression "(uint *)(iVar1 + 0x2c)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x2c)" (( "(") (binary_expression "iVar1 + 0x2c" (identifier "iVar1") (+ "+") (number_literal "0x2c")) () ")")))) (^ "^") (number_literal "1")) (| "|") (number_literal "0x30"))) (; ";")) (expression_statement "RegisterMagickInfo();" (call_expression "RegisterMagickInfo()" (identifier "RegisterMagickInfo") (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return 0x810;" (return "return") (number_literal "0x810") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
/* WARNING: Enum "GravityType": Some values do not have unique names */
/* WARNING: Enum "DisposeType": Some values do not have unique names */
/* WARNING: Enum "ChannelType": Some values do not have unique names */
/* WARNING: Enum "PixelChannel": Some values do not have unique names */
/* WARNING: Enum "ExceptionType": Some values do not have unique names */
size_t function_1(void)
{
/* WARNING: Subroutine does not return */
var_1((char *)(var_2 + 0x2449d0),(char *)(var_2 + 0x2449d0),
(char *)(var_3 + 0x2449d8));
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (binary_expression left: (identifier) right: (number_literal)) (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (return_statement (number_literal)))))
|
undefined4 MASKED(void)
{
int iVar1;
iVar1 = AcquireMagickInfo(DAT_00244a0c + 0x2449d0,DAT_00244a0c + 0x2449d0,DAT_00244a10 + 0x2449d8)
;
*(int *)(iVar1 + 0x18) = DAT_00244a14 + 0x2449f4;
*(undefined4 *)(iVar1 + 0x28) = 1;
*(uint *)(iVar1 + 0x2c) = *(uint *)(iVar1 + 0x2c) ^ 1 | 0x30;
RegisterMagickInfo();
return 0x810;
}
| 80,038 |
||
131_libz.so.1.2_and_libz.so.1.2_strip.c
|
gztell64
|
gztell64
|
off64_t gztell64(gzFile file)
{
uint uVar1;
if ((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)) {
uVar1 = (uint)file->pos;
if ((int)file[5].pos == 0) {
return file->pos;
}
return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),
uVar1 + file[5].have);
}
return -1;
}
|
undefined8 gztell64(int param_1)
{
uint uVar1;
if ((param_1 != 0) &&
(*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {
uVar1 = *(uint *)(param_1 + 8);
if (*(int *)(param_1 + 0x58) == 0) {
return *(undefined8 *)(param_1 + 8);
}
return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +
(uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))
;
}
return 0xffffffffffffffff;
}
|
subs r3,r0,#0x0
beq 0x0001c45c
ldr r2,[r3,#0x10]
ldr r0,[0x1c468]
ldr r1,[0x1c46c]
cmp r2,r0
cmpne r2,r1
bne 0x0001c45c
ldr r2,[r3,#0x58]
ldr r0,[r3,#0x8]
cmp r2,#0x0
ldr r1,[r3,#0xc]
bxeq lr
ldr r2,[r3,#0x50]
ldr r3,[r3,#0x54]
adds r0,r0,r2
adc r1,r1,r3
bx lr
mvn r0,#0x0
cpy r1,r0
bx lr
| null | null | null | null |
[('const-417', u'LOAD_-1205943163'), ('tmp_339', u'PTRADD_-1205942995'), (u'INT_ADD_-1205943115', u'PIECE_-1205943016'), ('const-0', u'PTRSUB_-1205943019'), (u'INT_NOTEQUAL_-1205943253', u'CBRANCH_-1205943251'), ('const-0', u'RETURN_-1205943091'), (u'PIECE_-1205943016', u'RETURN_-1205943091'), (u'INT_EQUAL_-1205943164', u'CBRANCH_-1205943154'), (u'INT_EQUAL_-1205943219', u'BOOL_OR_-1205943030'), ('tmp_339', u'PTRADD_-1205942970'), ('tmp_488', u'COPY_-1205943054'), ('tmp_487', u'COPY_-1205943023'), ('const-417', u'LOAD_-1205943064'), ('tmp_488', u'COPY_-1205943033'), ('const-1', u'PTRADD_-1205943047'), ('const--1', u'COPY_-1205943062'), ('const-16', u'PTRADD_-1205942995'), ('const-8', u'PTRSUB_-1205942993'), (u'SUBPIECE_-1205942985', u'INT_EQUAL_-1205943164'), ('const-8', u'PTRSUB_-1205942979'), ('const-417', u'LOAD_-1205943195'), ('const-0', u'PTRSUB_-1205942968'), (u'PTRADD_-1205942995', u'PTRSUB_-1205942993'), ('tmp_339', u'INT_NOTEQUAL_-1205943253'), ('const-16', u'PTRADD_-1205943021'), ('const-5', u'PTRADD_-1205942970'), (u'PTRSUB_-1205943019', u'LOAD_-1205943248'), ('const-5', u'PTRADD_-1205942995'), ('const-0', u'SUBPIECE_-1205942985'), ('tmp_487', u'COPY_-1205943036'), ('tmp_488', u'COPY_-1205943020'), (u'PTRADD_-1205943021', u'PTRSUB_-1205943019'), (u'LOAD_-1205943064', u'COPY_-1205943100'), (u'INT_ZEXT_-1205943096', u'INT_ADD_-1205943000'), (u'LOAD_-1205943248', u'INT_EQUAL_-1205943219'), (u'PTRADD_-1205943047', u'PIECE_-1205943016'), (u'PTRSUB_-1205942979', u'CAST_-1205942970'), ('tmp_339', u'PTRSUB_-1205942988'), (u'PTRSUB_-1205942988', u'LOAD_-1205943189'), ('const-5', u'PTRADD_-1205942964'), (u'LOAD_-1205943189', u'SUBPIECE_-1205942980'), ('tmp_488', u'INT_EQUAL_-1205943074'), ('tmp_339', u'PTRSUB_-1205942979'), (u'SUBPIECE_-1205942980', u'INT_CARRY_-1205943115'), (u'SUBPIECE_-1205942980', u'INT_ADD_-1205943115'), (u'CAST_-1205942970', u'INT_ADD_-1205943025'), (u'PTRADD_-1205942964', u'PTRSUB_-1205942962'), (u'INT_EQUAL_-1205943074', u'BOOL_OR_-1205943030'), (u'PTRADD_-1205942970', u'PTRSUB_-1205942968'), ('tmp_487', u'COPY_-1205943057'), (u'LOAD_-1205943248', u'INT_EQUAL_-1205943074'), ('const-16', u'PTRADD_-1205942964'), (u'PTRSUB_-1205942993', u'LOAD_-1205943195'), ('const-0', u'INT_EQUAL_-1205943164'), ('const-417', u'LOAD_-1205943146'), ('const-4', u'PTRSUB_-1205942962'), ('const-1', u'PTRADD_-1205943021'), ('tmp_339', u'PTRADD_-1205942964'), ('const-8', u'PTRSUB_-1205942988'), (u'LOAD_-1205943163', u'INT_ADD_-1205943000'), (u'BOOL_OR_-1205943030', u'CBRANCH_-1205943198'), ('const-0', u'SUBPIECE_-1205942980'), ('tmp_116', u'CBRANCH_-1205943198'), ('const-4', u'INT_ADD_-1205943025'), (u'INT_CARRY_-1205943115', u'INT_ZEXT_-1205943096'), ('tmp_487', u'INT_EQUAL_-1205943219'), ('const-0', u'RETURN_-1205943144'), (u'LOAD_-1205943195', u'SUBPIECE_-1205942985'), (u'PTRSUB_-1205942968', u'LOAD_-1205943146'), ('const-0', u'INT_NOTEQUAL_-1205943253'), (u'INT_ADD_-1205943025', u'CAST_-1205942969'), (u'LOAD_-1205943140', u'PTRADD_-1205943047'), (u'PTRSUB_-1205942988', u'LOAD_-1205943064'), ('const-417', u'LOAD_-1205943248'), ('const-0', u'RETURN_-1205943061'), ('tmp_339', u'PTRADD_-1205943021'), (u'COPY_-1205943100', u'RETURN_-1205943144'), (u'COPY_-1205943062', u'RETURN_-1205943061'), ('tmp_44', u'CBRANCH_-1205943251'), (u'PTRSUB_-1205942962', u'LOAD_-1205943140'), (u'LOAD_-1205943146', u'INT_CARRY_-1205943115'), (u'LOAD_-1205943146', u'INT_ADD_-1205943115'), ('const-417', u'LOAD_-1205943189'), (u'CAST_-1205942969', u'LOAD_-1205943163'), ('tmp_182', u'CBRANCH_-1205943154'), ('const-16', u'PTRADD_-1205942970'), (u'INT_ADD_-1205943000', u'PTRADD_-1205943047'), ('const-417', u'LOAD_-1205943140')]
|
[(u'INT_ADD_-1205943095', u'INT_ADD_-1205943093'), ('tmp_421', u'INT_ADD_-1205943147'), (u'CAST_-1205943026', u'LOAD_-1205943248'), (u'INT_NOTEQUAL_-1205943253', u'CBRANCH_-1205943251'), ('const-0', u'RETURN_-1205943091'), (u'LOAD_-1205943070', u'COPY_-1205943074'), ('tmp_474', u'COPY_-1205943029'), (u'LOAD_-1205943248', u'INT_EQUAL_-1205943080'), ('tmp_475', u'COPY_-1205943039'), ('const-16', u'INT_ADD_-1205943232'), (u'INT_EQUAL_-1205943164', u'CBRANCH_-1205943154'), ('const-12', u'INT_ADD_-1205943147'), (u'COPY_-1205943074', u'RETURN_-1205943144'), (u'INT_EQUAL_-1205943219', u'BOOL_OR_-1205943036'), (u'CAST_-1205942996', u'LOAD_-1205943189'), ('const-417', u'LOAD_-1205943195'), ('const-0', u'INT_EQUAL_-1205943164'), ('tmp_474', u'COPY_-1205943042'), (u'INT_ADD_-1205943093', u'PIECE_-1205942992'), ('const-417', u'LOAD_-1205943070'), (u'CAST_-1205942972', u'LOAD_-1205943140'), (u'PIECE_-1205942992', u'RETURN_-1205943091'), (u'INT_EQUAL_-1205943080', u'BOOL_OR_-1205943036'), (u'INT_ADD_-1205943124', u'CAST_-1205942972'), ('const-84', u'INT_ADD_-1205943124'), ('tmp_421', u'INT_NOTEQUAL_-1205943253'), (u'LOAD_-1205943248', u'INT_EQUAL_-1205943219'), (u'INT_ADD_-1205943173', u'CAST_-1205942986'), (u'COPY_-1205943040', u'RETURN_-1205943061'), ('tmp_475', u'COPY_-1205943026'), (u'LOAD_-1205943195', u'INT_EQUAL_-1205943164'), (u'INT_ZEXT_-1205943096', u'INT_ADD_-1205943093'), (u'LOAD_-1205943140', u'INT_ADD_-1205943095'), (u'INT_ADD_-1205943147', u'CAST_-1205942987'), ('const-417', u'LOAD_-1205943163'), (u'BOOL_OR_-1205943036', u'CBRANCH_-1205943198'), (u'INT_ADD_-1205943179', u'CAST_-1205943001'), ('const-88', u'INT_ADD_-1205943179'), ('const-417', u'LOAD_-1205943140'), ('tmp_474', u'INT_EQUAL_-1205943219'), ('tmp_421', u'INT_ADD_-1205943179'), ('const-417', u'LOAD_-1205943146'), ('const-80', u'INT_ADD_-1205943130'), (u'INT_ADD_-1205943232', u'CAST_-1205943026'), ('tmp_116', u'CBRANCH_-1205943198'), ('tmp_421', u'INT_ADD_-1205943130'), ('tmp_475', u'COPY_-1205943060'), ('const-417', u'LOAD_-1205943189'), (u'INT_CARRY_-1205943115', u'INT_ZEXT_-1205943096'), (u'INT_ADD_-1205943115', u'PIECE_-1205942992'), (u'INT_ADD_-1205943173', u'CAST_-1205942996'), ('const-8', u'INT_ADD_-1205943173'), ('const-0', u'RETURN_-1205943144'), ('const-0', u'INT_NOTEQUAL_-1205943253'), (u'INT_ADD_-1205943130', u'CAST_-1205942977'), ('tmp_474', u'COPY_-1205943063'), ('const-0', u'RETURN_-1205943061'), ('tmp_44', u'CBRANCH_-1205943251'), (u'LOAD_-1205943146', u'INT_CARRY_-1205943115'), (u'LOAD_-1205943146', u'INT_ADD_-1205943115'), ('tmp_421', u'INT_ADD_-1205943124'), (u'CAST_-1205942977', u'LOAD_-1205943146'), ('tmp_182', u'CBRANCH_-1205943154'), (u'LOAD_-1205943189', u'INT_CARRY_-1205943115'), (u'LOAD_-1205943189', u'INT_ADD_-1205943115'), (u'CAST_-1205942987', u'LOAD_-1205943163'), (u'CAST_-1205942986', u'LOAD_-1205943070'), ('tmp_421', u'INT_ADD_-1205943232'), (u'LOAD_-1205943163', u'INT_ADD_-1205943095'), ('const--1', u'COPY_-1205943040'), ('const-417', u'LOAD_-1205943248'), (u'CAST_-1205943001', u'LOAD_-1205943195'), ('tmp_421', u'INT_ADD_-1205943173'), ('tmp_475', u'INT_EQUAL_-1205943080')]
| null | null |
0001c414
|
arm
|
O2
|
(translation_unit "undefined8 gztell64(int param_1)\n\n{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}\n\n" (function_definition "undefined8 gztell64(int param_1)\n\n{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" type_identifier (function_declarator "gztell64(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (if_statement "if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" if (parenthesized_expression "((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c))" ( (binary_expression "(param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" (parenthesized_expression "(param_1 != 0)" ( (binary_expression "param_1 != 0" identifier != number_literal) )) && (parenthesized_expression "(*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" ( (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c" (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) == identifier) || (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c46c" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) == identifier)) ))) )) (compound_statement "{\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" { (expression_statement "uVar1 = *(uint *)(param_1 + 8);" (assignment_expression "uVar1 = *(uint *)(param_1 + 8)" identifier = (pointer_expression "*(uint *)(param_1 + 8)" * (cast_expression "(uint *)(param_1 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 8)" ( (binary_expression "param_1 + 8" identifier + number_literal) ))))) ;) (if_statement "if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x58) == 0)" ( (binary_expression "*(int *)(param_1 + 0x58) == 0" (pointer_expression "*(int *)(param_1 + 0x58)" * (cast_expression "(int *)(param_1 + 0x58)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x58)" ( (binary_expression "param_1 + 0x58" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n return *(undefined8 *)(param_1 + 8);\n }" { (return_statement "return *(undefined8 *)(param_1 + 8);" return (pointer_expression "*(undefined8 *)(param_1 + 8)" * (cast_expression "(undefined8 *)(param_1 + 8)" ( (type_descriptor "undefined8 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 8)" ( (binary_expression "param_1 + 8" identifier + number_literal) )))) ;) })) (return_statement "return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;" return (call_expression "CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" identifier (argument_list "(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" ( (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54)" (pointer_expression "*(int *)(param_1 + 0xc)" * (cast_expression "(int *)(param_1 + 0xc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0xc)" ( (binary_expression "param_1 + 0xc" identifier + number_literal) )))) + (pointer_expression "*(int *)(param_1 + 0x54)" * (cast_expression "(int *)(param_1 + 0x54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x54)" ( (binary_expression "param_1 + 0x54" identifier + number_literal) ))))) + (cast_expression "(uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,*(uint *)(param_1 + 0x50))" identifier (argument_list "(uVar1,*(uint *)(param_1 + 0x50))" ( identifier , (pointer_expression "*(uint *)(param_1 + 0x50)" * (cast_expression "(uint *)(param_1 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) ))))) , (binary_expression "uVar1 + *(uint *)(param_1 + 0x50)" identifier + (pointer_expression "*(uint *)(param_1 + 0x50)" * (cast_expression "(uint *)(param_1 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) ))))) ))) ;) })) (return_statement "return 0xffffffffffffffff;" return number_literal ;) })))
|
(translation_unit "off64_t gztell64(gzFile file)\n\n{\n uint uVar1;\n \n if ((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)) {\n uVar1 = (uint)file->pos;\n if ((int)file[5].pos == 0) {\n return file->pos;\n }\n return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);\n }\n return -1;\n}\n\n" (function_definition "off64_t gztell64(gzFile file)\n\n{\n uint uVar1;\n \n if ((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)) {\n uVar1 = (uint)file->pos;\n if ((int)file[5].pos == 0) {\n return file->pos;\n }\n return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);\n }\n return -1;\n}" type_identifier (function_declarator "gztell64(gzFile file)" identifier (parameter_list "(gzFile file)" ( (parameter_declaration "gzFile file" type_identifier identifier) ))) (compound_statement "{\n uint uVar1;\n \n if ((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)) {\n uVar1 = (uint)file->pos;\n if ((int)file[5].pos == 0) {\n return file->pos;\n }\n return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);\n }\n return -1;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (if_statement "if ((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)) {\n uVar1 = (uint)file->pos;\n if ((int)file[5].pos == 0) {\n return file->pos;\n }\n return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);\n }" if (parenthesized_expression "((file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c))" ( (binary_expression "(file != (gzFile)0x0) && (file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)" (parenthesized_expression "(file != (gzFile)0x0)" ( (binary_expression "file != (gzFile)0x0" identifier != (cast_expression "(gzFile)0x0" ( (type_descriptor "gzFile" type_identifier) ) number_literal)) )) && (parenthesized_expression "(file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c)" ( (binary_expression "file[1].have == DAT_0001c468 || file[1].have == DAT_0001c46c" (binary_expression "file[1].have == DAT_0001c468" (field_expression "file[1].have" (subscript_expression "file[1]" identifier [ number_literal ]) . field_identifier) == identifier) || (binary_expression "file[1].have == DAT_0001c46c" (field_expression "file[1].have" (subscript_expression "file[1]" identifier [ number_literal ]) . field_identifier) == identifier)) ))) )) (compound_statement "{\n uVar1 = (uint)file->pos;\n if ((int)file[5].pos == 0) {\n return file->pos;\n }\n return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);\n }" { (expression_statement "uVar1 = (uint)file->pos;" (assignment_expression "uVar1 = (uint)file->pos" identifier = (cast_expression "(uint)file->pos" ( (type_descriptor "uint" type_identifier) ) (field_expression "file->pos" identifier -> field_identifier))) ;) (if_statement "if ((int)file[5].pos == 0) {\n return file->pos;\n }" if (parenthesized_expression "((int)file[5].pos == 0)" ( (binary_expression "(int)file[5].pos == 0" (cast_expression "(int)file[5].pos" ( (type_descriptor "int" primitive_type) ) (field_expression "file[5].pos" (subscript_expression "file[5]" identifier [ number_literal ]) . field_identifier)) == number_literal) )) (compound_statement "{\n return file->pos;\n }" { (return_statement "return file->pos;" return (field_expression "file->pos" identifier -> field_identifier) ;) })) (return_statement "return CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have);" return (call_expression "CONCAT44(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have)" identifier (argument_list "(file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4),\n uVar1 + file[5].have)" ( (binary_expression "file[5].next + (uint)CARRY4(uVar1,file[5].have) + *(int *)((int)&file->pos + 4)" (binary_expression "file[5].next + (uint)CARRY4(uVar1,file[5].have)" (field_expression "file[5].next" (subscript_expression "file[5]" identifier [ number_literal ]) . field_identifier) + (cast_expression "(uint)CARRY4(uVar1,file[5].have)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,file[5].have)" identifier (argument_list "(uVar1,file[5].have)" ( identifier , (field_expression "file[5].have" (subscript_expression "file[5]" identifier [ number_literal ]) . field_identifier) ))))) + (pointer_expression "*(int *)((int)&file->pos + 4)" * (cast_expression "(int *)((int)&file->pos + 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&file->pos + 4)" ( (binary_expression "(int)&file->pos + 4" (cast_expression "(int)&file->pos" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&file->pos" & (field_expression "file->pos" identifier -> field_identifier))) + number_literal) ))))) , (binary_expression "uVar1 + file[5].have" identifier + (field_expression "file[5].have" (subscript_expression "file[5]" identifier [ number_literal ]) . field_identifier)) ))) ;) })) (return_statement "return -1;" return number_literal ;) })))
|
(translation_unit "undefined8 gztell64(int param_1)\n\n{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}\n\n" (function_definition "undefined8 gztell64(int param_1)\n\n{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" type_identifier (function_declarator "gztell64(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (if_statement "if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" if (parenthesized_expression "((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c))" ( (binary_expression "(param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" (parenthesized_expression "(param_1 != 0)" ( (binary_expression "param_1 != 0" identifier != number_literal) )) && (parenthesized_expression "(*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" ( (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c" (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) == identifier) || (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c46c" (pointer_expression "*(int *)(param_1 + 0x10)" * (cast_expression "(int *)(param_1 + 0x10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x10)" ( (binary_expression "param_1 + 0x10" identifier + number_literal) )))) == identifier)) ))) )) (compound_statement "{\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" { (expression_statement "uVar1 = *(uint *)(param_1 + 8);" (assignment_expression "uVar1 = *(uint *)(param_1 + 8)" identifier = (pointer_expression "*(uint *)(param_1 + 8)" * (cast_expression "(uint *)(param_1 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 8)" ( (binary_expression "param_1 + 8" identifier + number_literal) ))))) ;) (if_statement "if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }" if (parenthesized_expression "(*(int *)(param_1 + 0x58) == 0)" ( (binary_expression "*(int *)(param_1 + 0x58) == 0" (pointer_expression "*(int *)(param_1 + 0x58)" * (cast_expression "(int *)(param_1 + 0x58)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x58)" ( (binary_expression "param_1 + 0x58" identifier + number_literal) )))) == number_literal) )) (compound_statement "{\n return *(undefined8 *)(param_1 + 8);\n }" { (return_statement "return *(undefined8 *)(param_1 + 8);" return (pointer_expression "*(undefined8 *)(param_1 + 8)" * (cast_expression "(undefined8 *)(param_1 + 8)" ( (type_descriptor "undefined8 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 8)" ( (binary_expression "param_1 + 8" identifier + number_literal) )))) ;) })) (return_statement "return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;" return (call_expression "CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" identifier (argument_list "(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" ( (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54)" (pointer_expression "*(int *)(param_1 + 0xc)" * (cast_expression "(int *)(param_1 + 0xc)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0xc)" ( (binary_expression "param_1 + 0xc" identifier + number_literal) )))) + (pointer_expression "*(int *)(param_1 + 0x54)" * (cast_expression "(int *)(param_1 + 0x54)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x54)" ( (binary_expression "param_1 + 0x54" identifier + number_literal) ))))) + (cast_expression "(uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(uVar1,*(uint *)(param_1 + 0x50))" identifier (argument_list "(uVar1,*(uint *)(param_1 + 0x50))" ( identifier , (pointer_expression "*(uint *)(param_1 + 0x50)" * (cast_expression "(uint *)(param_1 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) ))))) , (binary_expression "uVar1 + *(uint *)(param_1 + 0x50)" identifier + (pointer_expression "*(uint *)(param_1 + 0x50)" * (cast_expression "(uint *)(param_1 + 0x50)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) ))))) ))) ;) })) (return_statement "return 0xffffffffffffffff;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT != LIT) )) && (parenthesized_expression ( (binary_expression (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == IDENT) || (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == IDENT)) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) (compound_statement { (return_statement return (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) })) (return_statement return (call_expression IDENT (argument_list ( (binary_expression (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ))))) , (binary_expression IDENT + (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ))) ;) })) (return_statement return LIT ;) })))
|
(function_definition "undefined8 gztell64(int param_1)\n\n{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" (type_identifier "undefined8") (function_declarator "gztell64(int param_1)" (identifier "gztell64") (parameter_list "(int param_1)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) () ")"))) (compound_statement "{\n uint uVar1;\n \n if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }\n return 0xffffffffffffffff;\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (if_statement "if ((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" (if "if") (parenthesized_expression "((param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c))" (( "(") (binary_expression "(param_1 != 0) &&\n (*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" (parenthesized_expression "(param_1 != 0)" (( "(") (binary_expression "param_1 != 0" (identifier "param_1") (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)" (( "(") (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c" (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c468" (pointer_expression "*(int *)(param_1 + 0x10)" (* "*") (cast_expression "(int *)(param_1 + 0x10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x10)" (( "(") (binary_expression "param_1 + 0x10" (identifier "param_1") (+ "+") (number_literal "0x10")) () ")")))) (== "==") (identifier "DAT_0001c468")) (|| "||") (binary_expression "*(int *)(param_1 + 0x10) == DAT_0001c46c" (pointer_expression "*(int *)(param_1 + 0x10)" (* "*") (cast_expression "(int *)(param_1 + 0x10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x10)" (( "(") (binary_expression "param_1 + 0x10" (identifier "param_1") (+ "+") (number_literal "0x10")) () ")")))) (== "==") (identifier "DAT_0001c46c"))) () ")"))) () ")")) (compound_statement "{\n uVar1 = *(uint *)(param_1 + 8);\n if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }\n return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;\n }" ({ "{") (expression_statement "uVar1 = *(uint *)(param_1 + 8);" (assignment_expression "uVar1 = *(uint *)(param_1 + 8)" (identifier "uVar1") (= "=") (pointer_expression "*(uint *)(param_1 + 8)" (* "*") (cast_expression "(uint *)(param_1 + 8)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 8)" (( "(") (binary_expression "param_1 + 8" (identifier "param_1") (+ "+") (number_literal "8")) () ")"))))) (; ";")) (if_statement "if (*(int *)(param_1 + 0x58) == 0) {\n return *(undefined8 *)(param_1 + 8);\n }" (if "if") (parenthesized_expression "(*(int *)(param_1 + 0x58) == 0)" (( "(") (binary_expression "*(int *)(param_1 + 0x58) == 0" (pointer_expression "*(int *)(param_1 + 0x58)" (* "*") (cast_expression "(int *)(param_1 + 0x58)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x58)" (( "(") (binary_expression "param_1 + 0x58" (identifier "param_1") (+ "+") (number_literal "0x58")) () ")")))) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n return *(undefined8 *)(param_1 + 8);\n }" ({ "{") (return_statement "return *(undefined8 *)(param_1 + 8);" (return "return") (pointer_expression "*(undefined8 *)(param_1 + 8)" (* "*") (cast_expression "(undefined8 *)(param_1 + 8)" (( "(") (type_descriptor "undefined8 *" (type_identifier "undefined8") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 8)" (( "(") (binary_expression "param_1 + 8" (identifier "param_1") (+ "+") (number_literal "8")) () ")")))) (; ";")) (} "}"))) (return_statement "return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))\n ;" (return "return") (call_expression "CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" (identifier "CONCAT44") (argument_list "(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))" (( "(") (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +\n (uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" (binary_expression "*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54)" (pointer_expression "*(int *)(param_1 + 0xc)" (* "*") (cast_expression "(int *)(param_1 + 0xc)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0xc)" (( "(") (binary_expression "param_1 + 0xc" (identifier "param_1") (+ "+") (number_literal "0xc")) () ")")))) (+ "+") (pointer_expression "*(int *)(param_1 + 0x54)" (* "*") (cast_expression "(int *)(param_1 + 0x54)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x54)" (( "(") (binary_expression "param_1 + 0x54" (identifier "param_1") (+ "+") (number_literal "0x54")) () ")"))))) (+ "+") (cast_expression "(uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50))" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(uVar1,*(uint *)(param_1 + 0x50))" (identifier "CARRY4") (argument_list "(uVar1,*(uint *)(param_1 + 0x50))" (( "(") (identifier "uVar1") (, ",") (pointer_expression "*(uint *)(param_1 + 0x50)" (* "*") (cast_expression "(uint *)(param_1 + 0x50)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x50)" (( "(") (binary_expression "param_1 + 0x50" (identifier "param_1") (+ "+") (number_literal "0x50")) () ")")))) () ")"))))) (, ",") (binary_expression "uVar1 + *(uint *)(param_1 + 0x50)" (identifier "uVar1") (+ "+") (pointer_expression "*(uint *)(param_1 + 0x50)" (* "*") (cast_expression "(uint *)(param_1 + 0x50)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x50)" (( "(") (binary_expression "param_1 + 0x50" (identifier "param_1") (+ "+") (number_literal "0x50")) () ")"))))) () ")"))) (; ";")) (} "}"))) (return_statement "return 0xffffffffffffffff;" (return "return") (number_literal "0xffffffffffffffff") (; ";")) (} "}")))
|
type_1 function_1(type_2 var_1)
{
type_3 var_6;
if ((var_1 != (type_2)0x0) && (var_1[1].have == var_2 || var_1[1].have == var_3)) {
var_6 = (type_3)var_1->pos;
if ((int)var_1[5].pos == 0) {
return var_1->pos;
}
return var_4(var_1[5].next + (type_3)var_5(var_6,var_1[5].have) + *(int *)((int)&var_1->pos + 4),
var_6 + var_1[5].have);
}
return -1;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier)) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) consequence: (compound_statement (return_statement (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (return_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (binary_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))))) (return_statement (number_literal)))))
|
undefined8 MASKED(int param_1)
{
uint uVar1;
if ((param_1 != 0) &&
(*(int *)(param_1 + 0x10) == DAT_0001c468 || *(int *)(param_1 + 0x10) == DAT_0001c46c)) {
uVar1 = *(uint *)(param_1 + 8);
if (*(int *)(param_1 + 0x58) == 0) {
return *(undefined8 *)(param_1 + 8);
}
return CONCAT44(*(int *)(param_1 + 0xc) + *(int *)(param_1 + 0x54) +
(uint)CARRY4(uVar1,*(uint *)(param_1 + 0x50)),uVar1 + *(uint *)(param_1 + 0x50))
;
}
return 0xffffffffffffffff;
}
| 41,606 |
||
264_grep_and_grep_strip.c
|
print_end_colorize
|
FUN_00031a7c
|
void print_end_colorize(char *sgr_end)
{
(*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));
return;
}
|
void FUN_00031a7c(char *param_1)
{
fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));
return;
}
|
ldr r3,[0x31a94]
ldr r2,[0x31a98]
add r3,pc,r3
ldr r3,[r3,r2]
ldr r1,[r3,#0x0]
b 0x00012274
| null | null | null | null |
[('const-417', u'LOAD_-1206117740'), (u'CALLIND_-1205984603', u'INDIRECT_-1205984526'), (u'CALLIND_-1205984603', u'INDIRECT_-1205984530'), (u'CALLIND_-1205984603', u'INDIRECT_-1205984528'), (u'INT_ADD_-1206117724', u'CAST_-1206117629'), ('tmp_184', u'INT_ADD_-1206117731'), ('tmp_185', u'INT_ADD_-1206117724'), ('tmp_98', u'CALLIND_-1205984603'), (u'INDIRECT_-1205984530', u'COPY_-1205984589'), (u'LOAD_-1206117740', u'LOAD_-1206117734'), (u'LOAD_-1206117734', u'CALLIND_-1205984603'), (u'CAST_-1205984520', u'CALLIND_-1205984603'), (u'CAST_-1206117629', u'LOAD_-1206117740'), ('const-417', u'LOAD_-1206117734'), ('const-203404', u'INT_ADD_-1206117731'), ('const-0', u'RETURN_-1205984600'), ('tmp_186', u'CAST_-1205984520'), (u'INT_ADD_-1206117731', u'INT_ADD_-1206117724'), (u'INDIRECT_-1205984528', u'COPY_-1205984587'), (u'INDIRECT_-1205984526', u'COPY_-1205984585')]
|
[(u'CAST_-1206117656', u'LOAD_-1206117740'), (u'INDIRECT_-1206117655', u'COPY_-1206117714'), (u'CAST_-1206117651', u'CALL_-1206117724'), (u'INDIRECT_-1206117653', u'COPY_-1206117712'), (u'CALL_-1206117724', u'INDIRECT_-1206117653'), ('const-417', u'LOAD_-1206117734'), ('const-0', u'RETURN_-1206117720'), ('const-203404', u'INT_ADD_-1206117731'), (u'LOAD_-1206117740', u'LOAD_-1206117734'), ('tmp_102', u'INT_ADD_-1206117724'), ('tmp_85', u'CALL_-1206117724'), ('tmp_101', u'INT_ADD_-1206117731'), (u'INT_ADD_-1206117724', u'CAST_-1206117656'), (u'LOAD_-1206117734', u'CAST_-1206117651'), (u'INT_ADD_-1206117731', u'INT_ADD_-1206117724'), (u'CALL_-1206117724', u'INDIRECT_-1206117655'), ('const-417', u'LOAD_-1206117740')]
| null | null |
00031a7c
|
arm
|
O2
|
(translation_unit "void FUN_00031a7c(char *param_1)\n\n{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}\n\n" (function_definition "void FUN_00031a7c(char *param_1)\n\n{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" primitive_type (function_declarator "FUN_00031a7c(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" { (expression_statement "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));" (call_expression "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" identifier (argument_list "(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" ( identifier , (cast_expression "(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (pointer_expression "*(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (cast_expression "(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (binary_expression "DAT_00031a94 + 0x31a8c + DAT_00031a98" (binary_expression "DAT_00031a94 + 0x31a8c" identifier + number_literal) + identifier) )))))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void print_end_colorize(char *sgr_end)\n\n{\n (*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}\n\n" (function_definition "void print_end_colorize(char *sgr_end)\n\n{\n (*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" primitive_type (function_declarator "print_end_colorize(char *sgr_end)" identifier (parameter_list "(char *sgr_end)" ( (parameter_declaration "char *sgr_end" primitive_type (pointer_declarator "*sgr_end" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" { (expression_statement "(*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));" (call_expression "(*(code *)PTR_fputs_0004df6c)(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" (parenthesized_expression "(*(code *)PTR_fputs_0004df6c)" ( (pointer_expression "*(code *)PTR_fputs_0004df6c" * (cast_expression "(code *)PTR_fputs_0004df6c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "(sgr_end,**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" ( identifier , (pointer_expression "**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (pointer_expression "*(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (cast_expression "(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (binary_expression "DAT_00031a94 + 0x31a8c + DAT_00031a98" (binary_expression "DAT_00031a94 + 0x31a8c" identifier + number_literal) + identifier) ))))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_00031a7c(char *param_1)\n\n{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}\n\n" (function_definition "void FUN_00031a7c(char *param_1)\n\n{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" primitive_type (function_declarator "FUN_00031a7c(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" { (expression_statement "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));" (call_expression "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" identifier (argument_list "(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" ( identifier , (cast_expression "(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (type_descriptor "FILE *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (pointer_expression "*(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" * (cast_expression "(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00031a94 + 0x31a8c + DAT_00031a98)" ( (binary_expression "DAT_00031a94 + 0x31a8c + DAT_00031a98" (binary_expression "DAT_00031a94 + 0x31a8c" identifier + number_literal) + identifier) )))))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) )))))) ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_00031a7c(char *param_1)\n\n{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" (primitive_type "void") (function_declarator "FUN_00031a7c(char *param_1)" (identifier "FUN_00031a7c") (parameter_list "(char *param_1)" (( "(") (parameter_declaration "char *param_1" (primitive_type "char") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")"))) (compound_statement "{\n fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));\n return;\n}" ({ "{") (expression_statement "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));" (call_expression "fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" (identifier "fputs") (argument_list "(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98))" (( "(") (identifier "param_1") (, ",") (cast_expression "(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" (( "(") (type_descriptor "FILE *" (type_identifier "FILE") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" (* "*") (pointer_expression "*(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" (* "*") (cast_expression "(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00031a94 + 0x31a8c + DAT_00031a98)" (( "(") (binary_expression "DAT_00031a94 + 0x31a8c + DAT_00031a98" (binary_expression "DAT_00031a94 + 0x31a8c" (identifier "DAT_00031a94") (+ "+") (number_literal "0x31a8c")) (+ "+") (identifier "DAT_00031a98")) () ")")))))) () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(char *sgr_end)
{
(*(type_1 *)PTR_fputs_0004df6c)(sgr_end,**(type_2 **)(var_1 + 0x31a8c + var_2));
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))))))) (return_statement))))
|
void MASKED(char *param_1)
{
fputs(param_1,(FILE *)**(undefined4 **)(DAT_00031a94 + 0x31a8c + DAT_00031a98));
return;
}
| 3,890 |
||
374_find_and_find_strip.c
|
openat_restore_fail
|
FUN_000292c0
|
void openat_restore_fail(int errnum)
{
/* WARNING: Subroutine does not return */
dcgettext(0,DAT_0002930c + 0x292ec,5);
}
|
void FUN_000292c0(undefined4 param_1)
{
undefined4 uVar1;
undefined4 uVar2;
uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);
uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);
/* WARNING: Subroutine does not return */
error(uVar2,param_1,uVar1);
}
|
ldr r3,[0x29304]
ldr r2,[0x29308]
add r3,pc,r3
stmdb sp!,{r4,lr}
ldr r1,[r3,r2]
cpy r5,r0
ldr r4,[r1,#0x0]
ldr r1,[0x2930c]
mov r2,#0x5
add r1,pc,r1
mov r0,#0x0
bl 0x00013444
cpy r1,r5
cpy r2,r0
cpy r0,r4
bl 0x000135a0
| null | null | null | null |
[(u'INDIRECT_-1206021255', u'COPY_-1206021314'), (u'CALL_-1206021336', u'INDIRECT_-1206021257'), ('const-1', u'RETURN_-1206021331'), (u'INDIRECT_-1206021257', u'COPY_-1206021316'), (u'INT_ADD_-1206021348', u'CALL_-1206021336'), ('const-0', u'CALL_-1206021336'), ('const-168684', u'INT_ADD_-1206021348'), (u'CALL_-1206021336', u'INDIRECT_-1206021255'), ('tmp_265', u'INT_ADD_-1206021348'), (u'CALL_-1206021336', u'INDIRECT_-1206021259'), (u'INDIRECT_-1206021259', u'COPY_-1206021318'), ('const-5', u'CALL_-1206021336')]
|
[(u'CALL_-1206021336', u'CALL_-1206021315'), (u'INDIRECT_-1206021215', u'COPY_-1206021274'), (u'CAST_-1206021250', u'LOAD_-1206021406'), ('const-5', u'CALL_-1206021336'), (u'CALL_-1206021315', u'INDIRECT_-1206021221'), ('const-168656', u'INT_ADD_-1206021407'), ('const-0', u'CALL_-1206021336'), (u'CALL_-1206021315', u'INDIRECT_-1206021218'), ('const-417', u'LOAD_-1206021406'), ('const-168684', u'INT_ADD_-1206021348'), ('const-1', u'RETURN_-1206021310'), (u'CALL_-1206021336', u'INDIRECT_-1206021232'), (u'INT_ADD_-1206021407', u'INT_ADD_-1206021390'), (u'INT_ADD_-1206021390', u'CAST_-1206021250'), (u'CALL_-1206021336', u'INDIRECT_-1206021235'), (u'CALL_-1206021336', u'INDIRECT_-1206021238'), (u'INDIRECT_-1206021218', u'COPY_-1206021277'), ('tmp_344', u'INT_ADD_-1206021348'), ('tmp_342', u'INT_ADD_-1206021407'), (u'INT_ADD_-1206021348', u'CALL_-1206021336'), (u'CALL_-1206021315', u'INDIRECT_-1206021215'), (u'LOAD_-1206021406', u'LOAD_-1206021395'), (u'LOAD_-1206021395', u'CALL_-1206021315'), ('tmp_271', u'CALL_-1206021315'), ('const-417', u'LOAD_-1206021395'), (u'INDIRECT_-1206021221', u'COPY_-1206021280'), ('tmp_343', u'INT_ADD_-1206021390')]
| null | null |
000292c0
|
arm
|
O2
|
(translation_unit "void FUN_000292c0(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}\n\n" (function_definition "void FUN_000292c0(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" primitive_type (function_declarator "FUN_000292c0(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);" (assignment_expression "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" identifier = (pointer_expression "**(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" * (pointer_expression "*(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" * (cast_expression "(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00029304 + 0x292d0 + DAT_00029308)" ( (binary_expression "DAT_00029304 + 0x292d0 + DAT_00029308" (binary_expression "DAT_00029304 + 0x292d0" identifier + number_literal) + identifier) )))))) ;) (expression_statement "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);" (assignment_expression "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5)" identifier = (call_expression "dcgettext(0,DAT_0002930c + 0x292ec,5)" identifier (argument_list "(0,DAT_0002930c + 0x292ec,5)" ( number_literal , (binary_expression "DAT_0002930c + 0x292ec" identifier + number_literal) , number_literal )))) ;) comment (expression_statement "error(uVar2,param_1,uVar1);" (call_expression "error(uVar2,param_1,uVar1)" identifier (argument_list "(uVar2,param_1,uVar1)" ( identifier , identifier , identifier ))) ;) })))
|
(translation_unit "void openat_restore_fail(int errnum)\n\n{\n /* WARNING: Subroutine does not return */\n dcgettext(0,DAT_0002930c + 0x292ec,5);\n}\n\n" (function_definition "void openat_restore_fail(int errnum)\n\n{\n /* WARNING: Subroutine does not return */\n dcgettext(0,DAT_0002930c + 0x292ec,5);\n}" primitive_type (function_declarator "openat_restore_fail(int errnum)" identifier (parameter_list "(int errnum)" ( (parameter_declaration "int errnum" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Subroutine does not return */\n dcgettext(0,DAT_0002930c + 0x292ec,5);\n}" { comment (expression_statement "dcgettext(0,DAT_0002930c + 0x292ec,5);" (call_expression "dcgettext(0,DAT_0002930c + 0x292ec,5)" identifier (argument_list "(0,DAT_0002930c + 0x292ec,5)" ( number_literal , (binary_expression "DAT_0002930c + 0x292ec" identifier + number_literal) , number_literal ))) ;) })))
|
(translation_unit "void FUN_000292c0(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}\n\n" (function_definition "void FUN_000292c0(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" primitive_type (function_declarator "FUN_000292c0(undefined4 param_1)" identifier (parameter_list "(undefined4 param_1)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);" (assignment_expression "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" identifier = (pointer_expression "**(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" * (pointer_expression "*(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" * (cast_expression "(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00029304 + 0x292d0 + DAT_00029308)" ( (binary_expression "DAT_00029304 + 0x292d0 + DAT_00029308" (binary_expression "DAT_00029304 + 0x292d0" identifier + number_literal) + identifier) )))))) ;) (expression_statement "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);" (assignment_expression "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5)" identifier = (call_expression "dcgettext(0,DAT_0002930c + 0x292ec,5)" identifier (argument_list "(0,DAT_0002930c + 0x292ec,5)" ( number_literal , (binary_expression "DAT_0002930c + 0x292ec" identifier + number_literal) , number_literal )))) ;) comment (expression_statement "error(uVar2,param_1,uVar1);" (call_expression "error(uVar2,param_1,uVar1)" identifier (argument_list "(uVar2,param_1,uVar1)" ( identifier , identifier , identifier ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) )))))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT )))) ;) comment (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) })))
|
(function_definition "void FUN_000292c0(undefined4 param_1)\n\n{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" (primitive_type "void") (function_declarator "FUN_000292c0(undefined4 param_1)" (identifier "FUN_000292c0") (parameter_list "(undefined4 param_1)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) () ")"))) (compound_statement "{\n undefined4 uVar1;\n undefined4 uVar2;\n \n uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);\n uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);\n /* WARNING: Subroutine does not return */\n error(uVar2,param_1,uVar1);\n}" ({ "{") (declaration "undefined4 uVar1;" (type_identifier "undefined4") (identifier "uVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (expression_statement "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);" (assignment_expression "uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" (identifier "uVar2") (= "=") (pointer_expression "**(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" (* "*") (pointer_expression "*(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" (* "*") (cast_expression "(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00029304 + 0x292d0 + DAT_00029308)" (( "(") (binary_expression "DAT_00029304 + 0x292d0 + DAT_00029308" (binary_expression "DAT_00029304 + 0x292d0" (identifier "DAT_00029304") (+ "+") (number_literal "0x292d0")) (+ "+") (identifier "DAT_00029308")) () ")")))))) (; ";")) (expression_statement "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);" (assignment_expression "uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5)" (identifier "uVar1") (= "=") (call_expression "dcgettext(0,DAT_0002930c + 0x292ec,5)" (identifier "dcgettext") (argument_list "(0,DAT_0002930c + 0x292ec,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0002930c + 0x292ec" (identifier "DAT_0002930c") (+ "+") (number_literal "0x292ec")) (, ",") (number_literal "5") () ")")))) (; ";")) (comment "/* WARNING: Subroutine does not return */") (expression_statement "error(uVar2,param_1,uVar1);" (call_expression "error(uVar2,param_1,uVar1)" (identifier "error") (argument_list "(uVar2,param_1,uVar1)" (( "(") (identifier "uVar2") (, ",") (identifier "param_1") (, ",") (identifier "uVar1") () ")"))) (; ";")) (} "}")))
|
void function_1(int errnum)
{
/* WARNING: Subroutine does not return */
var_1(0,var_2 + 0x292ec,5);
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal))))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))))))
|
void MASKED(undefined4 param_1)
{
undefined4 uVar1;
undefined4 uVar2;
uVar2 = **(undefined4 **)(DAT_00029304 + 0x292d0 + DAT_00029308);
uVar1 = dcgettext(0,DAT_0002930c + 0x292ec,5);
/* WARNING: Subroutine does not return */
error(uVar2,param_1,uVar1);
}
| 69,092 |
||
230_split_and_split_strip.c
|
__libc_current_sigrtmin
|
__libc_current_sigrtmin
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int __libc_current_sigrtmin(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __libc_current_sigrtmin@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int __libc_current_sigrtmin(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206001326')]
|
[('const-1', u'RETURN_-1206001326')]
| null | null |
0002e148
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__libc_current_sigrtmin(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __libc_current_sigrtmin@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "int __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __libc_current_sigrtmin@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "__libc_current_sigrtmin(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __libc_current_sigrtmin@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__libc_current_sigrtmin(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int __libc_current_sigrtmin(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "int") (function_declarator "__libc_current_sigrtmin(void)" (identifier "__libc_current_sigrtmin") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __libc_current_sigrtmin@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 11,394 |
||
70_sg_get_config_and_sg_get_config_strip.c
|
__snprintf_chk
|
__snprintf_chk
|
/* WARNING: Control flow encountered bad instruction data */
void __snprintf_chk(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __snprintf_chk@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void __snprintf_chk(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206022002')]
|
[('const-1', u'RETURN_-1206022002')]
| null | null |
00029084
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__snprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __snprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment (function_definition "void __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __snprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "__snprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* __snprintf_chk@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "__snprintf_chk(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void __snprintf_chk(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "__snprintf_chk(void)" (identifier "__snprintf_chk") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* __snprintf_chk@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 31,551 |
||
1807_putty_and_putty_strip.c
|
cairo_set_source_rgb
|
cairo_set_source_rgb
|
/* WARNING: Control flow encountered bad instruction data */
void cairo_set_source_rgb(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void cairo_set_source_rgb(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206828450')]
|
[('const-1', u'RETURN_-1206828450')]
| null | null |
000e4254
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "cairo_set_source_rgb(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "cairo_set_source_rgb(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "cairo_set_source_rgb(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void cairo_set_source_rgb(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "cairo_set_source_rgb(void)" (identifier "cairo_set_source_rgb") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 66,803 |
||
1133_bash_and_bash_strip.c
|
assoc_dequote_escapes
|
assoc_dequote_escapes
|
HASH_TABLE * assoc_dequote_escapes(HASH_TABLE *h)
{
char *pcVar1;
int iVar2;
BUCKET_CONTENTS *pBVar3;
int iVar4;
if (h != (HASH_TABLE *)0x0) {
if (h->nentries == 0) {
return (HASH_TABLE *)0x0;
}
iVar2 = h->nbuckets;
if (0 < iVar2) {
iVar4 = 0;
do {
pBVar3 = h->bucket_array[iVar4];
if (pBVar3 != (BUCKET_CONTENTS *)0x0) {
do {
pcVar1 = dequote_escapes((char *)pBVar3->data);
if (pBVar3->data != (void *)0x0) {
/* WARNING: Subroutine does not return */
free(pBVar3->data);
}
pBVar3->data = pcVar1;
pBVar3 = pBVar3->next;
} while (pBVar3 != (bucket_contents *)0x0);
iVar2 = h->nbuckets;
}
iVar4 = iVar4 + 1;
} while (iVar4 < iVar2);
}
}
return h;
}
|
int * assoc_dequote_escapes(int *param_1)
{
int iVar1;
int *piVar2;
int iVar3;
if (param_1 != (int *)0x0) {
if (param_1[2] == 0) {
return (int *)0x0;
}
iVar1 = param_1[1];
if (0 < iVar1) {
iVar3 = 0;
do {
piVar2 = *(int **)(*param_1 + iVar3 * 4);
if (piVar2 != (int *)0x0) {
do {
iVar1 = dequote_escapes(piVar2[2]);
if ((void *)piVar2[2] != (void *)0x0) {
free((void *)piVar2[2]);
}
piVar2[2] = iVar1;
piVar2 = (int *)*piVar2;
} while (piVar2 != (int *)0x0);
iVar1 = param_1[1];
}
iVar3 = iVar3 + 1;
} while (iVar3 < iVar1);
}
}
return param_1;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
subs r7,r0,#0x0
beq 0x000861a4
ldr r0,[r7,#0x8]
cmp r0,#0x0
ldmiaeq sp!,{r4,r5,r6,r7,r8,pc}
ldr r3,[r7,#0x4]
cmp r3,#0x0
movgt r6,#0x0
ble 0x000861a4
ldr r2,[r7,#0x0]
ldr r4,[r2,r6,lsl #0x2]
cmp r4,#0x0
beq 0x00086198
ldr r0,[r4,#0x8]
bl 0x0006bdac
ldr r3,[r4,#0x8]
cpy r5,r0
subs r0,r3,#0x0
beq 0x00086184
bl 0x0002f068
str r5,[r4,#0x8]
ldr r4,[r4,#0x0]
cmp r4,#0x0
bne 0x00086168
ldr r3,[r7,#0x4]
add r6,r6,#0x1
cmp r3,r6
bgt 0x00086158
cpy r0,r7
ldmia sp!,{r4,r5,r6,r7,r8,pc}
| null | null | null | null |
[(u'MULTIEQUAL_-1206426877', u'INT_SLESS_-1206427013'), (u'MULTIEQUAL_-1206426921', u'PTRSUB_-1206426744'), ('const-417', u'LOAD_-1206427061'), ('const-417', u'LOAD_-1206427093'), (u'LOAD_-1206427298', u'INT_EQUAL_-1206427273'), ('const-417', u'LOAD_-1206427298'), (u'INT_EQUAL_-1206427273', u'CBRANCH_-1206427269'), (u'INT_ADD_-1206427030', u'MULTIEQUAL_-1206426928'), ('const-417', u'LOAD_-1206427247'), (u'LOAD_-1206427143', u'INT_NOTEQUAL_-1206427112'), ('const-8', u'PTRSUB_-1206426714'), (u'PTRSUB_-1206426796', u'LOAD_-1206427298'), ('const-0', u'PTRSUB_-1206426709'), (u'LOAD_-1206427155', u'CAST_-1206426738'), (u'MULTIEQUAL_-1206426928', u'INT_ADD_-1206427030'), ('tmp_625', u'PTRSUB_-1206426783'), (u'INT_SLESS_-1206427208', u'CBRANCH_-1206427215'), (u'PTRSUB_-1206426783', u'LOAD_-1206427247'), (u'PTRSUB_-1206426714', u'STORE_-1206427098'), ('const-8', u'PTRSUB_-1206426735'), ('const-4', u'PTRADD_-1206426758'), (u'LOAD_-1206427143', u'CALL_-1206427102'), ('const-8', u'PTRSUB_-1206426796'), (u'INT_ADD_-1206427030', u'INT_SLESS_-1206427013'), ('const-4', u'PTRSUB_-1206426783'), (u'INT_NOTEQUAL_-1206427112', u'CBRANCH_-1206427110'), ('tmp_140', u'CBRANCH_-1206427269'), (u'COPY_-1206427211', u'MULTIEQUAL_-1206426928'), ('const-0', u'INT_NOTEQUAL_-1206427112'), ('tmp_356', u'CBRANCH_-1206427158'), (u'LOAD_-1206427247', u'MULTIEQUAL_-1206426939'), ('const-0', u'RETURN_-1206427245'), (u'PTRSUB_-1206426766', u'LOAD_-1206427193'), ('tmp_254', u'CBRANCH_-1206427215'), ('tmp_625', u'COPY_-1206427019'), (u'LOAD_-1206427093', u'MULTIEQUAL_-1206426921'), ('const-0', u'RETURN_-1206427245'), (u'MULTIEQUAL_-1206426877', u'MULTIEQUAL_-1206426939'), ('const-0', u'INT_NOTEQUAL_-1206427160'), ('const-0', u'PTRSUB_-1206426766'), ('const-0', u'INT_NOTEQUAL_-1206427067'), ('tmp_625', u'PTRSUB_-1206426766'), ('tmp_625', u'PTRSUB_-1206426796'), (u'MULTIEQUAL_-1206426921', u'PTRSUB_-1206426714'), (u'INT_SLESS_-1206427013', u'CBRANCH_-1206427020'), ('const-417', u'LOAD_-1206427155'), ('const-417', u'STORE_-1206427098'), (u'COPY_-1206427019', u'RETURN_-1206426987'), (u'CALL_-1206427144', u'STORE_-1206427098'), ('const-417', u'LOAD_-1206427186'), ('const-8', u'PTRSUB_-1206426744'), (u'LOAD_-1206427061', u'MULTIEQUAL_-1206426877'), ('const-0', u'COPY_-1206427211'), ('const-0', u'INT_EQUAL_-1206427273'), ('tmp_625', u'PTRSUB_-1206426702'), ('const-4', u'PTRSUB_-1206426702'), (u'LOAD_-1206427193', u'PTRADD_-1206426758'), (u'MULTIEQUAL_-1206426921', u'PTRSUB_-1206426735'), ('const-0', u'RETURN_-1206426987'), (u'PTRADD_-1206426758', u'LOAD_-1206427186'), (u'PTRSUB_-1206426735', u'LOAD_-1206427143'), (u'MULTIEQUAL_-1206426928', u'PTRADD_-1206426758'), ('const-0', u'INT_SLESS_-1206427208'), (u'LOAD_-1206427186', u'INT_NOTEQUAL_-1206427160'), ('const-0', u'INT_NOTEQUAL_-1206427303'), (u'PTRSUB_-1206426744', u'LOAD_-1206427155'), (u'MULTIEQUAL_-1206426939', u'MULTIEQUAL_-1206426877'), ('tmp_86', u'CBRANCH_-1206427301'), (u'CAST_-1206426738', u'CALL_-1206427144'), ('const-1', u'INT_ADD_-1206427030'), ('const-1', u'RETURN_-1206427097'), ('const-417', u'LOAD_-1206427143'), (u'PTRSUB_-1206426709', u'LOAD_-1206427093'), ('const-417', u'LOAD_-1206427193'), ('tmp_420', u'CBRANCH_-1206427110'), ('tmp_486', u'CBRANCH_-1206427064'), (u'MULTIEQUAL_-1206426921', u'PTRSUB_-1206426709'), (u'INT_NOTEQUAL_-1206427303', u'CBRANCH_-1206427301'), (u'INT_NOTEQUAL_-1206427160', u'CBRANCH_-1206427158'), (u'LOAD_-1206427247', u'INT_SLESS_-1206427208'), (u'LOAD_-1206427093', u'INT_NOTEQUAL_-1206427067'), ('tmp_563', u'CBRANCH_-1206427020'), (u'INT_NOTEQUAL_-1206427067', u'CBRANCH_-1206427064'), ('tmp_625', u'INT_NOTEQUAL_-1206427303'), (u'PTRSUB_-1206426702', u'LOAD_-1206427061'), (u'LOAD_-1206427186', u'MULTIEQUAL_-1206426921')]
|
[('const-2', u'PTRADD_-1206426774'), ('const-417', u'LOAD_-1206427298'), ('const-2', u'PTRADD_-1206426728'), (u'MULTIEQUAL_-1206426926', u'INT_ADD_-1206427032'), (u'LOAD_-1206427298', u'INT_EQUAL_-1206427273'), ('const-417', u'LOAD_-1206427143'), (u'INT_EQUAL_-1206427273', u'CBRANCH_-1206427269'), ('const-4', u'PTRADD_-1206426761'), ('const-4', u'PTRADD_-1206426719'), ('const-417', u'LOAD_-1206427193'), ('tmp_1281', u'LOAD_-1206427193'), (u'CAST_-1206426691', u'INT_NOTEQUAL_-1206427069'), ('const-0', u'INT_NOTEQUAL_-1206427069'), (u'MULTIEQUAL_-1206426876', u'INT_SLESS_-1206427015'), ('tmp_1281', u'PTRADD_-1206426774'), ('const-4', u'PTRADD_-1206426774'), ('const-0', u'INT_SLESS_-1206427208'), ('const-417', u'LOAD_-1206427063'), (u'INT_SLESS_-1206427208', u'CBRANCH_-1206427215'), (u'MULTIEQUAL_-1206426919', u'LOAD_-1206427095'), (u'PTRADD_-1206426728', u'LOAD_-1206427155'), (u'INT_ADD_-1206427032', u'MULTIEQUAL_-1206426926'), (u'MULTIEQUAL_-1206426919', u'PTRADD_-1206426719'), (u'INT_NOTEQUAL_-1206427112', u'CBRANCH_-1206427110'), ('tmp_561', u'CBRANCH_-1206427022'), (u'MULTIEQUAL_-1206426919', u'PTRADD_-1206426698'), ('const-0', u'RETURN_-1206427245'), (u'LOAD_-1206427193', u'INT_ADD_-1206427170'), ('tmp_1281', u'PTRADD_-1206426761'), ('tmp_140', u'CBRANCH_-1206427269'), ('const-417', u'LOAD_-1206427155'), ('const-2', u'PTRADD_-1206426719'), ('const-0', u'INT_NOTEQUAL_-1206427112'), ('tmp_356', u'CBRANCH_-1206427158'), (u'CAST_-1206426737', u'LOAD_-1206427186'), ('tmp_1281', u'PTRADD_-1206426681'), (u'PTRADD_-1206426719', u'LOAD_-1206427143'), ('tmp_1281', u'COPY_-1206427021'), ('const-0', u'RETURN_-1206426989'), ('const-4', u'PTRADD_-1206426728'), ('const-4', u'INT_MULT_-1206427158'), ('tmp_254', u'CBRANCH_-1206427215'), (u'INT_MULT_-1206427158', u'INT_ADD_-1206427170'), (u'PTRADD_-1206426774', u'LOAD_-1206427298'), (u'CAST_-1206426716', u'INT_NOTEQUAL_-1206427112'), (u'CALL_-1206427144', u'STORE_-1206427100'), ('const-1', u'INT_ADD_-1206427032'), (u'INT_ADD_-1206427170', u'CAST_-1206426737'), ('const-4', u'PTRADD_-1206426698'), ('tmp_1281', u'INT_NOTEQUAL_-1206427303'), ('const-1', u'PTRADD_-1206426761'), (u'INT_NOTEQUAL_-1206427069', u'CBRANCH_-1206427066'), ('const-2', u'PTRADD_-1206426698'), ('tmp_484', u'CBRANCH_-1206427066'), ('const-0', u'INT_NOTEQUAL_-1206427160'), ('const-0', u'COPY_-1206427211'), (u'PTRADD_-1206426761', u'LOAD_-1206427247'), (u'INT_SLESS_-1206427015', u'CBRANCH_-1206427022'), (u'LOAD_-1206427095', u'CAST_-1206426691'), ('const-417', u'LOAD_-1206427247'), (u'LOAD_-1206427063', u'MULTIEQUAL_-1206426876'), (u'MULTIEQUAL_-1206426876', u'MULTIEQUAL_-1206426936'), (u'LOAD_-1206427186', u'INT_NOTEQUAL_-1206427160'), ('const-0', u'INT_NOTEQUAL_-1206427303'), (u'PTRADD_-1206426698', u'STORE_-1206427100'), ('tmp_86', u'CBRANCH_-1206427301'), ('const-1', u'PTRADD_-1206426681'), (u'INT_ADD_-1206427032', u'INT_SLESS_-1206427015'), ('const-0', u'INT_EQUAL_-1206427273'), (u'LOAD_-1206427143', u'CAST_-1206426716'), (u'CAST_-1206426716', u'CALL_-1206427102'), ('const-417', u'LOAD_-1206427095'), ('tmp_420', u'CBRANCH_-1206427110'), (u'PTRADD_-1206426681', u'LOAD_-1206427063'), (u'COPY_-1206427021', u'RETURN_-1206426989'), (u'INT_NOTEQUAL_-1206427303', u'CBRANCH_-1206427301'), (u'INT_NOTEQUAL_-1206427160', u'CBRANCH_-1206427158'), (u'LOAD_-1206427155', u'CALL_-1206427144'), (u'LOAD_-1206427247', u'MULTIEQUAL_-1206426936'), (u'LOAD_-1206427247', u'INT_SLESS_-1206427208'), (u'MULTIEQUAL_-1206426919', u'PTRADD_-1206426728'), (u'CAST_-1206426691', u'MULTIEQUAL_-1206426919'), ('const-417', u'STORE_-1206427100'), ('const-4', u'PTRADD_-1206426681'), ('const-0', u'RETURN_-1206427245'), (u'LOAD_-1206427186', u'MULTIEQUAL_-1206426919'), (u'COPY_-1206427211', u'MULTIEQUAL_-1206426926'), (u'MULTIEQUAL_-1206426936', u'MULTIEQUAL_-1206426876'), (u'MULTIEQUAL_-1206426926', u'INT_MULT_-1206427158'), ('const-417', u'LOAD_-1206427186')]
| null | null |
00086130
|
arm
|
O2
|
(translation_unit "int * assoc_dequote_escapes(int *param_1)\n\n{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}\n\n" (function_definition "int * assoc_dequote_escapes(int *param_1)\n\n{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" primitive_type (pointer_declarator "* assoc_dequote_escapes(int *param_1)" * (function_declarator "assoc_dequote_escapes(int *param_1)" identifier (parameter_list "(int *param_1)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) )))) (compound_statement "{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (if_statement "if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" if (parenthesized_expression "(param_1 != (int *)0x0)" ( (binary_expression "param_1 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" { (if_statement "if (param_1[2] == 0) {\n return (int *)0x0;\n }" if (parenthesized_expression "(param_1[2] == 0)" ( (binary_expression "param_1[2] == 0" (subscript_expression "param_1[2]" identifier [ number_literal ]) == number_literal) )) (compound_statement "{\n return (int *)0x0;\n }" { (return_statement "return (int *)0x0;" return (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal) ;) })) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" identifier = (subscript_expression "param_1[1]" identifier [ number_literal ])) ;) (if_statement "if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" if (parenthesized_expression "(0 < iVar1)" ( (binary_expression "0 < iVar1" number_literal < identifier) )) (compound_statement "{\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (do_statement "do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);" do (compound_statement "{\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n }" { (expression_statement "piVar2 = *(int **)(*param_1 + iVar3 * 4);" (assignment_expression "piVar2 = *(int **)(*param_1 + iVar3 * 4)" identifier = (pointer_expression "*(int **)(*param_1 + iVar3 * 4)" * (cast_expression "(int **)(*param_1 + iVar3 * 4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*param_1 + iVar3 * 4)" ( (binary_expression "*param_1 + iVar3 * 4" (pointer_expression "*param_1" * identifier) + (binary_expression "iVar3 * 4" identifier * number_literal)) ))))) ;) (if_statement "if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" if (parenthesized_expression "(piVar2 != (int *)0x0)" ( (binary_expression "piVar2 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" { (do_statement "do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);" do (compound_statement "{\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n }" { (expression_statement "iVar1 = dequote_escapes(piVar2[2]);" (assignment_expression "iVar1 = dequote_escapes(piVar2[2])" identifier = (call_expression "dequote_escapes(piVar2[2])" identifier (argument_list "(piVar2[2])" ( (subscript_expression "piVar2[2]" identifier [ number_literal ]) )))) ;) (if_statement "if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }" if (parenthesized_expression "((void *)piVar2[2] != (void *)0x0)" ( (binary_expression "(void *)piVar2[2] != (void *)0x0" (cast_expression "(void *)piVar2[2]" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar2[2]" identifier [ number_literal ])) != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n free((void *)piVar2[2]);\n }" { (expression_statement "free((void *)piVar2[2]);" (call_expression "free((void *)piVar2[2])" identifier (argument_list "((void *)piVar2[2])" ( (cast_expression "(void *)piVar2[2]" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar2[2]" identifier [ number_literal ])) ))) ;) })) (expression_statement "piVar2[2] = iVar1;" (assignment_expression "piVar2[2] = iVar1" (subscript_expression "piVar2[2]" identifier [ number_literal ]) = identifier) ;) (expression_statement "piVar2 = (int *)*piVar2;" (assignment_expression "piVar2 = (int *)*piVar2" identifier = (cast_expression "(int *)*piVar2" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*piVar2" * identifier))) ;) }) while (parenthesized_expression "(piVar2 != (int *)0x0)" ( (binary_expression "piVar2 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" identifier = (subscript_expression "param_1[1]" identifier [ number_literal ])) ;) })) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 < iVar1)" ( (binary_expression "iVar3 < iVar1" identifier < identifier) )) ;) })) })) (return_statement "return param_1;" return identifier ;) })))
|
(translation_unit "HASH_TABLE * assoc_dequote_escapes(HASH_TABLE *h)\n\n{\n char *pcVar1;\n int iVar2;\n BUCKET_CONTENTS *pBVar3;\n int iVar4;\n \n if (h != (HASH_TABLE *)0x0) {\n if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }\n iVar2 = h->nbuckets;\n if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }\n }\n return h;\n}\n\n" (function_definition "HASH_TABLE * assoc_dequote_escapes(HASH_TABLE *h)\n\n{\n char *pcVar1;\n int iVar2;\n BUCKET_CONTENTS *pBVar3;\n int iVar4;\n \n if (h != (HASH_TABLE *)0x0) {\n if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }\n iVar2 = h->nbuckets;\n if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }\n }\n return h;\n}" type_identifier (pointer_declarator "* assoc_dequote_escapes(HASH_TABLE *h)" * (function_declarator "assoc_dequote_escapes(HASH_TABLE *h)" identifier (parameter_list "(HASH_TABLE *h)" ( (parameter_declaration "HASH_TABLE *h" type_identifier (pointer_declarator "*h" * identifier)) )))) (compound_statement "{\n char *pcVar1;\n int iVar2;\n BUCKET_CONTENTS *pBVar3;\n int iVar4;\n \n if (h != (HASH_TABLE *)0x0) {\n if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }\n iVar2 = h->nbuckets;\n if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }\n }\n return h;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "BUCKET_CONTENTS *pBVar3;" type_identifier (pointer_declarator "*pBVar3" * identifier) ;) (declaration "int iVar4;" primitive_type identifier ;) (if_statement "if (h != (HASH_TABLE *)0x0) {\n if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }\n iVar2 = h->nbuckets;\n if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }\n }" if (parenthesized_expression "(h != (HASH_TABLE *)0x0)" ( (binary_expression "h != (HASH_TABLE *)0x0" identifier != (cast_expression "(HASH_TABLE *)0x0" ( (type_descriptor "HASH_TABLE *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }\n iVar2 = h->nbuckets;\n if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }\n }" { (if_statement "if (h->nentries == 0) {\n return (HASH_TABLE *)0x0;\n }" if (parenthesized_expression "(h->nentries == 0)" ( (binary_expression "h->nentries == 0" (field_expression "h->nentries" identifier -> field_identifier) == number_literal) )) (compound_statement "{\n return (HASH_TABLE *)0x0;\n }" { (return_statement "return (HASH_TABLE *)0x0;" return (cast_expression "(HASH_TABLE *)0x0" ( (type_descriptor "HASH_TABLE *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal) ;) })) (expression_statement "iVar2 = h->nbuckets;" (assignment_expression "iVar2 = h->nbuckets" identifier = (field_expression "h->nbuckets" identifier -> field_identifier)) ;) (if_statement "if (0 < iVar2) {\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }" if (parenthesized_expression "(0 < iVar2)" ( (binary_expression "0 < iVar2" number_literal < identifier) )) (compound_statement "{\n iVar4 = 0;\n do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);\n }" { (expression_statement "iVar4 = 0;" (assignment_expression "iVar4 = 0" identifier = number_literal) ;) (do_statement "do {\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n } while (iVar4 < iVar2);" do (compound_statement "{\n pBVar3 = h->bucket_array[iVar4];\n if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }\n iVar4 = iVar4 + 1;\n }" { (expression_statement "pBVar3 = h->bucket_array[iVar4];" (assignment_expression "pBVar3 = h->bucket_array[iVar4]" identifier = (subscript_expression "h->bucket_array[iVar4]" (field_expression "h->bucket_array" identifier -> field_identifier) [ identifier ])) ;) (if_statement "if (pBVar3 != (BUCKET_CONTENTS *)0x0) {\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }" if (parenthesized_expression "(pBVar3 != (BUCKET_CONTENTS *)0x0)" ( (binary_expression "pBVar3 != (BUCKET_CONTENTS *)0x0" identifier != (cast_expression "(BUCKET_CONTENTS *)0x0" ( (type_descriptor "BUCKET_CONTENTS *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);\n iVar2 = h->nbuckets;\n }" { (do_statement "do {\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n } while (pBVar3 != (bucket_contents *)0x0);" do (compound_statement "{\n pcVar1 = dequote_escapes((char *)pBVar3->data);\n if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }\n pBVar3->data = pcVar1;\n pBVar3 = pBVar3->next;\n }" { (expression_statement "pcVar1 = dequote_escapes((char *)pBVar3->data);" (assignment_expression "pcVar1 = dequote_escapes((char *)pBVar3->data)" identifier = (call_expression "dequote_escapes((char *)pBVar3->data)" identifier (argument_list "((char *)pBVar3->data)" ( (cast_expression "(char *)pBVar3->data" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (field_expression "pBVar3->data" identifier -> field_identifier)) )))) ;) (if_statement "if (pBVar3->data != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }" if (parenthesized_expression "(pBVar3->data != (void *)0x0)" ( (binary_expression "pBVar3->data != (void *)0x0" (field_expression "pBVar3->data" identifier -> field_identifier) != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n free(pBVar3->data);\n }" { comment (expression_statement "free(pBVar3->data);" (call_expression "free(pBVar3->data)" identifier (argument_list "(pBVar3->data)" ( (field_expression "pBVar3->data" identifier -> field_identifier) ))) ;) })) (expression_statement "pBVar3->data = pcVar1;" (assignment_expression "pBVar3->data = pcVar1" (field_expression "pBVar3->data" identifier -> field_identifier) = identifier) ;) (expression_statement "pBVar3 = pBVar3->next;" (assignment_expression "pBVar3 = pBVar3->next" identifier = (field_expression "pBVar3->next" identifier -> field_identifier)) ;) }) while (parenthesized_expression "(pBVar3 != (bucket_contents *)0x0)" ( (binary_expression "pBVar3 != (bucket_contents *)0x0" identifier != (cast_expression "(bucket_contents *)0x0" ( (type_descriptor "bucket_contents *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) (expression_statement "iVar2 = h->nbuckets;" (assignment_expression "iVar2 = h->nbuckets" identifier = (field_expression "h->nbuckets" identifier -> field_identifier)) ;) })) (expression_statement "iVar4 = iVar4 + 1;" (assignment_expression "iVar4 = iVar4 + 1" identifier = (binary_expression "iVar4 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar4 < iVar2)" ( (binary_expression "iVar4 < iVar2" identifier < identifier) )) ;) })) })) (return_statement "return h;" return identifier ;) })))
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(translation_unit "int * assoc_dequote_escapes(int *param_1)\n\n{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}\n\n" (function_definition "int * assoc_dequote_escapes(int *param_1)\n\n{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" primitive_type (pointer_declarator "* assoc_dequote_escapes(int *param_1)" * (function_declarator "assoc_dequote_escapes(int *param_1)" identifier (parameter_list "(int *param_1)" ( (parameter_declaration "int *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) )))) (compound_statement "{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (if_statement "if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" if (parenthesized_expression "(param_1 != (int *)0x0)" ( (binary_expression "param_1 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" { (if_statement "if (param_1[2] == 0) {\n return (int *)0x0;\n }" if (parenthesized_expression "(param_1[2] == 0)" ( (binary_expression "param_1[2] == 0" (subscript_expression "param_1[2]" identifier [ number_literal ]) == number_literal) )) (compound_statement "{\n return (int *)0x0;\n }" { (return_statement "return (int *)0x0;" return (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal) ;) })) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" identifier = (subscript_expression "param_1[1]" identifier [ number_literal ])) ;) (if_statement "if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" if (parenthesized_expression "(0 < iVar1)" ( (binary_expression "0 < iVar1" number_literal < identifier) )) (compound_statement "{\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (do_statement "do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);" do (compound_statement "{\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n }" { (expression_statement "piVar2 = *(int **)(*param_1 + iVar3 * 4);" (assignment_expression "piVar2 = *(int **)(*param_1 + iVar3 * 4)" identifier = (pointer_expression "*(int **)(*param_1 + iVar3 * 4)" * (cast_expression "(int **)(*param_1 + iVar3 * 4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*param_1 + iVar3 * 4)" ( (binary_expression "*param_1 + iVar3 * 4" (pointer_expression "*param_1" * identifier) + (binary_expression "iVar3 * 4" identifier * number_literal)) ))))) ;) (if_statement "if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" if (parenthesized_expression "(piVar2 != (int *)0x0)" ( (binary_expression "piVar2 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" { (do_statement "do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);" do (compound_statement "{\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n }" { (expression_statement "iVar1 = dequote_escapes(piVar2[2]);" (assignment_expression "iVar1 = dequote_escapes(piVar2[2])" identifier = (call_expression "dequote_escapes(piVar2[2])" identifier (argument_list "(piVar2[2])" ( (subscript_expression "piVar2[2]" identifier [ number_literal ]) )))) ;) (if_statement "if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }" if (parenthesized_expression "((void *)piVar2[2] != (void *)0x0)" ( (binary_expression "(void *)piVar2[2] != (void *)0x0" (cast_expression "(void *)piVar2[2]" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar2[2]" identifier [ number_literal ])) != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n free((void *)piVar2[2]);\n }" { (expression_statement "free((void *)piVar2[2]);" (call_expression "free((void *)piVar2[2])" identifier (argument_list "((void *)piVar2[2])" ( (cast_expression "(void *)piVar2[2]" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar2[2]" identifier [ number_literal ])) ))) ;) })) (expression_statement "piVar2[2] = iVar1;" (assignment_expression "piVar2[2] = iVar1" (subscript_expression "piVar2[2]" identifier [ number_literal ]) = identifier) ;) (expression_statement "piVar2 = (int *)*piVar2;" (assignment_expression "piVar2 = (int *)*piVar2" identifier = (cast_expression "(int *)*piVar2" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*piVar2" * identifier))) ;) }) while (parenthesized_expression "(piVar2 != (int *)0x0)" ( (binary_expression "piVar2 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" identifier = (subscript_expression "param_1[1]" identifier [ number_literal ])) ;) })) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 < iVar1)" ( (binary_expression "iVar3 < iVar1" identifier < identifier) )) ;) })) })) (return_statement "return param_1;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) )))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) == LIT) )) (compound_statement { (return_statement return (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT) ;) })) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (subscript_expression IDENT [ LIT ]) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ])) != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ])) ))) ;) })) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT))) ;) }) while (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT < IDENT) )) ;) })) })) (return_statement return IDENT ;) })))
|
(function_definition "int * assoc_dequote_escapes(int *param_1)\n\n{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" (primitive_type "int") (pointer_declarator "* assoc_dequote_escapes(int *param_1)" (* "*") (function_declarator "assoc_dequote_escapes(int *param_1)" (identifier "assoc_dequote_escapes") (parameter_list "(int *param_1)" (( "(") (parameter_declaration "int *param_1" (primitive_type "int") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")")))) (compound_statement "{\n int iVar1;\n int *piVar2;\n int iVar3;\n \n if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }\n return param_1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int *piVar2;" (primitive_type "int") (pointer_declarator "*piVar2" (* "*") (identifier "piVar2")) (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (if_statement "if (param_1 != (int *)0x0) {\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" (if "if") (parenthesized_expression "(param_1 != (int *)0x0)" (( "(") (binary_expression "param_1 != (int *)0x0" (identifier "param_1") (!= "!=") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n if (param_1[2] == 0) {\n return (int *)0x0;\n }\n iVar1 = param_1[1];\n if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }\n }" ({ "{") (if_statement "if (param_1[2] == 0) {\n return (int *)0x0;\n }" (if "if") (parenthesized_expression "(param_1[2] == 0)" (( "(") (binary_expression "param_1[2] == 0" (subscript_expression "param_1[2]" (identifier "param_1") ([ "[") (number_literal "2") (] "]")) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n return (int *)0x0;\n }" ({ "{") (return_statement "return (int *)0x0;" (return "return") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0")) (; ";")) (} "}"))) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" (identifier "iVar1") (= "=") (subscript_expression "param_1[1]" (identifier "param_1") ([ "[") (number_literal "1") (] "]"))) (; ";")) (if_statement "if (0 < iVar1) {\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" (if "if") (parenthesized_expression "(0 < iVar1)" (( "(") (binary_expression "0 < iVar1" (number_literal "0") (< "<") (identifier "iVar1")) () ")")) (compound_statement "{\n iVar3 = 0;\n do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);\n }" ({ "{") (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" (identifier "iVar3") (= "=") (number_literal "0")) (; ";")) (do_statement "do {\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n } while (iVar3 < iVar1);" (do "do") (compound_statement "{\n piVar2 = *(int **)(*param_1 + iVar3 * 4);\n if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }\n iVar3 = iVar3 + 1;\n }" ({ "{") (expression_statement "piVar2 = *(int **)(*param_1 + iVar3 * 4);" (assignment_expression "piVar2 = *(int **)(*param_1 + iVar3 * 4)" (identifier "piVar2") (= "=") (pointer_expression "*(int **)(*param_1 + iVar3 * 4)" (* "*") (cast_expression "(int **)(*param_1 + iVar3 * 4)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(*param_1 + iVar3 * 4)" (( "(") (binary_expression "*param_1 + iVar3 * 4" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (+ "+") (binary_expression "iVar3 * 4" (identifier "iVar3") (* "*") (number_literal "4"))) () ")"))))) (; ";")) (if_statement "if (piVar2 != (int *)0x0) {\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" (if "if") (parenthesized_expression "(piVar2 != (int *)0x0)" (( "(") (binary_expression "piVar2 != (int *)0x0" (identifier "piVar2") (!= "!=") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);\n iVar1 = param_1[1];\n }" ({ "{") (do_statement "do {\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n } while (piVar2 != (int *)0x0);" (do "do") (compound_statement "{\n iVar1 = dequote_escapes(piVar2[2]);\n if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }\n piVar2[2] = iVar1;\n piVar2 = (int *)*piVar2;\n }" ({ "{") (expression_statement "iVar1 = dequote_escapes(piVar2[2]);" (assignment_expression "iVar1 = dequote_escapes(piVar2[2])" (identifier "iVar1") (= "=") (call_expression "dequote_escapes(piVar2[2])" (identifier "dequote_escapes") (argument_list "(piVar2[2])" (( "(") (subscript_expression "piVar2[2]" (identifier "piVar2") ([ "[") (number_literal "2") (] "]")) () ")")))) (; ";")) (if_statement "if ((void *)piVar2[2] != (void *)0x0) {\n free((void *)piVar2[2]);\n }" (if "if") (parenthesized_expression "((void *)piVar2[2] != (void *)0x0)" (( "(") (binary_expression "(void *)piVar2[2] != (void *)0x0" (cast_expression "(void *)piVar2[2]" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar2[2]" (identifier "piVar2") ([ "[") (number_literal "2") (] "]"))) (!= "!=") (cast_expression "(void *)0x0" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n free((void *)piVar2[2]);\n }" ({ "{") (expression_statement "free((void *)piVar2[2]);" (call_expression "free((void *)piVar2[2])" (identifier "free") (argument_list "((void *)piVar2[2])" (( "(") (cast_expression "(void *)piVar2[2]" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar2[2]" (identifier "piVar2") ([ "[") (number_literal "2") (] "]"))) () ")"))) (; ";")) (} "}"))) (expression_statement "piVar2[2] = iVar1;" (assignment_expression "piVar2[2] = iVar1" (subscript_expression "piVar2[2]" (identifier "piVar2") ([ "[") (number_literal "2") (] "]")) (= "=") (identifier "iVar1")) (; ";")) (expression_statement "piVar2 = (int *)*piVar2;" (assignment_expression "piVar2 = (int *)*piVar2" (identifier "piVar2") (= "=") (cast_expression "(int *)*piVar2" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*piVar2" (* "*") (identifier "piVar2")))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(piVar2 != (int *)0x0)" (( "(") (binary_expression "piVar2 != (int *)0x0" (identifier "piVar2") (!= "!=") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (; ";")) (expression_statement "iVar1 = param_1[1];" (assignment_expression "iVar1 = param_1[1]" (identifier "iVar1") (= "=") (subscript_expression "param_1[1]" (identifier "param_1") ([ "[") (number_literal "1") (] "]"))) (; ";")) (} "}"))) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 1" (identifier "iVar3") (+ "+") (number_literal "1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar3 < iVar1)" (( "(") (binary_expression "iVar3 < iVar1" (identifier "iVar3") (< "<") (identifier "iVar1")) () ")")) (; ";")) (} "}"))) (} "}"))) (return_statement "return param_1;" (return "return") (identifier "param_1") (; ";")) (} "}")))
|
type_1 * function_1(type_1 *var_1)
{
char *pcVar1;
int var_2;
type_2 *var_3;
int var_6;
if (var_1 != (type_1 *)0x0) {
if (var_1->nentries == 0) {
return (type_1 *)0x0;
}
var_2 = var_1->nbuckets;
if (0 < var_2) {
var_6 = 0;
do {
var_3 = var_1->bucket_array[var_6];
if (var_3 != (type_2 *)0x0) {
do {
pcVar1 = var_4((char *)var_3->data);
if (var_3->data != (void *)0x0) {
/* WARNING: Subroutine does not return */
var_5(var_3->data);
}
var_3->data = pcVar1;
var_3 = var_3->next;
} while (var_3 != (type_3 *)0x0);
var_2 = var_1->nbuckets;
}
var_6 = var_6 + 1;
} while (var_6 < var_2);
}
}
return var_1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier)))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) consequence: (compound_statement (return_statement (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (subscript_expression argument: (identifier) index: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal)))))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))))) (return_statement (identifier)))))
|
int * MASKED(int *param_1)
{
int iVar1;
int *piVar2;
int iVar3;
if (param_1 != (int *)0x0) {
if (param_1[2] == 0) {
return (int *)0x0;
}
iVar1 = param_1[1];
if (0 < iVar1) {
iVar3 = 0;
do {
piVar2 = *(int **)(*param_1 + iVar3 * 4);
if (piVar2 != (int *)0x0) {
do {
iVar1 = dequote_escapes(piVar2[2]);
if ((void *)piVar2[2] != (void *)0x0) {
free((void *)piVar2[2]);
}
piVar2[2] = iVar1;
piVar2 = (int *)*piVar2;
} while (piVar2 != (int *)0x0);
iVar1 = param_1[1];
}
iVar3 = iVar3 + 1;
} while (iVar3 < iVar1);
}
}
return param_1;
}
| 56,886 |
||
246_libsqlite3.so.0.8_and_libsqlite3.so.0.8_strip.c
|
doubleToInt64
|
FUN_00020650
|
i64 doubleToInt64(double r)
{
undefined4 in_r0;
int iVar1;
undefined4 in_r1;
i64 iVar2;
iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4);
if (iVar1 != 0) {
return -0x8000000000000000;
}
iVar1 = __aeabi_dcmpge();
if (iVar1 == 0) {
iVar2 = __fixdfdi();
return iVar2;
}
return 0x7fffffffffffffff;
}
|
undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)
{
int iVar1;
undefined4 uVar2;
iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);
if (iVar1 != 0) {
return 0;
}
iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);
if (iVar1 == 0) {
uVar2 = FUN_000b1ddc(param_1,param_2);
return uVar2;
}
return 0xffffffff;
}
|
stmdb sp!,{r4,r5,r6,lr}
mov r2,#0x0
ldr r3,[0x206b4]
cpy r4,r0
cpy r5,r1
bl 0x000b16dc
cmp r0,#0x0
bne 0x000206a8
mov r2,#0x0
ldr r3,[0x206b8]
cpy r0,r4
cpy r1,r5
bl 0x000b16f0
cmp r0,#0x0
bne 0x0002069c
cpy r0,r4
cpy r1,r5
bl 0x000b1ddc
ldmia sp!,{r4,r5,r6,pc}
mvn r0,#0x0
mvn r1,#0x80000000
ldmia sp!,{r4,r5,r6,pc}
mov r0,#0x0
mov r1,#0x80000000
ldmia sp!,{r4,r5,r6,pc}
| null | null | null | null |
[(u'CALL_-1206057276', u'INDIRECT_-1206057024'), ('tmp_706', u'CALL_-1206057339'), (u'INT_NOTEQUAL_-1206057318', u'CBRANCH_-1206057315'), (u'CALL_-1206057234', u'INDIRECT_-1206056997'), ('const--9223372036854775808', u'COPY_-1206057105'), (u'INDIRECT_-1206057018', u'COPY_-1206057039'), (u'INDIRECT_-1206057047', u'COPY_-1206057026'), (u'COPY_-1206057120', u'RETURN_-1206057161'), (u'INDIRECT_-1206057053', u'COPY_-1206057032'), ('const-0', u'INT_NOTEQUAL_-1206057318'), (u'CALL_-1206057276', u'INT_EQUAL_-1206057256'), ('tmp_212', u'CBRANCH_-1206057252'), ('const-0', u'INT_EQUAL_-1206057256'), (u'INT_EQUAL_-1206057256', u'CBRANCH_-1206057252'), ('const-0', u'CALL_-1206057339'), (u'CALL_-1206057339', u'INT_NOTEQUAL_-1206057318'), ('const-9223372036854775807', u'COPY_-1206057120'), (u'CALL_-1206057339', u'INDIRECT_-1206057053'), (u'INDIRECT_-1206057024', u'COPY_-1206057045'), ('const-0', u'RETURN_-1206057110'), (u'COPY_-1206057105', u'RETURN_-1206057110'), ('tmp_120', u'CBRANCH_-1206057315'), ('const-0', u'RETURN_-1206057212'), (u'CALL_-1206057339', u'INDIRECT_-1206057047'), (u'INDIRECT_-1206056997', u'COPY_-1206057052'), ('tmp_707', u'CALL_-1206057339'), (u'CALL_-1206057276', u'INDIRECT_-1206057018'), ('const-0', u'RETURN_-1206057161'), (u'INDIRECT_-1206057003', u'COPY_-1206057058'), ('tmp_865', u'CALL_-1206057339'), (u'CALL_-1206057234', u'RETURN_-1206057212'), (u'CALL_-1206057234', u'INDIRECT_-1206057003')]
|
[(u'COPY_-1206057158', u'RETURN_-1206057110'), (u'INT_NOTEQUAL_-1206057318', u'CBRANCH_-1206057315'), ('const-0', u'CALL_-1206057276'), ('tmp_690', u'CALL_-1206057339'), (u'CALL_-1206057339', u'INDIRECT_-1206057057'), ('const-0', u'COPY_-1206057158'), ('const-0', u'INT_EQUAL_-1206057256'), (u'COPY_-1206057209', u'RETURN_-1206057161'), (u'INDIRECT_-1206057057', u'CALL_-1206057276'), ('tmp_691', u'CALL_-1206057276'), (u'CALL_-1206057276', u'INT_EQUAL_-1206057256'), ('tmp_212', u'CBRANCH_-1206057252'), (u'CALL_-1206057276', u'INDIRECT_-1206057034'), (u'CALL_-1206057234', u'INDIRECT_-1206057007'), (u'INT_EQUAL_-1206057256', u'CBRANCH_-1206057252'), (u'CALL_-1206057234', u'INDIRECT_-1206057013'), (u'CALL_-1206057339', u'INT_NOTEQUAL_-1206057318'), (u'INDIRECT_-1206057007', u'COPY_-1206057062'), (u'INDIRECT_-1206057034', u'COPY_-1206057055'), ('tmp_691', u'CALL_-1206057339'), ('const-0', u'RETURN_-1206057110'), (u'INDIRECT_-1206057063', u'COPY_-1206057042'), ('tmp_822', u'CALL_-1206057339'), ('const-0', u'CALL_-1206057339'), ('tmp_691', u'CALL_-1206057234'), (u'CALL_-1206057339', u'INDIRECT_-1206057063'), ('tmp_120', u'CBRANCH_-1206057315'), (u'INDIRECT_-1206057013', u'COPY_-1206057068'), ('const-0', u'RETURN_-1206057212'), ('const-4294967295', u'COPY_-1206057209'), (u'INDIRECT_-1206057057', u'COPY_-1206057036'), ('tmp_690', u'CALL_-1206057276'), ('const-0', u'INT_NOTEQUAL_-1206057318'), ('const-0', u'RETURN_-1206057161'), ('tmp_690', u'CALL_-1206057234'), (u'INDIRECT_-1206057028', u'COPY_-1206057049'), (u'CALL_-1206057276', u'INDIRECT_-1206057028'), (u'CALL_-1206057234', u'RETURN_-1206057212')]
| null | null |
00020650
|
arm
|
O2
|
(translation_unit "undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}\n\n" (function_definition "undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" type_identifier (function_declarator "FUN_00020650(undefined4 param_1,undefined4 param_2)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);" (assignment_expression "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" identifier = (call_expression "FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" identifier (argument_list "(param_1,param_2,0,DAT_000206b4)" ( identifier , identifier , number_literal , identifier )))) ;) (if_statement "if (iVar1 != 0) {\n return 0;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);" (assignment_expression "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" identifier = (call_expression "FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" identifier (argument_list "(param_1,param_2,0,DAT_000206b8)" ( identifier , identifier , number_literal , identifier )))) ;) (if_statement "if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" if (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) (compound_statement "{\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_000b1ddc(param_1,param_2);" (assignment_expression "uVar2 = FUN_000b1ddc(param_1,param_2)" identifier = (call_expression "FUN_000b1ddc(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier )))) ;) (return_statement "return uVar2;" return identifier ;) })) (return_statement "return 0xffffffff;" return number_literal ;) })))
|
(translation_unit "i64 doubleToInt64(double r)\n\n{\n undefined4 in_r0;\n int iVar1;\n undefined4 in_r1;\n i64 iVar2;\n \n iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4);\n if (iVar1 != 0) {\n return -0x8000000000000000;\n }\n iVar1 = __aeabi_dcmpge();\n if (iVar1 == 0) {\n iVar2 = __fixdfdi();\n return iVar2;\n }\n return 0x7fffffffffffffff;\n}\n\n" (function_definition "i64 doubleToInt64(double r)\n\n{\n undefined4 in_r0;\n int iVar1;\n undefined4 in_r1;\n i64 iVar2;\n \n iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4);\n if (iVar1 != 0) {\n return -0x8000000000000000;\n }\n iVar1 = __aeabi_dcmpge();\n if (iVar1 == 0) {\n iVar2 = __fixdfdi();\n return iVar2;\n }\n return 0x7fffffffffffffff;\n}" type_identifier (function_declarator "doubleToInt64(double r)" identifier (parameter_list "(double r)" ( (parameter_declaration "double r" primitive_type identifier) ))) (compound_statement "{\n undefined4 in_r0;\n int iVar1;\n undefined4 in_r1;\n i64 iVar2;\n \n iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4);\n if (iVar1 != 0) {\n return -0x8000000000000000;\n }\n iVar1 = __aeabi_dcmpge();\n if (iVar1 == 0) {\n iVar2 = __fixdfdi();\n return iVar2;\n }\n return 0x7fffffffffffffff;\n}" { (declaration "undefined4 in_r0;" type_identifier identifier ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 in_r1;" type_identifier identifier ;) (declaration "i64 iVar2;" type_identifier identifier ;) (expression_statement "iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4);" (assignment_expression "iVar1 = __aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4)" identifier = (call_expression "__aeabi_dcmple(in_r0,in_r1,0,DAT_000206b4)" identifier (argument_list "(in_r0,in_r1,0,DAT_000206b4)" ( identifier , identifier , number_literal , identifier )))) ;) (if_statement "if (iVar1 != 0) {\n return -0x8000000000000000;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return -0x8000000000000000;\n }" { (return_statement "return -0x8000000000000000;" return number_literal ;) })) (expression_statement "iVar1 = __aeabi_dcmpge();" (assignment_expression "iVar1 = __aeabi_dcmpge()" identifier = (call_expression "__aeabi_dcmpge()" identifier (argument_list "()" ( )))) ;) (if_statement "if (iVar1 == 0) {\n iVar2 = __fixdfdi();\n return iVar2;\n }" if (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) (compound_statement "{\n iVar2 = __fixdfdi();\n return iVar2;\n }" { (expression_statement "iVar2 = __fixdfdi();" (assignment_expression "iVar2 = __fixdfdi()" identifier = (call_expression "__fixdfdi()" identifier (argument_list "()" ( )))) ;) (return_statement "return iVar2;" return identifier ;) })) (return_statement "return 0x7fffffffffffffff;" return number_literal ;) })))
|
(translation_unit "undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}\n\n" (function_definition "undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" type_identifier (function_declarator "FUN_00020650(undefined4 param_1,undefined4 param_2)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (expression_statement "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);" (assignment_expression "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" identifier = (call_expression "FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" identifier (argument_list "(param_1,param_2,0,DAT_000206b4)" ( identifier , identifier , number_literal , identifier )))) ;) (if_statement "if (iVar1 != 0) {\n return 0;\n }" if (parenthesized_expression "(iVar1 != 0)" ( (binary_expression "iVar1 != 0" identifier != number_literal) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);" (assignment_expression "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" identifier = (call_expression "FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" identifier (argument_list "(param_1,param_2,0,DAT_000206b8)" ( identifier , identifier , number_literal , identifier )))) ;) (if_statement "if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" if (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) (compound_statement "{\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" { (expression_statement "uVar2 = FUN_000b1ddc(param_1,param_2);" (assignment_expression "uVar2 = FUN_000b1ddc(param_1,param_2)" identifier = (call_expression "FUN_000b1ddc(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier )))) ;) (return_statement "return uVar2;" return identifier ;) })) (return_statement "return 0xffffffff;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT , LIT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (return_statement return LIT ;) })) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT , LIT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT )))) ;) (return_statement return IDENT ;) })) (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_00020650(undefined4 param_1,undefined4 param_2)\n\n{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" (type_identifier "undefined4") (function_declarator "FUN_00020650(undefined4 param_1,undefined4 param_2)" (identifier "FUN_00020650") (parameter_list "(undefined4 param_1,undefined4 param_2)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) () ")"))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n \n iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);\n if (iVar1 != 0) {\n return 0;\n }\n iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);\n if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }\n return 0xffffffff;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (expression_statement "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);" (assignment_expression "iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" (identifier "iVar1") (= "=") (call_expression "FUN_000b16dc(param_1,param_2,0,DAT_000206b4)" (identifier "FUN_000b16dc") (argument_list "(param_1,param_2,0,DAT_000206b4)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (number_literal "0") (, ",") (identifier "DAT_000206b4") () ")")))) (; ";")) (if_statement "if (iVar1 != 0) {\n return 0;\n }" (if "if") (parenthesized_expression "(iVar1 != 0)" (( "(") (binary_expression "iVar1 != 0" (identifier "iVar1") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n return 0;\n }" ({ "{") (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}"))) (expression_statement "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);" (assignment_expression "iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" (identifier "iVar1") (= "=") (call_expression "FUN_000b16f0(param_1,param_2,0,DAT_000206b8)" (identifier "FUN_000b16f0") (argument_list "(param_1,param_2,0,DAT_000206b8)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (number_literal "0") (, ",") (identifier "DAT_000206b8") () ")")))) (; ";")) (if_statement "if (iVar1 == 0) {\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" (if "if") (parenthesized_expression "(iVar1 == 0)" (( "(") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n uVar2 = FUN_000b1ddc(param_1,param_2);\n return uVar2;\n }" ({ "{") (expression_statement "uVar2 = FUN_000b1ddc(param_1,param_2);" (assignment_expression "uVar2 = FUN_000b1ddc(param_1,param_2)" (identifier "uVar2") (= "=") (call_expression "FUN_000b1ddc(param_1,param_2)" (identifier "FUN_000b1ddc") (argument_list "(param_1,param_2)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") () ")")))) (; ";")) (return_statement "return uVar2;" (return "return") (identifier "uVar2") (; ";")) (} "}"))) (return_statement "return 0xffffffff;" (return "return") (number_literal "0xffffffff") (; ";")) (} "}")))
|
type_1 function_1(double r)
{
type_2 in_r0;
int var_2;
type_2 in_r1;
type_1 iVar2;
var_2 = var_1(in_r0,in_r1,0,DAT_000206b4);
if (var_2 != 0) {
return -0x8000000000000000;
}
var_2 = var_3();
if (var_2 == 0) {
iVar2 = var_4();
return iVar2;
}
return 0x7fffffffffffffff;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (return_statement (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))) (return_statement (identifier)))) (return_statement (number_literal)))))
|
undefined4 MASKED(undefined4 param_1,undefined4 param_2)
{
int iVar1;
undefined4 uVar2;
iVar1 = FUN_000b16dc(param_1,param_2,0,DAT_000206b4);
if (iVar1 != 0) {
return 0;
}
iVar1 = FUN_000b16f0(param_1,param_2,0,DAT_000206b8);
if (iVar1 == 0) {
uVar2 = FUN_000b1ddc(param_1,param_2);
return uVar2;
}
return 0xffffffff;
}
| 67,435 |
||
1572_busybox_and_busybox_strip.c
|
end_screen
|
FUN_000b75e4
|
/* WARNING: Unknown calling convention */
char * end_screen(void)
{
char *pcVar1;
int iVar2;
int iVar3;
iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);
pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);
if (iVar2 != 2) {
iVar3 = 0;
do {
iVar3 = iVar3 + 1;
pcVar1 = next_line(pcVar1);
} while (iVar2 + -2 != iVar3);
}
pcVar1 = end_line(pcVar1);
return pcVar1;
}
|
void FUN_000b75e4(void)
{
undefined4 uVar1;
int iVar2;
int iVar3;
iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);
uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);
if (iVar2 != 2) {
iVar3 = 0;
do {
iVar3 = iVar3 + 1;
uVar1 = FUN_000b7500(uVar1);
} while (iVar2 + -2 != iVar3);
}
FUN_000b74b4();
return;
}
|
ldr r3,[0xb761c]
stmdb sp!,{r4,r5,r6,lr}
ldr r2,[pc,r3]
ldr r3,[r2,#0x30]
ldr r0,[r2,#0x54]
subs r4,r3,#0x2
beq 0x000b7614
mov r5,#0x0
add r5,r5,#0x1
bl 0x000b7500
cmp r4,r5
bne 0x000b7604
ldmia sp!,{r4,r5,r6,lr}
b 0x000b74b4
| null | null | null | null |
[(u'CAST_-1206618375', u'LOAD_-1206618617'), ('tmp_595', u'MULTIEQUAL_-1206618368'), (u'INT_ADD_-1206618586', u'INT_NOTEQUAL_-1206618534'), (u'CALL_-1206618549', u'INDIRECT_-1206618382'), ('const-0', u'RETURN_-1206618506'), (u'INT_ADD_-1206618545', u'MULTIEQUAL_-1206618443'), ('tmp_595', u'MULTIEQUAL_-1206618383'), ('tmp_595', u'INT_ADD_-1206618613'), (u'LOAD_-1206618617', u'MULTIEQUAL_-1206618453'), (u'INT_ADD_-1206618613', u'CAST_-1206618385'), ('tmp_98', u'CBRANCH_-1206618589'), (u'CALL_-1206618549', u'MULTIEQUAL_-1206618453'), ('tmp_200', u'CBRANCH_-1206618531'), (u'INT_ADD_-1206618607', u'CAST_-1206618380'), (u'INT_ADD_-1206618545', u'INT_NOTEQUAL_-1206618534'), (u'MULTIEQUAL_-1206618443', u'INT_ADD_-1206618545'), ('const-417', u'LOAD_-1206618623'), (u'CAST_-1206618385', u'LOAD_-1206618629'), ('const-417', u'LOAD_-1206618629'), ('const-751092', u'INT_ADD_-1206618613'), (u'INT_NOTEQUAL_-1206618534', u'CBRANCH_-1206618531'), ('const-84', u'INT_ADD_-1206618601'), (u'LOAD_-1206618617', u'MULTIEQUAL_-1206618438'), (u'INT_NOTEQUAL_-1206618591', u'CBRANCH_-1206618589'), (u'CAST_-1206618380', u'LOAD_-1206618623'), (u'INDIRECT_-1206618382', u'MULTIEQUAL_-1206618383'), ('const-2', u'INT_NOTEQUAL_-1206618591'), (u'INDIRECT_-1206618382', u'MULTIEQUAL_-1206618368'), ('const-0', u'COPY_-1206618581'), (u'MULTIEQUAL_-1206618453', u'CALL_-1206618549'), (u'INDIRECT_-1206618365', u'COPY_-1206618424'), (u'MULTIEQUAL_-1206618438', u'CALL_-1206618510'), (u'CALL_-1206618510', u'INDIRECT_-1206618365'), ('const-4294967294', u'INT_ADD_-1206618586'), (u'CALL_-1206618549', u'MULTIEQUAL_-1206618438'), (u'LOAD_-1206618623', u'INT_NOTEQUAL_-1206618591'), (u'INT_ADD_-1206618601', u'CAST_-1206618375'), ('const-417', u'LOAD_-1206618617'), (u'LOAD_-1206618623', u'INT_ADD_-1206618586'), (u'COPY_-1206618581', u'MULTIEQUAL_-1206618443'), (u'LOAD_-1206618629', u'INT_ADD_-1206618607'), ('const-48', u'INT_ADD_-1206618607'), ('const-1', u'INT_ADD_-1206618545'), (u'CALL_-1206618510', u'RETURN_-1206618506'), (u'LOAD_-1206618629', u'INT_ADD_-1206618601')]
|
[(u'INT_ADD_-1206618613', u'CAST_-1206618383'), (u'INT_ADD_-1206618601', u'CAST_-1206618373'), (u'INDIRECT_-1206618380', u'MULTIEQUAL_-1206618381'), (u'INDIRECT_-1206618363', u'COPY_-1206618422'), (u'INDIRECT_-1206618380', u'MULTIEQUAL_-1206618366'), (u'INT_ADD_-1206618586', u'INT_NOTEQUAL_-1206618534'), (u'INT_ADD_-1206618607', u'CAST_-1206618378'), ('const-2', u'INT_NOTEQUAL_-1206618591'), ('const-417', u'LOAD_-1206618623'), ('tmp_611', u'MULTIEQUAL_-1206618366'), ('const-0', u'RETURN_-1206618506'), ('const-751092', u'INT_ADD_-1206618613'), ('tmp_98', u'CBRANCH_-1206618589'), ('tmp_200', u'CBRANCH_-1206618531'), (u'CALL_-1206618549', u'MULTIEQUAL_-1206618451'), (u'COPY_-1206618581', u'MULTIEQUAL_-1206618441'), (u'INT_ADD_-1206618545', u'INT_NOTEQUAL_-1206618534'), (u'INT_NOTEQUAL_-1206618534', u'CBRANCH_-1206618531'), ('const-84', u'INT_ADD_-1206618601'), (u'INT_NOTEQUAL_-1206618591', u'CBRANCH_-1206618589'), ('const-417', u'LOAD_-1206618617'), (u'CALL_-1206618549', u'INDIRECT_-1206618380'), (u'CAST_-1206618373', u'LOAD_-1206618617'), ('const-0', u'COPY_-1206618581'), ('tmp_611', u'INT_ADD_-1206618613'), (u'LOAD_-1206618623', u'INT_NOTEQUAL_-1206618591'), (u'CAST_-1206618383', u'LOAD_-1206618629'), ('const-417', u'LOAD_-1206618629'), ('tmp_611', u'MULTIEQUAL_-1206618381'), (u'MULTIEQUAL_-1206618441', u'INT_ADD_-1206618545'), (u'MULTIEQUAL_-1206618451', u'CALL_-1206618549'), (u'CALL_-1206618510', u'INDIRECT_-1206618363'), (u'LOAD_-1206618623', u'INT_ADD_-1206618586'), (u'INT_ADD_-1206618545', u'MULTIEQUAL_-1206618441'), (u'LOAD_-1206618617', u'MULTIEQUAL_-1206618451'), (u'LOAD_-1206618629', u'INT_ADD_-1206618607'), ('const-48', u'INT_ADD_-1206618607'), (u'CAST_-1206618378', u'LOAD_-1206618623'), ('const-4294967294', u'INT_ADD_-1206618586'), ('const-1', u'INT_ADD_-1206618545'), (u'LOAD_-1206618629', u'INT_ADD_-1206618601')]
| null | null |
000b75e4
|
arm
|
O2
|
(translation_unit "void FUN_000b75e4(void)\n\n{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}\n\n" (function_definition "void FUN_000b75e4(void)\n\n{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" primitive_type (function_declarator "FUN_000b75e4(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);" (assignment_expression "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" * (cast_expression "(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x30" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (expression_statement "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);" (assignment_expression "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" identifier = (pointer_expression "*(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" * (cast_expression "(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x54" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" if (parenthesized_expression "(iVar2 != 2)" ( (binary_expression "iVar2 != 2" identifier != number_literal) )) (compound_statement "{\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);" do (compound_statement "{\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n }" { (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (expression_statement "uVar1 = FUN_000b7500(uVar1);" (assignment_expression "uVar1 = FUN_000b7500(uVar1)" identifier = (call_expression "FUN_000b7500(uVar1)" identifier (argument_list "(uVar1)" ( identifier )))) ;) }) while (parenthesized_expression "(iVar2 + -2 != iVar3)" ( (binary_expression "iVar2 + -2 != iVar3" (binary_expression "iVar2 + -2" identifier + number_literal) != identifier) )) ;) })) (expression_statement "FUN_000b74b4();" (call_expression "FUN_000b74b4()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n\nchar * end_screen(void)\n\n{\n char *pcVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);\n }\n pcVar1 = end_line(pcVar1);\n return pcVar1;\n}\n\n" comment (function_definition "char * end_screen(void)\n\n{\n char *pcVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);\n }\n pcVar1 = end_line(pcVar1);\n return pcVar1;\n}" primitive_type (pointer_declarator "* end_screen(void)" * (function_declarator "end_screen(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) )))) (compound_statement "{\n char *pcVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);\n }\n pcVar1 = end_line(pcVar1);\n return pcVar1;\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);" (assignment_expression "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" * (cast_expression "(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x30" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (expression_statement "pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);" (assignment_expression "pcVar1 = *(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" identifier = (pointer_expression "*(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" * (cast_expression "(char **)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x54" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);\n }" if (parenthesized_expression "(iVar2 != 2)" ( (binary_expression "iVar2 != 2" identifier != number_literal) )) (compound_statement "{\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n } while (iVar2 + -2 != iVar3);" do (compound_statement "{\n iVar3 = iVar3 + 1;\n pcVar1 = next_line(pcVar1);\n }" { (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (expression_statement "pcVar1 = next_line(pcVar1);" (assignment_expression "pcVar1 = next_line(pcVar1)" identifier = (call_expression "next_line(pcVar1)" identifier (argument_list "(pcVar1)" ( identifier )))) ;) }) while (parenthesized_expression "(iVar2 + -2 != iVar3)" ( (binary_expression "iVar2 + -2 != iVar3" (binary_expression "iVar2 + -2" identifier + number_literal) != identifier) )) ;) })) (expression_statement "pcVar1 = end_line(pcVar1);" (assignment_expression "pcVar1 = end_line(pcVar1)" identifier = (call_expression "end_line(pcVar1)" identifier (argument_list "(pcVar1)" ( identifier )))) ;) (return_statement "return pcVar1;" return identifier ;) })))
|
(translation_unit "void FUN_000b75e4(void)\n\n{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}\n\n" (function_definition "void FUN_000b75e4(void)\n\n{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" primitive_type (function_declarator "FUN_000b75e4(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (expression_statement "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);" (assignment_expression "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" identifier = (pointer_expression "*(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" * (cast_expression "(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x30" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (expression_statement "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);" (assignment_expression "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" identifier = (pointer_expression "*(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" * (cast_expression "(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" ( (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x54" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" * (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000b761c + 0xb75f4)" ( (binary_expression "DAT_000b761c + 0xb75f4" identifier + number_literal) )))) + number_literal) ))))) ;) (if_statement "if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" if (parenthesized_expression "(iVar2 != 2)" ( (binary_expression "iVar2 != 2" identifier != number_literal) )) (compound_statement "{\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" { (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (do_statement "do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);" do (compound_statement "{\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n }" { (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (expression_statement "uVar1 = FUN_000b7500(uVar1);" (assignment_expression "uVar1 = FUN_000b7500(uVar1)" identifier = (call_expression "FUN_000b7500(uVar1)" identifier (argument_list "(uVar1)" ( identifier )))) ;) }) while (parenthesized_expression "(iVar2 + -2 != iVar3)" ( (binary_expression "iVar2 + -2 != iVar3" (binary_expression "iVar2 + -2" identifier + number_literal) != identifier) )) ;) })) (expression_statement "FUN_000b74b4();" (call_expression "FUN_000b74b4()" identifier (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) }) while (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) != IDENT) )) ;) })) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000b75e4(void)\n\n{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" (primitive_type "void") (function_declarator "FUN_000b75e4(void)" (identifier "FUN_000b75e4") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n undefined4 uVar1;\n int iVar2;\n int iVar3;\n \n iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);\n uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);\n if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }\n FUN_000b74b4();\n return;\n}" ({ "{") (declaration "undefined4 uVar1;" (type_identifier "undefined4") (identifier "uVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (expression_statement "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);" (assignment_expression "iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" (* "*") (cast_expression "(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x30)" (( "(") (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x30" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" (* "*") (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000b761c + 0xb75f4)" (( "(") (binary_expression "DAT_000b761c + 0xb75f4" (identifier "DAT_000b761c") (+ "+") (number_literal "0xb75f4")) () ")")))) (+ "+") (number_literal "0x30")) () ")"))))) (; ";")) (expression_statement "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);" (assignment_expression "uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" (identifier "uVar1") (= "=") (pointer_expression "*(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" (* "*") (cast_expression "(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(DAT_000b761c + 0xb75f4) + 0x54)" (( "(") (binary_expression "*(int *)(DAT_000b761c + 0xb75f4) + 0x54" (pointer_expression "*(int *)(DAT_000b761c + 0xb75f4)" (* "*") (cast_expression "(int *)(DAT_000b761c + 0xb75f4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_000b761c + 0xb75f4)" (( "(") (binary_expression "DAT_000b761c + 0xb75f4" (identifier "DAT_000b761c") (+ "+") (number_literal "0xb75f4")) () ")")))) (+ "+") (number_literal "0x54")) () ")"))))) (; ";")) (if_statement "if (iVar2 != 2) {\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" (if "if") (parenthesized_expression "(iVar2 != 2)" (( "(") (binary_expression "iVar2 != 2" (identifier "iVar2") (!= "!=") (number_literal "2")) () ")")) (compound_statement "{\n iVar3 = 0;\n do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);\n }" ({ "{") (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" (identifier "iVar3") (= "=") (number_literal "0")) (; ";")) (do_statement "do {\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n } while (iVar2 + -2 != iVar3);" (do "do") (compound_statement "{\n iVar3 = iVar3 + 1;\n uVar1 = FUN_000b7500(uVar1);\n }" ({ "{") (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 1" (identifier "iVar3") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "uVar1 = FUN_000b7500(uVar1);" (assignment_expression "uVar1 = FUN_000b7500(uVar1)" (identifier "uVar1") (= "=") (call_expression "FUN_000b7500(uVar1)" (identifier "FUN_000b7500") (argument_list "(uVar1)" (( "(") (identifier "uVar1") () ")")))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar2 + -2 != iVar3)" (( "(") (binary_expression "iVar2 + -2 != iVar3" (binary_expression "iVar2 + -2" (identifier "iVar2") (+ "+") (number_literal "-2")) (!= "!=") (identifier "iVar3")) () ")")) (; ";")) (} "}"))) (expression_statement "FUN_000b74b4();" (call_expression "FUN_000b74b4()" (identifier "FUN_000b74b4") (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
char * function_1(void)
{
char *pcVar1;
int var_2;
int var_3;
var_2 = *(int *)(*(int *)(var_1 + 0xb75f4) + 0x30);
pcVar1 = *(char **)(*(int *)(var_1 + 0xb75f4) + 0x54);
if (var_2 != 2) {
var_3 = 0;
do {
var_3 = var_3 + 1;
pcVar1 = var_4(pcVar1);
} while (var_2 + -2 != var_3);
}
pcVar1 = var_5(pcVar1);
return pcVar1;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier)))))) condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
undefined4 uVar1;
int iVar2;
int iVar3;
iVar2 = *(int *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x30);
uVar1 = *(undefined4 *)(*(int *)(DAT_000b761c + 0xb75f4) + 0x54);
if (iVar2 != 2) {
iVar3 = 0;
do {
iVar3 = iVar3 + 1;
uVar1 = FUN_000b7500(uVar1);
} while (iVar2 + -2 != iVar3);
}
FUN_000b74b4();
return;
}
| 35,773 |
||
3942_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
__basic_file
|
FUN_001dbc6c
|
/* std::__basic_file<char>::__basic_file(pthread_mutex_t*) */
void std::__basic_file<char>::__basic_file(pthread_mutex_t *param_1)
{
(param_1->__data).__lock = 0;
param_1->__size[4] = '\0';
return;
}
|
void FUN_001dbc6c(undefined4 *param_1)
{
*param_1 = 0;
*(undefined1 *)(param_1 + 1) = 0;
return;
}
|
mov r2,#0x0
str r2,[r0,#0x0]
strb r2,[r0,#0x4]
bx lr
| null | null | null | null |
[('const-0', u'STORE_-1207780217'), ('tmp_63', u'PTRSUB_-1207780145'), ('const-0', u'PTRSUB_-1207780151'), (u'PTRSUB_-1207780145', u'PTRADD_-1207780157'), ('const-1', u'PTRADD_-1207780157'), ('const-0', u'PTRSUB_-1207780150'), ('tmp_63', u'PTRSUB_-1207780150'), ('const-4', u'PTRADD_-1207780157'), ('const-0', u'PTRSUB_-1207780145'), (u'PTRADD_-1207780157', u'STORE_-1207780217'), ('const-417', u'STORE_-1207780217'), ('const-0', u'RETURN_-1207780201'), ('const-0', u'STORE_-1207780224'), ('const-417', u'STORE_-1207780224'), (u'PTRSUB_-1207780151', u'STORE_-1207780224'), (u'PTRSUB_-1207780150', u'PTRSUB_-1207780151')]
|
[('tmp_66', u'PTRADD_-1207780148'), ('const-0', u'STORE_-1207780224'), ('const-417', u'STORE_-1207780217'), ('const-0', u'STORE_-1207780217'), ('const-1', u'PTRADD_-1207780148'), ('const-417', u'STORE_-1207780224'), (u'PTRADD_-1207780148', u'CAST_-1207780148'), ('const-4', u'PTRADD_-1207780148'), ('const-0', u'RETURN_-1207780201'), ('tmp_66', u'STORE_-1207780224'), (u'CAST_-1207780148', u'STORE_-1207780217')]
| null | null |
001dbc6c
|
arm
|
O2
|
(translation_unit "void FUN_001dbc6c(undefined4 *param_1)\n\n{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}\n\n" (function_definition "void FUN_001dbc6c(undefined4 *param_1)\n\n{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" primitive_type (function_declarator "FUN_001dbc6c(undefined4 *param_1)" identifier (parameter_list "(undefined4 *param_1)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" { (expression_statement "*param_1 = 0;" (assignment_expression "*param_1 = 0" (pointer_expression "*param_1" * identifier) = number_literal) ;) (expression_statement "*(undefined1 *)(param_1 + 1) = 0;" (assignment_expression "*(undefined1 *)(param_1 + 1) = 0" (pointer_expression "*(undefined1 *)(param_1 + 1)" * (cast_expression "(undefined1 *)(param_1 + 1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 1)" ( (binary_expression "param_1 + 1" identifier + number_literal) )))) = number_literal) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* std::__basic_file<char>::__basic_file(pthread_mutex_t*) */\n\nvoid std::__basic_file<char>::__basic_file(pthread_mutex_t *param_1)\n\n{\n (param_1->__data).__lock = 0;\n param_1->__size[4] = '\0';\n return;\n}\n\n" comment (function_definition "void std::__basic_file<char>::__basic_file(pthread_mutex_t *param_1)\n\n{\n (param_1->__data).__lock = 0;\n param_1->__size[4] = '\0';\n return;\n}" primitive_type (ERROR "std::__basic_file<char>::" identifier : : identifier < primitive_type > : :) (function_declarator "__basic_file(pthread_mutex_t *param_1)" identifier (parameter_list "(pthread_mutex_t *param_1)" ( (parameter_declaration "pthread_mutex_t *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n (param_1->__data).__lock = 0;\n param_1->__size[4] = '\0';\n return;\n}" { (expression_statement "(param_1->__data).__lock = 0;" (assignment_expression "(param_1->__data).__lock = 0" (field_expression "(param_1->__data).__lock" (parenthesized_expression "(param_1->__data)" ( (field_expression "param_1->__data" identifier -> field_identifier) )) . field_identifier) = number_literal) ;) (expression_statement "param_1->__size[4] = '\0';" (assignment_expression "param_1->__size[4] = '\0'" (subscript_expression "param_1->__size[4]" (field_expression "param_1->__size" identifier -> field_identifier) [ number_literal ]) = (char_literal "'\0'" ' escape_sequence ')) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_001dbc6c(undefined4 *param_1)\n\n{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}\n\n" (function_definition "void FUN_001dbc6c(undefined4 *param_1)\n\n{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" primitive_type (function_declarator "FUN_001dbc6c(undefined4 *param_1)" identifier (parameter_list "(undefined4 *param_1)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" { (expression_statement "*param_1 = 0;" (assignment_expression "*param_1 = 0" (pointer_expression "*param_1" * identifier) = number_literal) ;) (expression_statement "*(undefined1 *)(param_1 + 1) = 0;" (assignment_expression "*(undefined1 *)(param_1 + 1) = 0" (pointer_expression "*(undefined1 *)(param_1 + 1)" * (cast_expression "(undefined1 *)(param_1 + 1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 1)" ( (binary_expression "param_1 + 1" identifier + number_literal) )))) = number_literal) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (return_statement return ;) })))
|
(function_definition "void FUN_001dbc6c(undefined4 *param_1)\n\n{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" (primitive_type "void") (function_declarator "FUN_001dbc6c(undefined4 *param_1)" (identifier "FUN_001dbc6c") (parameter_list "(undefined4 *param_1)" (( "(") (parameter_declaration "undefined4 *param_1" (type_identifier "undefined4") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")"))) (compound_statement "{\n *param_1 = 0;\n *(undefined1 *)(param_1 + 1) = 0;\n return;\n}" ({ "{") (expression_statement "*param_1 = 0;" (assignment_expression "*param_1 = 0" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (= "=") (number_literal "0")) (; ";")) (expression_statement "*(undefined1 *)(param_1 + 1) = 0;" (assignment_expression "*(undefined1 *)(param_1 + 1) = 0" (pointer_expression "*(undefined1 *)(param_1 + 1)" (* "*") (cast_expression "(undefined1 *)(param_1 + 1)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 1)" (( "(") (binary_expression "param_1 + 1" (identifier "param_1") (+ "+") (number_literal "1")) () ")")))) (= "=") (number_literal "0")) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* std::__basic_file<char>::__basic_file(pthread_mutex_t*) */
void std::function_1<char>::function_1(type_1 *param_1)
{
(param_1->__data).__lock = 0;
param_1->__size[4] = '\0';
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (return_statement))))
|
void MASKED(undefined4 *param_1)
{
*param_1 = 0;
*(undefined1 *)(param_1 + 1) = 0;
return;
}
| 84,654 |
||
729_putty_and_putty_strip.c
|
gppmap
|
FUN_00035334
|
undefined4 gppmap(void *param_1,char *param_2,Conf *param_3,int param_4)
{
char *pcVar1;
char *pcVar2;
char cVar3;
char *pcVar4;
char *pcVar5;
char *value;
char *value_00;
char *pcVar6;
while (pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0) {
conf_del_str_str(param_3,param_4,pcVar1);
}
pcVar1 = gpps_raw(param_1,param_2,(char *)0x0);
if (pcVar1 == (char *)0x0) {
return 0;
}
value = (char *)(DAT_000354a0 + 0x35398);
pcVar5 = pcVar1;
while( true ) {
cVar3 = *pcVar5;
if (cVar3 == '\0') {
/* WARNING: Subroutine does not return */
safefree(pcVar1);
}
value_00 = (char *)0x0;
pcVar2 = pcVar1;
while (cVar3 != '\0' && cVar3 != ',') {
pcVar6 = pcVar2 + 1;
pcVar4 = pcVar5 + 1;
if (cVar3 == '=') {
*pcVar2 = '\0';
value_00 = pcVar6;
}
else if (cVar3 == '\\') {
pcVar4 = pcVar5 + 2;
if (pcVar5[1] == '\0') {
value_00 = pcVar6;
}
*pcVar2 = pcVar5[1];
}
else {
*pcVar2 = cVar3;
}
pcVar5 = pcVar4;
pcVar2 = pcVar6;
cVar3 = *pcVar4;
}
if (cVar3 == ',') {
pcVar5 = pcVar5 + 1;
}
if (value_00 == (char *)0x0) {
value_00 = pcVar2;
}
*pcVar2 = '\0';
if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;
conf_set_str_str(param_3,param_4,pcVar1,value_00);
}
pcVar1 = dupstr(pcVar1);
pcVar5 = strchr(pcVar1,0x44);
*pcVar5 = 'L';
conf_set_str_str(param_3,0x9b,pcVar1,value);
/* WARNING: Subroutine does not return */
safefree(pcVar1);
}
|
undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)
{
int iVar1;
char *__s;
char *pcVar2;
char cVar3;
char *pcVar4;
char *pcVar5;
char *pcVar6;
char *pcVar7;
while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {
FUN_0001f704(param_3,param_4,iVar1);
}
__s = (char *)FUN_000352c8(param_1,param_2);
if (__s == (char *)0x0) {
return 0;
}
iVar1 = DAT_000354a0 + 0x35398;
pcVar5 = __s;
while (cVar3 = *pcVar5, cVar3 != '\0') {
while( true ) {
pcVar6 = (char *)0x0;
pcVar2 = __s;
while (cVar3 != '\0' && cVar3 != ',') {
pcVar7 = pcVar2 + 1;
pcVar4 = pcVar5 + 1;
if (cVar3 == '=') {
*pcVar2 = '\0';
pcVar6 = pcVar7;
}
else if (cVar3 == '\\') {
pcVar4 = pcVar5 + 2;
if (pcVar5[1] == '\0') {
pcVar6 = pcVar7;
}
*pcVar2 = pcVar5[1];
}
else {
*pcVar2 = cVar3;
}
pcVar5 = pcVar4;
pcVar2 = pcVar7;
cVar3 = *pcVar4;
}
if (cVar3 == ',') {
pcVar5 = pcVar5 + 1;
}
if (pcVar6 == (char *)0x0) {
pcVar6 = pcVar2;
}
*pcVar2 = '\0';
if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;
pcVar6 = (char *)FUN_0002f13c(__s);
pcVar2 = strchr(pcVar6,0x44);
*pcVar2 = 'L';
FUN_0001f634(param_3,0x9b,pcVar6,iVar1);
FUN_0002f95c(pcVar6);
cVar3 = *pcVar5;
if (cVar3 == '\0') goto LAB_00035470;
}
FUN_0001f634(param_3,param_4,__s,pcVar6);
}
LAB_00035470:
FUN_0002f95c(__s);
return 1;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,lr}
cpy r4,r0
cpy r8,r1
cpy r7,r2
cpy r6,r3
b 0x00035350
bl 0x0001f704
mov r2,#0x0
cpy r1,r6
cpy r0,r7
bl 0x0001f0b8
cpy r1,r6
subs r5,r0,#0x0
cpy r2,r5
cpy r0,r7
bne 0x0003534c
cpy r1,r8
cpy r0,r4
bl 0x000352c8
subs r8,r0,#0x0
beq 0x00035498
ldr r9,[0x354a0]
cpy r4,r8
add r9,pc,r9
ldrb r1,[r4,#0x0]
cmp r1,#0x0
beq 0x00035470
mov r10,#0x0
cpy r12,r8
b 0x000353f0
cmp r1,#0x3d
add r12,r12,#0x1
add r2,r4,#0x1
strbeq r5,[r12,#-0x1]
cpyeq r4,r2
cpyeq r10,r12
beq 0x000353ec
cmp r1,#0x5c
strbne r1,[r12,#-0x1]
cpyne r4,r2
bne 0x000353ec
ldrb r3,[r4,#0x1]
add r4,r4,#0x2
cmp r3,#0x0
cpyeq r10,r12
strb r3,[r12,#-0x1]
ldrb r1,[r4,#0x0]
cmp r1,#0x0
cmpne r1,#0x2c
bne 0x000353ac
cmp r1,#0x2c
addeq r4,r4,#0x1
cmp r10,#0x0
cpyeq r10,r12
cmp r6,#0x9b
strb r5,[r12,#0x0]
bne 0x00035480
mov r1,#0x44
cpy r0,r8
bl 0x0001b2a8
cmp r0,#0x0
beq 0x00035480
cpy r0,r8
bl 0x0002f13c
mov r1,#0x44
cpy r10,r0
bl 0x0001b2a8
mov r12,#0x4c
cpy r1,r6
cpy r2,r10
cpy r3,r9
strb r12,[r0,#0x0]
cpy r0,r7
bl 0x0001f634
cpy r0,r10
bl 0x0002f95c
ldrb r1,[r4,#0x0]
cmp r1,#0x0
bne 0x000353a0
cpy r0,r8
bl 0x0002f95c
mov r0,#0x1
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,pc}
cpy r3,r10
cpy r2,r8
cpy r1,r6
cpy r0,r7
bl 0x0001f634
b 0x00035394
cpy r0,r8
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,pc}
| null | null | null | null |
[('const-417', u'STORE_-1206102702'), (u'COPY_-1206102023', u'MULTIEQUAL_-1206102387'), (u'PTRADD_-1206102621', u'LOAD_-1206102683'), (u'CALL_-1206102756', u'INDIRECT_-1206102056'), (u'STORE_-1206102751', u'INDIRECT_-1206102149'), ('const-1', u'PTRADD_-1206102700'), (u'COPY_-1206102029', u'MULTIEQUAL_-1206102390'), (u'MULTIEQUAL_-1206102387', u'PTRADD_-1206102787'), ('tmp_3011', u'MULTIEQUAL_-1206102247'), ('const-1', u'PTRADD_-1206102716'), (u'MULTIEQUAL_-1206102385', u'MULTIEQUAL_-1206102380'), ('const-44', u'INT_EQUAL_-1206102861'), (u'INT_ADD_-1206103046', u'CAST_-1206102042'), ('tmp_62', u'BRANCH_-1206103198'), (u'CALL_-1206102749', u'INDIRECT_-1206102271'), (u'INT_NOTEQUAL_-1206102157', u'BOOL_AND_-1206101977'), ('const-417', u'STORE_-1206102793'), ('tmp_2469', u'CALL_-1206102644'), ('const-155', u'INT_EQUAL_-1206102796'), (u'MULTIEQUAL_-1206102364', u'STORE_-1206102793'), (u'STORE_-1206102659', u'INDIRECT_-1206101998'), ('const-0', u'COPY_-1206102448'), (u'CALL_-1206102756', u'INT_NOTEQUAL_-1206102735'), ('tmp_820', u'BRANCH_-1206102575'), ('tmp_699', u'CBRANCH_-1206102733'), (u'INDIRECT_-1206101987', u'COPY_-1206102046'), (u'COPY_-1206101989', u'MULTIEQUAL_-1206102350'), ('const-0', u'INT_EQUAL_-1206103029'), (u'LOAD_-1206102683', u'INT_EQUAL_-1206102641'), (u'LOAD_-1206103055', u'INT_EQUAL_-1206103029'), (u'INDIRECT_-1206102222', u'MULTIEQUAL_-1206102182'), ('tmp_2470', u'CALL_-1206102749'), ('const-417', u'STORE_-1206102659'), (u'BOOL_AND_-1206101977', u'CBRANCH_-1206102883'), (u'INT_EQUAL_-1206102708', u'CBRANCH_-1206102703'), ('const-0', u'STORE_-1206102793'), (u'PTRADD_-1206102716', u'COPY_-1206102063'), (u'MULTIEQUAL_-1206102387', u'PTRADD_-1206102700'), ('const-92', u'INT_EQUAL_-1206102708'), (u'CALL_-1206102481', u'INDIRECT_-1206101973'), ('const-0', u'INT_NOTEQUAL_-1206102735'), (u'CALL_-1206102720', u'INDIRECT_-1206102038'), ('const-1', u'PTRADD_-1206102621'), ('const-61', u'INT_EQUAL_-1206102788'), (u'MULTIEQUAL_-1206101980', u'INT_EQUAL_-1206102861'), ('tmp_471', u'CBRANCH_-1206102857'), (u'COPY_-1206102063', u'MULTIEQUAL_-1206102385'), (u'LOAD_-1206102683', u'STORE_-1206102631'), (u'MULTIEQUAL_-1206102476', u'LOAD_-1206103055'), (u'INT_NOTEQUAL_-1206102909', u'BOOL_AND_-1206101977'), (u'INT_EQUAL_-1206102788', u'CBRANCH_-1206102752'), (u'MULTIEQUAL_-1206102365', u'MULTIEQUAL_-1206102476'), (u'INDIRECT_-1206102128', u'MULTIEQUAL_-1206102095'), ('const-76', u'STORE_-1206102659'), ('tmp_2469', u'CALL_-1206102577'), (u'INDIRECT_-1206102222', u'COPY_-1206101984'), (u'INT_EQUAL_-1206103082', u'CBRANCH_-1206103079'), (u'COPY_-1206103018', u'MULTIEQUAL_-1206102380'), (u'CALL_-1206102633', u'INDIRECT_-1206101987'), ('const-218008', u'INT_ADD_-1206103046'), (u'STORE_-1206102702', u'INDIRECT_-1206102128'), (u'LOAD_-1206102626', u'MULTIEQUAL_-1206101980'), ('const-0', u'COPY_-1206103018'), (u'MULTIEQUAL_-1206102393', u'LOAD_-1206102626'), ('const-68', u'CALL_-1206102756'), (u'COPY_-1206102114', u'MULTIEQUAL_-1206102476'), (u'INT_EQUAL_-1206102823', u'CBRANCH_-1206102819'), (u'CAST_-1206102042', u'CALL_-1206102644'), (u'CALL_-1206103159', u'INDIRECT_-1206102256'), (u'CALL_-1206103159', u'CALL_-1206102749'), (u'INT_EQUAL_-1206102796', u'CBRANCH_-1206102785'), ('const-0', u'INT_EQUAL_-1206102641'), (u'MULTIEQUAL_-1206101980', u'INT_EQUAL_-1206102788'), (u'STORE_-1206102793', u'INDIRECT_-1206102063'), (u'INT_EQUAL_-1206103029', u'CBRANCH_-1206103026'), ('tmp_1125', u'CBRANCH_-1206102637'), (u'CALL_-1206103102', u'INT_EQUAL_-1206103082'), ('const-1', u'RETURN_-1206102476'), (u'MULTIEQUAL_-1206102380', u'COPY_-1206102029'), (u'MULTIEQUAL_-1206101980', u'INT_NOTEQUAL_-1206102157'), (u'MULTIEQUAL_-1206102380', u'MULTIEQUAL_-1206102385'), (u'MULTIEQUAL_-1206102364', u'STORE_-1206102631'), (u'COPY_-1206102084', u'MULTIEQUAL_-1206102364'), (u'PTRADD_-1206102787', u'MULTIEQUAL_-1206102365'), (u'INDIRECT_-1206102063', u'MULTIEQUAL_-1206101945'), (u'CALL_-1206102644', u'INDIRECT_-1206101996'), (u'MULTIEQUAL_-1206102350', u'CALL_-1206102577'), ('const-1', u'PTRADD_-1206102787'), ('tmp_423', u'CBRANCH_-1206102883'), ('tmp_2470', u'CALL_-1206102577'), ('const-417', u'LOAD_-1206102626'), (u'CALL_-1206102720', u'CALL_-1206102644'), (u'MULTIEQUAL_-1206101980', u'STORE_-1206102702'), ('tmp_2469', u'CALL_-1206102749'), ('tmp_614', u'CBRANCH_-1206102785'), ('tmp_1012', u'CBRANCH_-1206102703'), (u'MULTIEQUAL_-1206102364', u'STORE_-1206102751'), (u'MULTIEQUAL_-1206102380', u'INT_EQUAL_-1206102823'), (u'INDIRECT_-1206101973', u'COPY_-1206102025'), (u'PTRADD_-1206102716', u'COPY_-1206102028'), (u'MULTIEQUAL_-1206102364', u'COPY_-1206101989'), (u'MULTIEQUAL_-1206102390', u'MULTIEQUAL_-1206102385'), (u'CALL_-1206102720', u'CALL_-1206102693'), (u'CALL_-1206103102', u'INDIRECT_-1206102222'), (u'MULTIEQUAL_-1206102380', u'COPY_-1206101990'), ('const-0', u'CALL_-1206103102'), (u'MULTIEQUAL_-1206102387', u'PTRADD_-1206102605'), ('const-417', u'STORE_-1206102751'), (u'COPY_-1206102028', u'MULTIEQUAL_-1206102390'), ('const-0', u'INT_NOTEQUAL_-1206102909'), ('tmp_939', u'CBRANCH_-1206102752'), (u'INDIRECT_-1206101943', u'MULTIEQUAL_-1206102182'), (u'CALL_-1206102577', u'INDIRECT_-1206101943'), ('tmp_210', u'CBRANCH_-1206103079'), ('tmp_2469', u'CALL_-1206103159'), (u'PTRADD_-1206102700', u'MULTIEQUAL_-1206102393'), (u'CALL_-1206103102', u'CALL_-1206102756'), (u'CALL_-1206102693', u'STORE_-1206102659'), ('const-1', u'PTRADD_-1206102621'), (u'INDIRECT_-1206102056', u'MULTIEQUAL_-1206101945'), ('const-0', u'INT_NOTEQUAL_-1206103133'), (u'MULTIEQUAL_-1206102364', u'PTRADD_-1206102716'), (u'MULTIEQUAL_-1206102364', u'STORE_-1206102702'), (u'PTRADD_-1206102716', u'COPY_-1206102015'), (u'INDIRECT_-1206102099', u'MULTIEQUAL_-1206102095'), (u'CALL_-1206103102', u'CALL_-1206102577'), (u'MULTIEQUAL_-1206101980', u'INT_EQUAL_-1206102708'), (u'MULTIEQUAL_-1206102182', u'MULTIEQUAL_-1206102088'), ('const-0', u'INT_EQUAL_-1206102823'), ('const-68', u'CALL_-1206102693'), (u'COPY_-1206102448', u'RETURN_-1206102412'), ('const-1', u'PTRADD_-1206102700'), (u'PTRADD_-1206102605', u'MULTIEQUAL_-1206102393'), (u'MULTIEQUAL_-1206102393', u'COPY_-1206102023'), ('const-417', u'LOAD_-1206102683'), (u'CALL_-1206102720', u'CALL_-1206102633'), ('const-155', u'CALL_-1206102644'), (u'CALL_-1206103102', u'CALL_-1206102720'), (u'CALL_-1206103102', u'CALL_-1206102481'), ('const-417', u'STORE_-1206102631'), (u'INT_NOTEQUAL_-1206103133', u'CBRANCH_-1206103120'), ('const-44', u'INT_NOTEQUAL_-1206102157'), (u'INT_NOTEQUAL_-1206102735', u'CBRANCH_-1206102733'), (u'STORE_-1206102631', u'INDIRECT_-1206102099'), (u'COPY_-1206102015', u'MULTIEQUAL_-1206102364'), ('const-0', u'RETURN_-1206102412'), ('tmp_2467', u'CALL_-1206103102'), (u'LOAD_-1206103055', u'MULTIEQUAL_-1206101980'), ('const-1', u'PTRADD_-1206102716'), ('const-0', u'INT_EQUAL_-1206103082'), ('tmp_2470', u'CALL_-1206103159'), (u'CALL_-1206103159', u'INT_NOTEQUAL_-1206103133'), (u'CALL_-1206102693', u'INDIRECT_-1206102025'), ('const-0', u'STORE_-1206102751'), (u'MULTIEQUAL_-1206102476', u'COPY_-1206102092'), ('tmp_326', u'BRANCH_-1206103001'), (u'MULTIEQUAL_-1206102387', u'MULTIEQUAL_-1206102365'), (u'MULTIEQUAL_-1206101980', u'INT_NOTEQUAL_-1206102909'), (u'COPY_-1206102092', u'MULTIEQUAL_-1206102387'), (u'INT_EQUAL_-1206102641', u'CBRANCH_-1206102637'), ('tmp_289', u'CBRANCH_-1206103026'), ('const-417', u'LOAD_-1206103055'), (u'CALL_-1206103102', u'COPY_-1206102114'), ('const-1', u'PTRADD_-1206102787'), ('const-2', u'PTRADD_-1206102605'), (u'INT_EQUAL_-1206102861', u'CBRANCH_-1206102857'), ('const-1', u'RETURN_-1206102628'), (u'MULTIEQUAL_-1206102387', u'PTRADD_-1206102621'), (u'INDIRECT_-1206102222', u'INT_ADD_-1206103046'), ('tmp_2468', u'CALL_-1206103102'), (u'INDIRECT_-1206102271', u'MULTIEQUAL_-1206102247'), (u'COPY_-1206101990', u'MULTIEQUAL_-1206102350'), ('const-0', u'CALL_-1206103159'), ('tmp_2470', u'INT_EQUAL_-1206102796'), ('const-1', u'PTRADD_-1206102605'), ('tmp_555', u'CBRANCH_-1206102819'), (u'CALL_-1206103102', u'COPY_-1206102084'), (u'MULTIEQUAL_-1206102095', u'MULTIEQUAL_-1206102088'), ('tmp_156', u'CBRANCH_-1206103120'), (u'INDIRECT_-1206102149', u'MULTIEQUAL_-1206102095')]
|
[(u'INT_EQUAL_-1206102651', u'CBRANCH_-1206102646'), (u'INDIRECT_-1206101818', u'MULTIEQUAL_-1206102055'), (u'CALL_-1206102756', u'INDIRECT_-1206101931'), ('tmp_2849', u'CALL_-1206102697'), (u'INT_NOTEQUAL_-1206102031', u'BOOL_AND_-1206101835'), (u'INDIRECT_-1206102096', u'INT_ADD_-1206103046'), (u'LOAD_-1206102632', u'INT_EQUAL_-1206102606'), (u'INDIRECT_-1206102096', u'COPY_-1206101859'), (u'INT_NOTEQUAL_-1206102909', u'BOOL_AND_-1206101835'), (u'MULTIEQUAL_-1206101837', u'INT_EQUAL_-1206102651'), (u'STORE_-1206102645', u'INDIRECT_-1206102003'), (u'COPY_-1206101873', u'MULTIEQUAL_-1206102269'), ('tmp_62', u'BRANCH_-1206103198'), ('tmp_2850', u'INT_NOTEQUAL_-1206102795'), (u'CAST_-1206101739', u'CALL_-1206102693'), ('tmp_3521', u'MULTIEQUAL_-1206102120'), (u'MULTIEQUAL_-1206101837', u'INT_EQUAL_-1206102731'), ('tmp_2849', u'CALL_-1206103159'), ('tmp_2847', u'CALL_-1206103102'), (u'INDIRECT_-1206101974', u'MULTIEQUAL_-1206101968'), ('const-44', u'INT_NOTEQUAL_-1206102031'), ('tmp_699', u'CBRANCH_-1206102733'), ('const-0', u'RETURN_-1206102360'), (u'LOAD_-1206103055', u'MULTIEQUAL_-1206101913'), (u'MULTIEQUAL_-1206102294', u'MULTIEQUAL_-1206102289'), ('const-1', u'PTRADD_-1206102787'), ('const-1', u'PTRADD_-1206102643'), (u'COPY_-1206101921', u'MULTIEQUAL_-1206102294'), (u'LOAD_-1206102626', u'INT_EQUAL_-1206102584'), (u'PTRADD_-1206102564', u'LOAD_-1206102626'), (u'MULTIEQUAL_-1206102304', u'COPY_-1206101881'), (u'MULTIEQUAL_-1206102046', u'MULTIEQUAL_-1206101961'), (u'INDIRECT_-1206101931', u'MULTIEQUAL_-1206101818'), (u'COPY_-1206101887', u'MULTIEQUAL_-1206102299'), (u'STORE_-1206102694', u'INDIRECT_-1206102024'), (u'MULTIEQUAL_-1206102269', u'STORE_-1206102574'), ('const-1', u'PTRADD_-1206102643'), (u'CAST_-1206101920', u'INT_EQUAL_-1206103082'), (u'CAST_-1206101920', u'COPY_-1206101942'), (u'STORE_-1206102574', u'INDIRECT_-1206101974'), (u'PTRADD_-1206102548', u'MULTIEQUAL_-1206102304'), (u'STORE_-1206102793', u'INDIRECT_-1206101938'), (u'CAST_-1206101739', u'CALL_-1206102644'), ('const-0', u'COPY_-1206103018'), (u'INT_EQUAL_-1206102584', u'CBRANCH_-1206102580'), ('tmp_2850', u'CALL_-1206102697'), (u'MULTIEQUAL_-1206102298', u'PTRADD_-1206102564'), (u'MULTIEQUAL_-1206102269', u'STORE_-1206102793'), (u'INT_EQUAL_-1206102731', u'CBRANCH_-1206102695'), (u'COPY_-1206101847', u'MULTIEQUAL_-1206102257'), (u'MULTIEQUAL_-1206101913', u'MULTIEQUAL_-1206101837'), (u'CAST_-1206101920', u'CALL_-1206102520'), ('const-1', u'PTRADD_-1206102787'), (u'INDIRECT_-1206102096', u'MULTIEQUAL_-1206102055'), (u'INDIRECT_-1206102145', u'MULTIEQUAL_-1206102120'), (u'COPY_-1206101950', u'MULTIEQUAL_-1206102298'), (u'INDIRECT_-1206101862', u'MULTIEQUAL_-1206101837'), ('const-1', u'PTRADD_-1206102659'), (u'COPY_-1206101972', u'MULTIEQUAL_-1206102387'), (u'CALL_-1206102520', u'INDIRECT_-1206101818'), ('tmp_614', u'CBRANCH_-1206102785'), ('const-0', u'INT_EQUAL_-1206102736'), ('tmp_1169', u'CBRANCH_-1206102646'), ('const-0', u'INT_EQUAL_-1206102823'), ('tmp_1282', u'CBRANCH_-1206102580'), ('const-76', u'STORE_-1206102659'), ('const-0', u'CALL_-1206103159'), ('tmp_2850', u'CALL_-1206103159'), ('const-0', u'STORE_-1206102793'), ('tmp_977', u'BRANCH_-1206102518'), (u'MULTIEQUAL_-1206102276', u'MULTIEQUAL_-1206102374'), (u'MULTIEQUAL_-1206102289', u'COPY_-1206101887'), ('tmp_210', u'CBRANCH_-1206103079'), (u'MULTIEQUAL_-1206102374', u'COPY_-1206101950'), ('const-417', u'LOAD_-1206102569'), (u'INDIRECT_-1206101938', u'MULTIEQUAL_-1206101818'), (u'MULTIEQUAL_-1206102269', u'PTRADD_-1206102659'), (u'MULTIEQUAL_-1206102269', u'STORE_-1206102694'), (u'MULTIEQUAL_-1206102257', u'CALL_-1206102520'), ('tmp_2849', u'CALL_-1206102644'), (u'PTRADD_-1206102643', u'MULTIEQUAL_-1206102304'), ('const-92', u'INT_EQUAL_-1206102651'), (u'CALL_-1206102589', u'INDIRECT_-1206101841'), (u'COPY_-1206101886', u'MULTIEQUAL_-1206102299'), ('const-1', u'COPY_-1206102583'), (u'MULTIEQUAL_-1206101968', u'MULTIEQUAL_-1206101961'), (u'INDIRECT_-1206102024', u'MULTIEQUAL_-1206101968'), (u'CALL_-1206102720', u'CAST_-1206101739'), (u'INT_ADD_-1206103046', u'CALL_-1206102644'), ('const-1', u'PTRADD_-1206102564'), (u'MULTIEQUAL_-1206102269', u'STORE_-1206102645'), (u'MULTIEQUAL_-1206102387', u'MULTIEQUAL_-1206102374'), (u'MULTIEQUAL_-1206102289', u'COPY_-1206101848'), (u'CALL_-1206103102', u'CAST_-1206101920'), (u'MULTIEQUAL_-1206102289', u'INT_EQUAL_-1206102823'), ('const-0', u'COPY_-1206102396'), (u'LOAD_-1206102569', u'MULTIEQUAL_-1206101837'), (u'COPY_-1206102396', u'RETURN_-1206102360'), ('const-417', u'STORE_-1206102659'), ('const-44', u'INT_EQUAL_-1206102861'), ('tmp_555', u'CBRANCH_-1206102819'), (u'INDIRECT_-1206102003', u'MULTIEQUAL_-1206101968'), (u'INT_EQUAL_-1206102606', u'CBRANCH_-1206102602'), ('const-68', u'CALL_-1206102756'), (u'CALL_-1206102756', u'INT_EQUAL_-1206102736'), (u'LOAD_-1206102626', u'STORE_-1206102574'), (u'CALL_-1206102633', u'INDIRECT_-1206101862'), ('const-0', u'INT_EQUAL_-1206102606'), (u'LOAD_-1206103055', u'INT_NOTEQUAL_-1206103028'), (u'INT_NOTEQUAL_-1206103028', u'CBRANCH_-1206103026'), (u'MULTIEQUAL_-1206101837', u'INT_NOTEQUAL_-1206102031'), (u'PTRADD_-1206102659', u'COPY_-1206101921'), (u'COPY_-1206101942', u'MULTIEQUAL_-1206102269'), (u'MULTIEQUAL_-1206102304', u'LOAD_-1206102569'), ('const-1', u'PTRADD_-1206102564'), (u'MULTIEQUAL_-1206102269', u'COPY_-1206101847'), (u'MULTIEQUAL_-1206102055', u'MULTIEQUAL_-1206102046'), ('tmp_2850', u'CALL_-1206102520'), ('tmp_1096', u'CBRANCH_-1206102695'), (u'MULTIEQUAL_-1206102387', u'LOAD_-1206103055'), ('const-1', u'PTRADD_-1206102659'), (u'MULTIEQUAL_-1206101837', u'STORE_-1206102645'), (u'MULTIEQUAL_-1206102299', u'MULTIEQUAL_-1206102294'), ('tmp_471', u'CBRANCH_-1206102857'), (u'CALL_-1206102693', u'INDIRECT_-1206101900'), (u'PTRADD_-1206102659', u'COPY_-1206101873'), (u'STORE_-1206102659', u'INDIRECT_-1206101873'), (u'MULTIEQUAL_-1206102055', u'MULTIEQUAL_-1206101837'), ('const-61', u'INT_EQUAL_-1206102731'), (u'BOOL_AND_-1206101835', u'CBRANCH_-1206102883'), ('const-417', u'STORE_-1206102574'), ('const-417', u'STORE_-1206102793'), (u'MULTIEQUAL_-1206102298', u'PTRADD_-1206102548'), (u'CALL_-1206102720', u'INDIRECT_-1206101913'), (u'COPY_-1206102583', u'RETURN_-1206102543'), (u'INT_EQUAL_-1206103082', u'CBRANCH_-1206103079'), (u'CAST_-1206101920', u'CALL_-1206102720'), (u'COPY_-1206103018', u'MULTIEQUAL_-1206102289'), (u'CAST_-1206101920', u'COPY_-1206101972'), (u'MULTIEQUAL_-1206102276', u'MULTIEQUAL_-1206102387'), (u'CALL_-1206103159', u'INDIRECT_-1206102130'), (u'INT_EQUAL_-1206102823', u'CBRANCH_-1206102819'), (u'CAST_-1206101920', u'CALL_-1206102589'), (u'MULTIEQUAL_-1206102276', u'LOAD_-1206102632'), (u'COPY_-1206101881', u'MULTIEQUAL_-1206102298'), ('const-218008', u'INT_ADD_-1206103046'), (u'MULTIEQUAL_-1206101837', u'INT_NOTEQUAL_-1206102909'), ('tmp_2848', u'CALL_-1206103102'), ('tmp_860', u'CBRANCH_-1206102602'), (u'LOAD_-1206102632', u'MULTIEQUAL_-1206101913'), (u'INT_EQUAL_-1206102736', u'CBRANCH_-1206102733'), ('const-417', u'LOAD_-1206102626'), ('const-417', u'LOAD_-1206102632'), (u'MULTIEQUAL_-1206102298', u'PTRADD_-1206102643'), ('tmp_2849', u'CALL_-1206102520'), ('tmp_423', u'CBRANCH_-1206102883'), (u'MULTIEQUAL_-1206102298', u'MULTIEQUAL_-1206102276'), (u'CALL_-1206103159', u'CALL_-1206102697'), ('const-0', u'INT_NOTEQUAL_-1206103028'), (u'CALL_-1206102697', u'INDIRECT_-1206102145'), ('const-68', u'CALL_-1206102693'), ('const-0', u'RETURN_-1206102543'), (u'INDIRECT_-1206101841', u'COPY_-1206101892'), (u'MULTIEQUAL_-1206102289', u'MULTIEQUAL_-1206102294'), (u'PTRADD_-1206102659', u'COPY_-1206101886'), (u'INT_NOTEQUAL_-1206102795', u'CBRANCH_-1206102785'), ('const-0', u'INT_NOTEQUAL_-1206102909'), ('const-417', u'LOAD_-1206103055'), (u'CALL_-1206102693', u'STORE_-1206102659'), (u'CALL_-1206102644', u'INDIRECT_-1206101871'), ('const-0', u'INT_NOTEQUAL_-1206103133'), (u'PTRADD_-1206102787', u'MULTIEQUAL_-1206102276'), ('const-417', u'STORE_-1206102645'), ('const-417', u'STORE_-1206102694'), (u'CAST_-1206101920', u'CALL_-1206102756'), (u'COPY_-1206101848', u'MULTIEQUAL_-1206102257'), (u'INT_NOTEQUAL_-1206103133', u'CBRANCH_-1206103120'), ('const-1', u'PTRADD_-1206102548'), ('const-0', u'INT_EQUAL_-1206103082'), ('const-155', u'CALL_-1206102644'), (u'CALL_-1206103159', u'INT_NOTEQUAL_-1206103133'), ('const-2', u'PTRADD_-1206102548'), (u'MULTIEQUAL_-1206101837', u'INT_EQUAL_-1206102861'), ('tmp_326', u'BRANCH_-1206103001'), (u'CAST_-1206101739', u'CALL_-1206102633'), (u'INDIRECT_-1206101862', u'MULTIEQUAL_-1206102046'), ('tmp_289', u'CBRANCH_-1206103026'), (u'CALL_-1206103102', u'INDIRECT_-1206102096'), ('const-155', u'INT_NOTEQUAL_-1206102795'), (u'INT_EQUAL_-1206102861', u'CBRANCH_-1206102857'), ('const-0', u'STORE_-1206102694'), ('const-0', u'INT_EQUAL_-1206102584'), (u'MULTIEQUAL_-1206102298', u'PTRADD_-1206102787'), ('tmp_156', u'CBRANCH_-1206103120')]
| null | null |
00035334
|
arm
|
O2
|
(translation_unit "undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)\n\n{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}\n\n" (function_definition "undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)\n\n{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" type_identifier (function_declarator "FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "int param_4" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "char cVar3;" primitive_type identifier ;) (declaration "char *pcVar4;" primitive_type (pointer_declarator "*pcVar4" * identifier) ;) (declaration "char *pcVar5;" primitive_type (pointer_declarator "*pcVar5" * identifier) ;) (declaration "char *pcVar6;" primitive_type (pointer_declarator "*pcVar6" * identifier) ;) (declaration "char *pcVar7;" primitive_type (pointer_declarator "*pcVar7" * identifier) ;) (while_statement "while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }" while (parenthesized_expression "(iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0)" ( (comma_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0" (assignment_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0)" identifier = (call_expression "FUN_0001f0b8(param_3,param_4,0)" identifier (argument_list "(param_3,param_4,0)" ( identifier , identifier , number_literal )))) , (binary_expression "iVar1 != 0" identifier != number_literal)) )) (compound_statement "{\n FUN_0001f704(param_3,param_4,iVar1);\n }" { (expression_statement "FUN_0001f704(param_3,param_4,iVar1);" (call_expression "FUN_0001f704(param_3,param_4,iVar1)" identifier (argument_list "(param_3,param_4,iVar1)" ( identifier , identifier , identifier ))) ;) })) (expression_statement "__s = (char *)FUN_000352c8(param_1,param_2);" (assignment_expression "__s = (char *)FUN_000352c8(param_1,param_2)" identifier = (cast_expression "(char *)FUN_000352c8(param_1,param_2)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_000352c8(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier ))))) ;) (if_statement "if (__s == (char *)0x0) {\n return 0;\n }" if (parenthesized_expression "(__s == (char *)0x0)" ( (binary_expression "__s == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "iVar1 = DAT_000354a0 + 0x35398;" (assignment_expression "iVar1 = DAT_000354a0 + 0x35398" identifier = (binary_expression "DAT_000354a0 + 0x35398" identifier + number_literal)) ;) (expression_statement "pcVar5 = __s;" (assignment_expression "pcVar5 = __s" identifier = identifier) ;) (while_statement "while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" while (parenthesized_expression "(cVar3 = *pcVar5, cVar3 != '\0')" ( (comma_expression "cVar3 = *pcVar5, cVar3 != '\0'" (assignment_expression "cVar3 = *pcVar5" identifier = (pointer_expression "*pcVar5" * identifier)) , (binary_expression "cVar3 != '\0'" identifier != (char_literal "'\0'" ' escape_sequence '))) )) (compound_statement "{\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" { (while_statement "while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" { (expression_statement "pcVar6 = (char *)0x0;" (assignment_expression "pcVar6 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar2 = __s;" (assignment_expression "pcVar2 = __s" identifier = identifier) ;) (while_statement "while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" while (parenthesized_expression "(cVar3 != '\0' && cVar3 != ',')" ( (binary_expression "cVar3 != '\0' && cVar3 != ','" (binary_expression "cVar3 != '\0'" identifier != (char_literal "'\0'" ' escape_sequence ')) && (binary_expression "cVar3 != ','" identifier != (char_literal "','" ' character '))) )) (compound_statement "{\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" { (expression_statement "pcVar7 = pcVar2 + 1;" (assignment_expression "pcVar7 = pcVar2 + 1" identifier = (binary_expression "pcVar2 + 1" identifier + number_literal)) ;) (expression_statement "pcVar4 = pcVar5 + 1;" (assignment_expression "pcVar4 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) (if_statement "if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '=')" ( (binary_expression "cVar3 == '='" identifier == (char_literal "'='" ' character ')) )) (compound_statement "{\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }" { (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" identifier = identifier) ;) }) (else_clause "else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" else (if_statement "if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '\\')" ( (binary_expression "cVar3 == '\\'" identifier == (char_literal "'\\'" ' escape_sequence ')) )) (compound_statement "{\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }" { (expression_statement "pcVar4 = pcVar5 + 2;" (assignment_expression "pcVar4 = pcVar5 + 2" identifier = (binary_expression "pcVar5 + 2" identifier + number_literal)) ;) (if_statement "if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }" if (parenthesized_expression "(pcVar5[1] == '\0')" ( (binary_expression "pcVar5[1] == '\0'" (subscript_expression "pcVar5[1]" identifier [ number_literal ]) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n pcVar6 = pcVar7;\n }" { (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" identifier = identifier) ;) })) (expression_statement "*pcVar2 = pcVar5[1];" (assignment_expression "*pcVar2 = pcVar5[1]" (pointer_expression "*pcVar2" * identifier) = (subscript_expression "pcVar5[1]" identifier [ number_literal ])) ;) }) (else_clause "else {\n *pcVar2 = cVar3;\n }" else (compound_statement "{\n *pcVar2 = cVar3;\n }" { (expression_statement "*pcVar2 = cVar3;" (assignment_expression "*pcVar2 = cVar3" (pointer_expression "*pcVar2" * identifier) = identifier) ;) }))))) (expression_statement "pcVar5 = pcVar4;" (assignment_expression "pcVar5 = pcVar4" identifier = identifier) ;) (expression_statement "pcVar2 = pcVar7;" (assignment_expression "pcVar2 = pcVar7" identifier = identifier) ;) (expression_statement "cVar3 = *pcVar4;" (assignment_expression "cVar3 = *pcVar4" identifier = (pointer_expression "*pcVar4" * identifier)) ;) })) (if_statement "if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }" if (parenthesized_expression "(cVar3 == ',')" ( (binary_expression "cVar3 == ','" identifier == (char_literal "','" ' character ')) )) (compound_statement "{\n pcVar5 = pcVar5 + 1;\n }" { (expression_statement "pcVar5 = pcVar5 + 1;" (assignment_expression "pcVar5 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) })) (if_statement "if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }" if (parenthesized_expression "(pcVar6 == (char *)0x0)" ( (binary_expression "pcVar6 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n pcVar6 = pcVar2;\n }" { (expression_statement "pcVar6 = pcVar2;" (assignment_expression "pcVar6 = pcVar2" identifier = identifier) ;) })) (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (if_statement "if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;" if (parenthesized_expression "((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0))" ( (binary_expression "(param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" (parenthesized_expression "(param_4 != 0x9b)" ( (binary_expression "param_4 != 0x9b" identifier != number_literal) )) || (parenthesized_expression "(pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" ( (comma_expression "pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0" (assignment_expression "pcVar2 = strchr(__s,0x44)" identifier = (call_expression "strchr(__s,0x44)" identifier (argument_list "(__s,0x44)" ( identifier , number_literal )))) , (binary_expression "pcVar2 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (break_statement "break;" break ;)) (expression_statement "pcVar6 = (char *)FUN_0002f13c(__s);" (assignment_expression "pcVar6 = (char *)FUN_0002f13c(__s)" identifier = (cast_expression "(char *)FUN_0002f13c(__s)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_0002f13c(__s)" identifier (argument_list "(__s)" ( identifier ))))) ;) (expression_statement "pcVar2 = strchr(pcVar6,0x44);" (assignment_expression "pcVar2 = strchr(pcVar6,0x44)" identifier = (call_expression "strchr(pcVar6,0x44)" identifier (argument_list "(pcVar6,0x44)" ( identifier , number_literal )))) ;) (expression_statement "*pcVar2 = 'L';" (assignment_expression "*pcVar2 = 'L'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'L'" ' character ')) ;) (expression_statement "FUN_0001f634(param_3,0x9b,pcVar6,iVar1);" (call_expression "FUN_0001f634(param_3,0x9b,pcVar6,iVar1)" identifier (argument_list "(param_3,0x9b,pcVar6,iVar1)" ( identifier , number_literal , identifier , identifier ))) ;) (expression_statement "FUN_0002f95c(pcVar6);" (call_expression "FUN_0002f95c(pcVar6)" identifier (argument_list "(pcVar6)" ( identifier ))) ;) (expression_statement "cVar3 = *pcVar5;" (assignment_expression "cVar3 = *pcVar5" identifier = (pointer_expression "*pcVar5" * identifier)) ;) (if_statement "if (cVar3 == '\0') goto LAB_00035470;" if (parenthesized_expression "(cVar3 == '\0')" ( (binary_expression "cVar3 == '\0'" identifier == (char_literal "'\0'" ' escape_sequence ')) )) (goto_statement "goto LAB_00035470;" goto statement_identifier ;)) })) (expression_statement "FUN_0001f634(param_3,param_4,__s,pcVar6);" (call_expression "FUN_0001f634(param_3,param_4,__s,pcVar6)" identifier (argument_list "(param_3,param_4,__s,pcVar6)" ( identifier , identifier , identifier , identifier ))) ;) })) (labeled_statement "LAB_00035470:\n FUN_0002f95c(__s);" statement_identifier : (expression_statement "FUN_0002f95c(__s);" (call_expression "FUN_0002f95c(__s)" identifier (argument_list "(__s)" ( identifier ))) ;)) (return_statement "return 1;" return number_literal ;) })))
|
(translation_unit "undefined4 gppmap(void *param_1,char *param_2,Conf *param_3,int param_4)\n\n{\n char *pcVar1;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *value;\n char *value_00;\n char *pcVar6;\n \n while (pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0) {\n conf_del_str_str(param_3,param_4,pcVar1);\n }\n pcVar1 = gpps_raw(param_1,param_2,(char *)0x0);\n if (pcVar1 == (char *)0x0) {\n return 0;\n }\n value = (char *)(DAT_000354a0 + 0x35398);\n pcVar5 = pcVar1;\n while( true ) {\n cVar3 = *pcVar5;\n if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }\n value_00 = (char *)0x0;\n pcVar2 = pcVar1;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;\n conf_set_str_str(param_3,param_4,pcVar1,value_00);\n }\n pcVar1 = dupstr(pcVar1);\n pcVar5 = strchr(pcVar1,0x44);\n *pcVar5 = 'L';\n conf_set_str_str(param_3,0x9b,pcVar1,value);\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n}\n\n" (function_definition "undefined4 gppmap(void *param_1,char *param_2,Conf *param_3,int param_4)\n\n{\n char *pcVar1;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *value;\n char *value_00;\n char *pcVar6;\n \n while (pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0) {\n conf_del_str_str(param_3,param_4,pcVar1);\n }\n pcVar1 = gpps_raw(param_1,param_2,(char *)0x0);\n if (pcVar1 == (char *)0x0) {\n return 0;\n }\n value = (char *)(DAT_000354a0 + 0x35398);\n pcVar5 = pcVar1;\n while( true ) {\n cVar3 = *pcVar5;\n if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }\n value_00 = (char *)0x0;\n pcVar2 = pcVar1;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;\n conf_set_str_str(param_3,param_4,pcVar1,value_00);\n }\n pcVar1 = dupstr(pcVar1);\n pcVar5 = strchr(pcVar1,0x44);\n *pcVar5 = 'L';\n conf_set_str_str(param_3,0x9b,pcVar1,value);\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n}" type_identifier (function_declarator "gppmap(void *param_1,char *param_2,Conf *param_3,int param_4)" identifier (parameter_list "(void *param_1,char *param_2,Conf *param_3,int param_4)" ( (parameter_declaration "void *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "char *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "Conf *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "int param_4" primitive_type identifier) ))) (compound_statement "{\n char *pcVar1;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *value;\n char *value_00;\n char *pcVar6;\n \n while (pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0) {\n conf_del_str_str(param_3,param_4,pcVar1);\n }\n pcVar1 = gpps_raw(param_1,param_2,(char *)0x0);\n if (pcVar1 == (char *)0x0) {\n return 0;\n }\n value = (char *)(DAT_000354a0 + 0x35398);\n pcVar5 = pcVar1;\n while( true ) {\n cVar3 = *pcVar5;\n if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }\n value_00 = (char *)0x0;\n pcVar2 = pcVar1;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;\n conf_set_str_str(param_3,param_4,pcVar1,value_00);\n }\n pcVar1 = dupstr(pcVar1);\n pcVar5 = strchr(pcVar1,0x44);\n *pcVar5 = 'L';\n conf_set_str_str(param_3,0x9b,pcVar1,value);\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n}" { (declaration "char *pcVar1;" primitive_type (pointer_declarator "*pcVar1" * identifier) ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "char cVar3;" primitive_type identifier ;) (declaration "char *pcVar4;" primitive_type (pointer_declarator "*pcVar4" * identifier) ;) (declaration "char *pcVar5;" primitive_type (pointer_declarator "*pcVar5" * identifier) ;) (declaration "char *value;" primitive_type (pointer_declarator "*value" * identifier) ;) (declaration "char *value_00;" primitive_type (pointer_declarator "*value_00" * identifier) ;) (declaration "char *pcVar6;" primitive_type (pointer_declarator "*pcVar6" * identifier) ;) (while_statement "while (pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0) {\n conf_del_str_str(param_3,param_4,pcVar1);\n }" while (parenthesized_expression "(pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0)" ( (comma_expression "pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0), pcVar1 != (char *)0x0" (assignment_expression "pcVar1 = conf_get_str_nthstrkey(param_3,param_4,0)" identifier = (call_expression "conf_get_str_nthstrkey(param_3,param_4,0)" identifier (argument_list "(param_3,param_4,0)" ( identifier , identifier , number_literal )))) , (binary_expression "pcVar1 != (char *)0x0" identifier != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal))) )) (compound_statement "{\n conf_del_str_str(param_3,param_4,pcVar1);\n }" { (expression_statement "conf_del_str_str(param_3,param_4,pcVar1);" (call_expression "conf_del_str_str(param_3,param_4,pcVar1)" identifier (argument_list "(param_3,param_4,pcVar1)" ( identifier , identifier , identifier ))) ;) })) (expression_statement "pcVar1 = gpps_raw(param_1,param_2,(char *)0x0);" (assignment_expression "pcVar1 = gpps_raw(param_1,param_2,(char *)0x0)" identifier = (call_expression "gpps_raw(param_1,param_2,(char *)0x0)" identifier (argument_list "(param_1,param_2,(char *)0x0)" ( identifier , identifier , (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal) )))) ;) (if_statement "if (pcVar1 == (char *)0x0) {\n return 0;\n }" if (parenthesized_expression "(pcVar1 == (char *)0x0)" ( (binary_expression "pcVar1 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "value = (char *)(DAT_000354a0 + 0x35398);" (assignment_expression "value = (char *)(DAT_000354a0 + 0x35398)" identifier = (cast_expression "(char *)(DAT_000354a0 + 0x35398)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000354a0 + 0x35398)" ( (binary_expression "DAT_000354a0 + 0x35398" identifier + number_literal) )))) ;) (expression_statement "pcVar5 = pcVar1;" (assignment_expression "pcVar5 = pcVar1" identifier = identifier) ;) (while_statement "while( true ) {\n cVar3 = *pcVar5;\n if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }\n value_00 = (char *)0x0;\n pcVar2 = pcVar1;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;\n conf_set_str_str(param_3,param_4,pcVar1,value_00);\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n cVar3 = *pcVar5;\n if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }\n value_00 = (char *)0x0;\n pcVar2 = pcVar1;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;\n conf_set_str_str(param_3,param_4,pcVar1,value_00);\n }" { (expression_statement "cVar3 = *pcVar5;" (assignment_expression "cVar3 = *pcVar5" identifier = (pointer_expression "*pcVar5" * identifier)) ;) (if_statement "if (cVar3 == '\0') {\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }" if (parenthesized_expression "(cVar3 == '\0')" ( (binary_expression "cVar3 == '\0'" identifier == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n safefree(pcVar1);\n }" { comment (expression_statement "safefree(pcVar1);" (call_expression "safefree(pcVar1)" identifier (argument_list "(pcVar1)" ( identifier ))) ;) })) (expression_statement "value_00 = (char *)0x0;" (assignment_expression "value_00 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar2 = pcVar1;" (assignment_expression "pcVar2 = pcVar1" identifier = identifier) ;) (while_statement "while (cVar3 != '\0' && cVar3 != ',') {\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }" while (parenthesized_expression "(cVar3 != '\0' && cVar3 != ',')" ( (binary_expression "cVar3 != '\0' && cVar3 != ','" (binary_expression "cVar3 != '\0'" identifier != (char_literal "'\0'" ' escape_sequence ')) && (binary_expression "cVar3 != ','" identifier != (char_literal "','" ' character '))) )) (compound_statement "{\n pcVar6 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar6;\n cVar3 = *pcVar4;\n }" { (expression_statement "pcVar6 = pcVar2 + 1;" (assignment_expression "pcVar6 = pcVar2 + 1" identifier = (binary_expression "pcVar2 + 1" identifier + number_literal)) ;) (expression_statement "pcVar4 = pcVar5 + 1;" (assignment_expression "pcVar4 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) (if_statement "if (cVar3 == '=') {\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '=')" ( (binary_expression "cVar3 == '='" identifier == (char_literal "'='" ' character ')) )) (compound_statement "{\n *pcVar2 = '\0';\n value_00 = pcVar6;\n }" { (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (expression_statement "value_00 = pcVar6;" (assignment_expression "value_00 = pcVar6" identifier = identifier) ;) }) (else_clause "else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" else (if_statement "if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '\\')" ( (binary_expression "cVar3 == '\\'" identifier == (char_literal "'\\'" ' escape_sequence ')) )) (compound_statement "{\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }\n *pcVar2 = pcVar5[1];\n }" { (expression_statement "pcVar4 = pcVar5 + 2;" (assignment_expression "pcVar4 = pcVar5 + 2" identifier = (binary_expression "pcVar5 + 2" identifier + number_literal)) ;) (if_statement "if (pcVar5[1] == '\0') {\n value_00 = pcVar6;\n }" if (parenthesized_expression "(pcVar5[1] == '\0')" ( (binary_expression "pcVar5[1] == '\0'" (subscript_expression "pcVar5[1]" identifier [ number_literal ]) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n value_00 = pcVar6;\n }" { (expression_statement "value_00 = pcVar6;" (assignment_expression "value_00 = pcVar6" identifier = identifier) ;) })) (expression_statement "*pcVar2 = pcVar5[1];" (assignment_expression "*pcVar2 = pcVar5[1]" (pointer_expression "*pcVar2" * identifier) = (subscript_expression "pcVar5[1]" identifier [ number_literal ])) ;) }) (else_clause "else {\n *pcVar2 = cVar3;\n }" else (compound_statement "{\n *pcVar2 = cVar3;\n }" { (expression_statement "*pcVar2 = cVar3;" (assignment_expression "*pcVar2 = cVar3" (pointer_expression "*pcVar2" * identifier) = identifier) ;) }))))) (expression_statement "pcVar5 = pcVar4;" (assignment_expression "pcVar5 = pcVar4" identifier = identifier) ;) (expression_statement "pcVar2 = pcVar6;" (assignment_expression "pcVar2 = pcVar6" identifier = identifier) ;) (expression_statement "cVar3 = *pcVar4;" (assignment_expression "cVar3 = *pcVar4" identifier = (pointer_expression "*pcVar4" * identifier)) ;) })) (if_statement "if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }" if (parenthesized_expression "(cVar3 == ',')" ( (binary_expression "cVar3 == ','" identifier == (char_literal "','" ' character ')) )) (compound_statement "{\n pcVar5 = pcVar5 + 1;\n }" { (expression_statement "pcVar5 = pcVar5 + 1;" (assignment_expression "pcVar5 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) })) (if_statement "if (value_00 == (char *)0x0) {\n value_00 = pcVar2;\n }" if (parenthesized_expression "(value_00 == (char *)0x0)" ( (binary_expression "value_00 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n value_00 = pcVar2;\n }" { (expression_statement "value_00 = pcVar2;" (assignment_expression "value_00 = pcVar2" identifier = identifier) ;) })) (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (if_statement "if ((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)) break;" if (parenthesized_expression "((param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0))" ( (binary_expression "(param_4 == 0x9b) && (pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)" (parenthesized_expression "(param_4 == 0x9b)" ( (binary_expression "param_4 == 0x9b" identifier == number_literal) )) && (parenthesized_expression "(pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0)" ( (comma_expression "pcVar2 = strchr(pcVar1,0x44), pcVar2 != (char *)0x0" (assignment_expression "pcVar2 = strchr(pcVar1,0x44)" identifier = (call_expression "strchr(pcVar1,0x44)" identifier (argument_list "(pcVar1,0x44)" ( identifier , number_literal )))) , (binary_expression "pcVar2 != (char *)0x0" identifier != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (break_statement "break;" break ;)) (expression_statement "conf_set_str_str(param_3,param_4,pcVar1,value_00);" (call_expression "conf_set_str_str(param_3,param_4,pcVar1,value_00)" identifier (argument_list "(param_3,param_4,pcVar1,value_00)" ( identifier , identifier , identifier , identifier ))) ;) })) (expression_statement "pcVar1 = dupstr(pcVar1);" (assignment_expression "pcVar1 = dupstr(pcVar1)" identifier = (call_expression "dupstr(pcVar1)" identifier (argument_list "(pcVar1)" ( identifier )))) ;) (expression_statement "pcVar5 = strchr(pcVar1,0x44);" (assignment_expression "pcVar5 = strchr(pcVar1,0x44)" identifier = (call_expression "strchr(pcVar1,0x44)" identifier (argument_list "(pcVar1,0x44)" ( identifier , number_literal )))) ;) (expression_statement "*pcVar5 = 'L';" (assignment_expression "*pcVar5 = 'L'" (pointer_expression "*pcVar5" * identifier) = (char_literal "'L'" ' character ')) ;) (expression_statement "conf_set_str_str(param_3,0x9b,pcVar1,value);" (call_expression "conf_set_str_str(param_3,0x9b,pcVar1,value)" identifier (argument_list "(param_3,0x9b,pcVar1,value)" ( identifier , number_literal , identifier , identifier ))) ;) comment (expression_statement "safefree(pcVar1);" (call_expression "safefree(pcVar1)" identifier (argument_list "(pcVar1)" ( identifier ))) ;) })))
|
(translation_unit "undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)\n\n{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}\n\n" (function_definition "undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)\n\n{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" type_identifier (function_declarator "FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "int param_4" primitive_type identifier) ))) (compound_statement "{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "char cVar3;" primitive_type identifier ;) (declaration "char *pcVar4;" primitive_type (pointer_declarator "*pcVar4" * identifier) ;) (declaration "char *pcVar5;" primitive_type (pointer_declarator "*pcVar5" * identifier) ;) (declaration "char *pcVar6;" primitive_type (pointer_declarator "*pcVar6" * identifier) ;) (declaration "char *pcVar7;" primitive_type (pointer_declarator "*pcVar7" * identifier) ;) (while_statement "while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }" while (parenthesized_expression "(iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0)" ( (comma_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0" (assignment_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0)" identifier = (call_expression "FUN_0001f0b8(param_3,param_4,0)" identifier (argument_list "(param_3,param_4,0)" ( identifier , identifier , number_literal )))) , (binary_expression "iVar1 != 0" identifier != number_literal)) )) (compound_statement "{\n FUN_0001f704(param_3,param_4,iVar1);\n }" { (expression_statement "FUN_0001f704(param_3,param_4,iVar1);" (call_expression "FUN_0001f704(param_3,param_4,iVar1)" identifier (argument_list "(param_3,param_4,iVar1)" ( identifier , identifier , identifier ))) ;) })) (expression_statement "__s = (char *)FUN_000352c8(param_1,param_2);" (assignment_expression "__s = (char *)FUN_000352c8(param_1,param_2)" identifier = (cast_expression "(char *)FUN_000352c8(param_1,param_2)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_000352c8(param_1,param_2)" identifier (argument_list "(param_1,param_2)" ( identifier , identifier ))))) ;) (if_statement "if (__s == (char *)0x0) {\n return 0;\n }" if (parenthesized_expression "(__s == (char *)0x0)" ( (binary_expression "__s == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return 0;\n }" { (return_statement "return 0;" return number_literal ;) })) (expression_statement "iVar1 = DAT_000354a0 + 0x35398;" (assignment_expression "iVar1 = DAT_000354a0 + 0x35398" identifier = (binary_expression "DAT_000354a0 + 0x35398" identifier + number_literal)) ;) (expression_statement "pcVar5 = __s;" (assignment_expression "pcVar5 = __s" identifier = identifier) ;) (while_statement "while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" while (parenthesized_expression "(cVar3 = *pcVar5, cVar3 != '\0')" ( (comma_expression "cVar3 = *pcVar5, cVar3 != '\0'" (assignment_expression "cVar3 = *pcVar5" identifier = (pointer_expression "*pcVar5" * identifier)) , (binary_expression "cVar3 != '\0'" identifier != (char_literal "'\0'" ' escape_sequence '))) )) (compound_statement "{\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" { (while_statement "while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" { (expression_statement "pcVar6 = (char *)0x0;" (assignment_expression "pcVar6 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar2 = __s;" (assignment_expression "pcVar2 = __s" identifier = identifier) ;) (while_statement "while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" while (parenthesized_expression "(cVar3 != '\0' && cVar3 != ',')" ( (binary_expression "cVar3 != '\0' && cVar3 != ','" (binary_expression "cVar3 != '\0'" identifier != (char_literal "'\0'" ' escape_sequence ')) && (binary_expression "cVar3 != ','" identifier != (char_literal "','" ' character '))) )) (compound_statement "{\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" { (expression_statement "pcVar7 = pcVar2 + 1;" (assignment_expression "pcVar7 = pcVar2 + 1" identifier = (binary_expression "pcVar2 + 1" identifier + number_literal)) ;) (expression_statement "pcVar4 = pcVar5 + 1;" (assignment_expression "pcVar4 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) (if_statement "if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '=')" ( (binary_expression "cVar3 == '='" identifier == (char_literal "'='" ' character ')) )) (compound_statement "{\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }" { (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" identifier = identifier) ;) }) (else_clause "else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" else (if_statement "if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" if (parenthesized_expression "(cVar3 == '\\')" ( (binary_expression "cVar3 == '\\'" identifier == (char_literal "'\\'" ' escape_sequence ')) )) (compound_statement "{\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }" { (expression_statement "pcVar4 = pcVar5 + 2;" (assignment_expression "pcVar4 = pcVar5 + 2" identifier = (binary_expression "pcVar5 + 2" identifier + number_literal)) ;) (if_statement "if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }" if (parenthesized_expression "(pcVar5[1] == '\0')" ( (binary_expression "pcVar5[1] == '\0'" (subscript_expression "pcVar5[1]" identifier [ number_literal ]) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n pcVar6 = pcVar7;\n }" { (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" identifier = identifier) ;) })) (expression_statement "*pcVar2 = pcVar5[1];" (assignment_expression "*pcVar2 = pcVar5[1]" (pointer_expression "*pcVar2" * identifier) = (subscript_expression "pcVar5[1]" identifier [ number_literal ])) ;) }) (else_clause "else {\n *pcVar2 = cVar3;\n }" else (compound_statement "{\n *pcVar2 = cVar3;\n }" { (expression_statement "*pcVar2 = cVar3;" (assignment_expression "*pcVar2 = cVar3" (pointer_expression "*pcVar2" * identifier) = identifier) ;) }))))) (expression_statement "pcVar5 = pcVar4;" (assignment_expression "pcVar5 = pcVar4" identifier = identifier) ;) (expression_statement "pcVar2 = pcVar7;" (assignment_expression "pcVar2 = pcVar7" identifier = identifier) ;) (expression_statement "cVar3 = *pcVar4;" (assignment_expression "cVar3 = *pcVar4" identifier = (pointer_expression "*pcVar4" * identifier)) ;) })) (if_statement "if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }" if (parenthesized_expression "(cVar3 == ',')" ( (binary_expression "cVar3 == ','" identifier == (char_literal "','" ' character ')) )) (compound_statement "{\n pcVar5 = pcVar5 + 1;\n }" { (expression_statement "pcVar5 = pcVar5 + 1;" (assignment_expression "pcVar5 = pcVar5 + 1" identifier = (binary_expression "pcVar5 + 1" identifier + number_literal)) ;) })) (if_statement "if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }" if (parenthesized_expression "(pcVar6 == (char *)0x0)" ( (binary_expression "pcVar6 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n pcVar6 = pcVar2;\n }" { (expression_statement "pcVar6 = pcVar2;" (assignment_expression "pcVar6 = pcVar2" identifier = identifier) ;) })) (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;) (if_statement "if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;" if (parenthesized_expression "((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0))" ( (binary_expression "(param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" (parenthesized_expression "(param_4 != 0x9b)" ( (binary_expression "param_4 != 0x9b" identifier != number_literal) )) || (parenthesized_expression "(pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" ( (comma_expression "pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0" (assignment_expression "pcVar2 = strchr(__s,0x44)" identifier = (call_expression "strchr(__s,0x44)" identifier (argument_list "(__s,0x44)" ( identifier , number_literal )))) , (binary_expression "pcVar2 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (break_statement "break;" break ;)) (expression_statement "pcVar6 = (char *)FUN_0002f13c(__s);" (assignment_expression "pcVar6 = (char *)FUN_0002f13c(__s)" identifier = (cast_expression "(char *)FUN_0002f13c(__s)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "FUN_0002f13c(__s)" identifier (argument_list "(__s)" ( identifier ))))) ;) (expression_statement "pcVar2 = strchr(pcVar6,0x44);" (assignment_expression "pcVar2 = strchr(pcVar6,0x44)" identifier = (call_expression "strchr(pcVar6,0x44)" identifier (argument_list "(pcVar6,0x44)" ( identifier , number_literal )))) ;) (expression_statement "*pcVar2 = 'L';" (assignment_expression "*pcVar2 = 'L'" (pointer_expression "*pcVar2" * identifier) = (char_literal "'L'" ' character ')) ;) (expression_statement "FUN_0001f634(param_3,0x9b,pcVar6,iVar1);" (call_expression "FUN_0001f634(param_3,0x9b,pcVar6,iVar1)" identifier (argument_list "(param_3,0x9b,pcVar6,iVar1)" ( identifier , number_literal , identifier , identifier ))) ;) (expression_statement "FUN_0002f95c(pcVar6);" (call_expression "FUN_0002f95c(pcVar6)" identifier (argument_list "(pcVar6)" ( identifier ))) ;) (expression_statement "cVar3 = *pcVar5;" (assignment_expression "cVar3 = *pcVar5" identifier = (pointer_expression "*pcVar5" * identifier)) ;) (if_statement "if (cVar3 == '\0') goto LAB_00035470;" if (parenthesized_expression "(cVar3 == '\0')" ( (binary_expression "cVar3 == '\0'" identifier == (char_literal "'\0'" ' escape_sequence ')) )) (goto_statement "goto LAB_00035470;" goto statement_identifier ;)) })) (expression_statement "FUN_0001f634(param_3,param_4,__s,pcVar6);" (call_expression "FUN_0001f634(param_3,param_4,__s,pcVar6)" identifier (argument_list "(param_3,param_4,__s,pcVar6)" ( identifier , identifier , identifier , identifier ))) ;) })) (labeled_statement "LAB_00035470:\n FUN_0002f95c(__s);" statement_identifier : (expression_statement "FUN_0002f95c(__s);" (call_expression "FUN_0002f95c(__s)" identifier (argument_list "(__s)" ( identifier ))) ;)) (return_statement "return 1;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (while_statement while (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , IDENT , LIT )))) , (binary_expression IDENT != LIT)) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) })) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT , IDENT ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return LIT ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (while_statement while (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (pointer_expression * IDENT)) , (binary_expression IDENT != (char_literal ' escape_sequence '))) )) (compound_statement { (while_statement while (parenthesized_expression ( BOOL )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (while_statement while (parenthesized_expression ( (binary_expression (binary_expression IDENT != (char_literal ' escape_sequence ')) && (binary_expression IDENT != (char_literal ' character '))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (char_literal ' character ')) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = (char_literal ' escape_sequence ')) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) }) (else_clause else (if_statement if (parenthesized_expression ( (binary_expression IDENT == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) })) (expression_statement (assignment_expression (pointer_expression * IDENT) = (subscript_expression IDENT [ LIT ])) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) }))))) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (char_literal ' character ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) })) (expression_statement (assignment_expression (pointer_expression * IDENT) = (char_literal ' escape_sequence ')) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT != LIT) )) || (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT )))) , (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT))) ))) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT ))))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT )))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (char_literal ' character ')) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (char_literal ' escape_sequence ')) )) (goto_statement goto statement_identifier ;)) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) })) (labeled_statement statement_identifier : (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;)) (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)\n\n{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" (type_identifier "undefined4") (function_declarator "FUN_00035334(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" (identifier "FUN_00035334") (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "int param_4" (primitive_type "int") (identifier "param_4")) () ")"))) (compound_statement "{\n int iVar1;\n char *__s;\n char *pcVar2;\n char cVar3;\n char *pcVar4;\n char *pcVar5;\n char *pcVar6;\n char *pcVar7;\n \n while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }\n __s = (char *)FUN_000352c8(param_1,param_2);\n if (__s == (char *)0x0) {\n return 0;\n }\n iVar1 = DAT_000354a0 + 0x35398;\n pcVar5 = __s;\n while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }\nLAB_00035470:\n FUN_0002f95c(__s);\n return 1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "char *__s;" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s")) (; ";")) (declaration "char *pcVar2;" (primitive_type "char") (pointer_declarator "*pcVar2" (* "*") (identifier "pcVar2")) (; ";")) (declaration "char cVar3;" (primitive_type "char") (identifier "cVar3") (; ";")) (declaration "char *pcVar4;" (primitive_type "char") (pointer_declarator "*pcVar4" (* "*") (identifier "pcVar4")) (; ";")) (declaration "char *pcVar5;" (primitive_type "char") (pointer_declarator "*pcVar5" (* "*") (identifier "pcVar5")) (; ";")) (declaration "char *pcVar6;" (primitive_type "char") (pointer_declarator "*pcVar6" (* "*") (identifier "pcVar6")) (; ";")) (declaration "char *pcVar7;" (primitive_type "char") (pointer_declarator "*pcVar7" (* "*") (identifier "pcVar7")) (; ";")) (while_statement "while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {\n FUN_0001f704(param_3,param_4,iVar1);\n }" (while "while") (parenthesized_expression "(iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0)" (( "(") (comma_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0" (assignment_expression "iVar1 = FUN_0001f0b8(param_3,param_4,0)" (identifier "iVar1") (= "=") (call_expression "FUN_0001f0b8(param_3,param_4,0)" (identifier "FUN_0001f0b8") (argument_list "(param_3,param_4,0)" (( "(") (identifier "param_3") (, ",") (identifier "param_4") (, ",") (number_literal "0") () ")")))) (, ",") (binary_expression "iVar1 != 0" (identifier "iVar1") (!= "!=") (number_literal "0"))) () ")")) (compound_statement "{\n FUN_0001f704(param_3,param_4,iVar1);\n }" ({ "{") (expression_statement "FUN_0001f704(param_3,param_4,iVar1);" (call_expression "FUN_0001f704(param_3,param_4,iVar1)" (identifier "FUN_0001f704") (argument_list "(param_3,param_4,iVar1)" (( "(") (identifier "param_3") (, ",") (identifier "param_4") (, ",") (identifier "iVar1") () ")"))) (; ";")) (} "}"))) (expression_statement "__s = (char *)FUN_000352c8(param_1,param_2);" (assignment_expression "__s = (char *)FUN_000352c8(param_1,param_2)" (identifier "__s") (= "=") (cast_expression "(char *)FUN_000352c8(param_1,param_2)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "FUN_000352c8(param_1,param_2)" (identifier "FUN_000352c8") (argument_list "(param_1,param_2)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") () ")"))))) (; ";")) (if_statement "if (__s == (char *)0x0) {\n return 0;\n }" (if "if") (parenthesized_expression "(__s == (char *)0x0)" (( "(") (binary_expression "__s == (char *)0x0" (identifier "__s") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return 0;\n }" ({ "{") (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}"))) (expression_statement "iVar1 = DAT_000354a0 + 0x35398;" (assignment_expression "iVar1 = DAT_000354a0 + 0x35398" (identifier "iVar1") (= "=") (binary_expression "DAT_000354a0 + 0x35398" (identifier "DAT_000354a0") (+ "+") (number_literal "0x35398"))) (; ";")) (expression_statement "pcVar5 = __s;" (assignment_expression "pcVar5 = __s" (identifier "pcVar5") (= "=") (identifier "__s")) (; ";")) (while_statement "while (cVar3 = *pcVar5, cVar3 != '\0') {\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" (while "while") (parenthesized_expression "(cVar3 = *pcVar5, cVar3 != '\0')" (( "(") (comma_expression "cVar3 = *pcVar5, cVar3 != '\0'" (assignment_expression "cVar3 = *pcVar5" (identifier "cVar3") (= "=") (pointer_expression "*pcVar5" (* "*") (identifier "pcVar5"))) (, ",") (binary_expression "cVar3 != '\0'" (identifier "cVar3") (!= "!=") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'")))) () ")")) (compound_statement "{\n while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }\n FUN_0001f634(param_3,param_4,__s,pcVar6);\n }" ({ "{") (while_statement "while( true ) {\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (compound_statement "{\n pcVar6 = (char *)0x0;\n pcVar2 = __s;\n while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }\n if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }\n if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }\n *pcVar2 = '\0';\n if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;\n pcVar6 = (char *)FUN_0002f13c(__s);\n pcVar2 = strchr(pcVar6,0x44);\n *pcVar2 = 'L';\n FUN_0001f634(param_3,0x9b,pcVar6,iVar1);\n FUN_0002f95c(pcVar6);\n cVar3 = *pcVar5;\n if (cVar3 == '\0') goto LAB_00035470;\n }" ({ "{") (expression_statement "pcVar6 = (char *)0x0;" (assignment_expression "pcVar6 = (char *)0x0" (identifier "pcVar6") (= "=") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) (; ";")) (expression_statement "pcVar2 = __s;" (assignment_expression "pcVar2 = __s" (identifier "pcVar2") (= "=") (identifier "__s")) (; ";")) (while_statement "while (cVar3 != '\0' && cVar3 != ',') {\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" (while "while") (parenthesized_expression "(cVar3 != '\0' && cVar3 != ',')" (( "(") (binary_expression "cVar3 != '\0' && cVar3 != ','" (binary_expression "cVar3 != '\0'" (identifier "cVar3") (!= "!=") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) (&& "&&") (binary_expression "cVar3 != ','" (identifier "cVar3") (!= "!=") (char_literal "','" (' "'") (character ",") (' "'")))) () ")")) (compound_statement "{\n pcVar7 = pcVar2 + 1;\n pcVar4 = pcVar5 + 1;\n if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }\n pcVar5 = pcVar4;\n pcVar2 = pcVar7;\n cVar3 = *pcVar4;\n }" ({ "{") (expression_statement "pcVar7 = pcVar2 + 1;" (assignment_expression "pcVar7 = pcVar2 + 1" (identifier "pcVar7") (= "=") (binary_expression "pcVar2 + 1" (identifier "pcVar2") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "pcVar4 = pcVar5 + 1;" (assignment_expression "pcVar4 = pcVar5 + 1" (identifier "pcVar4") (= "=") (binary_expression "pcVar5 + 1" (identifier "pcVar5") (+ "+") (number_literal "1"))) (; ";")) (if_statement "if (cVar3 == '=') {\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }\n else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" (if "if") (parenthesized_expression "(cVar3 == '=')" (( "(") (binary_expression "cVar3 == '='" (identifier "cVar3") (== "==") (char_literal "'='" (' "'") (character "=") (' "'"))) () ")")) (compound_statement "{\n *pcVar2 = '\0';\n pcVar6 = pcVar7;\n }" ({ "{") (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" (* "*") (identifier "pcVar2")) (= "=") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) (; ";")) (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" (identifier "pcVar6") (= "=") (identifier "pcVar7")) (; ";")) (} "}")) (else_clause "else if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" (else "else") (if_statement "if (cVar3 == '\\') {\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }\n else {\n *pcVar2 = cVar3;\n }" (if "if") (parenthesized_expression "(cVar3 == '\\')" (( "(") (binary_expression "cVar3 == '\\'" (identifier "cVar3") (== "==") (char_literal "'\\'" (' "'") (escape_sequence "\\") (' "'"))) () ")")) (compound_statement "{\n pcVar4 = pcVar5 + 2;\n if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }\n *pcVar2 = pcVar5[1];\n }" ({ "{") (expression_statement "pcVar4 = pcVar5 + 2;" (assignment_expression "pcVar4 = pcVar5 + 2" (identifier "pcVar4") (= "=") (binary_expression "pcVar5 + 2" (identifier "pcVar5") (+ "+") (number_literal "2"))) (; ";")) (if_statement "if (pcVar5[1] == '\0') {\n pcVar6 = pcVar7;\n }" (if "if") (parenthesized_expression "(pcVar5[1] == '\0')" (( "(") (binary_expression "pcVar5[1] == '\0'" (subscript_expression "pcVar5[1]" (identifier "pcVar5") ([ "[") (number_literal "1") (] "]")) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n pcVar6 = pcVar7;\n }" ({ "{") (expression_statement "pcVar6 = pcVar7;" (assignment_expression "pcVar6 = pcVar7" (identifier "pcVar6") (= "=") (identifier "pcVar7")) (; ";")) (} "}"))) (expression_statement "*pcVar2 = pcVar5[1];" (assignment_expression "*pcVar2 = pcVar5[1]" (pointer_expression "*pcVar2" (* "*") (identifier "pcVar2")) (= "=") (subscript_expression "pcVar5[1]" (identifier "pcVar5") ([ "[") (number_literal "1") (] "]"))) (; ";")) (} "}")) (else_clause "else {\n *pcVar2 = cVar3;\n }" (else "else") (compound_statement "{\n *pcVar2 = cVar3;\n }" ({ "{") (expression_statement "*pcVar2 = cVar3;" (assignment_expression "*pcVar2 = cVar3" (pointer_expression "*pcVar2" (* "*") (identifier "pcVar2")) (= "=") (identifier "cVar3")) (; ";")) (} "}")))))) (expression_statement "pcVar5 = pcVar4;" (assignment_expression "pcVar5 = pcVar4" (identifier "pcVar5") (= "=") (identifier "pcVar4")) (; ";")) (expression_statement "pcVar2 = pcVar7;" (assignment_expression "pcVar2 = pcVar7" (identifier "pcVar2") (= "=") (identifier "pcVar7")) (; ";")) (expression_statement "cVar3 = *pcVar4;" (assignment_expression "cVar3 = *pcVar4" (identifier "cVar3") (= "=") (pointer_expression "*pcVar4" (* "*") (identifier "pcVar4"))) (; ";")) (} "}"))) (if_statement "if (cVar3 == ',') {\n pcVar5 = pcVar5 + 1;\n }" (if "if") (parenthesized_expression "(cVar3 == ',')" (( "(") (binary_expression "cVar3 == ','" (identifier "cVar3") (== "==") (char_literal "','" (' "'") (character ",") (' "'"))) () ")")) (compound_statement "{\n pcVar5 = pcVar5 + 1;\n }" ({ "{") (expression_statement "pcVar5 = pcVar5 + 1;" (assignment_expression "pcVar5 = pcVar5 + 1" (identifier "pcVar5") (= "=") (binary_expression "pcVar5 + 1" (identifier "pcVar5") (+ "+") (number_literal "1"))) (; ";")) (} "}"))) (if_statement "if (pcVar6 == (char *)0x0) {\n pcVar6 = pcVar2;\n }" (if "if") (parenthesized_expression "(pcVar6 == (char *)0x0)" (( "(") (binary_expression "pcVar6 == (char *)0x0" (identifier "pcVar6") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n pcVar6 = pcVar2;\n }" ({ "{") (expression_statement "pcVar6 = pcVar2;" (assignment_expression "pcVar6 = pcVar2" (identifier "pcVar6") (= "=") (identifier "pcVar2")) (; ";")) (} "}"))) (expression_statement "*pcVar2 = '\0';" (assignment_expression "*pcVar2 = '\0'" (pointer_expression "*pcVar2" (* "*") (identifier "pcVar2")) (= "=") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) (; ";")) (if_statement "if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;" (if "if") (parenthesized_expression "((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0))" (( "(") (binary_expression "(param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" (parenthesized_expression "(param_4 != 0x9b)" (( "(") (binary_expression "param_4 != 0x9b" (identifier "param_4") (!= "!=") (number_literal "0x9b")) () ")")) (|| "||") (parenthesized_expression "(pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)" (( "(") (comma_expression "pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0" (assignment_expression "pcVar2 = strchr(__s,0x44)" (identifier "pcVar2") (= "=") (call_expression "strchr(__s,0x44)" (identifier "strchr") (argument_list "(__s,0x44)" (( "(") (identifier "__s") (, ",") (number_literal "0x44") () ")")))) (, ",") (binary_expression "pcVar2 == (char *)0x0" (identifier "pcVar2") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0")))) () ")"))) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "pcVar6 = (char *)FUN_0002f13c(__s);" (assignment_expression "pcVar6 = (char *)FUN_0002f13c(__s)" (identifier "pcVar6") (= "=") (cast_expression "(char *)FUN_0002f13c(__s)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "FUN_0002f13c(__s)" (identifier "FUN_0002f13c") (argument_list "(__s)" (( "(") (identifier "__s") () ")"))))) (; ";")) (expression_statement "pcVar2 = strchr(pcVar6,0x44);" (assignment_expression "pcVar2 = strchr(pcVar6,0x44)" (identifier "pcVar2") (= "=") (call_expression "strchr(pcVar6,0x44)" (identifier "strchr") (argument_list "(pcVar6,0x44)" (( "(") (identifier "pcVar6") (, ",") (number_literal "0x44") () ")")))) (; ";")) (expression_statement "*pcVar2 = 'L';" (assignment_expression "*pcVar2 = 'L'" (pointer_expression "*pcVar2" (* "*") (identifier "pcVar2")) (= "=") (char_literal "'L'" (' "'") (character "L") (' "'"))) (; ";")) (expression_statement "FUN_0001f634(param_3,0x9b,pcVar6,iVar1);" (call_expression "FUN_0001f634(param_3,0x9b,pcVar6,iVar1)" (identifier "FUN_0001f634") (argument_list "(param_3,0x9b,pcVar6,iVar1)" (( "(") (identifier "param_3") (, ",") (number_literal "0x9b") (, ",") (identifier "pcVar6") (, ",") (identifier "iVar1") () ")"))) (; ";")) (expression_statement "FUN_0002f95c(pcVar6);" (call_expression "FUN_0002f95c(pcVar6)" (identifier "FUN_0002f95c") (argument_list "(pcVar6)" (( "(") (identifier "pcVar6") () ")"))) (; ";")) (expression_statement "cVar3 = *pcVar5;" (assignment_expression "cVar3 = *pcVar5" (identifier "cVar3") (= "=") (pointer_expression "*pcVar5" (* "*") (identifier "pcVar5"))) (; ";")) (if_statement "if (cVar3 == '\0') goto LAB_00035470;" (if "if") (parenthesized_expression "(cVar3 == '\0')" (( "(") (binary_expression "cVar3 == '\0'" (identifier "cVar3") (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (goto_statement "goto LAB_00035470;" (goto "goto") (statement_identifier "LAB_00035470") (; ";"))) (} "}"))) (expression_statement "FUN_0001f634(param_3,param_4,__s,pcVar6);" (call_expression "FUN_0001f634(param_3,param_4,__s,pcVar6)" (identifier "FUN_0001f634") (argument_list "(param_3,param_4,__s,pcVar6)" (( "(") (identifier "param_3") (, ",") (identifier "param_4") (, ",") (identifier "__s") (, ",") (identifier "pcVar6") () ")"))) (; ";")) (} "}"))) (labeled_statement "LAB_00035470:\n FUN_0002f95c(__s);" (statement_identifier "LAB_00035470") (: ":") (expression_statement "FUN_0002f95c(__s);" (call_expression "FUN_0002f95c(__s)" (identifier "FUN_0002f95c") (argument_list "(__s)" (( "(") (identifier "__s") () ")"))) (; ";"))) (return_statement "return 1;" (return "return") (number_literal "1") (; ";")) (} "}")))
|
type_1 function_1(void *param_1,char *param_2,type_2 *param_3,int var_11)
{
char *var_2;
char *var_8;
char var_6;
char *pcVar4;
char *var_9;
char *value;
char *var_10;
char *pcVar6;
while (var_2 = var_1(param_3,var_11,0), var_2 != (char *)0x0) {
var_3(param_3,var_11,var_2);
}
var_2 = var_4(param_1,param_2,(char *)0x0);
if (var_2 == (char *)0x0) {
return 0;
}
value = (char *)(var_5 + 0x35398);
var_9 = var_2;
while( true ) {
var_6 = *var_9;
if (var_6 == '\0') {
/* WARNING: Subroutine does not return */
var_7(var_2);
}
var_10 = (char *)0x0;
var_8 = var_2;
while (var_6 != '\0' && var_6 != ',') {
pcVar6 = var_8 + 1;
pcVar4 = var_9 + 1;
if (var_6 == '=') {
*var_8 = '\0';
var_10 = pcVar6;
}
else if (var_6 == '\\') {
pcVar4 = var_9 + 2;
if (var_9[1] == '\0') {
var_10 = pcVar6;
}
*var_8 = var_9[1];
}
else {
*var_8 = var_6;
}
var_9 = pcVar4;
var_8 = pcVar6;
var_6 = *pcVar4;
}
if (var_6 == ',') {
var_9 = var_9 + 1;
}
if (var_10 == (char *)0x0) {
var_10 = var_8;
}
*var_8 = '\0';
if ((var_11 == 0x9b) && (var_8 = var_12(var_2,0x44), var_8 != (char *)0x0)) break;
var_13(param_3,var_11,var_2,var_10);
}
var_2 = var_14(var_2);
var_9 = var_12(var_2,0x44);
*var_9 = 'L';
var_13(param_3,0x9b,var_2,value);
/* WARNING: Subroutine does not return */
var_7(var_2);
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (while_statement condition: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (number_literal)))) right: (binary_expression left: (identifier) right: (number_literal)))) body: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (while_statement condition: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier))) right: (binary_expression left: (identifier) right: (char_literal (escape_sequence))))) body: (compound_statement (while_statement condition: (parenthesized_expression (true)) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (while_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (char_literal (escape_sequence))) right: (binary_expression left: (identifier) right: (char_literal (character))))) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (char_literal (character)))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (char_literal (escape_sequence)))) (expression_statement (assignment_expression left: (identifier) right: (identifier)))) alternative: (else_clause (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (subscript_expression argument: (identifier) index: (number_literal))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier)))))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (char_literal (character)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (char_literal (escape_sequence)))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal)))) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal))))))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (char_literal (character)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (char_literal (escape_sequence)))) consequence: (goto_statement label: (statement_identifier))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))))) (labeled_statement label: (statement_identifier) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier))))) (return_statement (number_literal)))))
|
undefined4 MASKED(undefined4 param_1,undefined4 param_2,undefined4 param_3,int param_4)
{
int iVar1;
char *__s;
char *pcVar2;
char cVar3;
char *pcVar4;
char *pcVar5;
char *pcVar6;
char *pcVar7;
while (iVar1 = FUN_0001f0b8(param_3,param_4,0), iVar1 != 0) {
FUN_0001f704(param_3,param_4,iVar1);
}
__s = (char *)FUN_000352c8(param_1,param_2);
if (__s == (char *)0x0) {
return 0;
}
iVar1 = DAT_000354a0 + 0x35398;
pcVar5 = __s;
while (cVar3 = *pcVar5, cVar3 != '\0') {
while( true ) {
pcVar6 = (char *)0x0;
pcVar2 = __s;
while (cVar3 != '\0' && cVar3 != ',') {
pcVar7 = pcVar2 + 1;
pcVar4 = pcVar5 + 1;
if (cVar3 == '=') {
*pcVar2 = '\0';
pcVar6 = pcVar7;
}
else if (cVar3 == '\\') {
pcVar4 = pcVar5 + 2;
if (pcVar5[1] == '\0') {
pcVar6 = pcVar7;
}
*pcVar2 = pcVar5[1];
}
else {
*pcVar2 = cVar3;
}
pcVar5 = pcVar4;
pcVar2 = pcVar7;
cVar3 = *pcVar4;
}
if (cVar3 == ',') {
pcVar5 = pcVar5 + 1;
}
if (pcVar6 == (char *)0x0) {
pcVar6 = pcVar2;
}
*pcVar2 = '\0';
if ((param_4 != 0x9b) || (pcVar2 = strchr(__s,0x44), pcVar2 == (char *)0x0)) break;
pcVar6 = (char *)FUN_0002f13c(__s);
pcVar2 = strchr(pcVar6,0x44);
*pcVar2 = 'L';
FUN_0001f634(param_3,0x9b,pcVar6,iVar1);
FUN_0002f95c(pcVar6);
cVar3 = *pcVar5;
if (cVar3 == '\0') goto LAB_00035470;
}
FUN_0001f634(param_3,param_4,__s,pcVar6);
}
LAB_00035470:
FUN_0002f95c(__s);
return 1;
}
| 65,725 |
||
918_pterm_and_pterm_strip.c
|
input_method_commit_event
|
FUN_000514b0
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void input_method_commit_event(GtkIMContext *imc,gchar *str,gpointer data)
{
if (*(int *)((int)data + 0xd10) != 0) {
/* WARNING: Subroutine does not return */
strlen((char *)str);
}
show_mouseptr((gui_data *)data,0);
term_seen_key_event(*(Terminal **)((int)data + 0xd1c));
return;
}
|
void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)
{
size_t sVar1;
int iVar2;
iVar2 = *(int *)(param_3 + 0xd10);
if (iVar2 != 0) {
sVar1 = strlen(param_2);
FUN_00027998(iVar2,0x37,param_2,sVar1,1);
}
FUN_0005147c(param_3,0);
FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));
return;
}
|
stmdb sp!,{r4,r5,r6,lr}
ldr r5,[r2,#0xd10]
sub sp,sp,#0x8
cmp r5,#0x0
cpy r4,r2
beq 0x000514f0
cpy r0,r1
cpy r6,r1
bl 0x00018fac
mov r3,#0x1
str r3,[sp,#0x0]
cpy r2,r6
mov r1,#0x37
cpy r3,r0
cpy r0,r5
bl 0x00027998
cpy r0,r4
mov r1,#0x0
bl 0x0005147c
ldr r0,[r4,#0xd1c]
add sp,sp,#0x8
ldmia sp!,{r4,r5,r6,lr}
b 0x000371cc
| null | null | null | null |
[('tmp_118', u'CBRANCH_-1206250254'), (u'CAST_-1206250022', u'CALL_-1206250179'), ('const-3356', u'INT_ADD_-1206250162'), ('const-0', u'CALL_-1206250179'), (u'CAST_-1206250091', u'LOAD_-1206250303'), ('const-1', u'RETURN_-1206250231'), (u'LOAD_-1206250178', u'CALL_-1206250138'), ('tmp_245', u'CAST_-1206250059'), ('tmp_246', u'CAST_-1206250092'), ('const-0', u'INT_NOTEQUAL_-1206250261'), ('const-0', u'RETURN_-1206250134'), ('tmp_246', u'CAST_-1206250017'), ('const-417', u'LOAD_-1206250178'), ('const-417', u'LOAD_-1206250303'), (u'LOAD_-1206250303', u'INT_NOTEQUAL_-1206250261'), (u'CAST_-1206250016', u'LOAD_-1206250178'), (u'CAST_-1206250092', u'INT_ADD_-1206250287'), (u'CAST_-1206250059', u'CALL_-1206250236'), (u'INT_ADD_-1206250287', u'CAST_-1206250091'), ('const-3344', u'INT_ADD_-1206250287'), (u'INT_ADD_-1206250162', u'CAST_-1206250016'), (u'CAST_-1206250017', u'INT_ADD_-1206250162'), (u'INT_NOTEQUAL_-1206250261', u'CBRANCH_-1206250254'), ('tmp_246', u'CAST_-1206250022')]
|
[('tmp_118', u'CBRANCH_-1206250254'), ('tmp_629', u'CALL_-1206250177'), ('tmp_629', u'CALL_-1206250236'), (u'CAST_-1206249932', u'LOAD_-1206250149'), (u'CAST_-1206250005', u'LOAD_-1206250303'), (u'LOAD_-1206250303', u'CALL_-1206250177'), ('tmp_626', u'CALL_-1206250150'), ('const-0', u'CALL_-1206250150'), ('const-417', u'LOAD_-1206250303'), ('const-417', u'LOAD_-1206250149'), ('tmp_626', u'INT_ADD_-1206250133'), ('const-55', u'CALL_-1206250177'), (u'LOAD_-1206250303', u'INT_NOTEQUAL_-1206250261'), ('const-0', u'RETURN_-1206250105'), ('const-3344', u'INT_ADD_-1206250287'), (u'INT_ADD_-1206250287', u'CAST_-1206250005'), ('const-0', u'INT_NOTEQUAL_-1206250261'), ('const-1', u'CALL_-1206250177'), (u'INT_ADD_-1206250133', u'CAST_-1206249932'), ('const-3356', u'INT_ADD_-1206250133'), ('tmp_626', u'INT_ADD_-1206250287'), (u'INT_NOTEQUAL_-1206250261', u'CBRANCH_-1206250254'), (u'CALL_-1206250236', u'CALL_-1206250177'), (u'LOAD_-1206250149', u'CALL_-1206250109')]
| null | null |
000514b0
|
arm
|
O2
|
(translation_unit "void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)\n\n{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}\n\n" (function_definition "void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)\n\n{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" primitive_type (function_declarator "FUN_000514b0(undefined4 param_1,char *param_2,int param_3)" identifier (parameter_list "(undefined4 param_1,char *param_2,int param_3)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "char *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "int param_3" primitive_type identifier) ))) (compound_statement "{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" { (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "iVar2 = *(int *)(param_3 + 0xd10);" (assignment_expression "iVar2 = *(int *)(param_3 + 0xd10)" identifier = (pointer_expression "*(int *)(param_3 + 0xd10)" * (cast_expression "(int *)(param_3 + 0xd10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_3 + 0xd10)" ( (binary_expression "param_3 + 0xd10" identifier + number_literal) ))))) ;) (if_statement "if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" if (parenthesized_expression "(iVar2 != 0)" ( (binary_expression "iVar2 != 0" identifier != number_literal) )) (compound_statement "{\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" { (expression_statement "sVar1 = strlen(param_2);" (assignment_expression "sVar1 = strlen(param_2)" identifier = (call_expression "strlen(param_2)" identifier (argument_list "(param_2)" ( identifier )))) ;) (expression_statement "FUN_00027998(iVar2,0x37,param_2,sVar1,1);" (call_expression "FUN_00027998(iVar2,0x37,param_2,sVar1,1)" identifier (argument_list "(iVar2,0x37,param_2,sVar1,1)" ( identifier , number_literal , identifier , identifier , number_literal ))) ;) })) (expression_statement "FUN_0005147c(param_3,0);" (call_expression "FUN_0005147c(param_3,0)" identifier (argument_list "(param_3,0)" ( identifier , number_literal ))) ;) (expression_statement "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));" (call_expression "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c))" identifier (argument_list "(*(undefined4 *)(param_3 + 0xd1c))" ( (pointer_expression "*(undefined4 *)(param_3 + 0xd1c)" * (cast_expression "(undefined4 *)(param_3 + 0xd1c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_3 + 0xd1c)" ( (binary_expression "param_3 + 0xd1c" identifier + number_literal) )))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Enum "anon_enum_32": Some values do not have unique names */\n\nvoid input_method_commit_event(GtkIMContext *imc,gchar *str,gpointer data)\n\n{\n if (*(int *)((int)data + 0xd10) != 0) {\n /* WARNING: Subroutine does not return */\n strlen((char *)str);\n }\n show_mouseptr((gui_data *)data,0);\n term_seen_key_event(*(Terminal **)((int)data + 0xd1c));\n return;\n}\n\n" comment (function_definition "void input_method_commit_event(GtkIMContext *imc,gchar *str,gpointer data)\n\n{\n if (*(int *)((int)data + 0xd10) != 0) {\n /* WARNING: Subroutine does not return */\n strlen((char *)str);\n }\n show_mouseptr((gui_data *)data,0);\n term_seen_key_event(*(Terminal **)((int)data + 0xd1c));\n return;\n}" primitive_type (function_declarator "input_method_commit_event(GtkIMContext *imc,gchar *str,gpointer data)" identifier (parameter_list "(GtkIMContext *imc,gchar *str,gpointer data)" ( (parameter_declaration "GtkIMContext *imc" type_identifier (pointer_declarator "*imc" * identifier)) , (parameter_declaration "gchar *str" type_identifier (pointer_declarator "*str" * identifier)) , (parameter_declaration "gpointer data" type_identifier identifier) ))) (compound_statement "{\n if (*(int *)((int)data + 0xd10) != 0) {\n /* WARNING: Subroutine does not return */\n strlen((char *)str);\n }\n show_mouseptr((gui_data *)data,0);\n term_seen_key_event(*(Terminal **)((int)data + 0xd1c));\n return;\n}" { (if_statement "if (*(int *)((int)data + 0xd10) != 0) {\n /* WARNING: Subroutine does not return */\n strlen((char *)str);\n }" if (parenthesized_expression "(*(int *)((int)data + 0xd10) != 0)" ( (binary_expression "*(int *)((int)data + 0xd10) != 0" (pointer_expression "*(int *)((int)data + 0xd10)" * (cast_expression "(int *)((int)data + 0xd10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)data + 0xd10)" ( (binary_expression "(int)data + 0xd10" (cast_expression "(int)data" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) != number_literal) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n strlen((char *)str);\n }" { comment (expression_statement "strlen((char *)str);" (call_expression "strlen((char *)str)" identifier (argument_list "((char *)str)" ( (cast_expression "(char *)str" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier) ))) ;) })) (expression_statement "show_mouseptr((gui_data *)data,0);" (call_expression "show_mouseptr((gui_data *)data,0)" identifier (argument_list "((gui_data *)data,0)" ( (cast_expression "(gui_data *)data" ( (type_descriptor "gui_data *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier) , number_literal ))) ;) (expression_statement "term_seen_key_event(*(Terminal **)((int)data + 0xd1c));" (call_expression "term_seen_key_event(*(Terminal **)((int)data + 0xd1c))" identifier (argument_list "(*(Terminal **)((int)data + 0xd1c))" ( (pointer_expression "*(Terminal **)((int)data + 0xd1c)" * (cast_expression "(Terminal **)((int)data + 0xd1c)" ( (type_descriptor "Terminal **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "((int)data + 0xd1c)" ( (binary_expression "(int)data + 0xd1c" (cast_expression "(int)data" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)\n\n{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}\n\n" (function_definition "void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)\n\n{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" primitive_type (function_declarator "FUN_000514b0(undefined4 param_1,char *param_2,int param_3)" identifier (parameter_list "(undefined4 param_1,char *param_2,int param_3)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "char *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "int param_3" primitive_type identifier) ))) (compound_statement "{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" { (declaration "size_t sVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (expression_statement "iVar2 = *(int *)(param_3 + 0xd10);" (assignment_expression "iVar2 = *(int *)(param_3 + 0xd10)" identifier = (pointer_expression "*(int *)(param_3 + 0xd10)" * (cast_expression "(int *)(param_3 + 0xd10)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_3 + 0xd10)" ( (binary_expression "param_3 + 0xd10" identifier + number_literal) ))))) ;) (if_statement "if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" if (parenthesized_expression "(iVar2 != 0)" ( (binary_expression "iVar2 != 0" identifier != number_literal) )) (compound_statement "{\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" { (expression_statement "sVar1 = strlen(param_2);" (assignment_expression "sVar1 = strlen(param_2)" identifier = (call_expression "strlen(param_2)" identifier (argument_list "(param_2)" ( identifier )))) ;) (expression_statement "FUN_00027998(iVar2,0x37,param_2,sVar1,1);" (call_expression "FUN_00027998(iVar2,0x37,param_2,sVar1,1)" identifier (argument_list "(iVar2,0x37,param_2,sVar1,1)" ( identifier , number_literal , identifier , identifier , number_literal ))) ;) })) (expression_statement "FUN_0005147c(param_3,0);" (call_expression "FUN_0005147c(param_3,0)" identifier (argument_list "(param_3,0)" ( identifier , number_literal ))) ;) (expression_statement "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));" (call_expression "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c))" identifier (argument_list "(*(undefined4 *)(param_3 + 0xd1c))" ( (pointer_expression "*(undefined4 *)(param_3 + 0xd1c)" * (cast_expression "(undefined4 *)(param_3 + 0xd1c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_3 + 0xd1c)" ( (binary_expression "param_3 + 0xd1c" identifier + number_literal) )))) ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , IDENT , IDENT , LIT ))) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT ))) ;) (expression_statement (call_expression IDENT (argument_list ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_000514b0(undefined4 param_1,char *param_2,int param_3)\n\n{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" (primitive_type "void") (function_declarator "FUN_000514b0(undefined4 param_1,char *param_2,int param_3)" (identifier "FUN_000514b0") (parameter_list "(undefined4 param_1,char *param_2,int param_3)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "char *param_2" (primitive_type "char") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "int param_3" (primitive_type "int") (identifier "param_3")) () ")"))) (compound_statement "{\n size_t sVar1;\n int iVar2;\n \n iVar2 = *(int *)(param_3 + 0xd10);\n if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }\n FUN_0005147c(param_3,0);\n FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));\n return;\n}" ({ "{") (declaration "size_t sVar1;" (primitive_type "size_t") (identifier "sVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (expression_statement "iVar2 = *(int *)(param_3 + 0xd10);" (assignment_expression "iVar2 = *(int *)(param_3 + 0xd10)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(param_3 + 0xd10)" (* "*") (cast_expression "(int *)(param_3 + 0xd10)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_3 + 0xd10)" (( "(") (binary_expression "param_3 + 0xd10" (identifier "param_3") (+ "+") (number_literal "0xd10")) () ")"))))) (; ";")) (if_statement "if (iVar2 != 0) {\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" (if "if") (parenthesized_expression "(iVar2 != 0)" (( "(") (binary_expression "iVar2 != 0" (identifier "iVar2") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n sVar1 = strlen(param_2);\n FUN_00027998(iVar2,0x37,param_2,sVar1,1);\n }" ({ "{") (expression_statement "sVar1 = strlen(param_2);" (assignment_expression "sVar1 = strlen(param_2)" (identifier "sVar1") (= "=") (call_expression "strlen(param_2)" (identifier "strlen") (argument_list "(param_2)" (( "(") (identifier "param_2") () ")")))) (; ";")) (expression_statement "FUN_00027998(iVar2,0x37,param_2,sVar1,1);" (call_expression "FUN_00027998(iVar2,0x37,param_2,sVar1,1)" (identifier "FUN_00027998") (argument_list "(iVar2,0x37,param_2,sVar1,1)" (( "(") (identifier "iVar2") (, ",") (number_literal "0x37") (, ",") (identifier "param_2") (, ",") (identifier "sVar1") (, ",") (number_literal "1") () ")"))) (; ";")) (} "}"))) (expression_statement "FUN_0005147c(param_3,0);" (call_expression "FUN_0005147c(param_3,0)" (identifier "FUN_0005147c") (argument_list "(param_3,0)" (( "(") (identifier "param_3") (, ",") (number_literal "0") () ")"))) (; ";")) (expression_statement "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));" (call_expression "FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c))" (identifier "FUN_000371cc") (argument_list "(*(undefined4 *)(param_3 + 0xd1c))" (( "(") (pointer_expression "*(undefined4 *)(param_3 + 0xd1c)" (* "*") (cast_expression "(undefined4 *)(param_3 + 0xd1c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_3 + 0xd1c)" (( "(") (binary_expression "param_3 + 0xd1c" (identifier "param_3") (+ "+") (number_literal "0xd1c")) () ")")))) () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Enum "anon_enum_32": Some values do not have unique names */
void function_1(type_1 *imc,type_2 *str,type_3 data)
{
if (*(int *)((int)data + 0xd10) != 0) {
/* WARNING: Subroutine does not return */
var_1((char *)str);
}
var_2((type_4 *)data,0);
var_3(*(type_5 **)((int)data + 0xd1c));
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (identifier) (identifier) (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))) (return_statement))))
|
void MASKED(undefined4 param_1,char *param_2,int param_3)
{
size_t sVar1;
int iVar2;
iVar2 = *(int *)(param_3 + 0xd10);
if (iVar2 != 0) {
sVar1 = strlen(param_2);
FUN_00027998(iVar2,0x37,param_2,sVar1,1);
}
FUN_0005147c(param_3,0);
FUN_000371cc(*(undefined4 *)(param_3 + 0xd1c));
return;
}
| 59,150 |
||
67_factor_and_factor_strip.c
|
fclose
|
fclose
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fclose(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_fclose_0003411c)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int fclose(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_fclose_0003411c)();
return iVar1;
}
|
adr r12,0x115fc
add r12,r12,#0x22000
ldr pc,[r12,#0xb20]!
| null | null | null | null |
[(u'CAST_-1205987742', u'CALLIND_-1205987817'), ('const-0', u'RETURN_-1205987814'), (u'INDIRECT_-1205987747', u'COPY_-1205987806'), ('tmp_120', u'CAST_-1205987742'), (u'CALLIND_-1205987817', u'INDIRECT_-1205987747'), (u'CALLIND_-1205987817', u'RETURN_-1205987814')]
|
[(u'CAST_-1205987742', u'CALLIND_-1205987817'), ('const-0', u'RETURN_-1205987814'), (u'INDIRECT_-1205987747', u'COPY_-1205987806'), ('tmp_120', u'CAST_-1205987742'), (u'CALLIND_-1205987817', u'INDIRECT_-1205987747'), (u'CALLIND_-1205987817', u'RETURN_-1205987814')]
| null | null |
000115f4
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0003411c)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0003411c)()" identifier = (call_expression "(*(code *)PTR_fclose_0003411c)()" (parenthesized_expression "(*(code *)PTR_fclose_0003411c)" ( (pointer_expression "*(code *)PTR_fclose_0003411c" * (cast_expression "(code *)PTR_fclose_0003411c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0003411c)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0003411c)()" identifier = (call_expression "(*(code *)PTR_fclose_0003411c)()" (parenthesized_expression "(*(code *)PTR_fclose_0003411c)" ( (pointer_expression "*(code *)PTR_fclose_0003411c" * (cast_expression "(code *)PTR_fclose_0003411c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}\n\n" comment (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" primitive_type (function_declarator "fclose(FILE *__stream)" identifier (parameter_list "(FILE *__stream)" ( (parameter_declaration "FILE *__stream" type_identifier (pointer_declarator "*__stream" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_fclose_0003411c)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0003411c)()" identifier = (call_expression "(*(code *)PTR_fclose_0003411c)()" (parenthesized_expression "(*(code *)PTR_fclose_0003411c)" ( (pointer_expression "*(code *)PTR_fclose_0003411c" * (cast_expression "(code *)PTR_fclose_0003411c" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int fclose(FILE *__stream)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "fclose(FILE *__stream)" (identifier "fclose") (parameter_list "(FILE *__stream)" (( "(") (parameter_declaration "FILE *__stream" (type_identifier "FILE") (pointer_declarator "*__stream" (* "*") (identifier "__stream"))) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_fclose_0003411c)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_fclose_0003411c)();" (assignment_expression "iVar1 = (*(code *)PTR_fclose_0003411c)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_fclose_0003411c)()" (parenthesized_expression "(*(code *)PTR_fclose_0003411c)" (( "(") (pointer_expression "*(code *)PTR_fclose_0003411c" (* "*") (cast_expression "(code *)PTR_fclose_0003411c" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_fclose_0003411c"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(type_1 *__stream)
{
int iVar1;
iVar1 = (*(type_2 *)PTR_fclose_0003411c)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(FILE *__stream)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_0003411c)();
return iVar1;
}
| 2,747 |
||
127_nohup_and_nohup_strip.c
|
memcmp
|
memcmp
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int memcmp(void *__s1,void *__s2,size_t __n)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* memcmp@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int memcmp(void *__s1,void *__s2,size_t __n)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206026170')]
|
[('const-1', u'RETURN_-1206026170')]
| null | null |
0002803c
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* memcmp@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* memcmp@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* memcmp@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" identifier (parameter_list "(void *__s1,void *__s2,size_t __n)" ( (parameter_declaration "void *__s1" primitive_type (pointer_declarator "*__s1" * identifier)) , (parameter_declaration "void *__s2" primitive_type (pointer_declarator "*__s2" * identifier)) , (parameter_declaration "size_t __n" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int memcmp(void *__s1,void *__s2,size_t __n)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "int") (function_declarator "memcmp(void *__s1,void *__s2,size_t __n)" (identifier "memcmp") (parameter_list "(void *__s1,void *__s2,size_t __n)" (( "(") (parameter_declaration "void *__s1" (primitive_type "void") (pointer_declarator "*__s1" (* "*") (identifier "__s1"))) (, ",") (parameter_declaration "void *__s2" (primitive_type "void") (pointer_declarator "*__s2" (* "*") (identifier "__s2"))) (, ",") (parameter_declaration "size_t __n" (primitive_type "size_t") (identifier "__n")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(void *__s1,void *__s2,size_t __n)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* memcmp@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(void *__s1,void *__s2,size_t __n)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 18,431 |
||
3766_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
demangle_nested_args
|
FUN_001c5b20
|
int demangle_nested_args(work_stuff *work,char **mangled,string *declp)
{
int iVar1;
string *__ptr;
int iVar2;
string *psVar3;
psVar3 = work->previous_argument;
iVar2 = work->nrepeats;
work->forgetting_types = work->forgetting_types + 1;
work->previous_argument = (string *)0x0;
work->nrepeats = 0;
iVar1 = demangle_args(work,mangled,declp);
__ptr = work->previous_argument;
if (__ptr == (string *)0x0) {
work->previous_argument = psVar3;
work->nrepeats = iVar2;
work->forgetting_types = work->forgetting_types + -1;
return iVar1;
}
if (__ptr->b != (char *)0x0) {
/* WARNING: Subroutine does not return */
free(__ptr->b);
}
/* WARNING: Subroutine does not return */
free(__ptr);
}
|
undefined4 FUN_001c5b20(int param_1)
{
undefined4 uVar1;
undefined4 *__ptr;
undefined4 uVar2;
undefined4 uVar3;
uVar3 = *(undefined4 *)(param_1 + 0x4c);
uVar2 = *(undefined4 *)(param_1 + 0x50);
*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;
*(undefined4 *)(param_1 + 0x4c) = 0;
*(undefined4 *)(param_1 + 0x50) = 0;
uVar1 = FUN_001c57ac();
__ptr = *(undefined4 **)(param_1 + 0x4c);
if (__ptr != (undefined4 *)0x0) {
if ((void *)*__ptr != (void *)0x0) {
free((void *)*__ptr);
__ptr[1] = 0;
__ptr[2] = 0;
*__ptr = 0;
__ptr = *(undefined4 **)(param_1 + 0x4c);
}
free(__ptr);
}
*(undefined4 *)(param_1 + 0x4c) = uVar3;
*(undefined4 *)(param_1 + 0x50) = uVar2;
*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;
return uVar1;
}
|
ldr r3,[r0,#0x48]
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,lr}
add r3,r3,#0x1
mov r6,#0x0
ldr r9,[r0,#0x4c]
ldr r8,[r0,#0x50]
str r3,[r0,#0x48]
str r6,[r0,#0x4c]
str r6,[r0,#0x50]
cpy r4,r0
bl 0x001c57ac
ldr r5,[r4,#0x4c]
cmp r5,r6
cpy r7,r0
beq 0x001c5b84
ldr r0,[r5,#0x0]
cmp r0,r6
beq 0x001c5b7c
bl 0x0002aed4
str r6,[r5,#0x4]
str r6,[r5,#0x8]
str r6,[r5,#0x0]
ldr r5,[r4,#0x4c]
cpy r0,r5
bl 0x0002aed4
ldr r3,[r4,#0x48]
str r9,[r4,#0x4c]
sub r3,r3,#0x1
str r8,[r4,#0x50]
cpy r0,r7
str r3,[r4,#0x48]
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,pc}
| null | null | null | null |
[(u'PTRSUB_-1207739296', u'LOAD_-1207739553'), ('const-417', u'LOAD_-1207739553'), ('const-76', u'PTRSUB_-1207739296'), (u'PTRSUB_-1207739246', u'LOAD_-1207739482'), ('tmp_377', u'PTRSUB_-1207739205'), (u'PTRSUB_-1207739200', u'STORE_-1207739413'), (u'INT_EQUAL_-1207739493', u'CBRANCH_-1207739485'), (u'LOAD_-1207739420', u'INT_ADD_-1207739383'), ('tmp_377', u'CALL_-1207739513'), (u'LOAD_-1207739553', u'STORE_-1207739413'), ('const-72', u'PTRSUB_-1207739205'), ('const-417', u'LOAD_-1207739613'), ('const-417', u'LOAD_-1207739547'), ('tmp_377', u'PTRSUB_-1207739313'), ('const-417', u'LOAD_-1207739420'), ('const-76', u'PTRSUB_-1207739200'), (u'INT_ADD_-1207739383', u'STORE_-1207739380'), (u'INT_NOTEQUAL_-1207739462', u'CBRANCH_-1207739460'), (u'PTRSUB_-1207739182', u'STORE_-1207739380'), ('tmp_377', u'PTRSUB_-1207739191'), ('const-72', u'PTRSUB_-1207739313'), ('tmp_198', u'CBRANCH_-1207739485'), (u'PTRSUB_-1207739291', u'LOAD_-1207739547'), (u'LOAD_-1207739512', u'INT_EQUAL_-1207739493'), ('const-80', u'PTRSUB_-1207739276'), ('tmp_231', u'CBRANCH_-1207739460'), (u'LOAD_-1207739482', u'INT_NOTEQUAL_-1207739462'), ('const-76', u'PTRSUB_-1207739281'), (u'PTRSUB_-1207739191', u'STORE_-1207739391'), (u'INT_ADD_-1207739560', u'STORE_-1207739540'), ('const-417', u'LOAD_-1207739482'), ('const-0', u'INT_NOTEQUAL_-1207739462'), (u'PTRSUB_-1207739313', u'LOAD_-1207739613'), ('tmp_379', u'CALL_-1207739513'), (u'LOAD_-1207739512', u'PTRSUB_-1207739246'), ('const-72', u'PTRSUB_-1207739286'), ('tmp_377', u'PTRSUB_-1207739263'), ('const-80', u'PTRSUB_-1207739191'), ('const-0', u'STORE_-1207739528'), ('const-1', u'RETURN_-1207739447'), (u'PTRSUB_-1207739281', u'STORE_-1207739534'), ('const-417', u'STORE_-1207739534'), ('const-417', u'STORE_-1207739528'), (u'LOAD_-1207739613', u'INT_ADD_-1207739560'), ('const-4294967295', u'INT_ADD_-1207739383'), ('tmp_377', u'PTRSUB_-1207739200'), ('const-0', u'RETURN_-1207739346'), ('tmp_377', u'PTRSUB_-1207739286'), ('const-417', u'LOAD_-1207739512'), ('const-417', u'STORE_-1207739380'), ('const-417', u'STORE_-1207739413'), ('tmp_377', u'PTRSUB_-1207739182'), ('tmp_377', u'PTRSUB_-1207739281'), (u'PTRSUB_-1207739286', u'STORE_-1207739540'), (u'PTRSUB_-1207739205', u'LOAD_-1207739420'), (u'CALL_-1207739513', u'COPY_-1207739388'), (u'PTRSUB_-1207739263', u'LOAD_-1207739512'), ('const-1', u'RETURN_-1207739418'), (u'LOAD_-1207739547', u'STORE_-1207739391'), ('const-1', u'INT_ADD_-1207739560'), ('const-80', u'PTRSUB_-1207739291'), (u'COPY_-1207739388', u'RETURN_-1207739346'), ('const-0', u'STORE_-1207739534'), ('tmp_377', u'PTRSUB_-1207739296'), (u'LOAD_-1207739482', u'CALL_-1207739452'), ('const-0', u'PTRSUB_-1207739246'), ('const-0', u'INT_EQUAL_-1207739493'), ('const-417', u'STORE_-1207739540'), ('tmp_377', u'PTRSUB_-1207739291'), (u'PTRSUB_-1207739276', u'STORE_-1207739528'), ('tmp_378', u'CALL_-1207739513'), ('const-417', u'STORE_-1207739391'), ('tmp_377', u'PTRSUB_-1207739276'), ('const-72', u'PTRSUB_-1207739182'), (u'LOAD_-1207739512', u'CALL_-1207739423'), ('const-76', u'PTRSUB_-1207739263')]
|
[('const-0', u'STORE_-1207739534'), ('const-0', u'RETURN_-1207739342'), (u'CAST_-1207739162', u'LOAD_-1207739433'), (u'CAST_-1207739126', u'STORE_-1207739376'), (u'CAST_-1207739208', u'LOAD_-1207739512'), (u'PTRADD_-1207739178', u'STORE_-1207739444'), ('const-0', u'STORE_-1207739450'), ('tmp_686', u'INT_ADD_-1207739525'), (u'LOAD_-1207739553', u'STORE_-1207739409'), (u'LOAD_-1207739547', u'STORE_-1207739387'), ('const-1', u'PTRADD_-1207739183'), (u'LOAD_-1207739512', u'LOAD_-1207739482'), ('const-0', u'STORE_-1207739444'), ('tmp_686', u'INT_ADD_-1207739400'), (u'INT_ADD_-1207739379', u'STORE_-1207739376'), ('tmp_198', u'CBRANCH_-1207739485'), ('const-0', u'STORE_-1207739528'), ('const-72', u'INT_ADD_-1207739597'), ('tmp_231', u'CBRANCH_-1207739460'), (u'CAST_-1207739221', u'STORE_-1207739528'), ('const-76', u'INT_ADD_-1207739537'), ('tmp_686', u'INT_ADD_-1207739372'), (u'INT_NOTEQUAL_-1207739492', u'CBRANCH_-1207739485'), ('const-0', u'INT_NOTEQUAL_-1207739492'), (u'INT_ADD_-1207739537', u'CAST_-1207739241'), ('const-417', u'STORE_-1207739438'), (u'CAST_-1207739149', u'LOAD_-1207739416'), (u'MULTIEQUAL_-1207739303', u'CALL_-1207739417'), (u'CAST_-1207739241', u'LOAD_-1207739553'), ('const-417', u'LOAD_-1207739512'), (u'INT_ADD_-1207739597', u'CAST_-1207739258'), (u'COPY_-1207739384', u'RETURN_-1207739342'), (u'LOAD_-1207739613', u'INT_ADD_-1207739560'), (u'INT_ADD_-1207739372', u'CAST_-1207739135'), ('const-76', u'INT_ADD_-1207739417'), ('const-80', u'INT_ADD_-1207739513'), (u'INT_ADD_-1207739513', u'CAST_-1207739221'), (u'LOAD_-1207739433', u'MULTIEQUAL_-1207739303'), (u'INT_ADD_-1207739531', u'CAST_-1207739236'), (u'CAST_-1207739236', u'LOAD_-1207739547'), ('const-4294967295', u'INT_ADD_-1207739379'), (u'CAST_-1207739258', u'LOAD_-1207739613'), ('const-1', u'INT_ADD_-1207739560'), (u'INT_ADD_-1207739496', u'CAST_-1207739208'), ('const-417', u'STORE_-1207739376'), ('tmp_686', u'INT_ADD_-1207739513'), ('const-417', u'LOAD_-1207739482'), ('const-417', u'STORE_-1207739540'), (u'CAST_-1207739191', u'CALL_-1207739452'), (u'LOAD_-1207739512', u'PTRADD_-1207739178'), (u'LOAD_-1207739512', u'STORE_-1207739438'), (u'INT_ADD_-1207739361', u'CAST_-1207739126'), ('tmp_686', u'INT_ADD_-1207739597'), (u'INT_ADD_-1207739394', u'CAST_-1207739144'), ('const-417', u'STORE_-1207739450'), ('const-76', u'INT_ADD_-1207739519'), ('const-76', u'INT_ADD_-1207739394'), (u'CAST_-1207739135', u'STORE_-1207739387'), ('const-417', u'LOAD_-1207739547'), (u'INT_ADD_-1207739525', u'CAST_-1207739231'), ('const-417', u'LOAD_-1207739416'), (u'CAST_-1207739191', u'INT_NOTEQUAL_-1207739462'), ('const-0', u'STORE_-1207739438'), ('const-417', u'LOAD_-1207739433'), (u'PTRADD_-1207739183', u'STORE_-1207739450'), (u'INT_NOTEQUAL_-1207739462', u'CBRANCH_-1207739460'), ('const-80', u'INT_ADD_-1207739372'), ('const-76', u'INT_ADD_-1207739496'), (u'CAST_-1207739144', u'STORE_-1207739409'), ('const-4', u'PTRADD_-1207739183'), (u'CAST_-1207739231', u'STORE_-1207739540'), (u'INT_ADD_-1207739560', u'STORE_-1207739540'), ('tmp_686', u'INT_ADD_-1207739531'), ('const-417', u'LOAD_-1207739613'), ('const-417', u'LOAD_-1207739553'), ('tmp_686', u'INT_ADD_-1207739537'), ('const-417', u'STORE_-1207739444'), ('const-80', u'INT_ADD_-1207739531'), ('const-72', u'INT_ADD_-1207739400'), (u'LOAD_-1207739482', u'CAST_-1207739191'), (u'INT_ADD_-1207739400', u'CAST_-1207739149'), ('tmp_686', u'INT_ADD_-1207739519'), (u'CAST_-1207739226', u'STORE_-1207739534'), ('tmp_686', u'INT_ADD_-1207739496'), ('const-72', u'INT_ADD_-1207739361'), (u'LOAD_-1207739512', u'MULTIEQUAL_-1207739303'), ('const-417', u'STORE_-1207739387'), ('const-4', u'PTRADD_-1207739178'), ('const-2', u'PTRADD_-1207739178'), ('tmp_686', u'INT_ADD_-1207739361'), (u'INT_ADD_-1207739519', u'CAST_-1207739226'), ('tmp_686', u'INT_ADD_-1207739417'), (u'CALL_-1207739513', u'COPY_-1207739384'), (u'LOAD_-1207739416', u'INT_ADD_-1207739379'), ('tmp_686', u'INT_ADD_-1207739394'), (u'LOAD_-1207739512', u'PTRADD_-1207739183'), ('const-417', u'STORE_-1207739534'), (u'LOAD_-1207739512', u'INT_NOTEQUAL_-1207739492'), ('const-417', u'STORE_-1207739409'), ('const-72', u'INT_ADD_-1207739525'), (u'INT_ADD_-1207739417', u'CAST_-1207739162'), ('const-0', u'INT_NOTEQUAL_-1207739462'), ('const-417', u'STORE_-1207739528')]
| null | null |
001c5b20
|
arm
|
O2
|
(translation_unit "undefined4 FUN_001c5b20(int param_1)\n\n{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}\n\n" (function_definition "undefined4 FUN_001c5b20(int param_1)\n\n{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" type_identifier (function_declarator "FUN_001c5b20(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined4 *__ptr;" type_identifier (pointer_declarator "*__ptr" * identifier) ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (expression_statement "uVar3 = *(undefined4 *)(param_1 + 0x4c);" (assignment_expression "uVar3 = *(undefined4 *)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) (expression_statement "uVar2 = *(undefined4 *)(param_1 + 0x50);" (assignment_expression "uVar2 = *(undefined4 *)(param_1 + 0x50)" identifier = (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) ))))) ;) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) = (binary_expression "*(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + number_literal)) ;) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) )))) = number_literal) ;) (expression_statement "*(undefined4 *)(param_1 + 0x50) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) = number_literal) ;) (expression_statement "uVar1 = FUN_001c57ac();" (assignment_expression "uVar1 = FUN_001c57ac()" identifier = (call_expression "FUN_001c57ac()" identifier (argument_list "()" ( )))) ;) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" * (cast_expression "(undefined4 **)(param_1 + 0x4c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) (if_statement "if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" if (parenthesized_expression "(__ptr != (undefined4 *)0x0)" ( (binary_expression "__ptr != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" { (if_statement "if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" if (parenthesized_expression "((void *)*__ptr != (void *)0x0)" ( (binary_expression "(void *)*__ptr != (void *)0x0" (cast_expression "(void *)*__ptr" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*__ptr" * identifier)) != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" { (expression_statement "free((void *)*__ptr);" (call_expression "free((void *)*__ptr)" identifier (argument_list "((void *)*__ptr)" ( (cast_expression "(void *)*__ptr" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*__ptr" * identifier)) ))) ;) (expression_statement "__ptr[1] = 0;" (assignment_expression "__ptr[1] = 0" (subscript_expression "__ptr[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "__ptr[2] = 0;" (assignment_expression "__ptr[2] = 0" (subscript_expression "__ptr[2]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "*__ptr = 0;" (assignment_expression "*__ptr = 0" (pointer_expression "*__ptr" * identifier) = number_literal) ;) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" * (cast_expression "(undefined4 **)(param_1 + 0x4c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) })) (expression_statement "free(__ptr);" (call_expression "free(__ptr)" identifier (argument_list "(__ptr)" ( identifier ))) ;) })) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = uVar3;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = uVar3" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(param_1 + 0x50) = uVar2;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = uVar2" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) = (binary_expression "*(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + number_literal)) ;) (return_statement "return uVar1;" return identifier ;) })))
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(translation_unit "int demangle_nested_args(work_stuff *work,char **mangled,string *declp)\n\n{\n int iVar1;\n string *__ptr;\n int iVar2;\n string *psVar3;\n \n psVar3 = work->previous_argument;\n iVar2 = work->nrepeats;\n work->forgetting_types = work->forgetting_types + 1;\n work->previous_argument = (string *)0x0;\n work->nrepeats = 0;\n iVar1 = demangle_args(work,mangled,declp);\n __ptr = work->previous_argument;\n if (__ptr == (string *)0x0) {\n work->previous_argument = psVar3;\n work->nrepeats = iVar2;\n work->forgetting_types = work->forgetting_types + -1;\n return iVar1;\n }\n if (__ptr->b != (char *)0x0) {\n /* WARNING: Subroutine does not return */\n free(__ptr->b);\n }\n /* WARNING: Subroutine does not return */\n free(__ptr);\n}\n\n" (function_definition "int demangle_nested_args(work_stuff *work,char **mangled,string *declp)\n\n{\n int iVar1;\n string *__ptr;\n int iVar2;\n string *psVar3;\n \n psVar3 = work->previous_argument;\n iVar2 = work->nrepeats;\n work->forgetting_types = work->forgetting_types + 1;\n work->previous_argument = (string *)0x0;\n work->nrepeats = 0;\n iVar1 = demangle_args(work,mangled,declp);\n __ptr = work->previous_argument;\n if (__ptr == (string *)0x0) {\n work->previous_argument = psVar3;\n work->nrepeats = iVar2;\n work->forgetting_types = work->forgetting_types + -1;\n return iVar1;\n }\n if (__ptr->b != (char *)0x0) {\n /* WARNING: Subroutine does not return */\n free(__ptr->b);\n }\n /* WARNING: Subroutine does not return */\n free(__ptr);\n}" primitive_type (function_declarator "demangle_nested_args(work_stuff *work,char **mangled,string *declp)" identifier (parameter_list "(work_stuff *work,char **mangled,string *declp)" ( (parameter_declaration "work_stuff *work" type_identifier (pointer_declarator "*work" * identifier)) , (parameter_declaration "char **mangled" primitive_type (pointer_declarator "**mangled" * (pointer_declarator "*mangled" * identifier))) , (parameter_declaration "string *declp" type_identifier (pointer_declarator "*declp" * identifier)) ))) (compound_statement "{\n int iVar1;\n string *__ptr;\n int iVar2;\n string *psVar3;\n \n psVar3 = work->previous_argument;\n iVar2 = work->nrepeats;\n work->forgetting_types = work->forgetting_types + 1;\n work->previous_argument = (string *)0x0;\n work->nrepeats = 0;\n iVar1 = demangle_args(work,mangled,declp);\n __ptr = work->previous_argument;\n if (__ptr == (string *)0x0) {\n work->previous_argument = psVar3;\n work->nrepeats = iVar2;\n work->forgetting_types = work->forgetting_types + -1;\n return iVar1;\n }\n if (__ptr->b != (char *)0x0) {\n /* WARNING: Subroutine does not return */\n free(__ptr->b);\n }\n /* WARNING: Subroutine does not return */\n free(__ptr);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "string *__ptr;" type_identifier (pointer_declarator "*__ptr" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "string *psVar3;" type_identifier (pointer_declarator "*psVar3" * identifier) ;) (expression_statement "psVar3 = work->previous_argument;" (assignment_expression "psVar3 = work->previous_argument" identifier = (field_expression "work->previous_argument" identifier -> field_identifier)) ;) (expression_statement "iVar2 = work->nrepeats;" (assignment_expression "iVar2 = work->nrepeats" identifier = (field_expression "work->nrepeats" identifier -> field_identifier)) ;) (expression_statement "work->forgetting_types = work->forgetting_types + 1;" (assignment_expression "work->forgetting_types = work->forgetting_types + 1" (field_expression "work->forgetting_types" identifier -> field_identifier) = (binary_expression "work->forgetting_types + 1" (field_expression "work->forgetting_types" identifier -> field_identifier) + number_literal)) ;) (expression_statement "work->previous_argument = (string *)0x0;" (assignment_expression "work->previous_argument = (string *)0x0" (field_expression "work->previous_argument" identifier -> field_identifier) = (cast_expression "(string *)0x0" ( (type_descriptor "string *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "work->nrepeats = 0;" (assignment_expression "work->nrepeats = 0" (field_expression "work->nrepeats" identifier -> field_identifier) = number_literal) ;) (expression_statement "iVar1 = demangle_args(work,mangled,declp);" (assignment_expression "iVar1 = demangle_args(work,mangled,declp)" identifier = (call_expression "demangle_args(work,mangled,declp)" identifier (argument_list "(work,mangled,declp)" ( identifier , identifier , identifier )))) ;) (expression_statement "__ptr = work->previous_argument;" (assignment_expression "__ptr = work->previous_argument" identifier = (field_expression "work->previous_argument" identifier -> field_identifier)) ;) (if_statement "if (__ptr == (string *)0x0) {\n work->previous_argument = psVar3;\n work->nrepeats = iVar2;\n work->forgetting_types = work->forgetting_types + -1;\n return iVar1;\n }" if (parenthesized_expression "(__ptr == (string *)0x0)" ( (binary_expression "__ptr == (string *)0x0" identifier == (cast_expression "(string *)0x0" ( (type_descriptor "string *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n work->previous_argument = psVar3;\n work->nrepeats = iVar2;\n work->forgetting_types = work->forgetting_types + -1;\n return iVar1;\n }" { (expression_statement "work->previous_argument = psVar3;" (assignment_expression "work->previous_argument = psVar3" (field_expression "work->previous_argument" identifier -> field_identifier) = identifier) ;) (expression_statement "work->nrepeats = iVar2;" (assignment_expression "work->nrepeats = iVar2" (field_expression "work->nrepeats" identifier -> field_identifier) = identifier) ;) (expression_statement "work->forgetting_types = work->forgetting_types + -1;" (assignment_expression "work->forgetting_types = work->forgetting_types + -1" (field_expression "work->forgetting_types" identifier -> field_identifier) = (binary_expression "work->forgetting_types + -1" (field_expression "work->forgetting_types" identifier -> field_identifier) + number_literal)) ;) (return_statement "return iVar1;" return identifier ;) })) (if_statement "if (__ptr->b != (char *)0x0) {\n /* WARNING: Subroutine does not return */\n free(__ptr->b);\n }" if (parenthesized_expression "(__ptr->b != (char *)0x0)" ( (binary_expression "__ptr->b != (char *)0x0" (field_expression "__ptr->b" identifier -> field_identifier) != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n free(__ptr->b);\n }" { comment (expression_statement "free(__ptr->b);" (call_expression "free(__ptr->b)" identifier (argument_list "(__ptr->b)" ( (field_expression "__ptr->b" identifier -> field_identifier) ))) ;) })) comment (expression_statement "free(__ptr);" (call_expression "free(__ptr)" identifier (argument_list "(__ptr)" ( identifier ))) ;) })))
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(translation_unit "undefined4 FUN_001c5b20(int param_1)\n\n{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}\n\n" (function_definition "undefined4 FUN_001c5b20(int param_1)\n\n{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" type_identifier (function_declarator "FUN_001c5b20(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" { (declaration "undefined4 uVar1;" type_identifier identifier ;) (declaration "undefined4 *__ptr;" type_identifier (pointer_declarator "*__ptr" * identifier) ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "undefined4 uVar3;" type_identifier identifier ;) (expression_statement "uVar3 = *(undefined4 *)(param_1 + 0x4c);" (assignment_expression "uVar3 = *(undefined4 *)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) (expression_statement "uVar2 = *(undefined4 *)(param_1 + 0x50);" (assignment_expression "uVar2 = *(undefined4 *)(param_1 + 0x50)" identifier = (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) ))))) ;) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) = (binary_expression "*(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + number_literal)) ;) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) )))) = number_literal) ;) (expression_statement "*(undefined4 *)(param_1 + 0x50) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) = number_literal) ;) (expression_statement "uVar1 = FUN_001c57ac();" (assignment_expression "uVar1 = FUN_001c57ac()" identifier = (call_expression "FUN_001c57ac()" identifier (argument_list "()" ( )))) ;) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" * (cast_expression "(undefined4 **)(param_1 + 0x4c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) (if_statement "if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" if (parenthesized_expression "(__ptr != (undefined4 *)0x0)" ( (binary_expression "__ptr != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" { (if_statement "if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" if (parenthesized_expression "((void *)*__ptr != (void *)0x0)" ( (binary_expression "(void *)*__ptr != (void *)0x0" (cast_expression "(void *)*__ptr" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*__ptr" * identifier)) != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" { (expression_statement "free((void *)*__ptr);" (call_expression "free((void *)*__ptr)" identifier (argument_list "((void *)*__ptr)" ( (cast_expression "(void *)*__ptr" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*__ptr" * identifier)) ))) ;) (expression_statement "__ptr[1] = 0;" (assignment_expression "__ptr[1] = 0" (subscript_expression "__ptr[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "__ptr[2] = 0;" (assignment_expression "__ptr[2] = 0" (subscript_expression "__ptr[2]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "*__ptr = 0;" (assignment_expression "*__ptr = 0" (pointer_expression "*__ptr" * identifier) = number_literal) ;) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" identifier = (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" * (cast_expression "(undefined4 **)(param_1 + 0x4c)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) ))))) ;) })) (expression_statement "free(__ptr);" (call_expression "free(__ptr)" identifier (argument_list "(__ptr)" ( identifier ))) ;) })) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = uVar3;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = uVar3" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" * (cast_expression "(undefined4 *)(param_1 + 0x4c)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x4c)" ( (binary_expression "param_1 + 0x4c" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(undefined4 *)(param_1 + 0x50) = uVar2;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = uVar2" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" * (cast_expression "(undefined4 *)(param_1 + 0x50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x50)" ( (binary_expression "param_1 + 0x50" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) = (binary_expression "*(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + number_literal)) ;) (return_statement "return uVar1;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT)) != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT)) ))) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + LIT)) ;) (return_statement return IDENT ;) })))
|
(function_definition "undefined4 FUN_001c5b20(int param_1)\n\n{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" (type_identifier "undefined4") (function_declarator "FUN_001c5b20(int param_1)" (identifier "FUN_001c5b20") (parameter_list "(int param_1)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) () ")"))) (compound_statement "{\n undefined4 uVar1;\n undefined4 *__ptr;\n undefined4 uVar2;\n undefined4 uVar3;\n \n uVar3 = *(undefined4 *)(param_1 + 0x4c);\n uVar2 = *(undefined4 *)(param_1 + 0x50);\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;\n *(undefined4 *)(param_1 + 0x4c) = 0;\n *(undefined4 *)(param_1 + 0x50) = 0;\n uVar1 = FUN_001c57ac();\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }\n *(undefined4 *)(param_1 + 0x4c) = uVar3;\n *(undefined4 *)(param_1 + 0x50) = uVar2;\n *(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;\n return uVar1;\n}" ({ "{") (declaration "undefined4 uVar1;" (type_identifier "undefined4") (identifier "uVar1") (; ";")) (declaration "undefined4 *__ptr;" (type_identifier "undefined4") (pointer_declarator "*__ptr" (* "*") (identifier "__ptr")) (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (declaration "undefined4 uVar3;" (type_identifier "undefined4") (identifier "uVar3") (; ";")) (expression_statement "uVar3 = *(undefined4 *)(param_1 + 0x4c);" (assignment_expression "uVar3 = *(undefined4 *)(param_1 + 0x4c)" (identifier "uVar3") (= "=") (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x4c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x4c)" (( "(") (binary_expression "param_1 + 0x4c" (identifier "param_1") (+ "+") (number_literal "0x4c")) () ")"))))) (; ";")) (expression_statement "uVar2 = *(undefined4 *)(param_1 + 0x50);" (assignment_expression "uVar2 = *(undefined4 *)(param_1 + 0x50)" (identifier "uVar2") (= "=") (pointer_expression "*(undefined4 *)(param_1 + 0x50)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x50)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x50)" (( "(") (binary_expression "param_1 + 0x50" (identifier "param_1") (+ "+") (number_literal "0x50")) () ")"))))) (; ";")) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (= "=") (binary_expression "*(int *)(param_1 + 0x48) + 1" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x4c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x4c)" (( "(") (binary_expression "param_1 + 0x4c" (identifier "param_1") (+ "+") (number_literal "0x4c")) () ")")))) (= "=") (number_literal "0")) (; ";")) (expression_statement "*(undefined4 *)(param_1 + 0x50) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x50)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x50)" (( "(") (binary_expression "param_1 + 0x50" (identifier "param_1") (+ "+") (number_literal "0x50")) () ")")))) (= "=") (number_literal "0")) (; ";")) (expression_statement "uVar1 = FUN_001c57ac();" (assignment_expression "uVar1 = FUN_001c57ac()" (identifier "uVar1") (= "=") (call_expression "FUN_001c57ac()" (identifier "FUN_001c57ac") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" (identifier "__ptr") (= "=") (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" (* "*") (cast_expression "(undefined4 **)(param_1 + 0x4c)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(param_1 + 0x4c)" (( "(") (binary_expression "param_1 + 0x4c" (identifier "param_1") (+ "+") (number_literal "0x4c")) () ")"))))) (; ";")) (if_statement "if (__ptr != (undefined4 *)0x0) {\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" (if "if") (parenthesized_expression "(__ptr != (undefined4 *)0x0)" (( "(") (binary_expression "__ptr != (undefined4 *)0x0" (identifier "__ptr") (!= "!=") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }\n free(__ptr);\n }" ({ "{") (if_statement "if ((void *)*__ptr != (void *)0x0) {\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" (if "if") (parenthesized_expression "((void *)*__ptr != (void *)0x0)" (( "(") (binary_expression "(void *)*__ptr != (void *)0x0" (cast_expression "(void *)*__ptr" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*__ptr" (* "*") (identifier "__ptr"))) (!= "!=") (cast_expression "(void *)0x0" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n free((void *)*__ptr);\n __ptr[1] = 0;\n __ptr[2] = 0;\n *__ptr = 0;\n __ptr = *(undefined4 **)(param_1 + 0x4c);\n }" ({ "{") (expression_statement "free((void *)*__ptr);" (call_expression "free((void *)*__ptr)" (identifier "free") (argument_list "((void *)*__ptr)" (( "(") (cast_expression "(void *)*__ptr" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*__ptr" (* "*") (identifier "__ptr"))) () ")"))) (; ";")) (expression_statement "__ptr[1] = 0;" (assignment_expression "__ptr[1] = 0" (subscript_expression "__ptr[1]" (identifier "__ptr") ([ "[") (number_literal "1") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "__ptr[2] = 0;" (assignment_expression "__ptr[2] = 0" (subscript_expression "__ptr[2]" (identifier "__ptr") ([ "[") (number_literal "2") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "*__ptr = 0;" (assignment_expression "*__ptr = 0" (pointer_expression "*__ptr" (* "*") (identifier "__ptr")) (= "=") (number_literal "0")) (; ";")) (expression_statement "__ptr = *(undefined4 **)(param_1 + 0x4c);" (assignment_expression "__ptr = *(undefined4 **)(param_1 + 0x4c)" (identifier "__ptr") (= "=") (pointer_expression "*(undefined4 **)(param_1 + 0x4c)" (* "*") (cast_expression "(undefined4 **)(param_1 + 0x4c)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(param_1 + 0x4c)" (( "(") (binary_expression "param_1 + 0x4c" (identifier "param_1") (+ "+") (number_literal "0x4c")) () ")"))))) (; ";")) (} "}"))) (expression_statement "free(__ptr);" (call_expression "free(__ptr)" (identifier "free") (argument_list "(__ptr)" (( "(") (identifier "__ptr") () ")"))) (; ";")) (} "}"))) (expression_statement "*(undefined4 *)(param_1 + 0x4c) = uVar3;" (assignment_expression "*(undefined4 *)(param_1 + 0x4c) = uVar3" (pointer_expression "*(undefined4 *)(param_1 + 0x4c)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x4c)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x4c)" (( "(") (binary_expression "param_1 + 0x4c" (identifier "param_1") (+ "+") (number_literal "0x4c")) () ")")))) (= "=") (identifier "uVar3")) (; ";")) (expression_statement "*(undefined4 *)(param_1 + 0x50) = uVar2;" (assignment_expression "*(undefined4 *)(param_1 + 0x50) = uVar2" (pointer_expression "*(undefined4 *)(param_1 + 0x50)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x50)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x50)" (( "(") (binary_expression "param_1 + 0x50" (identifier "param_1") (+ "+") (number_literal "0x50")) () ")")))) (= "=") (identifier "uVar2")) (; ";")) (expression_statement "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;" (assignment_expression "*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (= "=") (binary_expression "*(int *)(param_1 + 0x48) + -1" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (+ "+") (number_literal "-1"))) (; ";")) (return_statement "return uVar1;" (return "return") (identifier "uVar1") (; ";")) (} "}")))
|
int function_1(type_1 *work,char **mangled,type_2 *declp)
{
int iVar1;
type_2 *var_2;
int iVar2;
type_2 *psVar3;
psVar3 = work->previous_argument;
iVar2 = work->nrepeats;
work->forgetting_types = work->forgetting_types + 1;
work->previous_argument = (type_2 *)0x0;
work->nrepeats = 0;
iVar1 = var_1(work,mangled,declp);
var_2 = work->previous_argument;
if (var_2 == (type_2 *)0x0) {
work->previous_argument = psVar3;
work->nrepeats = iVar2;
work->forgetting_types = work->forgetting_types + -1;
return iVar1;
}
if (var_2->b != (char *)0x0) {
/* WARNING: Subroutine does not return */
var_3(var_2->b);
}
/* WARNING: Subroutine does not return */
var_3(var_2);
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier))) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier)))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (return_statement (identifier)))))
|
undefined4 MASKED(int param_1)
{
undefined4 uVar1;
undefined4 *__ptr;
undefined4 uVar2;
undefined4 uVar3;
uVar3 = *(undefined4 *)(param_1 + 0x4c);
uVar2 = *(undefined4 *)(param_1 + 0x50);
*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + 1;
*(undefined4 *)(param_1 + 0x4c) = 0;
*(undefined4 *)(param_1 + 0x50) = 0;
uVar1 = FUN_001c57ac();
__ptr = *(undefined4 **)(param_1 + 0x4c);
if (__ptr != (undefined4 *)0x0) {
if ((void *)*__ptr != (void *)0x0) {
free((void *)*__ptr);
__ptr[1] = 0;
__ptr[2] = 0;
*__ptr = 0;
__ptr = *(undefined4 **)(param_1 + 0x4c);
}
free(__ptr);
}
*(undefined4 *)(param_1 + 0x4c) = uVar3;
*(undefined4 *)(param_1 + 0x50) = uVar2;
*(int *)(param_1 + 0x48) = *(int *)(param_1 + 0x48) + -1;
return uVar1;
}
| 84,478 |
||
2_sg_safte_and_sg_safte_strip.c
|
calloc
|
calloc
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void * calloc(size_t __nmemb,size_t __size)
{
void *pvVar1;
pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();
return pvVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void * calloc(size_t __nmemb,size_t __size)
{
void *pvVar1;
pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();
return pvVar1;
}
|
adr r12,0x107f4
add r12,r12,#0x12000
ldr pc,[r12,#0x77c]!
| null | null | null | null |
[('tmp_126', u'CAST_-1205991333'), (u'CAST_-1205991333', u'CALLIND_-1205991409'), (u'CALLIND_-1205991409', u'INDIRECT_-1205991338'), ('const-0', u'RETURN_-1205991406'), (u'CALLIND_-1205991409', u'CAST_-1205991332'), (u'CAST_-1205991332', u'RETURN_-1205991406'), (u'INDIRECT_-1205991338', u'COPY_-1205991397')]
|
[('tmp_126', u'CAST_-1205991333'), (u'CAST_-1205991333', u'CALLIND_-1205991409'), (u'CALLIND_-1205991409', u'INDIRECT_-1205991338'), ('const-0', u'RETURN_-1205991406'), (u'CALLIND_-1205991409', u'CAST_-1205991332'), (u'CAST_-1205991332', u'RETURN_-1205991406'), (u'INDIRECT_-1205991338', u'COPY_-1205991397')]
| null | null |
000107ec
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}\n\n" comment (function_definition "void * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" primitive_type (pointer_declarator "* calloc(size_t __nmemb,size_t __size)" * (function_declarator "calloc(size_t __nmemb,size_t __size)" identifier (parameter_list "(size_t __nmemb,size_t __size)" ( (parameter_declaration "size_t __nmemb" primitive_type identifier) , (parameter_declaration "size_t __size" primitive_type identifier) )))) (compound_statement "{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" { (declaration "void *pvVar1;" primitive_type (pointer_declarator "*pvVar1" * identifier) ;) (expression_statement "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();" (assignment_expression "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)()" identifier = (cast_expression "(void *)(*(code *)PTR_calloc_00022f70)()" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_calloc_00022f70)()" (parenthesized_expression "(*(code *)PTR_calloc_00022f70)" ( (pointer_expression "*(code *)PTR_calloc_00022f70" * (cast_expression "(code *)PTR_calloc_00022f70" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pvVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}\n\n" comment (function_definition "void * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" primitive_type (pointer_declarator "* calloc(size_t __nmemb,size_t __size)" * (function_declarator "calloc(size_t __nmemb,size_t __size)" identifier (parameter_list "(size_t __nmemb,size_t __size)" ( (parameter_declaration "size_t __nmemb" primitive_type identifier) , (parameter_declaration "size_t __size" primitive_type identifier) )))) (compound_statement "{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" { (declaration "void *pvVar1;" primitive_type (pointer_declarator "*pvVar1" * identifier) ;) (expression_statement "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();" (assignment_expression "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)()" identifier = (cast_expression "(void *)(*(code *)PTR_calloc_00022f70)()" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_calloc_00022f70)()" (parenthesized_expression "(*(code *)PTR_calloc_00022f70)" ( (pointer_expression "*(code *)PTR_calloc_00022f70" * (cast_expression "(code *)PTR_calloc_00022f70" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pvVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}\n\n" comment (function_definition "void * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" primitive_type (pointer_declarator "* calloc(size_t __nmemb,size_t __size)" * (function_declarator "calloc(size_t __nmemb,size_t __size)" identifier (parameter_list "(size_t __nmemb,size_t __size)" ( (parameter_declaration "size_t __nmemb" primitive_type identifier) , (parameter_declaration "size_t __size" primitive_type identifier) )))) (compound_statement "{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" { (declaration "void *pvVar1;" primitive_type (pointer_declarator "*pvVar1" * identifier) ;) (expression_statement "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();" (assignment_expression "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)()" identifier = (cast_expression "(void *)(*(code *)PTR_calloc_00022f70)()" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*(code *)PTR_calloc_00022f70)()" (parenthesized_expression "(*(code *)PTR_calloc_00022f70)" ( (pointer_expression "*(code *)PTR_calloc_00022f70" * (cast_expression "(code *)PTR_calloc_00022f70" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))))) ;) (return_statement "return pvVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) )))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "void * calloc(size_t __nmemb,size_t __size)\n\n{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" (primitive_type "void") (pointer_declarator "* calloc(size_t __nmemb,size_t __size)" (* "*") (function_declarator "calloc(size_t __nmemb,size_t __size)" (identifier "calloc") (parameter_list "(size_t __nmemb,size_t __size)" (( "(") (parameter_declaration "size_t __nmemb" (primitive_type "size_t") (identifier "__nmemb")) (, ",") (parameter_declaration "size_t __size" (primitive_type "size_t") (identifier "__size")) () ")")))) (compound_statement "{\n void *pvVar1;\n \n pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();\n return pvVar1;\n}" ({ "{") (declaration "void *pvVar1;" (primitive_type "void") (pointer_declarator "*pvVar1" (* "*") (identifier "pvVar1")) (; ";")) (expression_statement "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)();" (assignment_expression "pvVar1 = (void *)(*(code *)PTR_calloc_00022f70)()" (identifier "pvVar1") (= "=") (cast_expression "(void *)(*(code *)PTR_calloc_00022f70)()" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "(*(code *)PTR_calloc_00022f70)()" (parenthesized_expression "(*(code *)PTR_calloc_00022f70)" (( "(") (pointer_expression "*(code *)PTR_calloc_00022f70" (* "*") (cast_expression "(code *)PTR_calloc_00022f70" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_calloc_00022f70"))) () ")")) (argument_list "()" (( "(") () ")"))))) (; ";")) (return_statement "return pvVar1;" (return "return") (identifier "pvVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void * function_1(size_t __nmemb,size_t __size)
{
void *pvVar1;
pvVar1 = (void *)(*(type_1 *)PTR_calloc_00022f70)();
return pvVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void * MASKED(size_t __nmemb,size_t __size)
{
void *pvVar1;
pvVar1 = (void *)(*(code *)PTR_MASKED_00022f70)();
return pvVar1;
}
| 25,658 |
||
543_openssl_and_openssl_strip.c
|
DSA_set0_pqg
|
DSA_set0_pqg
|
void DSA_set0_pqg(void)
{
(*(code *)PTR_DSA_set0_pqg_000a82bc)();
return;
}
|
void DSA_set0_pqg(void)
{
(*(code *)PTR_DSA_set0_pqg_000a82bc)();
return;
}
|
adr r12,0x28068
add r12,r12,#0x80000
ldr pc,[r12,#0x254]!
| null | null | null | null |
[('tmp_113', u'CAST_-1206026035'), (u'INDIRECT_-1206026040', u'COPY_-1206026099'), ('const-0', u'RETURN_-1206026106'), (u'CALLIND_-1206026109', u'INDIRECT_-1206026040'), (u'CAST_-1206026035', u'CALLIND_-1206026109')]
|
[('tmp_113', u'CAST_-1206026035'), (u'INDIRECT_-1206026040', u'COPY_-1206026099'), ('const-0', u'RETURN_-1206026106'), (u'CALLIND_-1206026109', u'INDIRECT_-1206026040'), (u'CAST_-1206026035', u'CALLIND_-1206026109')]
| null | null |
00028060
|
arm
|
O2
|
(translation_unit "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}\n\n" (function_definition "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" primitive_type (function_declarator "DSA_set0_pqg(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" { (expression_statement "(*(code *)PTR_DSA_set0_pqg_000a82bc)();" (call_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)()" (parenthesized_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)" ( (pointer_expression "*(code *)PTR_DSA_set0_pqg_000a82bc" * (cast_expression "(code *)PTR_DSA_set0_pqg_000a82bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}\n\n" (function_definition "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" primitive_type (function_declarator "DSA_set0_pqg(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" { (expression_statement "(*(code *)PTR_DSA_set0_pqg_000a82bc)();" (call_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)()" (parenthesized_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)" ( (pointer_expression "*(code *)PTR_DSA_set0_pqg_000a82bc" * (cast_expression "(code *)PTR_DSA_set0_pqg_000a82bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}\n\n" (function_definition "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" primitive_type (function_declarator "DSA_set0_pqg(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" { (expression_statement "(*(code *)PTR_DSA_set0_pqg_000a82bc)();" (call_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)()" (parenthesized_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)" ( (pointer_expression "*(code *)PTR_DSA_set0_pqg_000a82bc" * (cast_expression "(code *)PTR_DSA_set0_pqg_000a82bc" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void DSA_set0_pqg(void)\n\n{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" (primitive_type "void") (function_declarator "DSA_set0_pqg(void)" (identifier "DSA_set0_pqg") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_DSA_set0_pqg_000a82bc)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_DSA_set0_pqg_000a82bc)();" (call_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)()" (parenthesized_expression "(*(code *)PTR_DSA_set0_pqg_000a82bc)" (( "(") (pointer_expression "*(code *)PTR_DSA_set0_pqg_000a82bc" (* "*") (cast_expression "(code *)PTR_DSA_set0_pqg_000a82bc" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_DSA_set0_pqg_000a82bc"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_DSA_set0_pqg_000a82bc)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_000a82bc)();
return;
}
| 71,932 |
||
16_sg_write_same_and_sg_write_same_strip.c
|
perror
|
perror
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void perror(char *__s)
{
(*(code *)PTR_perror_00023f68)();
return;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void perror(char *__s)
{
(*(code *)PTR_perror_00023f68)();
return;
}
|
adr r12,0x10b84
add r12,r12,#0x13000
ldr pc,[r12,#0x3e4]!
| null | null | null | null |
[('const-0', u'RETURN_-1205990494'), (u'CALLIND_-1205990497', u'INDIRECT_-1205990427'), ('tmp_119', u'CAST_-1205990422'), (u'INDIRECT_-1205990427', u'COPY_-1205990486'), (u'CAST_-1205990422', u'CALLIND_-1205990497')]
|
[('const-0', u'RETURN_-1205990494'), (u'CALLIND_-1205990497', u'INDIRECT_-1205990427'), ('tmp_119', u'CAST_-1205990422'), (u'INDIRECT_-1205990427', u'COPY_-1205990486'), (u'CAST_-1205990422', u'CALLIND_-1205990497')]
| null | null |
00010b7c
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f68)();" (call_expression "(*(code *)PTR_perror_00023f68)()" (parenthesized_expression "(*(code *)PTR_perror_00023f68)" ( (pointer_expression "*(code *)PTR_perror_00023f68" * (cast_expression "(code *)PTR_perror_00023f68" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f68)();" (call_expression "(*(code *)PTR_perror_00023f68)()" (parenthesized_expression "(*(code *)PTR_perror_00023f68)" ( (pointer_expression "*(code *)PTR_perror_00023f68" * (cast_expression "(code *)PTR_perror_00023f68" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nvoid perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}\n\n" comment (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" primitive_type (function_declarator "perror(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" { (expression_statement "(*(code *)PTR_perror_00023f68)();" (call_expression "(*(code *)PTR_perror_00023f68)()" (parenthesized_expression "(*(code *)PTR_perror_00023f68)" ( (pointer_expression "*(code *)PTR_perror_00023f68" * (cast_expression "(code *)PTR_perror_00023f68" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "void perror(char *__s)\n\n{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" (primitive_type "void") (function_declarator "perror(char *__s)" (identifier "perror") (parameter_list "(char *__s)" (( "(") (parameter_declaration "char *__s" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s"))) () ")"))) (compound_statement "{\n (*(code *)PTR_perror_00023f68)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_perror_00023f68)();" (call_expression "(*(code *)PTR_perror_00023f68)()" (parenthesized_expression "(*(code *)PTR_perror_00023f68)" (( "(") (pointer_expression "*(code *)PTR_perror_00023f68" (* "*") (cast_expression "(code *)PTR_perror_00023f68" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_perror_00023f68"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void function_1(char *__s)
{
(*(type_1 *)PTR_perror_00023f68)();
return;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
void MASKED(char *__s)
{
(*(code *)PTR_MASKED_00023f68)();
return;
}
| 28,693 |
||
4593_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
do_get
|
FUN_00219388
|
/* std::__facet_shims::(anonymous
namespace)::money_get_shim<char>::do_get(std::istreambuf_iterator<char, std::char_traits<char> >,
std::istreambuf_iterator<char, std::char_traits<char> >, bool, std::ios_base&,
std::_Ios_Iostate&, std::string&) const */
undefined4 *
std::__facet_shims::(anonymous_namespace)::money_get_shim<char>::do_get
(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,
undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)
{
undefined4 *puVar1;
int iVar2;
undefined4 local_58;
undefined4 uStack_54;
undefined4 local_50;
undefined4 local_4c;
allocator aaStack_48 [4];
int local_44;
int local_40;
char *local_3c;
uint local_38;
code *local_24;
local_24 = (code *)0x0;
local_44 = 0;
iVar2 = DAT_00219524 + 0x219404;
local_50 = param_3;
local_4c = param_4;
__money_get<char>(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7
,param_8,&local_44,0,&local_3c);
local_50 = local_58;
local_4c = uStack_54;
if (local_44 == 0) {
if (local_24 == (code *)0x0) {
/* WARNING: Subroutine does not return */
__throw_logic_error(&UNK_002194e8 + DAT_00219530);
}
std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);
std::string::swap(param_10,(string *)&local_40);
if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {
if (*(int *)(iVar2 + DAT_0021952c) == 0) {
iVar2 = *(int *)(local_40 + -4);
*(int *)(local_40 + -4) = iVar2 + -1;
}
else {
iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);
}
if (iVar2 < 1) {
puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));
return puVar1;
}
}
}
else {
*param_9 = local_44;
}
*param_1 = local_50;
param_1[1] = local_4c;
if (local_24 != (code *)0x0) {
(*local_24)(&local_3c);
}
return param_1;
}
|
undefined4 *
FUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9
,undefined4 param_10)
{
int iVar1;
undefined4 local_58;
undefined4 uStack_54;
undefined4 local_50;
undefined4 local_4c;
undefined1 auStack_48 [4];
int local_44;
int local_40;
undefined4 local_3c;
undefined4 local_38;
code *local_24;
local_24 = (code *)0x0;
local_44 = 0;
iVar1 = DAT_00219524 + 0x219404;
local_50 = param_3;
local_4c = param_4;
FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,
param_8,&local_44,0,&local_3c);
local_50 = local_58;
local_4c = uStack_54;
if (local_44 == 0) {
if (local_24 == (code *)0x0) {
/* WARNING: Subroutine does not return */
FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);
}
FUN_00210b40(&local_40,local_3c,local_38,auStack_48);
FUN_0020e3b8(param_10,&local_40);
if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {
if (*(int *)(iVar1 + DAT_0021952c) == 0) {
iVar1 = *(int *)(local_40 + -4);
*(int *)(local_40 + -4) = iVar1 + -1;
}
else {
iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);
}
if (iVar1 < 1) {
free((void *)(local_40 + -0xc));
}
}
}
else {
*param_9 = local_44;
}
*param_1 = local_50;
param_1[1] = local_4c;
if (local_24 != (code *)0x0) {
(*local_24)(&local_3c);
}
return param_1;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,lr}
sub sp,sp,#0x5c
ldr r7,[r1,#0x8]
add r1,sp,#0x74
cpy r6,r0
ldmib r1,{r0,r1}
ldrb r8,[sp,#0x80]
add r4,sp,#0x28
stmia r4,{r2,r3}
mov r12,#0x0
ldr r3,[sp,#0x2c]
stmib sp,{r0,r1}
ldr lr,[sp,#0x84]
add r1,sp,#0x34
add r5,sp,#0x20
cpy r2,r7
str r8,[sp,#0xc]
add r7,sp,#0x3c
ldr r8,[0x219524]
str r3,[sp,#0x0]
str r1,[sp,#0x14]
ldr r3,[sp,#0x28]
str lr,[sp,#0x10]
str r12,[sp,#0x18]
cpy r0,r5
str r7,[sp,#0x1c]
mov r1,#0x0
str r12,[sp,#0x54]
str r12,[sp,#0x34]
add r8,pc,r8
bl 0x00215584
ldr r2,[sp,#0x34]
ldmia r5,{r0,r1}
cmp r2,#0x0
stmia r4,{r0,r1}
ldr r3,[sp,#0x54]
beq 0x00219448
ldr r1,[sp,#0x88]
str r2,[r1,#0x0]
ldmia r4,{r0,r1}
cmp r3,#0x0
stmia r6,{r0,r1}
beq 0x0021943c
cpy r0,r7
blx r3
cpy r0,r6
add sp,sp,#0x5c
ldmia sp!,{r4,r5,r6,r7,r8,r9,pc}
cmp r3,#0x0
beq 0x002194dc
add r9,sp,#0x30
add r5,sp,#0x38
cpy r3,r9
cpy r0,r5
ldr r2,[sp,#0x40]
ldr r1,[sp,#0x3c]
bl 0x00210b40
cpy r1,r5
ldr r0,[sp,#0x8c]
bl 0x0020e3b8
ldr r3,[0x219528]
ldr r2,[sp,#0x38]
ldr r3,[r8,r3]
sub r5,r2,#0xc
cmp r5,r3
bne 0x00219498
ldr r3,[sp,#0x54]
b 0x00219424
ldr r3,[0x21952c]
ldr r3,[r8,r3]
cmp r3,#0x0
beq 0x002194cc
sub r0,r2,#0x4
mvn r1,#0x0
bl 0x0026af80
cmp r0,#0x0
bgt 0x00219490
cpy r1,r9
cpy r0,r5
bl 0x0020eed0
b 0x00219490
ldr r0,[r2,#-0x4]
sub r3,r0,#0x1
str r3,[r2,#-0x4]
b 0x002194b4
ldr r0,[0x219530]
add r0,pc,r0
bl 0x0021d7e8
| null | null | null | null |
[(u'STORE_-1203857775', u'INDIRECT_-1203857400'), ('const-4294967232', u'PTRSUB_-1203857065'), ('tmp_2121', u'CALL_-1203858259'), (u'CAST_-1203857063', u'CALL_-1203858003'), (u'INDIRECT_-1203857378', u'COPY_-1203857430'), (u'CALL_-1203857744', u'INDIRECT_-1203857396'), (u'CALL_-1203857848', u'INDIRECT_-1203857087'), (u'CAST_-1203857018', u'LOAD_-1203857974'), (u'STORE_-1203858161', u'INDIRECT_-1203857534'), (u'CALL_-1203857804', u'INDIRECT_-1203857066'), (u'INDIRECT_-1203857213', u'MULTIEQUAL_-1203857286'), (u'CALL_-1203857804', u'CAST_-1203856945'), ('const-0', u'COPY_-1203858288'), (u'INDIRECT_-1203857527', u'MULTIEQUAL_-1203857513'), (u'COPY_-1203858222', u'MULTIEQUAL_-1203857286'), (u'CALL_-1203857848', u'INDIRECT_-1203857427'), (u'INT_ADD_-1203857958', u'CAST_-1203857018'), (u'CALL_-1203857986', u'INDIRECT_-1203857470'), (u'PTRADD_-1203857108', u'STORE_-1203858159'), ('const-0', u'INT_EQUAL_-1203858224'), ('tmp_1247', u'BRANCH_-1203857769'), (u'CALL_-1203858259', u'INDIRECT_-1203857589'), (u'INDIRECT_-1203857583', u'MULTIEQUAL_-1203857574'), (u'CALL_-1203858259', u'INDIRECT_-1203857345'), (u'INT_ADD_-1203857760', u'CAST_-1203856930'), ('const-2200580', u'INT_ADD_-1203858255'), (u'PTRSUB_-1203857065', u'CAST_-1203857063'), (u'STORE_-1203857775', u'INDIRECT_-1203857382'), ('tmp_3819', u'CALL_-1203858259'), (u'LOAD_-1203858513', u'CALL_-1203858259'), (u'LOAD_-1203857798', u'INT_ADD_-1203857767'), (u'CALL_-1203858003', u'INDIRECT_-1203857161'), (u'CALL_-1203857848', u'INDIRECT_-1203857391'), (u'INDIRECT_-1203857371', u'COPY_-1203858224'), (u'MULTIEQUAL_-1203857221', u'INT_NOTEQUAL_-1203858162'), (u'INDIRECT_-1203857509', u'MULTIEQUAL_-1203857495'), ('const-0', u'INT_EQUAL_-1203857891'), ('tmp_3821', u'INT_ADD_-1203858255'), (u'CAST_-1203857260', u'LOAD_-1203858513'), (u'CALL_-1203857804', u'INDIRECT_-1203857131'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857257'), (u'CALL_-1203857744', u'INDIRECT_-1203857103'), (u'MULTIEQUAL_-1203857378', u'MULTIEQUAL_-1203857520'), ('const-417', u'LOAD_-1203857974'), (u'CALL_-1203857848', u'INDIRECT_-1203857445'), (u'PTRSUB_-1203857217', u'CALL_-1203858259'), ('const-2200808', u'PTRSUB_-1203856931'), (u'INDIRECT_-1203857280', u'CALL_-1203858003'), (u'COPY_-1203858224', u'MULTIEQUAL_-1203857299'), ('tmp_2120', u'COPY_-1203858135'), ('const-0', u'RETURN_-1203857800'), (u'CALL_-1203857744', u'INDIRECT_-1203857360'), (u'STORE_-1203858196', u'INDIRECT_-1203857583'), (u'CALL_-1203857744', u'INDIRECT_-1203857090'), ('const-417', u'STORE_-1203858161'), (u'CALL_-1203857744', u'INDIRECT_-1203857378'), (u'INDIRECT_-1203857551', u'MULTIEQUAL_-1203857531'), ('tmp_657', u'CBRANCH_-1203858151'), (u'INDIRECT_-1203857370', u'COPY_-1203857427'), (u'PTRSUB_-1203857204', u'CALLIND_-1203858133'), (u'CALL_-1203857986', u'INDIRECT_-1203857200'), ('const-4294967292', u'INT_ADD_-1203857782'), (u'CAST_-1203856939', u'LOAD_-1203857798'), (u'INDIRECT_-1203857409', u'MULTIEQUAL_-1203857396'), (u'CALL_-1203858003', u'INDIRECT_-1203857519'), (u'INDIRECT_-1203857139', u'MULTIEQUAL_-1203857131'), (u'PTRSUB_-1203856931', u'PTRADD_-1203857694'), (u'CAST_-1203856988', u'LOAD_-1203857916'), (u'LOAD_-1203857798', u'MULTIEQUAL_-1203857679'), ('tmp_2121', u'COPY_-1203857213'), ('tmp_2110', u'PTRSUB_-1203857065'), ('const-4294967284', u'INT_ADD_-1203857943'), (u'CALL_-1203858259', u'INDIRECT_-1203857293'), (u'CALL_-1203857986', u'INDIRECT_-1203857187'), ('const-417', u'STORE_-1203857775'), ('tmp_2120', u'STORE_-1203858161'), ('const-4294967295', u'CALL_-1203857848'), (u'CALL_-1203858259', u'INDIRECT_-1203857319'), (u'INT_ADD_-1203857782', u'CAST_-1203856939'), (u'CALL_-1203857986', u'INDIRECT_-1203857506'), (u'INDIRECT_-1203857470', u'MULTIEQUAL_-1203857538'), (u'CALL_-1203857744', u'INDIRECT_-1203857116'), ('tmp_2120', u'PTRADD_-1203857108'), ('const-4294967295', u'INT_ADD_-1203857767'), ('const-4294967228', u'PTRSUB_-1203857222'), (u'INDIRECT_-1203857396', u'COPY_-1203857448'), ('const-417', u'LOAD_-1203858513'), ('const-1', u'PTRADD_-1203857694'), ('tmp_999', u'CBRANCH_-1203857935'), (u'CALL_-1203858003', u'INDIRECT_-1203857226'), (u'STORE_-1203858196', u'INDIRECT_-1203857529'), (u'CALL_-1203858259', u'INDIRECT_-1203857358'), ('tmp_1061', u'CBRANCH_-1203857888'), ('tmp_2122', u'COPY_-1203857212'), (u'INDIRECT_-1203857547', u'MULTIEQUAL_-1203857538'), (u'INT_EQUAL_-1203858068', u'CBRANCH_-1203858065'), (u'MULTIEQUAL_-1203857286', u'STORE_-1203858159'), ('const-0', u'COPY_-1203858282'), (u'STORE_-1203858159', u'INDIRECT_-1203857515'), (u'INDIRECT_-1203857293', u'CALL_-1203858003'), (u'INT_ADD_-1203857943', u'CAST_-1203857013'), ('const-0', u'PTRSUB_-1203856931'), (u'MULTIEQUAL_-1203857513', u'COPY_-1203857574'), (u'CALL_-1203858259', u'INDIRECT_-1203857625'), (u'PTRSUB_-1203857070', u'CALL_-1203858003'), (u'CAST_-1203857063', u'CALL_-1203857986'), (u'MULTIEQUAL_-1203857396', u'MULTIEQUAL_-1203857538'), (u'CALL_-1203857848', u'INDIRECT_-1203857409'), ('const-417', u'STORE_-1203858159'), (u'INT_EQUAL_-1203857891', u'CBRANCH_-1203857888'), (u'INDIRECT_-1203857165', u'MULTIEQUAL_-1203857157'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857283'), (u'INDIRECT_-1203857571', u'PTRADD_-1203857694'), (u'INDIRECT_-1203857346', u'MULTIEQUAL_-1203857378'), ('const-1', u'INT_SLESS_-1203857815'), (u'INDIRECT_-1203857529', u'MULTIEQUAL_-1203857520'), (u'CALL_-1203858259', u'INDIRECT_-1203857607'), (u'CALL_-1203857986', u'INDIRECT_-1203857213'), ('const-4294967292', u'INT_ADD_-1203857860'), (u'STORE_-1203858161', u'INDIRECT_-1203857570'), (u'CAST_-1203856930', u'STORE_-1203857775'), (u'INDIRECT_-1203857445', u'MULTIEQUAL_-1203857432'), ('tmp_2122', u'CALL_-1203858259'), (u'INDIRECT_-1203857470', u'INT_ADD_-1203857900'), (u'INDIRECT_-1203857267', u'MULTIEQUAL_-1203857221'), (u'CALL_-1203858003', u'INDIRECT_-1203857483'), (u'PTRSUB_-1203857222', u'CALL_-1203858259'), (u'MULTIEQUAL_-1203857157', u'MULTIEQUAL_-1203857299'), (u'CALL_-1203858259', u'INDIRECT_-1203857371'), (u'MULTIEQUAL_-1203857299', u'STORE_-1203858161'), (u'CALL_-1203857744', u'INDIRECT_-1203857342'), (u'INDIRECT_-1203857545', u'MULTIEQUAL_-1203857531'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857205'), (u'INDIRECT_-1203857200', u'MULTIEQUAL_-1203857131'), (u'CALL_-1203857804', u'INDIRECT_-1203857406'), ('tmp_2110', u'PTRSUB_-1203857070'), (u'CALL_-1203858259', u'INDIRECT_-1203857332'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857527'), ('const-4294967208', u'PTRSUB_-1203857217'), (u'INDIRECT_-1203857406', u'COPY_-1203857463'), ('const-0', u'INT_EQUAL_-1203858068'), (u'MULTIEQUAL_-1203857079', u'MULTIEQUAL_-1203857221'), (u'CALL_-1203857986', u'INDIRECT_-1203857148'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857545'), ('const-417', u'LOAD_-1203857916'), (u'INDIRECT_-1203857148', u'MULTIEQUAL_-1203857221'), (u'INDIRECT_-1203857226', u'MULTIEQUAL_-1203857157'), (u'INDIRECT_-1203857187', u'INT_ADD_-1203857860'), ('tmp_571', u'CBRANCH_-1203858206'), (u'INDIRECT_-1203857342', u'COPY_-1203857394'), (u'INT_EQUAL_-1203858224', u'CBRANCH_-1203858206'), (u'CALL_-1203858259', u'INDIRECT_-1203857571'), (u'INDIRECT_-1203857187', u'INT_ADD_-1203857760'), ('tmp_2110', u'PTRSUB_-1203857222'), (u'INDIRECT_-1203857360', u'COPY_-1203857412'), (u'CALL_-1203858003', u'INDIRECT_-1203857501'), (u'STORE_-1203858161', u'INDIRECT_-1203857552'), (u'INDIRECT_-1203857488', u'INT_ADD_-1203857958'), (u'INT_SLESS_-1203857815', u'CBRANCH_-1203857822'), (u'CALL_-1203857804', u'INDIRECT_-1203857370'), (u'CALL_-1203858003', u'INDIRECT_-1203857213'), (u'INDIRECT_-1203857319', u'MULTIEQUAL_-1203857273'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857270'), (u'INDIRECT_-1203857391', u'MULTIEQUAL_-1203857378'), (u'INDIRECT_-1203857565', u'MULTIEQUAL_-1203857556'), (u'CALL_-1203857804', u'INDIRECT_-1203857424'), ('tmp_3818', u'CALL_-1203858259'), (u'CALL_-1203857848', u'INDIRECT_-1203857165'), (u'INT_ADD_-1203858255', u'INT_ADD_-1203857900'), (u'INT_ADD_-1203857860', u'CALL_-1203857848'), (u'INDIRECT_-1203857563', u'MULTIEQUAL_-1203857549'), (u'COPY_-1203858135', u'RETURN_-1203858085'), (u'MULTIEQUAL_-1203857531', u'COPY_-1203857592'), (u'MULTIEQUAL_-1203857414', u'MULTIEQUAL_-1203857556'), (u'INDIRECT_-1203857319', u'STORE_-1203858196'), ('const-417', u'STORE_-1203858196'), (u'INDIRECT_-1203857187', u'INT_ADD_-1203857782'), (u'INDIRECT_-1203857452', u'MULTIEQUAL_-1203857520'), (u'INDIRECT_-1203857148', u'MULTIEQUAL_-1203857079'), (u'INDIRECT_-1203857319', u'INT_EQUAL_-1203858224'), (u'INT_NOTEQUAL_-1203858162', u'CBRANCH_-1203858151'), (u'CALL_-1203858003', u'INDIRECT_-1203857465'), (u'STORE_-1203858161', u'INDIRECT_-1203857516'), (u'INDIRECT_-1203857267', u'INT_EQUAL_-1203858068'), ('const-4', u'PTRADD_-1203857108'), (u'MULTIEQUAL_-1203857221', u'CALLIND_-1203858133'), (u'CALL_-1203857986', u'INDIRECT_-1203857226'), (u'INDIRECT_-1203857364', u'MULTIEQUAL_-1203857396'), (u'INT_NOTEQUAL_-1203857938', u'CBRANCH_-1203857935'), (u'CALL_-1203857848', u'MULTIEQUAL_-1203857679'), (u'CALL_-1203858259', u'INDIRECT_-1203857267'), ('const-0', u'CALL_-1203858259'), ('const-4294967224', u'PTRSUB_-1203857070'), (u'INDIRECT_-1203857400', u'MULTIEQUAL_-1203857432'), ('const-4294967292', u'INT_ADD_-1203857760'), (u'CALL_-1203858259', u'INDIRECT_-1203857280'), (u'LOAD_-1203857916', u'INT_EQUAL_-1203857891'), (u'INT_ADD_-1203858255', u'INT_ADD_-1203857958'), (u'INT_ADD_-1203857900', u'CAST_-1203856988'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857563'), (u'INT_ADD_-1203858497', u'CAST_-1203857260'), (u'INDIRECT_-1203857533', u'MULTIEQUAL_-1203857513'), (u'CALL_-1203857804', u'INDIRECT_-1203857388'), (u'STORE_-1203857775', u'INDIRECT_-1203857364'), ('const-4294967236', u'PTRSUB_-1203857204'), (u'PTRSUB_-1203857204', u'CALL_-1203858259'), (u'INDIRECT_-1203857213', u'MULTIEQUAL_-1203857144'), (u'CAST_-1203857013', u'CALL_-1203857804'), (u'CALL_-1203857848', u'INDIRECT_-1203857139'), (u'INDIRECT_-1203857388', u'COPY_-1203857445'), (u'INDIRECT_-1203857087', u'MULTIEQUAL_-1203857079'), ('tmp_2119', u'INT_ADD_-1203858497'), (u'MULTIEQUAL_-1203857131', u'MULTIEQUAL_-1203857273'), (u'CALL_-1203857744', u'INDIRECT_-1203857038'), (u'CALL_-1203858003', u'INDIRECT_-1203857200'), (u'INDIRECT_-1203857200', u'MULTIEQUAL_-1203857273'), (u'CALL_-1203858003', u'INDIRECT_-1203857239'), (u'INDIRECT_-1203857382', u'MULTIEQUAL_-1203857414'), (u'INDIRECT_-1203857506', u'MULTIEQUAL_-1203857574'), (u'INDIRECT_-1203857187', u'INT_ADD_-1203857943'), (u'MULTIEQUAL_-1203857144', u'MULTIEQUAL_-1203857286'), (u'MULTIEQUAL_-1203857549', u'COPY_-1203857610'), (u'CALL_-1203857986', u'INDIRECT_-1203857452'), (u'STORE_-1203858196', u'INDIRECT_-1203857565'), (u'STORE_-1203858196', u'INDIRECT_-1203857547'), ('tmp_1188', u'CBRANCH_-1203857822'), (u'MULTIEQUAL_-1203857495', u'COPY_-1203857556'), ('const-8', u'INT_ADD_-1203858497'), (u'MULTIEQUAL_-1203857432', u'MULTIEQUAL_-1203857574'), ('const-0', u'CALL_-1203858259'), (u'MULTIEQUAL_-1203857679', u'INT_SLESS_-1203857815'), (u'INT_ADD_-1203857767', u'STORE_-1203857775'), (u'INDIRECT_-1203857488', u'MULTIEQUAL_-1203857556'), ('tmp_815', u'CBRANCH_-1203858065'), ('tmp_3826', u'CALL_-1203857986'), (u'CALL_-1203857804', u'INDIRECT_-1203857118'), ('tmp_2110', u'PTRSUB_-1203857204'), (u'CALL_-1203857804', u'INDIRECT_-1203857144'), (u'INDIRECT_-1203857226', u'MULTIEQUAL_-1203857299'), (u'INDIRECT_-1203857427', u'MULTIEQUAL_-1203857414'), (u'PTRADD_-1203857694', u'CALL_-1203857744'), ('const-0', u'INT_NOTEQUAL_-1203858162'), ('const-0', u'RETURN_-1203858085'), (u'INDIRECT_-1203857358', u'COPY_-1203858222'), (u'CAST_-1203856945', u'RETURN_-1203857800'), (u'CALL_-1203857848', u'INDIRECT_-1203857152'), ('tmp_3817', u'CALL_-1203858259'), ('const-1', u'PTRADD_-1203857108'), (u'STORE_-1203858159', u'INDIRECT_-1203857533'), (u'STORE_-1203857775', u'INDIRECT_-1203857346'), ('tmp_3820', u'CALL_-1203858259'), (u'INDIRECT_-1203857569', u'MULTIEQUAL_-1203857549'), (u'CALL_-1203857986', u'INDIRECT_-1203857488'), (u'INDIRECT_-1203857515', u'MULTIEQUAL_-1203857495'), ('tmp_3825', u'STORE_-1203858196'), ('const-1', u'RETURN_-1203857739'), (u'INDIRECT_-1203857424', u'COPY_-1203857481'), (u'INDIRECT_-1203857152', u'MULTIEQUAL_-1203857144'), ('tmp_2110', u'PTRSUB_-1203857217'), (u'STORE_-1203858159', u'INDIRECT_-1203857569'), (u'CAST_-1203857013', u'INT_NOTEQUAL_-1203857938'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857509'), (u'LOAD_-1203857974', u'INT_NOTEQUAL_-1203857938'), (u'STORE_-1203858159', u'INDIRECT_-1203857551'), ('const-417', u'LOAD_-1203857798'), (u'CALL_-1203858259', u'INDIRECT_-1203857306')]
|
[(u'CALL_-1203858259', u'INDIRECT_-1203857375'), ('tmp_3972', u'CALL_-1203858259'), (u'CALL_-1203858003', u'INDIRECT_-1203857485'), (u'CALL_-1203858259', u'INDIRECT_-1203857323'), (u'CALL_-1203857986', u'INDIRECT_-1203857191'), (u'CALL_-1203857744', u'INDIRECT_-1203857396'), (u'PTRSUB_-1203857074', u'CALL_-1203858003'), (u'MULTIEQUAL_-1203857134', u'MULTIEQUAL_-1203857277'), (u'INDIRECT_-1203857156', u'MULTIEQUAL_-1203857147'), (u'STORE_-1203858161', u'INDIRECT_-1203857537'), (u'STORE_-1203858196', u'INDIRECT_-1203857567'), (u'STORE_-1203857775', u'INDIRECT_-1203857367'), (u'INDIRECT_-1203857455', u'MULTIEQUAL_-1203857524'), ('tmp_2145', u'PTRSUB_-1203857226'), (u'CALL_-1203857848', u'INDIRECT_-1203857428'), ('tmp_1247', u'BRANCH_-1203857769'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857287'), ('const-0', u'COPY_-1203858288'), (u'MULTIEQUAL_-1203857398', u'MULTIEQUAL_-1203857541'), (u'LOAD_-1203858513', u'CALL_-1203858259'), (u'LOAD_-1203857798', u'INT_ADD_-1203857767'), ('const-0', u'INT_EQUAL_-1203858068'), (u'STORE_-1203858161', u'INDIRECT_-1203857554'), ('tmp_2157', u'COPY_-1203857216'), (u'CAST_-1203857264', u'LOAD_-1203858513'), ('const-4294967224', u'PTRSUB_-1203857074'), (u'INDIRECT_-1203857489', u'MULTIEQUAL_-1203857558'), (u'MULTIEQUAL_-1203857533', u'COPY_-1203857593'), ('const-4294967236', u'PTRSUB_-1203857208'), (u'CALL_-1203857848', u'INDIRECT_-1203857394'), (u'INDIRECT_-1203857563', u'MULTIEQUAL_-1203857550'), (u'CALL_-1203858259', u'INDIRECT_-1203857574'), ('tmp_2157', u'CALL_-1203858259'), (u'INDIRECT_-1203857091', u'MULTIEQUAL_-1203857082'), (u'INDIRECT_-1203857396', u'COPY_-1203857449'), (u'INDIRECT_-1203857428', u'MULTIEQUAL_-1203857415'), (u'MULTIEQUAL_-1203857550', u'COPY_-1203857610'), (u'PTRSUB_-1203857069', u'CALL_-1203857986'), (u'INT_ADD_-1203857900', u'CAST_-1203856993'), (u'CALL_-1203857848', u'INDIRECT_-1203857445'), (u'INDIRECT_-1203857472', u'INT_ADD_-1203857900'), ('const-4294967208', u'PTRSUB_-1203857221'), (u'CAST_-1203857023', u'LOAD_-1203857974'), (u'CALL_-1203858259', u'INDIRECT_-1203857362'), ('tmp_2145', u'PTRSUB_-1203857208'), (u'INDIRECT_-1203857375', u'COPY_-1203858224'), (u'CALL_-1203857744', u'INDIRECT_-1203857094'), (u'STORE_-1203858159', u'INDIRECT_-1203857553'), (u'INDIRECT_-1203857570', u'MULTIEQUAL_-1203857550'), (u'INDIRECT_-1203857529', u'MULTIEQUAL_-1203857516'), (u'MULTIEQUAL_-1203857225', u'INT_NOTEQUAL_-1203858162'), (u'CALL_-1203858259', u'INDIRECT_-1203857284'), (u'INDIRECT_-1203857550', u'MULTIEQUAL_-1203857541'), (u'CAST_-1203856944', u'LOAD_-1203857798'), (u'PTRSUB_-1203856935', u'PTRADD_-1203857694'), ('tmp_657', u'CBRANCH_-1203858151'), (u'INDIRECT_-1203857489', u'INT_ADD_-1203857958'), (u'CALL_-1203857986', u'INDIRECT_-1203857489'), (u'CALL_-1203858003', u'INDIRECT_-1203857165'), (u'CAST_-1203857018', u'INT_NOTEQUAL_-1203857938'), (u'MULTIEQUAL_-1203857160', u'MULTIEQUAL_-1203857303'), ('const-4294967292', u'INT_ADD_-1203857782'), (u'CALL_-1203857848', u'INDIRECT_-1203857169'), (u'INDIRECT_-1203857323', u'MULTIEQUAL_-1203857277'), (u'CALL_-1203858003', u'INDIRECT_-1203857502'), (u'CALL_-1203858003', u'INDIRECT_-1203857519'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857209'), ('const-4294967292', u'INT_ADD_-1203857860'), (u'MULTIEQUAL_-1203857516', u'COPY_-1203857576'), (u'CALL_-1203857848', u'INDIRECT_-1203857411'), (u'INDIRECT_-1203857567', u'MULTIEQUAL_-1203857558'), ('tmp_2156', u'COPY_-1203857217'), (u'INDIRECT_-1203857373', u'MULTIEQUAL_-1203857524'), ('const-0', u'PTRSUB_-1203856935'), (u'INDIRECT_-1203857362', u'COPY_-1203858222'), (u'CALL_-1203857744', u'INDIRECT_-1203857345'), (u'INDIRECT_-1203857230', u'MULTIEQUAL_-1203857303'), ('tmp_3976', u'INT_ADD_-1203858255'), (u'CALL_-1203858003', u'INDIRECT_-1203857217'), (u'INDIRECT_-1203857553', u'MULTIEQUAL_-1203857533'), ('const-2200808', u'PTRSUB_-1203856935'), (u'CALL_-1203857986', u'INDIRECT_-1203857506'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857261'), (u'INDIRECT_-1203857345', u'COPY_-1203857398'), (u'CALL_-1203857804', u'INDIRECT_-1203857122'), (u'CALL_-1203857986', u'INDIRECT_-1203857472'), (u'STORE_-1203858159', u'INDIRECT_-1203857536'), ('const-4294967284', u'INT_ADD_-1203857943'), (u'INDIRECT_-1203857070', u'MULTIEQUAL_-1203857225'), (u'STORE_-1203858196', u'INDIRECT_-1203857550'), (u'INDIRECT_-1203857204', u'MULTIEQUAL_-1203857134'), (u'INT_ADD_-1203858497', u'CAST_-1203857264'), (u'INDIRECT_-1203857323', u'INT_EQUAL_-1203858224'), ('tmp_999', u'CBRANCH_-1203857935'), (u'CAST_-1203857018', u'CALL_-1203857804'), ('tmp_2145', u'PTRSUB_-1203857074'), ('tmp_1061', u'CBRANCH_-1203857888'), (u'CALL_-1203858259', u'INDIRECT_-1203857336'), (u'PTRSUB_-1203857208', u'CALLIND_-1203858133'), (u'CAST_-1203856935', u'STORE_-1203857775'), (u'INDIRECT_-1203857217', u'MULTIEQUAL_-1203857290'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857274'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857546'), (u'INT_EQUAL_-1203858068', u'CBRANCH_-1203858065'), (u'CALL_-1203857848', u'INDIRECT_-1203857091'), (u'CALL_-1203858259', u'INDIRECT_-1203857271'), (u'INDIRECT_-1203857191', u'INT_ADD_-1203857943'), (u'MULTIEQUAL_-1203857290', u'STORE_-1203858159'), (u'INDIRECT_-1203857271', u'INT_EQUAL_-1203858068'), (u'CALL_-1203858259', u'INDIRECT_-1203857625'), (u'INDIRECT_-1203857284', u'CALL_-1203858003'), ('tmp_2145', u'PTRSUB_-1203857069'), ('const-4294967295', u'INT_ADD_-1203857767'), ('const-0', u'INT_NOTEQUAL_-1203858162'), (u'INDIRECT_-1203857350', u'MULTIEQUAL_-1203857381'), (u'INT_EQUAL_-1203857891', u'CBRANCH_-1203857888'), (u'INDIRECT_-1203857584', u'MULTIEQUAL_-1203857575'), (u'INDIRECT_-1203857472', u'MULTIEQUAL_-1203857541'), (u'INDIRECT_-1203857271', u'MULTIEQUAL_-1203857225'), (u'INDIRECT_-1203857512', u'MULTIEQUAL_-1203857499'), (u'INDIRECT_-1203857536', u'MULTIEQUAL_-1203857516'), (u'CAST_-1203856993', u'LOAD_-1203857916'), (u'CALL_-1203858259', u'INDIRECT_-1203857297'), (u'INDIRECT_-1203857152', u'MULTIEQUAL_-1203857082'), (u'MULTIEQUAL_-1203857415', u'MULTIEQUAL_-1203857558'), ('const-0', u'CALL_-1203858259'), (u'INDIRECT_-1203857379', u'COPY_-1203857432'), ('const-1', u'PTRADD_-1203857112'), (u'STORE_-1203858196', u'INDIRECT_-1203857533'), ('const-417', u'LOAD_-1203857974'), (u'INDIRECT_-1203857445', u'MULTIEQUAL_-1203857432'), (u'INDIRECT_-1203857519', u'MULTIEQUAL_-1203857499'), (u'MULTIEQUAL_-1203857432', u'MULTIEQUAL_-1203857575'), ('const-1', u'INT_SLESS_-1203857815'), ('tmp_3974', u'CALL_-1203858259'), (u'CALL_-1203857986', u'INDIRECT_-1203857455'), (u'STORE_-1203857775', u'INDIRECT_-1203857384'), (u'STORE_-1203858196', u'INDIRECT_-1203857584'), ('tmp_2155', u'COPY_-1203858135'), (u'CALL_-1203857848', u'INDIRECT_-1203857156'), (u'INDIRECT_-1203857191', u'INT_ADD_-1203857782'), (u'STORE_-1203857775', u'INDIRECT_-1203857401'), (u'CALL_-1203858003', u'INDIRECT_-1203857204'), (u'CALL_-1203857804', u'INDIRECT_-1203857407'), ('const-417', u'LOAD_-1203858513'), ('tmp_1198', u'BRANCH_-1203857802'), (u'INDIRECT_-1203857533', u'MULTIEQUAL_-1203857524'), (u'CALL_-1203858259', u'INDIRECT_-1203857310'), ('const-4294967232', u'PTRSUB_-1203857069'), (u'INDIRECT_-1203857230', u'MULTIEQUAL_-1203857160'), (u'STORE_-1203858159', u'INDIRECT_-1203857570'), (u'MULTIEQUAL_-1203857678', u'INT_SLESS_-1203857815'), ('tmp_2145', u'PTRSUB_-1203857221'), ('tmp_571', u'CBRANCH_-1203858206'), (u'INT_EQUAL_-1203858224', u'CBRANCH_-1203858206'), ('const-417', u'STORE_-1203857775'), (u'CALL_-1203857744', u'INDIRECT_-1203857379'), (u'CALL_-1203857804', u'INDIRECT_-1203857135'), (u'COPY_-1203858222', u'MULTIEQUAL_-1203857290'), (u'CALL_-1203857804', u'INDIRECT_-1203857070'), (u'STORE_-1203858159', u'INDIRECT_-1203857519'), (u'CALL_-1203857744', u'INDIRECT_-1203857042'), (u'MULTIEQUAL_-1203857381', u'MULTIEQUAL_-1203857524'), (u'CALL_-1203857986', u'INDIRECT_-1203857230'), (u'INT_SLESS_-1203857815', u'CBRANCH_-1203857822'), (u'CALL_-1203858259', u'INDIRECT_-1203857349'), (u'COPY_-1203858224', u'MULTIEQUAL_-1203857303'), (u'INDIRECT_-1203857546', u'MULTIEQUAL_-1203857533'), (u'INDIRECT_-1203857384', u'MULTIEQUAL_-1203857415'), (u'INDIRECT_-1203857217', u'MULTIEQUAL_-1203857147'), (u'CALL_-1203857804', u'INDIRECT_-1203857424'), (u'INT_ADD_-1203857943', u'CAST_-1203857018'), (u'INT_ADD_-1203858255', u'INT_ADD_-1203857900'), (u'INT_ADD_-1203857860', u'CALL_-1203857848'), (u'COPY_-1203858135', u'RETURN_-1203858085'), ('const-2200580', u'INT_ADD_-1203858255'), ('const-4294967295', u'CALL_-1203857848'), ('const-417', u'STORE_-1203858159'), (u'INDIRECT_-1203857191', u'INT_ADD_-1203857760'), (u'INT_ADD_-1203857760', u'CAST_-1203856935'), ('const-0', u'CALL_-1203858259'), (u'INDIRECT_-1203857394', u'MULTIEQUAL_-1203857381'), ('const-417', u'LOAD_-1203857798'), ('tmp_2154', u'INT_ADD_-1203858497'), ('const-417', u'STORE_-1203858161'), (u'CALL_-1203857804', u'INDIRECT_-1203857373'), (u'INT_NOTEQUAL_-1203858162', u'CBRANCH_-1203858151'), (u'INDIRECT_-1203857191', u'INT_ADD_-1203857860'), (u'INDIRECT_-1203857424', u'MULTIEQUAL_-1203857575'), ('const-0', u'COPY_-1203858282'), (u'INDIRECT_-1203857143', u'MULTIEQUAL_-1203857134'), (u'INDIRECT_-1203857390', u'MULTIEQUAL_-1203857541'), (u'CALL_-1203857744', u'INDIRECT_-1203857107'), (u'CALL_-1203857744', u'INDIRECT_-1203857362'), (u'INT_NOTEQUAL_-1203857938', u'CBRANCH_-1203857935'), (u'INDIRECT_-1203857148', u'MULTIEQUAL_-1203857303'), (u'STORE_-1203857775', u'INDIRECT_-1203857350'), (u'INT_ADD_-1203857958', u'CAST_-1203857023'), ('const-4294967292', u'INT_ADD_-1203857760'), (u'STORE_-1203858161', u'INDIRECT_-1203857520'), ('const-0', u'INT_EQUAL_-1203857891'), (u'CALL_-1203857848', u'MULTIEQUAL_-1203857678'), (u'LOAD_-1203857916', u'INT_EQUAL_-1203857891'), (u'CALL_-1203857848', u'INDIRECT_-1203857143'), (u'INDIRECT_-1203857506', u'MULTIEQUAL_-1203857575'), (u'INT_ADD_-1203858255', u'INT_ADD_-1203857958'), ('tmp_3981', u'CALL_-1203857986'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857563'), (u'INDIRECT_-1203857323', u'STORE_-1203858196'), (u'PTRSUB_-1203857221', u'CALL_-1203858259'), (u'INDIRECT_-1203857122', u'MULTIEQUAL_-1203857277'), ('tmp_2155', u'STORE_-1203858161'), ('tmp_3973', u'CALL_-1203858259'), (u'INDIRECT_-1203857297', u'CALL_-1203858003'), ('tmp_2155', u'PTRADD_-1203857112'), (u'CALL_-1203858259', u'INDIRECT_-1203857591'), (u'INDIRECT_-1203857401', u'MULTIEQUAL_-1203857432'), (u'CALL_-1203858003', u'INDIRECT_-1203857230'), ('tmp_1188', u'CBRANCH_-1203857822'), (u'PTRSUB_-1203857208', u'CALL_-1203858259'), ('const-8', u'INT_ADD_-1203858497'), ('tmp_3975', u'CALL_-1203858259'), (u'CALL_-1203857744', u'INDIRECT_-1203857120'), (u'CALL_-1203857986', u'INDIRECT_-1203857217'), (u'INDIRECT_-1203857169', u'MULTIEQUAL_-1203857160'), (u'INDIRECT_-1203857204', u'MULTIEQUAL_-1203857277'), (u'CALL_-1203857804', u'INDIRECT_-1203857148'), (u'INT_ADD_-1203857767', u'STORE_-1203857775'), (u'INDIRECT_-1203857407', u'MULTIEQUAL_-1203857558'), (u'MULTIEQUAL_-1203857082', u'MULTIEQUAL_-1203857225'), ('tmp_815', u'CBRANCH_-1203858065'), (u'INDIRECT_-1203857574', u'PTRADD_-1203857694'), (u'MULTIEQUAL_-1203857225', u'CALLIND_-1203858133'), (u'MULTIEQUAL_-1203857303', u'STORE_-1203858161'), (u'PTRSUB_-1203857226', u'CALL_-1203858259'), (u'INDIRECT_-1203857411', u'MULTIEQUAL_-1203857398'), (u'INDIRECT_-1203857367', u'MULTIEQUAL_-1203857398'), (u'CALL_-1203858003', u'INDIRECT_-1203857468'), (u'INDIRECT_-1203857152', u'MULTIEQUAL_-1203857225'), ('const-4', u'PTRADD_-1203857112'), (u'CALL_-1203857986', u'INDIRECT_-1203857152'), (u'CALL_-1203857986', u'INDIRECT_-1203857204'), ('const-1', u'PTRADD_-1203857694'), (u'PTRSUB_-1203857069', u'CALL_-1203858003'), (u'INDIRECT_-1203857362', u'COPY_-1203857415'), (u'MULTIEQUAL_-1203857147', u'MULTIEQUAL_-1203857290'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857512'), (u'PTRADD_-1203857112', u'STORE_-1203858159'), (u'MULTIEQUAL_-1203857499', u'COPY_-1203857559'), (u'PTRADD_-1203857694', u'CALL_-1203857744'), ('const-0', u'RETURN_-1203858085'), (u'CALL_-1203858259', u'INDIRECT_-1203857608'), ('const-417', u'LOAD_-1203857916'), (u'INT_ADD_-1203857782', u'CAST_-1203856944'), (u'INDIRECT_-1203857135', u'MULTIEQUAL_-1203857290'), (u'CALL_-1203858003', u'INDIRECT_-1203857243'), (u'LOAD_-1203857798', u'MULTIEQUAL_-1203857678'), ('const-1', u'RETURN_-1203857739'), ('tmp_3980', u'STORE_-1203858196'), ('const-4294967228', u'PTRSUB_-1203857226'), (u'LOAD_-1203857974', u'INT_NOTEQUAL_-1203857938'), (u'CALL_-1203857804', u'INDIRECT_-1203857390'), ('const-417', u'STORE_-1203858196'), ('tmp_2156', u'CALL_-1203858259'), (u'CALLIND_-1203858133', u'INDIRECT_-1203857529'), ('const-0', u'INT_EQUAL_-1203858224'), (u'STORE_-1203858161', u'INDIRECT_-1203857571')]
| null | null |
00219388
|
arm
|
O2
|
(translation_unit "undefined4 *\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)\n\n{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}\n\n" (function_definition "undefined4 *\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)\n\n{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" type_identifier (pointer_declarator "*\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" * (function_declarator "FUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" identifier (parameter_list "(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined1 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "int *param_9" primitive_type (pointer_declarator "*param_9" * identifier)) , (parameter_declaration "undefined4 param_10" type_identifier identifier) )))) (compound_statement "{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 local_58;" type_identifier identifier ;) (declaration "undefined4 uStack_54;" type_identifier identifier ;) (declaration "undefined4 local_50;" type_identifier identifier ;) (declaration "undefined4 local_4c;" type_identifier identifier ;) (declaration "undefined1 auStack_48 [4];" type_identifier (array_declarator "auStack_48 [4]" identifier [ number_literal ]) ;) (declaration "int local_44;" primitive_type identifier ;) (declaration "int local_40;" primitive_type identifier ;) (declaration "undefined4 local_3c;" type_identifier identifier ;) (declaration "undefined4 local_38;" type_identifier identifier ;) (declaration "code *local_24;" type_identifier (pointer_declarator "*local_24" * identifier) ;) (expression_statement "local_24 = (code *)0x0;" (assignment_expression "local_24 = (code *)0x0" identifier = (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "local_44 = 0;" (assignment_expression "local_44 = 0" identifier = number_literal) ;) (expression_statement "iVar1 = DAT_00219524 + 0x219404;" (assignment_expression "iVar1 = DAT_00219524 + 0x219404" identifier = (binary_expression "DAT_00219524 + 0x219404" identifier + number_literal)) ;) (expression_statement "local_50 = param_3;" (assignment_expression "local_50 = param_3" identifier = identifier) ;) (expression_statement "local_4c = param_4;" (assignment_expression "local_4c = param_4" identifier = identifier) ;) (expression_statement "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);" (call_expression "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" identifier (argument_list "(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" ( (pointer_expression "&local_58" & identifier) , number_literal , (pointer_expression "*(undefined4 *)(param_2 + 8)" * (cast_expression "(undefined4 *)(param_2 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_2 + 8)" ( (binary_expression "param_2 + 8" identifier + number_literal) )))) , identifier , identifier , identifier , identifier , identifier , identifier , (pointer_expression "&local_44" & identifier) , number_literal , (pointer_expression "&local_3c" & identifier) ))) ;) (expression_statement "local_50 = local_58;" (assignment_expression "local_50 = local_58" identifier = identifier) ;) (expression_statement "local_4c = uStack_54;" (assignment_expression "local_4c = uStack_54" identifier = identifier) ;) (if_statement "if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }" if (parenthesized_expression "(local_44 == 0)" ( (binary_expression "local_44 == 0" identifier == number_literal) )) (compound_statement "{\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }" { (if_statement "if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" if (parenthesized_expression "(local_24 == (code *)0x0)" ( (binary_expression "local_24 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" { comment (expression_statement "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);" (call_expression "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530)" identifier (argument_list "(&UNK_002194e8 + DAT_00219530)" ( (binary_expression "&UNK_002194e8 + DAT_00219530" (pointer_expression "&UNK_002194e8" & identifier) + identifier) ))) ;) })) (expression_statement "FUN_00210b40(&local_40,local_3c,local_38,auStack_48);" (call_expression "FUN_00210b40(&local_40,local_3c,local_38,auStack_48)" identifier (argument_list "(&local_40,local_3c,local_38,auStack_48)" ( (pointer_expression "&local_40" & identifier) , identifier , identifier , identifier ))) ;) (expression_statement "FUN_0020e3b8(param_10,&local_40);" (call_expression "FUN_0020e3b8(param_10,&local_40)" identifier (argument_list "(param_10,&local_40)" ( identifier , (pointer_expression "&local_40" & identifier) ))) ;) (if_statement "if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" if (parenthesized_expression "((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528))" ( (binary_expression "(void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)" (cast_expression "(void *)(local_40 + -0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) != (pointer_expression "*(void **)(iVar1 + DAT_00219528)" * (cast_expression "(void **)(iVar1 + DAT_00219528)" ( (type_descriptor "void **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + DAT_00219528)" ( (binary_expression "iVar1 + DAT_00219528" identifier + identifier) ))))) )) (compound_statement "{\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" { (if_statement "if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" if (parenthesized_expression "(*(int *)(iVar1 + DAT_0021952c) == 0)" ( (binary_expression "*(int *)(iVar1 + DAT_0021952c) == 0" (pointer_expression "*(int *)(iVar1 + DAT_0021952c)" * (cast_expression "(int *)(iVar1 + DAT_0021952c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + DAT_0021952c)" ( (binary_expression "iVar1 + DAT_0021952c" identifier + identifier) )))) == number_literal) )) (compound_statement "{\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }" { (expression_statement "iVar1 = *(int *)(local_40 + -4);" (assignment_expression "iVar1 = *(int *)(local_40 + -4)" identifier = (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) ))))) ;) (expression_statement "*(int *)(local_40 + -4) = iVar1 + -1;" (assignment_expression "*(int *)(local_40 + -4) = iVar1 + -1" (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) )))) = (binary_expression "iVar1 + -1" identifier + number_literal)) ;) }) (else_clause "else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" else (compound_statement "{\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" { (expression_statement "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);" (assignment_expression "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff)" identifier = (call_expression "FUN_0026af80(local_40 + -4,0xffffffff)" identifier (argument_list "(local_40 + -4,0xffffffff)" ( (binary_expression "local_40 + -4" identifier + number_literal) , number_literal )))) ;) }))) (if_statement "if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }" if (parenthesized_expression "(iVar1 < 1)" ( (binary_expression "iVar1 < 1" identifier < number_literal) )) (compound_statement "{\n free((void *)(local_40 + -0xc));\n }" { (expression_statement "free((void *)(local_40 + -0xc));" (call_expression "free((void *)(local_40 + -0xc))" identifier (argument_list "((void *)(local_40 + -0xc))" ( (cast_expression "(void *)(local_40 + -0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) ))) ;) })) })) }) (else_clause "else {\n *param_9 = local_44;\n }" else (compound_statement "{\n *param_9 = local_44;\n }" { (expression_statement "*param_9 = local_44;" (assignment_expression "*param_9 = local_44" (pointer_expression "*param_9" * identifier) = identifier) ;) }))) (expression_statement "*param_1 = local_50;" (assignment_expression "*param_1 = local_50" (pointer_expression "*param_1" * identifier) = identifier) ;) (expression_statement "param_1[1] = local_4c;" (assignment_expression "param_1[1] = local_4c" (subscript_expression "param_1[1]" identifier [ number_literal ]) = identifier) ;) (if_statement "if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }" if (parenthesized_expression "(local_24 != (code *)0x0)" ( (binary_expression "local_24 != (code *)0x0" identifier != (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n (*local_24)(&local_3c);\n }" { (expression_statement "(*local_24)(&local_3c);" (call_expression "(*local_24)(&local_3c)" (parenthesized_expression "(*local_24)" ( (pointer_expression "*local_24" * identifier) )) (argument_list "(&local_3c)" ( (pointer_expression "&local_3c" & identifier) ))) ;) })) (return_statement "return param_1;" return identifier ;) })))
|
(translation_unit "/* std::__facet_shims::(anonymous\n namespace)::money_get_shim<char>::do_get(std::istreambuf_iterator<char, std::char_traits<char> >,\n std::istreambuf_iterator<char, std::char_traits<char> >, bool, std::ios_base&,\n std::_Ios_Iostate&, std::string&) const */\n\nundefined4 *\nstd::__facet_shims::(anonymous_namespace)::money_get_shim<char>::do_get\n (undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,\n undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)\n\n{\n undefined4 *puVar1;\n int iVar2;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n allocator aaStack_48 [4];\n int local_44;\n int local_40;\n char *local_3c;\n uint local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar2 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n __money_get<char>(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }\n std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);\n std::string::swap(param_10,(string *)&local_40);\n if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}\n\n" comment (ERROR "undefined4 *\nstd::" (binary_expression "undefined4 *\nstd" identifier * identifier) : :) (labeled_statement "__facet_shims::(anonymous_namespace)::money_get_shim<char>::do_get\n (undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,\n undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)" statement_identifier (ERROR "::(anonymous_namespace)::money_get_shim<char>:" : : (parenthesized_expression "(anonymous_namespace)" ( identifier )) : : (binary_expression "money_get_shim<char" identifier < identifier) > :) : (expression_statement "do_get\n (undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,\n undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)" (call_expression "do_get\n (undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,\n undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)" identifier (argument_list "(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,undefined4 param_5,\n undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9,string *param_10)" ( (binary_expression "undefined4 *param_1" identifier * identifier) , (ERROR "int" identifier) identifier , identifier (ERROR "param_3" identifier) , identifier (ERROR "param_4" identifier) , identifier (ERROR "param_5" identifier) , identifier (ERROR "param_6" identifier) , identifier (ERROR "param_7" identifier) , identifier (ERROR "param_8" identifier) , (binary_expression "int *param_9" identifier * identifier) , (binary_expression "string *param_10" identifier * identifier) ))) ;)) (compound_statement "{\n undefined4 *puVar1;\n int iVar2;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n allocator aaStack_48 [4];\n int local_44;\n int local_40;\n char *local_3c;\n uint local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar2 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n __money_get<char>(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }\n std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);\n std::string::swap(param_10,(string *)&local_40);\n if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" { (declaration "undefined4 *puVar1;" type_identifier (pointer_declarator "*puVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "undefined4 local_58;" type_identifier identifier ;) (declaration "undefined4 uStack_54;" type_identifier identifier ;) (declaration "undefined4 local_50;" type_identifier identifier ;) (declaration "undefined4 local_4c;" type_identifier identifier ;) (declaration "allocator aaStack_48 [4];" type_identifier (array_declarator "aaStack_48 [4]" identifier [ number_literal ]) ;) (declaration "int local_44;" primitive_type identifier ;) (declaration "int local_40;" primitive_type identifier ;) (declaration "char *local_3c;" primitive_type (pointer_declarator "*local_3c" * identifier) ;) (declaration "uint local_38;" type_identifier identifier ;) (declaration "code *local_24;" type_identifier (pointer_declarator "*local_24" * identifier) ;) (expression_statement "local_24 = (code *)0x0;" (assignment_expression "local_24 = (code *)0x0" identifier = (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "local_44 = 0;" (assignment_expression "local_44 = 0" identifier = number_literal) ;) (expression_statement "iVar2 = DAT_00219524 + 0x219404;" (assignment_expression "iVar2 = DAT_00219524 + 0x219404" identifier = (binary_expression "DAT_00219524 + 0x219404" identifier + number_literal)) ;) (expression_statement "local_50 = param_3;" (assignment_expression "local_50 = param_3" identifier = identifier) ;) (expression_statement "local_4c = param_4;" (assignment_expression "local_4c = param_4" identifier = identifier) ;) (expression_statement "__money_get<char>(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c);" (binary_expression "__money_get<char>(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c)" (binary_expression "__money_get<char" identifier < identifier) > (parenthesized_expression "(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c)" ( (comma_expression "&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" (pointer_expression "&local_58" & identifier) , (comma_expression "0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" number_literal , (comma_expression "*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" (pointer_expression "*(undefined4 *)(param_2 + 8)" * (cast_expression "(undefined4 *)(param_2 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_2 + 8)" ( (binary_expression "param_2 + 8" identifier + number_literal) )))) , (comma_expression "param_3,param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" identifier , (comma_expression "param_4,param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" identifier , (comma_expression "param_5,param_6,param_7\n ,param_8,&local_44,0,&local_3c" identifier , (comma_expression "param_6,param_7\n ,param_8,&local_44,0,&local_3c" identifier , (comma_expression "param_7\n ,param_8,&local_44,0,&local_3c" identifier , (comma_expression "param_8,&local_44,0,&local_3c" identifier , (comma_expression "&local_44,0,&local_3c" (pointer_expression "&local_44" & identifier) , (comma_expression "0,&local_3c" number_literal , (pointer_expression "&local_3c" & identifier)))))))))))) ))) ;) (expression_statement "local_50 = local_58;" (assignment_expression "local_50 = local_58" identifier = identifier) ;) (expression_statement "local_4c = uStack_54;" (assignment_expression "local_4c = uStack_54" identifier = identifier) ;) (if_statement "if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }\n std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);\n std::string::swap(param_10,(string *)&local_40);\n if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }\n }\n else {\n *param_9 = local_44;\n }" if (parenthesized_expression "(local_44 == 0)" ( (binary_expression "local_44 == 0" identifier == number_literal) )) (compound_statement "{\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }\n std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);\n std::string::swap(param_10,(string *)&local_40);\n if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }\n }" { (if_statement "if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }" if (parenthesized_expression "(local_24 == (code *)0x0)" ( (binary_expression "local_24 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n __throw_logic_error(&UNK_002194e8 + DAT_00219530);\n }" { comment (expression_statement "__throw_logic_error(&UNK_002194e8 + DAT_00219530);" (call_expression "__throw_logic_error(&UNK_002194e8 + DAT_00219530)" identifier (argument_list "(&UNK_002194e8 + DAT_00219530)" ( (binary_expression "&UNK_002194e8 + DAT_00219530" (pointer_expression "&UNK_002194e8" & identifier) + identifier) ))) ;) })) (labeled_statement "std::string::string((string *)&local_40,local_3c,local_38,aaStack_48);" statement_identifier : (ERROR ":" :) (labeled_statement "string::string((string *)&local_40,local_3c,local_38,aaStack_48);" statement_identifier : (ERROR ":" :) (expression_statement "string((string *)&local_40,local_3c,local_38,aaStack_48);" (call_expression "string((string *)&local_40,local_3c,local_38,aaStack_48)" identifier (argument_list "((string *)&local_40,local_3c,local_38,aaStack_48)" ( (cast_expression "(string *)&local_40" ( (type_descriptor "string *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_40" & identifier)) , identifier , identifier , identifier ))) ;))) (labeled_statement "std::string::swap(param_10,(string *)&local_40);" statement_identifier : (ERROR ":" :) (labeled_statement "string::swap(param_10,(string *)&local_40);" statement_identifier : (ERROR ":" :) (expression_statement "swap(param_10,(string *)&local_40);" (call_expression "swap(param_10,(string *)&local_40)" identifier (argument_list "(param_10,(string *)&local_40)" ( identifier , (cast_expression "(string *)&local_40" ( (type_descriptor "string *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_40" & identifier)) ))) ;))) (if_statement "if ((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)) {\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }" if (parenthesized_expression "((allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528))" ( (binary_expression "(allocator *)(local_40 + -0xc) != *(allocator **)(iVar2 + DAT_00219528)" (cast_expression "(allocator *)(local_40 + -0xc)" ( (type_descriptor "allocator *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) != (pointer_expression "*(allocator **)(iVar2 + DAT_00219528)" * (cast_expression "(allocator **)(iVar2 + DAT_00219528)" ( (type_descriptor "allocator **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + DAT_00219528)" ( (binary_expression "iVar2 + DAT_00219528" identifier + identifier) ))))) )) (compound_statement "{\n if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }\n if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }\n }" { (if_statement "if (*(int *)(iVar2 + DAT_0021952c) == 0) {\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }\n else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }" if (parenthesized_expression "(*(int *)(iVar2 + DAT_0021952c) == 0)" ( (binary_expression "*(int *)(iVar2 + DAT_0021952c) == 0" (pointer_expression "*(int *)(iVar2 + DAT_0021952c)" * (cast_expression "(int *)(iVar2 + DAT_0021952c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + DAT_0021952c)" ( (binary_expression "iVar2 + DAT_0021952c" identifier + identifier) )))) == number_literal) )) (compound_statement "{\n iVar2 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar2 + -1;\n }" { (expression_statement "iVar2 = *(int *)(local_40 + -4);" (assignment_expression "iVar2 = *(int *)(local_40 + -4)" identifier = (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) ))))) ;) (expression_statement "*(int *)(local_40 + -4) = iVar2 + -1;" (assignment_expression "*(int *)(local_40 + -4) = iVar2 + -1" (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) )))) = (binary_expression "iVar2 + -1" identifier + number_literal)) ;) }) (else_clause "else {\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }" else (compound_statement "{\n iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);\n }" { (expression_statement "iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff);" (assignment_expression "iVar2 = __sync_fetch_and_add_4(local_40 + -4,0xffffffff)" identifier = (call_expression "__sync_fetch_and_add_4(local_40 + -4,0xffffffff)" identifier (argument_list "(local_40 + -4,0xffffffff)" ( (binary_expression "local_40 + -4" identifier + number_literal) , number_literal )))) ;) }))) (if_statement "if (iVar2 < 1) {\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }" if (parenthesized_expression "(iVar2 < 1)" ( (binary_expression "iVar2 < 1" identifier < number_literal) )) (compound_statement "{\n puVar1 = (undefined4 *)std::string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));\n return puVar1;\n }" { (ERROR "puVar1 = (undefined4 *)std::" (assignment_expression "puVar1 = (undefined4 *)std" identifier = (cast_expression "(undefined4 *)std" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) : :) (labeled_statement "string::_Rep::_M_destroy((allocator *)(local_40 + -0xc));" statement_identifier : (ERROR ":" :) (labeled_statement "_Rep::_M_destroy((allocator *)(local_40 + -0xc));" statement_identifier : (ERROR ":" :) (expression_statement "_M_destroy((allocator *)(local_40 + -0xc));" (call_expression "_M_destroy((allocator *)(local_40 + -0xc))" identifier (argument_list "((allocator *)(local_40 + -0xc))" ( (cast_expression "(allocator *)(local_40 + -0xc)" ( (type_descriptor "allocator *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) ))) ;))) (return_statement "return puVar1;" return identifier ;) })) })) }) (else_clause "else {\n *param_9 = local_44;\n }" else (compound_statement "{\n *param_9 = local_44;\n }" { (expression_statement "*param_9 = local_44;" (assignment_expression "*param_9 = local_44" (pointer_expression "*param_9" * identifier) = identifier) ;) }))) (expression_statement "*param_1 = local_50;" (assignment_expression "*param_1 = local_50" (pointer_expression "*param_1" * identifier) = identifier) ;) (expression_statement "param_1[1] = local_4c;" (assignment_expression "param_1[1] = local_4c" (subscript_expression "param_1[1]" identifier [ number_literal ]) = identifier) ;) (if_statement "if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }" if (parenthesized_expression "(local_24 != (code *)0x0)" ( (binary_expression "local_24 != (code *)0x0" identifier != (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n (*local_24)(&local_3c);\n }" { (expression_statement "(*local_24)(&local_3c);" (call_expression "(*local_24)(&local_3c)" (parenthesized_expression "(*local_24)" ( (pointer_expression "*local_24" * identifier) )) (argument_list "(&local_3c)" ( (pointer_expression "&local_3c" & identifier) ))) ;) })) (return_statement "return param_1;" return identifier ;) }))
|
(translation_unit "undefined4 *\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)\n\n{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}\n\n" (function_definition "undefined4 *\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)\n\n{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" type_identifier (pointer_declarator "*\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" * (function_declarator "FUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" identifier (parameter_list "(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int param_2" primitive_type identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined1 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "int *param_9" primitive_type (pointer_declarator "*param_9" * identifier)) , (parameter_declaration "undefined4 param_10" type_identifier identifier) )))) (compound_statement "{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 local_58;" type_identifier identifier ;) (declaration "undefined4 uStack_54;" type_identifier identifier ;) (declaration "undefined4 local_50;" type_identifier identifier ;) (declaration "undefined4 local_4c;" type_identifier identifier ;) (declaration "undefined1 auStack_48 [4];" type_identifier (array_declarator "auStack_48 [4]" identifier [ number_literal ]) ;) (declaration "int local_44;" primitive_type identifier ;) (declaration "int local_40;" primitive_type identifier ;) (declaration "undefined4 local_3c;" type_identifier identifier ;) (declaration "undefined4 local_38;" type_identifier identifier ;) (declaration "code *local_24;" type_identifier (pointer_declarator "*local_24" * identifier) ;) (expression_statement "local_24 = (code *)0x0;" (assignment_expression "local_24 = (code *)0x0" identifier = (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "local_44 = 0;" (assignment_expression "local_44 = 0" identifier = number_literal) ;) (expression_statement "iVar1 = DAT_00219524 + 0x219404;" (assignment_expression "iVar1 = DAT_00219524 + 0x219404" identifier = (binary_expression "DAT_00219524 + 0x219404" identifier + number_literal)) ;) (expression_statement "local_50 = param_3;" (assignment_expression "local_50 = param_3" identifier = identifier) ;) (expression_statement "local_4c = param_4;" (assignment_expression "local_4c = param_4" identifier = identifier) ;) (expression_statement "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);" (call_expression "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" identifier (argument_list "(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" ( (pointer_expression "&local_58" & identifier) , number_literal , (pointer_expression "*(undefined4 *)(param_2 + 8)" * (cast_expression "(undefined4 *)(param_2 + 8)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_2 + 8)" ( (binary_expression "param_2 + 8" identifier + number_literal) )))) , identifier , identifier , identifier , identifier , identifier , identifier , (pointer_expression "&local_44" & identifier) , number_literal , (pointer_expression "&local_3c" & identifier) ))) ;) (expression_statement "local_50 = local_58;" (assignment_expression "local_50 = local_58" identifier = identifier) ;) (expression_statement "local_4c = uStack_54;" (assignment_expression "local_4c = uStack_54" identifier = identifier) ;) (if_statement "if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }" if (parenthesized_expression "(local_44 == 0)" ( (binary_expression "local_44 == 0" identifier == number_literal) )) (compound_statement "{\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }" { (if_statement "if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" if (parenthesized_expression "(local_24 == (code *)0x0)" ( (binary_expression "local_24 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" { comment (expression_statement "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);" (call_expression "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530)" identifier (argument_list "(&UNK_002194e8 + DAT_00219530)" ( (binary_expression "&UNK_002194e8 + DAT_00219530" (pointer_expression "&UNK_002194e8" & identifier) + identifier) ))) ;) })) (expression_statement "FUN_00210b40(&local_40,local_3c,local_38,auStack_48);" (call_expression "FUN_00210b40(&local_40,local_3c,local_38,auStack_48)" identifier (argument_list "(&local_40,local_3c,local_38,auStack_48)" ( (pointer_expression "&local_40" & identifier) , identifier , identifier , identifier ))) ;) (expression_statement "FUN_0020e3b8(param_10,&local_40);" (call_expression "FUN_0020e3b8(param_10,&local_40)" identifier (argument_list "(param_10,&local_40)" ( identifier , (pointer_expression "&local_40" & identifier) ))) ;) (if_statement "if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" if (parenthesized_expression "((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528))" ( (binary_expression "(void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)" (cast_expression "(void *)(local_40 + -0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) != (pointer_expression "*(void **)(iVar1 + DAT_00219528)" * (cast_expression "(void **)(iVar1 + DAT_00219528)" ( (type_descriptor "void **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + DAT_00219528)" ( (binary_expression "iVar1 + DAT_00219528" identifier + identifier) ))))) )) (compound_statement "{\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" { (if_statement "if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" if (parenthesized_expression "(*(int *)(iVar1 + DAT_0021952c) == 0)" ( (binary_expression "*(int *)(iVar1 + DAT_0021952c) == 0" (pointer_expression "*(int *)(iVar1 + DAT_0021952c)" * (cast_expression "(int *)(iVar1 + DAT_0021952c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + DAT_0021952c)" ( (binary_expression "iVar1 + DAT_0021952c" identifier + identifier) )))) == number_literal) )) (compound_statement "{\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }" { (expression_statement "iVar1 = *(int *)(local_40 + -4);" (assignment_expression "iVar1 = *(int *)(local_40 + -4)" identifier = (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) ))))) ;) (expression_statement "*(int *)(local_40 + -4) = iVar1 + -1;" (assignment_expression "*(int *)(local_40 + -4) = iVar1 + -1" (pointer_expression "*(int *)(local_40 + -4)" * (cast_expression "(int *)(local_40 + -4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -4)" ( (binary_expression "local_40 + -4" identifier + number_literal) )))) = (binary_expression "iVar1 + -1" identifier + number_literal)) ;) }) (else_clause "else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" else (compound_statement "{\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" { (expression_statement "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);" (assignment_expression "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff)" identifier = (call_expression "FUN_0026af80(local_40 + -4,0xffffffff)" identifier (argument_list "(local_40 + -4,0xffffffff)" ( (binary_expression "local_40 + -4" identifier + number_literal) , number_literal )))) ;) }))) (if_statement "if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }" if (parenthesized_expression "(iVar1 < 1)" ( (binary_expression "iVar1 < 1" identifier < number_literal) )) (compound_statement "{\n free((void *)(local_40 + -0xc));\n }" { (expression_statement "free((void *)(local_40 + -0xc));" (call_expression "free((void *)(local_40 + -0xc))" identifier (argument_list "((void *)(local_40 + -0xc))" ( (cast_expression "(void *)(local_40 + -0xc)" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(local_40 + -0xc)" ( (binary_expression "local_40 + -0xc" identifier + number_literal) ))) ))) ;) })) })) }) (else_clause "else {\n *param_9 = local_44;\n }" else (compound_statement "{\n *param_9 = local_44;\n }" { (expression_statement "*param_9 = local_44;" (assignment_expression "*param_9 = local_44" (pointer_expression "*param_9" * identifier) = identifier) ;) }))) (expression_statement "*param_1 = local_50;" (assignment_expression "*param_1 = local_50" (pointer_expression "*param_1" * identifier) = identifier) ;) (expression_statement "param_1[1] = local_4c;" (assignment_expression "param_1[1] = local_4c" (subscript_expression "param_1[1]" identifier [ number_literal ]) = identifier) ;) (if_statement "if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }" if (parenthesized_expression "(local_24 != (code *)0x0)" ( (binary_expression "local_24 != (code *)0x0" identifier != (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n (*local_24)(&local_3c);\n }" { (expression_statement "(*local_24)(&local_3c);" (call_expression "(*local_24)(&local_3c)" (parenthesized_expression "(*local_24)" ( (pointer_expression "*local_24" * identifier) )) (argument_list "(&local_3c)" ( (pointer_expression "&local_3c" & identifier) ))) ;) })) (return_statement "return param_1;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) )))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( (pointer_expression & IDENT) , LIT , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) , IDENT , IDENT , IDENT , IDENT , IDENT , IDENT , (pointer_expression & IDENT) , LIT , (pointer_expression & IDENT) ))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( (binary_expression (pointer_expression & IDENT) + IDENT) ))) ;) })) (expression_statement (call_expression IDENT (argument_list ( (pointer_expression & IDENT) , IDENT , IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , (pointer_expression & IDENT) ))) ;) (if_statement if (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) != (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))) == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + LIT)) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , LIT )))) ;) }))) (if_statement if (parenthesized_expression ( (binary_expression IDENT < LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))) ))) ;) })) })) }) (else_clause else (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) }))) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( (pointer_expression & IDENT) ))) ;) })) (return_statement return IDENT ;) })))
|
(function_definition "undefined4 *\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)\n\n{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" (type_identifier "undefined4") (pointer_declarator "*\nFUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" (* "*") (function_declarator "FUN_00219388(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" (identifier "FUN_00219388") (parameter_list "(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9\n ,undefined4 param_10)" (( "(") (parameter_declaration "undefined4 *param_1" (type_identifier "undefined4") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "int param_2" (primitive_type "int") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) (, ",") (parameter_declaration "undefined4 param_5" (type_identifier "undefined4") (identifier "param_5")) (, ",") (parameter_declaration "undefined4 param_6" (type_identifier "undefined4") (identifier "param_6")) (, ",") (parameter_declaration "undefined1 param_7" (type_identifier "undefined1") (identifier "param_7")) (, ",") (parameter_declaration "undefined4 param_8" (type_identifier "undefined4") (identifier "param_8")) (, ",") (parameter_declaration "int *param_9" (primitive_type "int") (pointer_declarator "*param_9" (* "*") (identifier "param_9"))) (, ",") (parameter_declaration "undefined4 param_10" (type_identifier "undefined4") (identifier "param_10")) () ")")))) (compound_statement "{\n int iVar1;\n undefined4 local_58;\n undefined4 uStack_54;\n undefined4 local_50;\n undefined4 local_4c;\n undefined1 auStack_48 [4];\n int local_44;\n int local_40;\n undefined4 local_3c;\n undefined4 local_38;\n code *local_24;\n \n local_24 = (code *)0x0;\n local_44 = 0;\n iVar1 = DAT_00219524 + 0x219404;\n local_50 = param_3;\n local_4c = param_4;\n FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);\n local_50 = local_58;\n local_4c = uStack_54;\n if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }\n *param_1 = local_50;\n param_1[1] = local_4c;\n if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }\n return param_1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 local_58;" (type_identifier "undefined4") (identifier "local_58") (; ";")) (declaration "undefined4 uStack_54;" (type_identifier "undefined4") (identifier "uStack_54") (; ";")) (declaration "undefined4 local_50;" (type_identifier "undefined4") (identifier "local_50") (; ";")) (declaration "undefined4 local_4c;" (type_identifier "undefined4") (identifier "local_4c") (; ";")) (declaration "undefined1 auStack_48 [4];" (type_identifier "undefined1") (array_declarator "auStack_48 [4]" (identifier "auStack_48") ([ "[") (number_literal "4") (] "]")) (; ";")) (declaration "int local_44;" (primitive_type "int") (identifier "local_44") (; ";")) (declaration "int local_40;" (primitive_type "int") (identifier "local_40") (; ";")) (declaration "undefined4 local_3c;" (type_identifier "undefined4") (identifier "local_3c") (; ";")) (declaration "undefined4 local_38;" (type_identifier "undefined4") (identifier "local_38") (; ";")) (declaration "code *local_24;" (type_identifier "code") (pointer_declarator "*local_24" (* "*") (identifier "local_24")) (; ";")) (expression_statement "local_24 = (code *)0x0;" (assignment_expression "local_24 = (code *)0x0" (identifier "local_24") (= "=") (cast_expression "(code *)0x0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) (; ";")) (expression_statement "local_44 = 0;" (assignment_expression "local_44 = 0" (identifier "local_44") (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar1 = DAT_00219524 + 0x219404;" (assignment_expression "iVar1 = DAT_00219524 + 0x219404" (identifier "iVar1") (= "=") (binary_expression "DAT_00219524 + 0x219404" (identifier "DAT_00219524") (+ "+") (number_literal "0x219404"))) (; ";")) (expression_statement "local_50 = param_3;" (assignment_expression "local_50 = param_3" (identifier "local_50") (= "=") (identifier "param_3")) (; ";")) (expression_statement "local_4c = param_4;" (assignment_expression "local_4c = param_4" (identifier "local_4c") (= "=") (identifier "param_4")) (; ";")) (expression_statement "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c);" (call_expression "FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" (identifier "FUN_00215584") (argument_list "(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,\n param_8,&local_44,0,&local_3c)" (( "(") (pointer_expression "&local_58" (& "&") (identifier "local_58")) (, ",") (number_literal "0") (, ",") (pointer_expression "*(undefined4 *)(param_2 + 8)" (* "*") (cast_expression "(undefined4 *)(param_2 + 8)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_2 + 8)" (( "(") (binary_expression "param_2 + 8" (identifier "param_2") (+ "+") (number_literal "8")) () ")")))) (, ",") (identifier "param_3") (, ",") (identifier "param_4") (, ",") (identifier "param_5") (, ",") (identifier "param_6") (, ",") (identifier "param_7") (, ",") (identifier "param_8") (, ",") (pointer_expression "&local_44" (& "&") (identifier "local_44")) (, ",") (number_literal "0") (, ",") (pointer_expression "&local_3c" (& "&") (identifier "local_3c")) () ")"))) (; ";")) (expression_statement "local_50 = local_58;" (assignment_expression "local_50 = local_58" (identifier "local_50") (= "=") (identifier "local_58")) (; ";")) (expression_statement "local_4c = uStack_54;" (assignment_expression "local_4c = uStack_54" (identifier "local_4c") (= "=") (identifier "uStack_54")) (; ";")) (if_statement "if (local_44 == 0) {\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }\n else {\n *param_9 = local_44;\n }" (if "if") (parenthesized_expression "(local_44 == 0)" (( "(") (binary_expression "local_44 == 0" (identifier "local_44") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }\n FUN_00210b40(&local_40,local_3c,local_38,auStack_48);\n FUN_0020e3b8(param_10,&local_40);\n if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }\n }" ({ "{") (if_statement "if (local_24 == (code *)0x0) {\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" (if "if") (parenthesized_expression "(local_24 == (code *)0x0)" (( "(") (binary_expression "local_24 == (code *)0x0" (identifier "local_24") (== "==") (cast_expression "(code *)0x0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);\n }" ({ "{") (comment "/* WARNING: Subroutine does not return */") (expression_statement "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);" (call_expression "FUN_0021d7e8(&UNK_002194e8 + DAT_00219530)" (identifier "FUN_0021d7e8") (argument_list "(&UNK_002194e8 + DAT_00219530)" (( "(") (binary_expression "&UNK_002194e8 + DAT_00219530" (pointer_expression "&UNK_002194e8" (& "&") (identifier "UNK_002194e8")) (+ "+") (identifier "DAT_00219530")) () ")"))) (; ";")) (} "}"))) (expression_statement "FUN_00210b40(&local_40,local_3c,local_38,auStack_48);" (call_expression "FUN_00210b40(&local_40,local_3c,local_38,auStack_48)" (identifier "FUN_00210b40") (argument_list "(&local_40,local_3c,local_38,auStack_48)" (( "(") (pointer_expression "&local_40" (& "&") (identifier "local_40")) (, ",") (identifier "local_3c") (, ",") (identifier "local_38") (, ",") (identifier "auStack_48") () ")"))) (; ";")) (expression_statement "FUN_0020e3b8(param_10,&local_40);" (call_expression "FUN_0020e3b8(param_10,&local_40)" (identifier "FUN_0020e3b8") (argument_list "(param_10,&local_40)" (( "(") (identifier "param_10") (, ",") (pointer_expression "&local_40" (& "&") (identifier "local_40")) () ")"))) (; ";")) (if_statement "if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" (if "if") (parenthesized_expression "((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528))" (( "(") (binary_expression "(void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)" (cast_expression "(void *)(local_40 + -0xc)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_40 + -0xc)" (( "(") (binary_expression "local_40 + -0xc" (identifier "local_40") (+ "+") (number_literal "-0xc")) () ")"))) (!= "!=") (pointer_expression "*(void **)(iVar1 + DAT_00219528)" (* "*") (cast_expression "(void **)(iVar1 + DAT_00219528)" (( "(") (type_descriptor "void **" (primitive_type "void") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar1 + DAT_00219528)" (( "(") (binary_expression "iVar1 + DAT_00219528" (identifier "iVar1") (+ "+") (identifier "DAT_00219528")) () ")"))))) () ")")) (compound_statement "{\n if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }\n if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }\n }" ({ "{") (if_statement "if (*(int *)(iVar1 + DAT_0021952c) == 0) {\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }\n else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" (if "if") (parenthesized_expression "(*(int *)(iVar1 + DAT_0021952c) == 0)" (( "(") (binary_expression "*(int *)(iVar1 + DAT_0021952c) == 0" (pointer_expression "*(int *)(iVar1 + DAT_0021952c)" (* "*") (cast_expression "(int *)(iVar1 + DAT_0021952c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + DAT_0021952c)" (( "(") (binary_expression "iVar1 + DAT_0021952c" (identifier "iVar1") (+ "+") (identifier "DAT_0021952c")) () ")")))) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n iVar1 = *(int *)(local_40 + -4);\n *(int *)(local_40 + -4) = iVar1 + -1;\n }" ({ "{") (expression_statement "iVar1 = *(int *)(local_40 + -4);" (assignment_expression "iVar1 = *(int *)(local_40 + -4)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(local_40 + -4)" (* "*") (cast_expression "(int *)(local_40 + -4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_40 + -4)" (( "(") (binary_expression "local_40 + -4" (identifier "local_40") (+ "+") (number_literal "-4")) () ")"))))) (; ";")) (expression_statement "*(int *)(local_40 + -4) = iVar1 + -1;" (assignment_expression "*(int *)(local_40 + -4) = iVar1 + -1" (pointer_expression "*(int *)(local_40 + -4)" (* "*") (cast_expression "(int *)(local_40 + -4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_40 + -4)" (( "(") (binary_expression "local_40 + -4" (identifier "local_40") (+ "+") (number_literal "-4")) () ")")))) (= "=") (binary_expression "iVar1 + -1" (identifier "iVar1") (+ "+") (number_literal "-1"))) (; ";")) (} "}")) (else_clause "else {\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" (else "else") (compound_statement "{\n iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);\n }" ({ "{") (expression_statement "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);" (assignment_expression "iVar1 = FUN_0026af80(local_40 + -4,0xffffffff)" (identifier "iVar1") (= "=") (call_expression "FUN_0026af80(local_40 + -4,0xffffffff)" (identifier "FUN_0026af80") (argument_list "(local_40 + -4,0xffffffff)" (( "(") (binary_expression "local_40 + -4" (identifier "local_40") (+ "+") (number_literal "-4")) (, ",") (number_literal "0xffffffff") () ")")))) (; ";")) (} "}")))) (if_statement "if (iVar1 < 1) {\n free((void *)(local_40 + -0xc));\n }" (if "if") (parenthesized_expression "(iVar1 < 1)" (( "(") (binary_expression "iVar1 < 1" (identifier "iVar1") (< "<") (number_literal "1")) () ")")) (compound_statement "{\n free((void *)(local_40 + -0xc));\n }" ({ "{") (expression_statement "free((void *)(local_40 + -0xc));" (call_expression "free((void *)(local_40 + -0xc))" (identifier "free") (argument_list "((void *)(local_40 + -0xc))" (( "(") (cast_expression "(void *)(local_40 + -0xc)" (( "(") (type_descriptor "void *" (primitive_type "void") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(local_40 + -0xc)" (( "(") (binary_expression "local_40 + -0xc" (identifier "local_40") (+ "+") (number_literal "-0xc")) () ")"))) () ")"))) (; ";")) (} "}"))) (} "}"))) (} "}")) (else_clause "else {\n *param_9 = local_44;\n }" (else "else") (compound_statement "{\n *param_9 = local_44;\n }" ({ "{") (expression_statement "*param_9 = local_44;" (assignment_expression "*param_9 = local_44" (pointer_expression "*param_9" (* "*") (identifier "param_9")) (= "=") (identifier "local_44")) (; ";")) (} "}")))) (expression_statement "*param_1 = local_50;" (assignment_expression "*param_1 = local_50" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (= "=") (identifier "local_50")) (; ";")) (expression_statement "param_1[1] = local_4c;" (assignment_expression "param_1[1] = local_4c" (subscript_expression "param_1[1]" (identifier "param_1") ([ "[") (number_literal "1") (] "]")) (= "=") (identifier "local_4c")) (; ";")) (if_statement "if (local_24 != (code *)0x0) {\n (*local_24)(&local_3c);\n }" (if "if") (parenthesized_expression "(local_24 != (code *)0x0)" (( "(") (binary_expression "local_24 != (code *)0x0" (identifier "local_24") (!= "!=") (cast_expression "(code *)0x0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n (*local_24)(&local_3c);\n }" ({ "{") (expression_statement "(*local_24)(&local_3c);" (call_expression "(*local_24)(&local_3c)" (parenthesized_expression "(*local_24)" (( "(") (pointer_expression "*local_24" (* "*") (identifier "local_24")) () ")")) (argument_list "(&local_3c)" (( "(") (pointer_expression "&local_3c" (& "&") (identifier "local_3c")) () ")"))) (; ";")) (} "}"))) (return_statement "return param_1;" (return "return") (identifier "param_1") (; ";")) (} "}")))
|
/* std::__facet_shims::(anonymous
namespace)::money_get_shim<char>::do_get(std::istreambuf_iterator<char, std::char_traits<char> >,
std::istreambuf_iterator<char, std::char_traits<char> >, bool, std::ios_base&,
std::_Ios_Iostate&, std::string&) const */
var_2 *
std::__facet_shims::(anonymous_namespace)::money_get_shim<var_10>::var_1
(var_2 *var_3,var_4 var_11,var_2 param_3,var_2 param_4,var_2 param_5,
var_2 param_6,undefined1 param_7,var_2 param_8,var_4 *var_5,var_6 *var_7)
{
var_2 *puVar1;
int var_18;
var_2 local_58;
var_2 uStack_54;
var_2 local_50;
var_2 local_4c;
type_1 aaStack_48 [4];
int var_12;
int var_17;
char *local_3c;
type_2 local_38;
type_3 *var_13;
var_13 = (type_3 *)0x0;
var_12 = 0;
var_18 = var_8 + 0x219404;
local_50 = param_3;
local_4c = param_4;
var_9<var_10>(&local_58,0,*(var_2 *)(var_11 + 8),param_3,param_4,param_5,param_6,param_7
,param_8,&var_12,0,&local_3c);
local_50 = local_58;
local_4c = uStack_54;
if (var_12 == 0) {
if (var_13 == (type_3 *)0x0) {
/* WARNING: Subroutine does not return */
var_14(&UNK_002194e8 + var_15);
}
std::string::var_6((var_6 *)&var_17,local_3c,local_38,aaStack_48);
std::string::var_16(var_7,(var_6 *)&var_17);
if ((type_1 *)(var_17 + -0xc) != *(type_1 **)(var_18 + var_19)) {
if (*(int *)(var_18 + var_20) == 0) {
var_18 = *(int *)(var_17 + -4);
*(int *)(var_17 + -4) = var_18 + -1;
}
else {
var_18 = var_21(var_17 + -4,0xffffffff);
}
if (var_18 < 1) {
puVar1 = (var_2 *)std::string::_Rep::var_22((type_1 *)(var_17 + -0xc));
return puVar1;
}
}
}
else {
*var_5 = var_12;
}
*var_3 = local_50;
var_3[1] = local_4c;
if (var_13 != (type_3 *)0x0) {
(*var_13)(&local_3c);
}
return var_3;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (number_literal) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) (identifier) (identifier) (identifier) (identifier) (identifier) (identifier) (pointer_expression argument: (identifier)) (number_literal) (pointer_expression argument: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (pointer_expression argument: (identifier)) right: (identifier))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (identifier) (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (pointer_expression argument: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (number_literal)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (pointer_expression argument: (identifier))))))) (return_statement (identifier)))))
|
undefined4 *
MASKED(undefined4 *param_1,int param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,undefined1 param_7,undefined4 param_8,int *param_9
,undefined4 param_10)
{
int iVar1;
undefined4 local_58;
undefined4 uStack_54;
undefined4 local_50;
undefined4 local_4c;
undefined1 auStack_48 [4];
int local_44;
int local_40;
undefined4 local_3c;
undefined4 local_38;
code *local_24;
local_24 = (code *)0x0;
local_44 = 0;
iVar1 = DAT_00219524 + 0x219404;
local_50 = param_3;
local_4c = param_4;
FUN_00215584(&local_58,0,*(undefined4 *)(param_2 + 8),param_3,param_4,param_5,param_6,param_7,
param_8,&local_44,0,&local_3c);
local_50 = local_58;
local_4c = uStack_54;
if (local_44 == 0) {
if (local_24 == (code *)0x0) {
/* WARNING: Subroutine does not return */
FUN_0021d7e8(&UNK_002194e8 + DAT_00219530);
}
FUN_00210b40(&local_40,local_3c,local_38,auStack_48);
FUN_0020e3b8(param_10,&local_40);
if ((void *)(local_40 + -0xc) != *(void **)(iVar1 + DAT_00219528)) {
if (*(int *)(iVar1 + DAT_0021952c) == 0) {
iVar1 = *(int *)(local_40 + -4);
*(int *)(local_40 + -4) = iVar1 + -1;
}
else {
iVar1 = FUN_0026af80(local_40 + -4,0xffffffff);
}
if (iVar1 < 1) {
free((void *)(local_40 + -0xc));
}
}
}
else {
*param_9 = local_44;
}
*param_1 = local_50;
param_1[1] = local_4c;
if (local_24 != (code *)0x0) {
(*local_24)(&local_3c);
}
return param_1;
}
| 85,305 |
||
498_libMagickWand-7.Q16HDRI.so.8.0_and_libMagickWand-7.Q16HDRI.so.8.0_strip.c
|
IsPathAccessible
|
IsPathAccessible
|
void IsPathAccessible(void)
{
(*(code *)PTR_IsPathAccessible_0012c8b8)();
return;
}
|
void IsPathAccessible(void)
{
(*(code *)PTR_IsPathAccessible_0012c8b8)();
return;
}
|
adr r12,0x11df50
add r12,r12,#0xe000
ldr pc,[r12,#0x968]!
| null | null | null | null |
[(u'CAST_-1205936203', u'CALLIND_-1205936277'), (u'INDIRECT_-1205936208', u'COPY_-1205936267'), ('const-0', u'RETURN_-1205936274'), (u'CALLIND_-1205936277', u'INDIRECT_-1205936208'), ('tmp_113', u'CAST_-1205936203')]
|
[(u'CAST_-1205936203', u'CALLIND_-1205936277'), (u'INDIRECT_-1205936208', u'COPY_-1205936267'), ('const-0', u'RETURN_-1205936274'), (u'CALLIND_-1205936277', u'INDIRECT_-1205936208'), ('tmp_113', u'CAST_-1205936203')]
| null | null |
0001df48
|
arm
|
O2
|
(translation_unit "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}\n\n" (function_definition "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" primitive_type (function_declarator "IsPathAccessible(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" { (expression_statement "(*(code *)PTR_IsPathAccessible_0012c8b8)();" (call_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)()" (parenthesized_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)" ( (pointer_expression "*(code *)PTR_IsPathAccessible_0012c8b8" * (cast_expression "(code *)PTR_IsPathAccessible_0012c8b8" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}\n\n" (function_definition "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" primitive_type (function_declarator "IsPathAccessible(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" { (expression_statement "(*(code *)PTR_IsPathAccessible_0012c8b8)();" (call_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)()" (parenthesized_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)" ( (pointer_expression "*(code *)PTR_IsPathAccessible_0012c8b8" * (cast_expression "(code *)PTR_IsPathAccessible_0012c8b8" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}\n\n" (function_definition "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" primitive_type (function_declarator "IsPathAccessible(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" { (expression_statement "(*(code *)PTR_IsPathAccessible_0012c8b8)();" (call_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)()" (parenthesized_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)" ( (pointer_expression "*(code *)PTR_IsPathAccessible_0012c8b8" * (cast_expression "(code *)PTR_IsPathAccessible_0012c8b8" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void IsPathAccessible(void)\n\n{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" (primitive_type "void") (function_declarator "IsPathAccessible(void)" (identifier "IsPathAccessible") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_IsPathAccessible_0012c8b8)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_IsPathAccessible_0012c8b8)();" (call_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)()" (parenthesized_expression "(*(code *)PTR_IsPathAccessible_0012c8b8)" (( "(") (pointer_expression "*(code *)PTR_IsPathAccessible_0012c8b8" (* "*") (cast_expression "(code *)PTR_IsPathAccessible_0012c8b8" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_IsPathAccessible_0012c8b8"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_IsPathAccessible_0012c8b8)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_0012c8b8)();
return;
}
| 53,707 |
||
2392_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
add_absolute
|
FUN_0011d334
|
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* DWARF original prototype: void add_absolute(Output_data_reloc<4,_true,_64,_true> * this, uint
type, Output_data * od, Sized_relobj<64,_true> * relobj, uint shndx, Address address, Addend
addend) */
void __thiscall
gold::Output_data_reloc<4,_true,_64,_true>::add_absolute
(Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,
Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)
{
Output_reloc_type OStack_40;
Output_reloc<9,_true,_64,_true>::Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false);
OStack_40.addend_ = addend;
Output_data_reloc_base<4,_true,_64,_true>::add
(&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40);
return;
}
|
void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,
undefined4 param_9,undefined4 param_10)
{
undefined1 auStack_40 [32];
undefined4 local_20;
undefined4 uStack_1c;
FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);
local_20 = param_9;
uStack_1c = param_10;
FUN_0011c94c(param_1,param_3,auStack_40);
return;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
sub sp,sp,#0x38
ldrd r6,r7,[sp,#0x58]
mov r12,#0x0
add r4,sp,#0x10
cpy r5,r0
cpy r8,r2
strd r6,r7,[sp,#0x0]
cpy r2,r3
str r12,[sp,#0x8]
ldrd r6,r7,[sp,#0x60]
ldr r3,[sp,#0x50]
cpy r0,r4
bl 0x000f80e4
cpy r2,r4
cpy r1,r8
cpy r0,r5
strd r6,r7,[sp,#0x30]
bl 0x0011c94c
add sp,sp,#0x38
ldmia sp!,{r4,r5,r6,r7,r8,pc}
| null | null | null | null |
[('const-4294967232', u'PTRSUB_-1206987690'), (u'INDIRECT_-1206987640', u'SUBPIECE_-1206987656'), (u'PTRSUB_-1206987652', u'CALL_-1206987849'), ('const-0', u'PTRSUB_-1206987652'), ('const-0', u'CALL_-1206987849'), (u'PTRSUB_-1206987690', u'PTRSUB_-1206987652'), ('tmp_459', u'PTRSUB_-1206987690'), ('tmp_329', u'CALL_-1206987849'), ('tmp_324', u'PTRSUB_-1206987631'), ('tmp_325', u'CALL_-1206987849'), ('const-0', u'RETURN_-1206987777'), (u'PTRSUB_-1206987631', u'CALL_-1206987819'), ('const-4', u'SUBPIECE_-1206987656'), (u'CALL_-1206987819', u'INDIRECT_-1206987640'), (u'INDIRECT_-1206987640', u'SUBPIECE_-1206987658'), ('tmp_327', u'CALL_-1206987849'), ('tmp_326', u'CALL_-1206987819'), ('tmp_330', u'COPY_-1206987698'), (u'PTRSUB_-1206987690', u'CALL_-1206987819'), ('const-0', u'SUBPIECE_-1206987658'), ('tmp_328', u'CALL_-1206987849'), ('const-0', u'PTRSUB_-1206987631')]
|
[('tmp_679', u'COPY_-1206987833'), ('const-4294967232', u'PTRSUB_-1206987703'), (u'PTRSUB_-1206987703', u'CALL_-1206987849'), ('const-0', u'RETURN_-1206987777'), ('const-0', u'CALL_-1206987849'), ('tmp_463', u'CALL_-1206987849'), ('tmp_462', u'CALL_-1206987819'), (u'CALL_-1206987819', u'INDIRECT_-1206987667'), ('tmp_452', u'PTRSUB_-1206987703'), ('tmp_467', u'CALL_-1206987849'), ('tmp_677', u'CALL_-1206987849'), ('tmp_680', u'COPY_-1206987831'), (u'PTRSUB_-1206987703', u'CALL_-1206987819'), ('tmp_681', u'CALL_-1206987849'), (u'CALL_-1206987819', u'INDIRECT_-1206987665'), ('tmp_461', u'CALL_-1206987819'), ('tmp_678', u'CALL_-1206987849')]
| null | null |
0011d334
|
arm
|
O2
|
(translation_unit "void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)\n\n{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}\n\n" (function_definition "void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)\n\n{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" primitive_type (function_declarator "FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined4 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "undefined4 param_9" type_identifier identifier) , (parameter_declaration "undefined4 param_10" type_identifier identifier) ))) (compound_statement "{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" { (declaration "undefined1 auStack_40 [32];" type_identifier (array_declarator "auStack_40 [32]" identifier [ number_literal ]) ;) (declaration "undefined4 local_20;" type_identifier identifier ;) (declaration "undefined4 uStack_1c;" type_identifier identifier ;) (expression_statement "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);" (call_expression "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" identifier (argument_list "(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" ( identifier , identifier , identifier , identifier , identifier , identifier , number_literal ))) ;) (expression_statement "local_20 = param_9;" (assignment_expression "local_20 = param_9" identifier = identifier) ;) (expression_statement "uStack_1c = param_10;" (assignment_expression "uStack_1c = param_10" identifier = identifier) ;) (expression_statement "FUN_0011c94c(param_1,param_3,auStack_40);" (call_expression "FUN_0011c94c(param_1,param_3,auStack_40)" identifier (argument_list "(param_1,param_3,auStack_40)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */\n/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */\n/* DWARF original prototype: void add_absolute(Output_data_reloc<4,_true,_64,_true> * this, uint\n type, Output_data * od, Sized_relobj<64,_true> * relobj, uint shndx, Address address, Addend\n addend) */\n\nvoid __thiscall\ngold::Output_data_reloc<4,_true,_64,_true>::add_absolute\n (Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,\n Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)\n\n{\n Output_reloc_type OStack_40;\n \n Output_reloc<9,_true,_64,_true>::Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false);\n OStack_40.addend_ = addend;\n Output_data_reloc_base<4,_true,_64,_true>::add\n (&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40);\n return;\n}\n\n" comment comment comment (declaration "void __thiscall\ngold::Output_data_reloc<4,_true,_64,_true>::add_absolute\n (Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,\n Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)\n\n{\n Output_reloc_type OStack_40;" primitive_type (ms_call_modifier "__thiscall" __thiscall) (ERROR "gold::" identifier : :) identifier (ERROR "<4" < number_literal) , identifier , identifier , (ERROR "_true>::add_absolute\n (Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,\n Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)\n\n{\n Output_reloc_type" identifier > : : (function_declarator "add_absolute\n (Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,\n Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)" identifier (parameter_list "(Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,\n Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)" ( (parameter_declaration "Output_data_reloc" type_identifier) (ERROR "<4" < number_literal) , (parameter_declaration "_true" type_identifier) , (parameter_declaration "_64" type_identifier) , (parameter_declaration "_true> *this" type_identifier (ERROR ">" >) (pointer_declarator "*this" * identifier)) , (parameter_declaration "uint type" type_identifier identifier) , (parameter_declaration "Output_data *od" type_identifier (pointer_declarator "*od" * identifier)) , (parameter_declaration "Sized_relobj" type_identifier) (ERROR "<64" < number_literal) , (parameter_declaration "_true> *relobj" type_identifier (ERROR ">" >) (pointer_declarator "*relobj" * identifier)) , (parameter_declaration "uint shndx" type_identifier identifier) , (parameter_declaration "Address address" type_identifier identifier) , (parameter_declaration "Addend addend" type_identifier identifier) ))) { identifier) identifier ;) (expression_statement "Output_reloc<9,_true,_64,_true>::Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false);" (update_expression "Output_reloc<9,_true,_64,_true>::Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false)" (binary_expression "Output_reloc<9,_true,_64,_true>::Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false)" (binary_expression "Output_reloc<9" identifier < number_literal) (ERROR ",_true,_64,_true" , identifier , identifier , identifier) > (ERROR "::" : :) (call_expression "Output_reloc(&OStack_40.rel_,type,relobj,shndx,address,false)" identifier (argument_list "(&OStack_40.rel_,type,relobj,shndx,address,false)" ( (pointer_expression "&OStack_40.rel_" & (field_expression "OStack_40.rel_" identifier . field_identifier)) , identifier , identifier , identifier , identifier , false )))) --) ;) (expression_statement "OStack_40.addend_ = addend;" (assignment_expression "OStack_40.addend_ = addend" (field_expression "OStack_40.addend_" identifier . field_identifier) = identifier) ;) (expression_statement "Output_data_reloc_base<4,_true,_64,_true>::add\n (&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40);" (update_expression "Output_data_reloc_base<4,_true,_64,_true>::add\n (&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40)" (binary_expression "Output_data_reloc_base<4,_true,_64,_true>::add\n (&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40)" (binary_expression "Output_data_reloc_base<4" identifier < number_literal) (ERROR ",_true,_64,_true" , identifier , identifier , identifier) > (ERROR "::" : :) (call_expression "add\n (&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40)" identifier (argument_list "(&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40)" ( (binary_expression "&this->super_Output_data_reloc_base<4" (pointer_expression "&this->super_Output_data_reloc_base" & (field_expression "this->super_Output_data_reloc_base" identifier -> field_identifier)) < number_literal) , identifier , identifier , identifier (ERROR ">" >) , identifier , (pointer_expression "&OStack_40" & identifier) )))) --) ;) (return_statement "return;" return ;) (ERROR "}" }))
|
(translation_unit "void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)\n\n{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}\n\n" (function_definition "void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)\n\n{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" primitive_type (function_declarator "FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "undefined4 param_3" type_identifier identifier) , (parameter_declaration "undefined4 param_4" type_identifier identifier) , (parameter_declaration "undefined4 param_5" type_identifier identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined4 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "undefined4 param_9" type_identifier identifier) , (parameter_declaration "undefined4 param_10" type_identifier identifier) ))) (compound_statement "{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" { (declaration "undefined1 auStack_40 [32];" type_identifier (array_declarator "auStack_40 [32]" identifier [ number_literal ]) ;) (declaration "undefined4 local_20;" type_identifier identifier ;) (declaration "undefined4 uStack_1c;" type_identifier identifier ;) (expression_statement "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);" (call_expression "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" identifier (argument_list "(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" ( identifier , identifier , identifier , identifier , identifier , identifier , number_literal ))) ;) (expression_statement "local_20 = param_9;" (assignment_expression "local_20 = param_9" identifier = identifier) ;) (expression_statement "uStack_1c = param_10;" (assignment_expression "uStack_1c = param_10" identifier = identifier) ;) (expression_statement "FUN_0011c94c(param_1,param_3,auStack_40);" (call_expression "FUN_0011c94c(param_1,param_3,auStack_40)" identifier (argument_list "(param_1,param_3,auStack_40)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT , IDENT , IDENT , LIT ))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)\n\n{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" (primitive_type "void") (function_declarator "FUN_0011d334(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" (identifier "FUN_0011d334") (parameter_list "(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,\n undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,\n undefined4 param_9,undefined4 param_10)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "undefined4 param_3" (type_identifier "undefined4") (identifier "param_3")) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) (, ",") (parameter_declaration "undefined4 param_5" (type_identifier "undefined4") (identifier "param_5")) (, ",") (parameter_declaration "undefined4 param_6" (type_identifier "undefined4") (identifier "param_6")) (, ",") (parameter_declaration "undefined4 param_7" (type_identifier "undefined4") (identifier "param_7")) (, ",") (parameter_declaration "undefined4 param_8" (type_identifier "undefined4") (identifier "param_8")) (, ",") (parameter_declaration "undefined4 param_9" (type_identifier "undefined4") (identifier "param_9")) (, ",") (parameter_declaration "undefined4 param_10" (type_identifier "undefined4") (identifier "param_10")) () ")"))) (compound_statement "{\n undefined1 auStack_40 [32];\n undefined4 local_20;\n undefined4 uStack_1c;\n \n FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);\n local_20 = param_9;\n uStack_1c = param_10;\n FUN_0011c94c(param_1,param_3,auStack_40);\n return;\n}" ({ "{") (declaration "undefined1 auStack_40 [32];" (type_identifier "undefined1") (array_declarator "auStack_40 [32]" (identifier "auStack_40") ([ "[") (number_literal "32") (] "]")) (; ";")) (declaration "undefined4 local_20;" (type_identifier "undefined4") (identifier "local_20") (; ";")) (declaration "undefined4 uStack_1c;" (type_identifier "undefined4") (identifier "uStack_1c") (; ";")) (expression_statement "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);" (call_expression "FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" (identifier "FUN_000f80e4") (argument_list "(auStack_40,param_2,param_4,param_5,param_7,param_8,0)" (( "(") (identifier "auStack_40") (, ",") (identifier "param_2") (, ",") (identifier "param_4") (, ",") (identifier "param_5") (, ",") (identifier "param_7") (, ",") (identifier "param_8") (, ",") (number_literal "0") () ")"))) (; ";")) (expression_statement "local_20 = param_9;" (assignment_expression "local_20 = param_9" (identifier "local_20") (= "=") (identifier "param_9")) (; ";")) (expression_statement "uStack_1c = param_10;" (assignment_expression "uStack_1c = param_10" (identifier "uStack_1c") (= "=") (identifier "param_10")) (; ";")) (expression_statement "FUN_0011c94c(param_1,param_3,auStack_40);" (call_expression "FUN_0011c94c(param_1,param_3,auStack_40)" (identifier "FUN_0011c94c") (argument_list "(param_1,param_3,auStack_40)" (( "(") (identifier "param_1") (, ",") (identifier "param_3") (, ",") (identifier "auStack_40") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* DWARF original prototype: void add_absolute(Output_data_reloc<4,_true,_64,_true> * this, uint
type, Output_data * od, Sized_relobj<64,_true> * relobj, uint shndx, Address address, Addend
addend) */
void __thiscall
gold::Output_data_reloc<4,_true,_64,_true>::add_absolute
(Output_data_reloc<4,_true,_64,_true> *this,uint type,Output_data *od,
Sized_relobj<64,_true> *relobj,uint shndx,Address address,Addend addend)
{
Output_reloc_type OStack_40;
var_1<9,_true,_64,_true>::var_1(&OStack_40.rel_,type,relobj,shndx,address,false);
OStack_40.addend_ = addend;
var_2<4,_true,_64,_true>::var_3
(&this->super_Output_data_reloc_base<4,_true,_64,_true>,od,&OStack_40);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier) (identifier) (identifier) (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (return_statement))))
|
void MASKED(undefined4 param_1,undefined4 param_2,undefined4 param_3,undefined4 param_4,
undefined4 param_5,undefined4 param_6,undefined4 param_7,undefined4 param_8,
undefined4 param_9,undefined4 param_10)
{
undefined1 auStack_40 [32];
undefined4 local_20;
undefined4 uStack_1c;
FUN_000f80e4(auStack_40,param_2,param_4,param_5,param_7,param_8,0);
local_20 = param_9;
uStack_1c = param_10;
FUN_0011c94c(param_1,param_3,auStack_40);
return;
}
| 83,104 |
||
201_cflow_and_cflow_strip.c
|
wsnode_nullelim
|
FUN_0001d8b0
|
void wsnode_nullelim(wordsplit *wsp)
{
wordsplit_node *p;
wordsplit_node *pwVar1;
wordsplit_node *pwVar2;
uint uVar3;
wordsplit_node *pwVar4;
p = wsp->ws_head;
if (p == (wordsplit_node *)0x0) {
return;
}
do {
uVar3 = p->flags;
pwVar4 = p->next;
if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {
pwVar1->flags = pwVar1->flags & 0xffffffef;
uVar3 = p->flags;
}
if ((uVar3 & 1) != 0) {
pwVar1 = p->prev;
if (pwVar1 == (wordsplit_node *)0x0) {
wsp->ws_head = pwVar4;
pwVar2 = p->next;
if (pwVar2 == (wordsplit_node *)0x0) {
wsp->ws_tail = (wordsplit_node *)0x0;
}
else {
LAB_0001d8dc:
pwVar2->prev = pwVar1;
}
}
else {
pwVar1->next = pwVar4;
pwVar2 = p->next;
if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;
pwVar1->flags = pwVar1->flags & 0xffffffef;
wsp->ws_tail = pwVar1;
}
p->prev = (wordsplit_node *)0x0;
p->next = (wordsplit_node *)0x0;
wsnode_free(p);
}
p = pwVar4;
if (pwVar4 == (wordsplit_node *)0x0) {
return;
}
} while( true );
}
|
void FUN_0001d8b0(int param_1)
{
int *piVar1;
int iVar2;
int *piVar3;
uint uVar4;
int *piVar5;
piVar1 = *(int **)(param_1 + 0x6c);
if (piVar1 == (int *)0x0) {
return;
}
do {
uVar4 = piVar1[2];
piVar5 = (int *)piVar1[1];
if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {
*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;
uVar4 = piVar1[2];
}
if ((uVar4 & 1) != 0) {
iVar2 = *piVar1;
if (iVar2 == 0) {
*(int **)(param_1 + 0x6c) = piVar5;
piVar3 = (int *)piVar1[1];
if (piVar3 == (int *)0x0) {
*(undefined4 *)(param_1 + 0x70) = 0;
}
else {
LAB_0001d8dc:
*piVar3 = iVar2;
}
}
else {
*(int **)(iVar2 + 4) = piVar5;
piVar3 = (int *)piVar1[1];
if (piVar3 != (int *)0x0) goto LAB_0001d8dc;
*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;
*(int *)(param_1 + 0x70) = iVar2;
}
*piVar1 = 0;
piVar1[1] = 0;
FUN_0001d87c();
}
piVar1 = piVar5;
if (piVar5 == (int *)0x0) {
return;
}
} while( true );
}
|
stmdb sp!,{r4,r5,r6,lr}
cpy r5,r0
ldr r0,[r0,#0x6c]
cmp r0,#0x0
ldmiaeq sp!,{r4,r5,r6,pc}
mov r6,#0x0
b 0x0001d8f4
str r4,[r3,#0x4]
ldr r2,[r0,#0x4]
cmp r2,#0x0
beq 0x0001d948
str r3,[r2,#0x0]
str r6,[r0,#0x0]
str r6,[r0,#0x4]
bl 0x0001d87c
subs r0,r4,#0x0
ldmiaeq sp!,{r4,r5,r6,pc}
ldr r3,[r0,#0x8]
ldr r4,[r0,#0x4]
tst r3,#0x40
beq 0x0001d91c
ldr r2,[r0,#0x0]
cmp r2,#0x0
ldrne r3,[r2,#0x8]
bicne r3,r3,#0x10
strne r3,[r2,#0x8]
ldrne r3,[r0,#0x8]
tst r3,#0x1
beq 0x0001d8ec
ldr r3,[r0,#0x0]
cmp r3,#0x0
bne 0x0001d8cc
str r4,[r5,#0x6c]
ldr r2,[r0,#0x4]
cmp r2,#0x0
bne 0x0001d8dc
str r3,[r5,#0x70]
b 0x0001d8e0
ldr r2,[r3,#0x8]
bic r2,r2,#0x10
str r2,[r3,#0x8]
str r3,[r5,#0x70]
b 0x0001d8e0
| null | null | null | null |
[(u'LOAD_-1205937864', u'STORE_-1205937702'), ('const-0', u'STORE_-1205937664'), (u'MULTIEQUAL_-1205937485', u'INT_AND_-1205937729'), ('tmp_736', u'PTRSUB_-1205937335'), ('tmp_386', u'CBRANCH_-1205937738'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937348'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937400'), ('const-0', u'INT_NOTEQUAL_-1205937705'), (u'PTRSUB_-1205937440', u'LOAD_-1205937731'), ('const-64', u'INT_AND_-1205937827'), (u'INT_NOTEQUAL_-1205937807', u'CBRANCH_-1205937803'), (u'INT_AND_-1205937827', u'INT_NOTEQUAL_-1205937838'), (u'LOAD_-1205937697', u'MULTIEQUAL_-1205937553'), ('const-417', u'STORE_-1205937702'), ('const-8', u'PTRSUB_-1205937299'), (u'PTRSUB_-1205937400', u'LOAD_-1205937870'), (u'PTRSUB_-1205937299', u'STORE_-1205937568'), (u'LOAD_-1205937864', u'COPY_-1205937456'), (u'PTRSUB_-1205937294', u'STORE_-1205937562'), ('const-0', u'PTRSUB_-1205937382'), ('const-108', u'PTRSUB_-1205937466'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937382'), ('const-417', u'STORE_-1205937757'), (u'PTRSUB_-1205937356', u'STORE_-1205937774'), ('const-0', u'STORE_-1205937757'), (u'LOAD_-1205937864', u'INT_EQUAL_-1205937721'), ('const-8', u'PTRSUB_-1205937356'), ('const-4', u'PTRSUB_-1205937440'), ('tmp_84', u'CBRANCH_-1205937949'), (u'PTRSUB_-1205937348', u'LOAD_-1205937735'), ('const-4294967279', u'INT_AND_-1205937763'), ('const-0', u'INT_EQUAL_-1205937721'), ('const-417', u'STORE_-1205937722'), ('const-112', u'PTRSUB_-1205937294'), (u'LOAD_-1205937766', u'MULTIEQUAL_-1205937485'), ('const-417', u'STORE_-1205937751'), ('const-417', u'STORE_-1205937568'), ('const-8', u'PTRSUB_-1205937400'), (u'PTRSUB_-1205937317', u'STORE_-1205937664'), ('tmp_508', u'BRANCH_-1205937658'), ('const-4', u'PTRSUB_-1205937445'), (u'LOAD_-1205937870', u'INT_AND_-1205937827'), ('const-8', u'PTRSUB_-1205937308'), ('const-417', u'LOAD_-1205937978'), ('const-0', u'PTRSUB_-1205937422'), (u'INT_AND_-1205937554', u'STORE_-1205937568'), (u'COPY_-1205937456', u'MULTIEQUAL_-1205937533'), (u'PTRSUB_-1205937335', u'STORE_-1205937702'), (u'INT_EQUAL_-1205937672', u'CBRANCH_-1205937668'), (u'LOAD_-1205937592', u'INT_AND_-1205937554'), ('const-0', u'INT_NOTEQUAL_-1205937807'), ('tmp_440', u'CBRANCH_-1205937706'), ('const-417', u'STORE_-1205937774'), (u'PTRSUB_-1205937395', u'LOAD_-1205937864'), (u'LOAD_-1205937731', u'INT_NOTEQUAL_-1205937705'), (u'LOAD_-1205937978', u'MULTIEQUAL_-1205937533'), ('tmp_214', u'CBRANCH_-1205937836'), (u'PTRSUB_-1205937466', u'LOAD_-1205937978'), (u'INT_EQUAL_-1205937710', u'CBRANCH_-1205937706'), ('const-417', u'LOAD_-1205937592'), (u'PTRSUB_-1205937427', u'STORE_-1205937722'), (u'LOAD_-1205937735', u'STORE_-1205937562'), ('tmp_731', u'BRANCH_-1205937556'), (u'PTRSUB_-1205937422', u'STORE_-1205937757'), ('const-417', u'STORE_-1205937562'), ('const-4', u'PTRSUB_-1205937417'), (u'LOAD_-1205937833', u'PTRSUB_-1205937365'), (u'LOAD_-1205937735', u'INT_EQUAL_-1205937710'), ('const-417', u'STORE_-1205937736'), ('const-1', u'INT_AND_-1205937729'), ('tmp_571', u'CBRANCH_-1205937717'), (u'LOAD_-1205937731', u'MULTIEQUAL_-1205937553'), ('const-417', u'LOAD_-1205937833'), ('const-4294967279', u'INT_AND_-1205937554'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937361'), (u'INT_NOTEQUAL_-1205937740', u'CBRANCH_-1205937738'), ('tmp_736', u'PTRSUB_-1205937294'), ('const-0', u'INT_EQUAL_-1205937710'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937330'), (u'LOAD_-1205937735', u'PTRSUB_-1205937445'), (u'LOAD_-1205937735', u'STORE_-1205937722'), (u'LOAD_-1205937833', u'PTRSUB_-1205937356'), (u'MULTIEQUAL_-1205937553', u'PTRSUB_-1205937427'), ('tmp_270', u'CBRANCH_-1205937803'), ('const-0', u'INT_NOTEQUAL_-1205937838'), ('const-417', u'LOAD_-1205937766'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937395'), ('const-417', u'LOAD_-1205937804'), ('const-0', u'INT_EQUAL_-1205937672'), ('tmp_500', u'CBRANCH_-1205937668'), ('tmp_736', u'PTRSUB_-1205937317'), ('const-108', u'PTRSUB_-1205937335'), ('const-417', u'LOAD_-1205937870'), (u'LOAD_-1205937833', u'INT_NOTEQUAL_-1205937807'), (u'LOAD_-1205937870', u'MULTIEQUAL_-1205937485'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937440'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937417'), ('const-417', u'LOAD_-1205937697'), ('const-0', u'INT_EQUAL_-1205937953'), (u'INT_NOTEQUAL_-1205937705', u'CBRANCH_-1205937703'), ('const-8', u'PTRSUB_-1205937361'), (u'LOAD_-1205937864', u'STORE_-1205937736'), ('const-417', u'LOAD_-1205937731'), ('const-4', u'PTRSUB_-1205937395'), ('const-417', u'LOAD_-1205937735'), ('const-112', u'PTRSUB_-1205937317'), ('tmp_736', u'PTRSUB_-1205937466'), ('const-8', u'PTRSUB_-1205937365'), (u'LOAD_-1205937735', u'PTRSUB_-1205937299'), (u'PTRSUB_-1205937361', u'LOAD_-1205937766'), (u'LOAD_-1205937697', u'INT_EQUAL_-1205937672'), (u'INT_NOTEQUAL_-1205937838', u'CBRANCH_-1205937836'), ('tmp_675', u'CBRANCH_-1205937703'), (u'MULTIEQUAL_-1205937533', u'PTRSUB_-1205937422'), (u'PTRSUB_-1205937417', u'STORE_-1205937751'), (u'MULTIEQUAL_-1205937533', u'CALL_-1205937741'), (u'INT_AND_-1205937729', u'INT_NOTEQUAL_-1205937740'), (u'LOAD_-1205937735', u'PTRSUB_-1205937308'), (u'PTRSUB_-1205937382', u'LOAD_-1205937833'), (u'INT_AND_-1205937763', u'STORE_-1205937774'), ('const-417', u'STORE_-1205937664'), ('const-0', u'PTRSUB_-1205937427'), (u'LOAD_-1205937978', u'INT_EQUAL_-1205937953'), ('const-417', u'LOAD_-1205937864'), (u'PTRSUB_-1205937365', u'LOAD_-1205937804'), (u'INT_EQUAL_-1205937721', u'CBRANCH_-1205937717'), (u'PTRSUB_-1205937445', u'STORE_-1205937736'), (u'INT_EQUAL_-1205937953', u'CBRANCH_-1205937949'), (u'LOAD_-1205937804', u'INT_AND_-1205937763'), ('const-0', u'RETURN_-1205937697'), (u'PTRSUB_-1205937308', u'LOAD_-1205937592'), ('const-0', u'STORE_-1205937751'), ('const-0', u'INT_NOTEQUAL_-1205937740'), ('const-0', u'PTRSUB_-1205937348'), (u'PTRSUB_-1205937330', u'LOAD_-1205937697'), ('const-0', u'RETURN_-1205937929'), ('const-4', u'PTRSUB_-1205937330')]
|
[('const-8', u'INT_ADD_-1205937788'), ('const-4294967279', u'INT_AND_-1205937554'), (u'LOAD_-1205937735', u'INT_ADD_-1205937721'), ('const-8', u'INT_ADD_-1205937759'), (u'MULTIEQUAL_-1205937485', u'INT_AND_-1205937729'), (u'LOAD_-1205937697', u'CAST_-1205937327'), ('tmp_1255', u'INT_ADD_-1205937547'), ('const-417', u'LOAD_-1205937833'), (u'CAST_-1205937432', u'MULTIEQUAL_-1205937553'), ('tmp_386', u'CBRANCH_-1205937738'), ('const-0', u'STORE_-1205937751'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937400'), (u'LOAD_-1205937731', u'CAST_-1205937432'), (u'PTRADD_-1205937405', u'LOAD_-1205937870'), ('const-112', u'INT_ADD_-1205937649'), ('const-0', u'INT_EQUAL_-1205937672'), (u'CAST_-1205937396', u'INT_EQUAL_-1205937721'), ('const-64', u'INT_AND_-1205937827'), (u'INT_NOTEQUAL_-1205937807', u'CBRANCH_-1205937803'), (u'INT_AND_-1205937827', u'INT_NOTEQUAL_-1205937838'), ('const-417', u'LOAD_-1205937766'), (u'PTRADD_-1205937400', u'LOAD_-1205937864'), (u'CAST_-1205937375', u'LOAD_-1205937804'), ('const-417', u'LOAD_-1205937804'), ('const-417', u'STORE_-1205937757'), ('const-1', u'PTRADD_-1205937338'), ('const-417', u'STORE_-1205937722'), ('const-2', u'PTRADD_-1205937367'), ('tmp_1255', u'INT_ADD_-1205937962'), (u'INT_ADD_-1205937576', u'CAST_-1205937311'), (u'INT_ADD_-1205937547', u'CAST_-1205937297'), ('const-417', u'LOAD_-1205937870'), ('tmp_84', u'CBRANCH_-1205937949'), ('const-4', u'PTRADD_-1205937443'), ('const-4', u'PTRADD_-1205937422'), ('const-0', u'INT_EQUAL_-1205937721'), ('const-417', u'LOAD_-1205937592'), ('const-4', u'INT_ADD_-1205937721'), (u'MULTIEQUAL_-1205937533', u'STORE_-1205937757'), (u'LOAD_-1205937766', u'MULTIEQUAL_-1205937485'), ('const-417', u'STORE_-1205937736'), ('tmp_508', u'BRANCH_-1205937658'), (u'LOAD_-1205937735', u'INT_ADD_-1205937576'), ('const-1', u'PTRADD_-1205937443'), (u'INT_ADD_-1205937962', u'CAST_-1205937461'), (u'INT_ADD_-1205937721', u'CAST_-1205937437'), (u'LOAD_-1205937870', u'INT_AND_-1205937827'), (u'CAST_-1205937314', u'STORE_-1205937664'), (u'INT_AND_-1205937554', u'STORE_-1205937568'), ('const-0', u'INT_EQUAL_-1205937953'), ('const-108', u'INT_ADD_-1205937687'), ('const-4294967279', u'INT_AND_-1205937763'), (u'INT_EQUAL_-1205937672', u'CBRANCH_-1205937668'), (u'LOAD_-1205937592', u'INT_AND_-1205937554'), ('tmp_440', u'CBRANCH_-1205937706'), ('const-0', u'STORE_-1205937757'), (u'INT_ADD_-1205937687', u'CAST_-1205937332'), (u'LOAD_-1205937978', u'MULTIEQUAL_-1205937533'), ('const-112', u'INT_ADD_-1205937547'), ('tmp_214', u'CBRANCH_-1205937836'), ('const-0', u'INT_NOTEQUAL_-1205937705'), (u'INT_EQUAL_-1205937710', u'CBRANCH_-1205937706'), (u'PTRADD_-1205937443', u'LOAD_-1205937731'), (u'LOAD_-1205937735', u'STORE_-1205937562'), (u'INT_ADD_-1205937788', u'CAST_-1205937375'), ('tmp_731', u'BRANCH_-1205937556'), (u'INT_ADD_-1205937649', u'CAST_-1205937314'), (u'MULTIEQUAL_-1205937533', u'LOAD_-1205937735'), (u'LOAD_-1205937735', u'INT_EQUAL_-1205937710'), ('const-1', u'INT_AND_-1205937729'), ('const-417', u'STORE_-1205937562'), (u'CAST_-1205937302', u'STORE_-1205937568'), ('tmp_571', u'CBRANCH_-1205937717'), ('const-4', u'PTRADD_-1205937367'), ('const-4', u'PTRADD_-1205937338'), (u'INT_NOTEQUAL_-1205937740', u'CBRANCH_-1205937738'), (u'PTRADD_-1205937338', u'LOAD_-1205937697'), (u'PTRADD_-1205937367', u'LOAD_-1205937766'), (u'CAST_-1205937327', u'MULTIEQUAL_-1205937553'), (u'LOAD_-1205937735', u'STORE_-1205937722'), (u'CAST_-1205937437', u'STORE_-1205937736'), ('tmp_270', u'CBRANCH_-1205937803'), ('const-417', u'STORE_-1205937702'), (u'CAST_-1205937396', u'STORE_-1205937702'), ('const-417', u'LOAD_-1205937864'), ('const-0', u'INT_NOTEQUAL_-1205937838'), ('tmp_1255', u'INT_ADD_-1205937649'), ('const-0', u'STORE_-1205937664'), ('const-417', u'LOAD_-1205937735'), ('tmp_500', u'CBRANCH_-1205937668'), ('const-4', u'PTRADD_-1205937400'), ('const-108', u'INT_ADD_-1205937962'), ('const-417', u'LOAD_-1205937697'), (u'LOAD_-1205937833', u'INT_NOTEQUAL_-1205937807'), ('const-4', u'PTRADD_-1205937405'), ('const-417', u'LOAD_-1205937731'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937367'), (u'LOAD_-1205937870', u'MULTIEQUAL_-1205937485'), ('const-417', u'STORE_-1205937568'), ('const-2', u'PTRADD_-1205937405'), (u'LOAD_-1205937864', u'CAST_-1205937396'), ('const-417', u'STORE_-1205937774'), ('const-8', u'INT_ADD_-1205937553'), (u'INT_NOTEQUAL_-1205937705', u'CBRANCH_-1205937703'), ('const-0', u'INT_NOTEQUAL_-1205937807'), (u'INT_NOTEQUAL_-1205937838', u'CBRANCH_-1205937836'), ('tmp_675', u'CBRANCH_-1205937703'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937422'), ('const-417', u'LOAD_-1205937978'), ('const-1', u'PTRADD_-1205937422'), ('const-0', u'INT_EQUAL_-1205937710'), (u'INT_AND_-1205937729', u'INT_NOTEQUAL_-1205937740'), (u'MULTIEQUAL_-1205937553', u'STORE_-1205937722'), ('const-417', u'STORE_-1205937664'), (u'LOAD_-1205937833', u'INT_ADD_-1205937759'), (u'CAST_-1205937432', u'INT_NOTEQUAL_-1205937705'), (u'COPY_-1205937469', u'MULTIEQUAL_-1205937533'), (u'CAST_-1205937396', u'STORE_-1205937736'), (u'LOAD_-1205937735', u'INT_ADD_-1205937553'), (u'INT_AND_-1205937763', u'STORE_-1205937774'), (u'LOAD_-1205937978', u'INT_EQUAL_-1205937953'), (u'INT_ADD_-1205937553', u'CAST_-1205937302'), (u'INT_EQUAL_-1205937721', u'CBRANCH_-1205937717'), (u'PTRADD_-1205937422', u'STORE_-1205937751'), (u'INT_EQUAL_-1205937953', u'CBRANCH_-1205937949'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937405'), (u'MULTIEQUAL_-1205937533', u'LOAD_-1205937833'), (u'LOAD_-1205937804', u'INT_AND_-1205937763'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937338'), ('tmp_1255', u'INT_ADD_-1205937687'), ('const-0', u'RETURN_-1205937697'), (u'CAST_-1205937366', u'STORE_-1205937774'), (u'CAST_-1205937311', u'LOAD_-1205937592'), (u'LOAD_-1205937833', u'INT_ADD_-1205937788'), (u'INT_ADD_-1205937759', u'CAST_-1205937366'), ('const-0', u'INT_NOTEQUAL_-1205937740'), ('const-417', u'STORE_-1205937751'), (u'CAST_-1205937297', u'STORE_-1205937562'), (u'CAST_-1205937327', u'INT_EQUAL_-1205937672'), (u'CAST_-1205937461', u'LOAD_-1205937978'), ('const-0', u'RETURN_-1205937929'), (u'CAST_-1205937396', u'COPY_-1205937469'), ('const-8', u'INT_ADD_-1205937576'), (u'MULTIEQUAL_-1205937533', u'PTRADD_-1205937443'), (u'CAST_-1205937332', u'STORE_-1205937702'), ('const-1', u'PTRADD_-1205937400')]
| null | null |
0001d8b0
|
arm
|
O2
|
(translation_unit "void FUN_0001d8b0(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}\n\n" (function_definition "void FUN_0001d8b0(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" primitive_type (function_declarator "FUN_0001d8b0(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "int *piVar5;" primitive_type (pointer_declarator "*piVar5" * identifier) ;) (expression_statement "piVar1 = *(int **)(param_1 + 0x6c);" (assignment_expression "piVar1 = *(int **)(param_1 + 0x6c)" identifier = (pointer_expression "*(int **)(param_1 + 0x6c)" * (cast_expression "(int **)(param_1 + 0x6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x6c)" ( (binary_expression "param_1 + 0x6c" identifier + number_literal) ))))) ;) (if_statement "if (piVar1 == (int *)0x0) {\n return;\n }" if (parenthesized_expression "(piVar1 == (int *)0x0)" ( (binary_expression "piVar1 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (do_statement "do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );" do (compound_statement "{\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n }" { (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" identifier = (subscript_expression "piVar1[2]" identifier [ number_literal ])) ;) (expression_statement "piVar5 = (int *)piVar1[1];" (assignment_expression "piVar5 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" if (parenthesized_expression "(((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0))" ( (binary_expression "((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)" (parenthesized_expression "((uVar4 & 0x40) != 0)" ( (binary_expression "(uVar4 & 0x40) != 0" (parenthesized_expression "(uVar4 & 0x40)" ( (binary_expression "uVar4 & 0x40" identifier & number_literal) )) != number_literal) )) && (parenthesized_expression "(iVar2 = *piVar1, iVar2 != 0)" ( (comma_expression "iVar2 = *piVar1, iVar2 != 0" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) , (binary_expression "iVar2 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" { (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" identifier = (subscript_expression "piVar1[2]" identifier [ number_literal ])) ;) })) (if_statement "if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" if (parenthesized_expression "((uVar4 & 1) != 0)" ( (binary_expression "(uVar4 & 1) != 0" (parenthesized_expression "(uVar4 & 1)" ( (binary_expression "uVar4 & 1" identifier & number_literal) )) != number_literal) )) (compound_statement "{\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" { (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (if_statement "if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" if (parenthesized_expression "(iVar2 == 0)" ( (binary_expression "iVar2 == 0" identifier == number_literal) )) (compound_statement "{\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }" { (expression_statement "*(int **)(param_1 + 0x6c) = piVar5;" (assignment_expression "*(int **)(param_1 + 0x6c) = piVar5" (pointer_expression "*(int **)(param_1 + 0x6c)" * (cast_expression "(int **)(param_1 + 0x6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x6c)" ( (binary_expression "param_1 + 0x6c" identifier + number_literal) )))) = identifier) ;) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" if (parenthesized_expression "(piVar3 == (int *)0x0)" ( (binary_expression "piVar3 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n *(undefined4 *)(param_1 + 0x70) = 0;\n }" { (expression_statement "*(undefined4 *)(param_1 + 0x70) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x70) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x70)" * (cast_expression "(undefined4 *)(param_1 + 0x70)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x70)" ( (binary_expression "param_1 + 0x70" identifier + number_literal) )))) = number_literal) ;) }) (else_clause "else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" else (compound_statement "{\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" { (labeled_statement "LAB_0001d8dc:\n *piVar3 = iVar2;" statement_identifier : (expression_statement "*piVar3 = iVar2;" (assignment_expression "*piVar3 = iVar2" (pointer_expression "*piVar3" * identifier) = identifier) ;)) }))) }) (else_clause "else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" else (compound_statement "{\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" { (expression_statement "*(int **)(iVar2 + 4) = piVar5;" (assignment_expression "*(int **)(iVar2 + 4) = piVar5" (pointer_expression "*(int **)(iVar2 + 4)" * (cast_expression "(int **)(iVar2 + 4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + 4)" ( (binary_expression "iVar2 + 4" identifier + number_literal) )))) = identifier) ;) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (piVar3 != (int *)0x0) goto LAB_0001d8dc;" if (parenthesized_expression "(piVar3 != (int *)0x0)" ( (binary_expression "piVar3 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001d8dc;" goto statement_identifier ;)) (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "*(int *)(param_1 + 0x70) = iVar2;" (assignment_expression "*(int *)(param_1 + 0x70) = iVar2" (pointer_expression "*(int *)(param_1 + 0x70)" * (cast_expression "(int *)(param_1 + 0x70)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x70)" ( (binary_expression "param_1 + 0x70" identifier + number_literal) )))) = identifier) ;) }))) (expression_statement "*piVar1 = 0;" (assignment_expression "*piVar1 = 0" (pointer_expression "*piVar1" * identifier) = number_literal) ;) (expression_statement "piVar1[1] = 0;" (assignment_expression "piVar1[1] = 0" (subscript_expression "piVar1[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "FUN_0001d87c();" (call_expression "FUN_0001d87c()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "piVar1 = piVar5;" (assignment_expression "piVar1 = piVar5" identifier = identifier) ;) (if_statement "if (piVar5 == (int *)0x0) {\n return;\n }" if (parenthesized_expression "(piVar5 == (int *)0x0)" ( (binary_expression "piVar5 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) }) while (parenthesized_expression "( true )" ( true )) ;) })))
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(translation_unit "void wsnode_nullelim(wordsplit *wsp)\n\n{\n wordsplit_node *p;\n wordsplit_node *pwVar1;\n wordsplit_node *pwVar2;\n uint uVar3;\n wordsplit_node *pwVar4;\n \n p = wsp->ws_head;\n if (p == (wordsplit_node *)0x0) {\n return;\n }\n do {\n uVar3 = p->flags;\n pwVar4 = p->next;\n if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }\n if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }\n p = pwVar4;\n if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }\n } while( true );\n}\n\n" (function_definition "void wsnode_nullelim(wordsplit *wsp)\n\n{\n wordsplit_node *p;\n wordsplit_node *pwVar1;\n wordsplit_node *pwVar2;\n uint uVar3;\n wordsplit_node *pwVar4;\n \n p = wsp->ws_head;\n if (p == (wordsplit_node *)0x0) {\n return;\n }\n do {\n uVar3 = p->flags;\n pwVar4 = p->next;\n if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }\n if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }\n p = pwVar4;\n if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }\n } while( true );\n}" primitive_type (function_declarator "wsnode_nullelim(wordsplit *wsp)" identifier (parameter_list "(wordsplit *wsp)" ( (parameter_declaration "wordsplit *wsp" type_identifier (pointer_declarator "*wsp" * identifier)) ))) (compound_statement "{\n wordsplit_node *p;\n wordsplit_node *pwVar1;\n wordsplit_node *pwVar2;\n uint uVar3;\n wordsplit_node *pwVar4;\n \n p = wsp->ws_head;\n if (p == (wordsplit_node *)0x0) {\n return;\n }\n do {\n uVar3 = p->flags;\n pwVar4 = p->next;\n if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }\n if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }\n p = pwVar4;\n if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }\n } while( true );\n}" { (declaration "wordsplit_node *p;" type_identifier (pointer_declarator "*p" * identifier) ;) (declaration "wordsplit_node *pwVar1;" type_identifier (pointer_declarator "*pwVar1" * identifier) ;) (declaration "wordsplit_node *pwVar2;" type_identifier (pointer_declarator "*pwVar2" * identifier) ;) (declaration "uint uVar3;" type_identifier identifier ;) (declaration "wordsplit_node *pwVar4;" type_identifier (pointer_declarator "*pwVar4" * identifier) ;) (expression_statement "p = wsp->ws_head;" (assignment_expression "p = wsp->ws_head" identifier = (field_expression "wsp->ws_head" identifier -> field_identifier)) ;) (if_statement "if (p == (wordsplit_node *)0x0) {\n return;\n }" if (parenthesized_expression "(p == (wordsplit_node *)0x0)" ( (binary_expression "p == (wordsplit_node *)0x0" identifier == (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (do_statement "do {\n uVar3 = p->flags;\n pwVar4 = p->next;\n if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }\n if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }\n p = pwVar4;\n if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }\n } while( true );" do (compound_statement "{\n uVar3 = p->flags;\n pwVar4 = p->next;\n if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }\n if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }\n p = pwVar4;\n if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }\n }" { (expression_statement "uVar3 = p->flags;" (assignment_expression "uVar3 = p->flags" identifier = (field_expression "p->flags" identifier -> field_identifier)) ;) (expression_statement "pwVar4 = p->next;" (assignment_expression "pwVar4 = p->next" identifier = (field_expression "p->next" identifier -> field_identifier)) ;) (if_statement "if (((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)) {\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }" if (parenthesized_expression "(((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0))" ( (binary_expression "((uVar3 & 0x40) != 0) && (pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)" (parenthesized_expression "((uVar3 & 0x40) != 0)" ( (binary_expression "(uVar3 & 0x40) != 0" (parenthesized_expression "(uVar3 & 0x40)" ( (binary_expression "uVar3 & 0x40" identifier & number_literal) )) != number_literal) )) && (parenthesized_expression "(pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0)" ( (comma_expression "pwVar1 = p->prev, pwVar1 != (wordsplit_node *)0x0" (assignment_expression "pwVar1 = p->prev" identifier = (field_expression "p->prev" identifier -> field_identifier)) , (binary_expression "pwVar1 != (wordsplit_node *)0x0" identifier != (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (compound_statement "{\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n uVar3 = p->flags;\n }" { (expression_statement "pwVar1->flags = pwVar1->flags & 0xffffffef;" (assignment_expression "pwVar1->flags = pwVar1->flags & 0xffffffef" (field_expression "pwVar1->flags" identifier -> field_identifier) = (binary_expression "pwVar1->flags & 0xffffffef" (field_expression "pwVar1->flags" identifier -> field_identifier) & number_literal)) ;) (expression_statement "uVar3 = p->flags;" (assignment_expression "uVar3 = p->flags" identifier = (field_expression "p->flags" identifier -> field_identifier)) ;) })) (if_statement "if ((uVar3 & 1) != 0) {\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }" if (parenthesized_expression "((uVar3 & 1) != 0)" ( (binary_expression "(uVar3 & 1) != 0" (parenthesized_expression "(uVar3 & 1)" ( (binary_expression "uVar3 & 1" identifier & number_literal) )) != number_literal) )) (compound_statement "{\n pwVar1 = p->prev;\n if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }\n p->prev = (wordsplit_node *)0x0;\n p->next = (wordsplit_node *)0x0;\n wsnode_free(p);\n }" { (expression_statement "pwVar1 = p->prev;" (assignment_expression "pwVar1 = p->prev" identifier = (field_expression "p->prev" identifier -> field_identifier)) ;) (if_statement "if (pwVar1 == (wordsplit_node *)0x0) {\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }\n else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }" if (parenthesized_expression "(pwVar1 == (wordsplit_node *)0x0)" ( (binary_expression "pwVar1 == (wordsplit_node *)0x0" identifier == (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n wsp->ws_head = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }\n }" { (expression_statement "wsp->ws_head = pwVar4;" (assignment_expression "wsp->ws_head = pwVar4" (field_expression "wsp->ws_head" identifier -> field_identifier) = identifier) ;) (expression_statement "pwVar2 = p->next;" (assignment_expression "pwVar2 = p->next" identifier = (field_expression "p->next" identifier -> field_identifier)) ;) (if_statement "if (pwVar2 == (wordsplit_node *)0x0) {\n wsp->ws_tail = (wordsplit_node *)0x0;\n }\n else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }" if (parenthesized_expression "(pwVar2 == (wordsplit_node *)0x0)" ( (binary_expression "pwVar2 == (wordsplit_node *)0x0" identifier == (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n wsp->ws_tail = (wordsplit_node *)0x0;\n }" { (expression_statement "wsp->ws_tail = (wordsplit_node *)0x0;" (assignment_expression "wsp->ws_tail = (wordsplit_node *)0x0" (field_expression "wsp->ws_tail" identifier -> field_identifier) = (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) }) (else_clause "else {\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }" else (compound_statement "{\nLAB_0001d8dc:\n pwVar2->prev = pwVar1;\n }" { (labeled_statement "LAB_0001d8dc:\n pwVar2->prev = pwVar1;" statement_identifier : (expression_statement "pwVar2->prev = pwVar1;" (assignment_expression "pwVar2->prev = pwVar1" (field_expression "pwVar2->prev" identifier -> field_identifier) = identifier) ;)) }))) }) (else_clause "else {\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }" else (compound_statement "{\n pwVar1->next = pwVar4;\n pwVar2 = p->next;\n if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;\n pwVar1->flags = pwVar1->flags & 0xffffffef;\n wsp->ws_tail = pwVar1;\n }" { (expression_statement "pwVar1->next = pwVar4;" (assignment_expression "pwVar1->next = pwVar4" (field_expression "pwVar1->next" identifier -> field_identifier) = identifier) ;) (expression_statement "pwVar2 = p->next;" (assignment_expression "pwVar2 = p->next" identifier = (field_expression "p->next" identifier -> field_identifier)) ;) (if_statement "if (pwVar2 != (wordsplit_node *)0x0) goto LAB_0001d8dc;" if (parenthesized_expression "(pwVar2 != (wordsplit_node *)0x0)" ( (binary_expression "pwVar2 != (wordsplit_node *)0x0" identifier != (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001d8dc;" goto statement_identifier ;)) (expression_statement "pwVar1->flags = pwVar1->flags & 0xffffffef;" (assignment_expression "pwVar1->flags = pwVar1->flags & 0xffffffef" (field_expression "pwVar1->flags" identifier -> field_identifier) = (binary_expression "pwVar1->flags & 0xffffffef" (field_expression "pwVar1->flags" identifier -> field_identifier) & number_literal)) ;) (expression_statement "wsp->ws_tail = pwVar1;" (assignment_expression "wsp->ws_tail = pwVar1" (field_expression "wsp->ws_tail" identifier -> field_identifier) = identifier) ;) }))) (expression_statement "p->prev = (wordsplit_node *)0x0;" (assignment_expression "p->prev = (wordsplit_node *)0x0" (field_expression "p->prev" identifier -> field_identifier) = (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "p->next = (wordsplit_node *)0x0;" (assignment_expression "p->next = (wordsplit_node *)0x0" (field_expression "p->next" identifier -> field_identifier) = (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "wsnode_free(p);" (call_expression "wsnode_free(p)" identifier (argument_list "(p)" ( identifier ))) ;) })) (expression_statement "p = pwVar4;" (assignment_expression "p = pwVar4" identifier = identifier) ;) (if_statement "if (pwVar4 == (wordsplit_node *)0x0) {\n return;\n }" if (parenthesized_expression "(pwVar4 == (wordsplit_node *)0x0)" ( (binary_expression "pwVar4 == (wordsplit_node *)0x0" identifier == (cast_expression "(wordsplit_node *)0x0" ( (type_descriptor "wordsplit_node *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) }) while (parenthesized_expression "( true )" ( true )) ;) })))
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(translation_unit "void FUN_0001d8b0(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}\n\n" (function_definition "void FUN_0001d8b0(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" primitive_type (function_declarator "FUN_0001d8b0(int param_1)" identifier (parameter_list "(int param_1)" ( (parameter_declaration "int param_1" primitive_type identifier) ))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "uint uVar4;" type_identifier identifier ;) (declaration "int *piVar5;" primitive_type (pointer_declarator "*piVar5" * identifier) ;) (expression_statement "piVar1 = *(int **)(param_1 + 0x6c);" (assignment_expression "piVar1 = *(int **)(param_1 + 0x6c)" identifier = (pointer_expression "*(int **)(param_1 + 0x6c)" * (cast_expression "(int **)(param_1 + 0x6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x6c)" ( (binary_expression "param_1 + 0x6c" identifier + number_literal) ))))) ;) (if_statement "if (piVar1 == (int *)0x0) {\n return;\n }" if (parenthesized_expression "(piVar1 == (int *)0x0)" ( (binary_expression "piVar1 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (do_statement "do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );" do (compound_statement "{\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n }" { (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" identifier = (subscript_expression "piVar1[2]" identifier [ number_literal ])) ;) (expression_statement "piVar5 = (int *)piVar1[1];" (assignment_expression "piVar5 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" if (parenthesized_expression "(((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0))" ( (binary_expression "((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)" (parenthesized_expression "((uVar4 & 0x40) != 0)" ( (binary_expression "(uVar4 & 0x40) != 0" (parenthesized_expression "(uVar4 & 0x40)" ( (binary_expression "uVar4 & 0x40" identifier & number_literal) )) != number_literal) )) && (parenthesized_expression "(iVar2 = *piVar1, iVar2 != 0)" ( (comma_expression "iVar2 = *piVar1, iVar2 != 0" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) , (binary_expression "iVar2 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" { (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" identifier = (subscript_expression "piVar1[2]" identifier [ number_literal ])) ;) })) (if_statement "if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" if (parenthesized_expression "((uVar4 & 1) != 0)" ( (binary_expression "(uVar4 & 1) != 0" (parenthesized_expression "(uVar4 & 1)" ( (binary_expression "uVar4 & 1" identifier & number_literal) )) != number_literal) )) (compound_statement "{\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" { (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" identifier = (pointer_expression "*piVar1" * identifier)) ;) (if_statement "if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" if (parenthesized_expression "(iVar2 == 0)" ( (binary_expression "iVar2 == 0" identifier == number_literal) )) (compound_statement "{\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }" { (expression_statement "*(int **)(param_1 + 0x6c) = piVar5;" (assignment_expression "*(int **)(param_1 + 0x6c) = piVar5" (pointer_expression "*(int **)(param_1 + 0x6c)" * (cast_expression "(int **)(param_1 + 0x6c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(param_1 + 0x6c)" ( (binary_expression "param_1 + 0x6c" identifier + number_literal) )))) = identifier) ;) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" if (parenthesized_expression "(piVar3 == (int *)0x0)" ( (binary_expression "piVar3 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n *(undefined4 *)(param_1 + 0x70) = 0;\n }" { (expression_statement "*(undefined4 *)(param_1 + 0x70) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x70) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x70)" * (cast_expression "(undefined4 *)(param_1 + 0x70)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x70)" ( (binary_expression "param_1 + 0x70" identifier + number_literal) )))) = number_literal) ;) }) (else_clause "else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" else (compound_statement "{\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" { (labeled_statement "LAB_0001d8dc:\n *piVar3 = iVar2;" statement_identifier : (expression_statement "*piVar3 = iVar2;" (assignment_expression "*piVar3 = iVar2" (pointer_expression "*piVar3" * identifier) = identifier) ;)) }))) }) (else_clause "else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" else (compound_statement "{\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" { (expression_statement "*(int **)(iVar2 + 4) = piVar5;" (assignment_expression "*(int **)(iVar2 + 4) = piVar5" (pointer_expression "*(int **)(iVar2 + 4)" * (cast_expression "(int **)(iVar2 + 4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar2 + 4)" ( (binary_expression "iVar2 + 4" identifier + number_literal) )))) = identifier) ;) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" identifier = (cast_expression "(int *)piVar1[1]" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "piVar1[1]" identifier [ number_literal ]))) ;) (if_statement "if (piVar3 != (int *)0x0) goto LAB_0001d8dc;" if (parenthesized_expression "(piVar3 != (int *)0x0)" ( (binary_expression "piVar3 != (int *)0x0" identifier != (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001d8dc;" goto statement_identifier ;)) (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) = (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" * (cast_expression "(uint *)(iVar2 + 8)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar2 + 8)" ( (binary_expression "iVar2 + 8" identifier + number_literal) )))) & number_literal)) ;) (expression_statement "*(int *)(param_1 + 0x70) = iVar2;" (assignment_expression "*(int *)(param_1 + 0x70) = iVar2" (pointer_expression "*(int *)(param_1 + 0x70)" * (cast_expression "(int *)(param_1 + 0x70)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x70)" ( (binary_expression "param_1 + 0x70" identifier + number_literal) )))) = identifier) ;) }))) (expression_statement "*piVar1 = 0;" (assignment_expression "*piVar1 = 0" (pointer_expression "*piVar1" * identifier) = number_literal) ;) (expression_statement "piVar1[1] = 0;" (assignment_expression "piVar1[1] = 0" (subscript_expression "piVar1[1]" identifier [ number_literal ]) = number_literal) ;) (expression_statement "FUN_0001d87c();" (call_expression "FUN_0001d87c()" identifier (argument_list "()" ( ))) ;) })) (expression_statement "piVar1 = piVar5;" (assignment_expression "piVar1 = piVar5" identifier = identifier) ;) (if_statement "if (piVar5 == (int *)0x0) {\n return;\n }" if (parenthesized_expression "(piVar5 == (int *)0x0)" ( (binary_expression "piVar5 == (int *)0x0" identifier == (cast_expression "(int *)0x0" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) }) while (parenthesized_expression "( true )" ( true )) ;) })))
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(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return ;) })) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) != LIT) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (pointer_expression * IDENT)) , (binary_expression IDENT != LIT)) ))) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT)) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = LIT) ;) }) (else_clause else (compound_statement { (labeled_statement statement_identifier : (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;)) }))) }) (else_clause else (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) }))) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = LIT) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return ;) })) }) while (parenthesized_expression ( BOOL )) ;) })))
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(function_definition "void FUN_0001d8b0(int param_1)\n\n{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" (primitive_type "void") (function_declarator "FUN_0001d8b0(int param_1)" (identifier "FUN_0001d8b0") (parameter_list "(int param_1)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) () ")"))) (compound_statement "{\n int *piVar1;\n int iVar2;\n int *piVar3;\n uint uVar4;\n int *piVar5;\n \n piVar1 = *(int **)(param_1 + 0x6c);\n if (piVar1 == (int *)0x0) {\n return;\n }\n do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "int *piVar3;" (primitive_type "int") (pointer_declarator "*piVar3" (* "*") (identifier "piVar3")) (; ";")) (declaration "uint uVar4;" (type_identifier "uint") (identifier "uVar4") (; ";")) (declaration "int *piVar5;" (primitive_type "int") (pointer_declarator "*piVar5" (* "*") (identifier "piVar5")) (; ";")) (expression_statement "piVar1 = *(int **)(param_1 + 0x6c);" (assignment_expression "piVar1 = *(int **)(param_1 + 0x6c)" (identifier "piVar1") (= "=") (pointer_expression "*(int **)(param_1 + 0x6c)" (* "*") (cast_expression "(int **)(param_1 + 0x6c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(param_1 + 0x6c)" (( "(") (binary_expression "param_1 + 0x6c" (identifier "param_1") (+ "+") (number_literal "0x6c")) () ")"))))) (; ";")) (if_statement "if (piVar1 == (int *)0x0) {\n return;\n }" (if "if") (parenthesized_expression "(piVar1 == (int *)0x0)" (( "(") (binary_expression "piVar1 == (int *)0x0" (identifier "piVar1") (== "==") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (do_statement "do {\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n } while( true );" (do "do") (compound_statement "{\n uVar4 = piVar1[2];\n piVar5 = (int *)piVar1[1];\n if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }\n if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }\n piVar1 = piVar5;\n if (piVar5 == (int *)0x0) {\n return;\n }\n }" ({ "{") (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" (identifier "uVar4") (= "=") (subscript_expression "piVar1[2]" (identifier "piVar1") ([ "[") (number_literal "2") (] "]"))) (; ";")) (expression_statement "piVar5 = (int *)piVar1[1];" (assignment_expression "piVar5 = (int *)piVar1[1]" (identifier "piVar5") (= "=") (cast_expression "(int *)piVar1[1]" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar1[1]" (identifier "piVar1") ([ "[") (number_literal "1") (] "]")))) (; ";")) (if_statement "if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" (if "if") (parenthesized_expression "(((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0))" (( "(") (binary_expression "((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)" (parenthesized_expression "((uVar4 & 0x40) != 0)" (( "(") (binary_expression "(uVar4 & 0x40) != 0" (parenthesized_expression "(uVar4 & 0x40)" (( "(") (binary_expression "uVar4 & 0x40" (identifier "uVar4") (& "&") (number_literal "0x40")) () ")")) (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(iVar2 = *piVar1, iVar2 != 0)" (( "(") (comma_expression "iVar2 = *piVar1, iVar2 != 0" (assignment_expression "iVar2 = *piVar1" (identifier "iVar2") (= "=") (pointer_expression "*piVar1" (* "*") (identifier "piVar1"))) (, ",") (binary_expression "iVar2 != 0" (identifier "iVar2") (!= "!=") (number_literal "0"))) () ")"))) () ")")) (compound_statement "{\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n uVar4 = piVar1[2];\n }" ({ "{") (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" (* "*") (cast_expression "(uint *)(iVar2 + 8)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 8)" (( "(") (binary_expression "iVar2 + 8" (identifier "iVar2") (+ "+") (number_literal "8")) () ")")))) (= "=") (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" (* "*") (cast_expression "(uint *)(iVar2 + 8)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 8)" (( "(") (binary_expression "iVar2 + 8" (identifier "iVar2") (+ "+") (number_literal "8")) () ")")))) (& "&") (number_literal "0xffffffef"))) (; ";")) (expression_statement "uVar4 = piVar1[2];" (assignment_expression "uVar4 = piVar1[2]" (identifier "uVar4") (= "=") (subscript_expression "piVar1[2]" (identifier "piVar1") ([ "[") (number_literal "2") (] "]"))) (; ";")) (} "}"))) (if_statement "if ((uVar4 & 1) != 0) {\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" (if "if") (parenthesized_expression "((uVar4 & 1) != 0)" (( "(") (binary_expression "(uVar4 & 1) != 0" (parenthesized_expression "(uVar4 & 1)" (( "(") (binary_expression "uVar4 & 1" (identifier "uVar4") (& "&") (number_literal "1")) () ")")) (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n iVar2 = *piVar1;\n if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }\n *piVar1 = 0;\n piVar1[1] = 0;\n FUN_0001d87c();\n }" ({ "{") (expression_statement "iVar2 = *piVar1;" (assignment_expression "iVar2 = *piVar1" (identifier "iVar2") (= "=") (pointer_expression "*piVar1" (* "*") (identifier "piVar1"))) (; ";")) (if_statement "if (iVar2 == 0) {\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }\n else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" (if "if") (parenthesized_expression "(iVar2 == 0)" (( "(") (binary_expression "iVar2 == 0" (identifier "iVar2") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n *(int **)(param_1 + 0x6c) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }\n }" ({ "{") (expression_statement "*(int **)(param_1 + 0x6c) = piVar5;" (assignment_expression "*(int **)(param_1 + 0x6c) = piVar5" (pointer_expression "*(int **)(param_1 + 0x6c)" (* "*") (cast_expression "(int **)(param_1 + 0x6c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(param_1 + 0x6c)" (( "(") (binary_expression "param_1 + 0x6c" (identifier "param_1") (+ "+") (number_literal "0x6c")) () ")")))) (= "=") (identifier "piVar5")) (; ";")) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" (identifier "piVar3") (= "=") (cast_expression "(int *)piVar1[1]" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar1[1]" (identifier "piVar1") ([ "[") (number_literal "1") (] "]")))) (; ";")) (if_statement "if (piVar3 == (int *)0x0) {\n *(undefined4 *)(param_1 + 0x70) = 0;\n }\n else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" (if "if") (parenthesized_expression "(piVar3 == (int *)0x0)" (( "(") (binary_expression "piVar3 == (int *)0x0" (identifier "piVar3") (== "==") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n *(undefined4 *)(param_1 + 0x70) = 0;\n }" ({ "{") (expression_statement "*(undefined4 *)(param_1 + 0x70) = 0;" (assignment_expression "*(undefined4 *)(param_1 + 0x70) = 0" (pointer_expression "*(undefined4 *)(param_1 + 0x70)" (* "*") (cast_expression "(undefined4 *)(param_1 + 0x70)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x70)" (( "(") (binary_expression "param_1 + 0x70" (identifier "param_1") (+ "+") (number_literal "0x70")) () ")")))) (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" (else "else") (compound_statement "{\nLAB_0001d8dc:\n *piVar3 = iVar2;\n }" ({ "{") (labeled_statement "LAB_0001d8dc:\n *piVar3 = iVar2;" (statement_identifier "LAB_0001d8dc") (: ":") (expression_statement "*piVar3 = iVar2;" (assignment_expression "*piVar3 = iVar2" (pointer_expression "*piVar3" (* "*") (identifier "piVar3")) (= "=") (identifier "iVar2")) (; ";"))) (} "}")))) (} "}")) (else_clause "else {\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" (else "else") (compound_statement "{\n *(int **)(iVar2 + 4) = piVar5;\n piVar3 = (int *)piVar1[1];\n if (piVar3 != (int *)0x0) goto LAB_0001d8dc;\n *(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;\n *(int *)(param_1 + 0x70) = iVar2;\n }" ({ "{") (expression_statement "*(int **)(iVar2 + 4) = piVar5;" (assignment_expression "*(int **)(iVar2 + 4) = piVar5" (pointer_expression "*(int **)(iVar2 + 4)" (* "*") (cast_expression "(int **)(iVar2 + 4)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar2 + 4)" (( "(") (binary_expression "iVar2 + 4" (identifier "iVar2") (+ "+") (number_literal "4")) () ")")))) (= "=") (identifier "piVar5")) (; ";")) (expression_statement "piVar3 = (int *)piVar1[1];" (assignment_expression "piVar3 = (int *)piVar1[1]" (identifier "piVar3") (= "=") (cast_expression "(int *)piVar1[1]" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "piVar1[1]" (identifier "piVar1") ([ "[") (number_literal "1") (] "]")))) (; ";")) (if_statement "if (piVar3 != (int *)0x0) goto LAB_0001d8dc;" (if "if") (parenthesized_expression "(piVar3 != (int *)0x0)" (( "(") (binary_expression "piVar3 != (int *)0x0" (identifier "piVar3") (!= "!=") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (goto_statement "goto LAB_0001d8dc;" (goto "goto") (statement_identifier "LAB_0001d8dc") (; ";"))) (expression_statement "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;" (assignment_expression "*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" (* "*") (cast_expression "(uint *)(iVar2 + 8)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 8)" (( "(") (binary_expression "iVar2 + 8" (identifier "iVar2") (+ "+") (number_literal "8")) () ")")))) (= "=") (binary_expression "*(uint *)(iVar2 + 8) & 0xffffffef" (pointer_expression "*(uint *)(iVar2 + 8)" (* "*") (cast_expression "(uint *)(iVar2 + 8)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar2 + 8)" (( "(") (binary_expression "iVar2 + 8" (identifier "iVar2") (+ "+") (number_literal "8")) () ")")))) (& "&") (number_literal "0xffffffef"))) (; ";")) (expression_statement "*(int *)(param_1 + 0x70) = iVar2;" (assignment_expression "*(int *)(param_1 + 0x70) = iVar2" (pointer_expression "*(int *)(param_1 + 0x70)" (* "*") (cast_expression "(int *)(param_1 + 0x70)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x70)" (( "(") (binary_expression "param_1 + 0x70" (identifier "param_1") (+ "+") (number_literal "0x70")) () ")")))) (= "=") (identifier "iVar2")) (; ";")) (} "}")))) (expression_statement "*piVar1 = 0;" (assignment_expression "*piVar1 = 0" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (= "=") (number_literal "0")) (; ";")) (expression_statement "piVar1[1] = 0;" (assignment_expression "piVar1[1] = 0" (subscript_expression "piVar1[1]" (identifier "piVar1") ([ "[") (number_literal "1") (] "]")) (= "=") (number_literal "0")) (; ";")) (expression_statement "FUN_0001d87c();" (call_expression "FUN_0001d87c()" (identifier "FUN_0001d87c") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (expression_statement "piVar1 = piVar5;" (assignment_expression "piVar1 = piVar5" (identifier "piVar1") (= "=") (identifier "piVar5")) (; ";")) (if_statement "if (piVar5 == (int *)0x0) {\n return;\n }" (if "if") (parenthesized_expression "(piVar5 == (int *)0x0)" (( "(") (binary_expression "piVar5 == (int *)0x0" (identifier "piVar5") (== "==") (cast_expression "(int *)0x0" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (} "}")) (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (; ";")) (} "}")))
|
void function_1(type_1 *wsp)
{
type_2 *var_1;
type_2 *var_3;
type_2 *var_4;
type_3 var_2;
type_2 *var_6;
var_1 = wsp->ws_head;
if (var_1 == (type_2 *)0x0) {
return;
}
do {
var_2 = var_1->flags;
var_6 = var_1->next;
if (((var_2 & 0x40) != 0) && (var_3 = var_1->prev, var_3 != (type_2 *)0x0)) {
var_3->flags = var_3->flags & 0xffffffef;
var_2 = var_1->flags;
}
if ((var_2 & 1) != 0) {
var_3 = var_1->prev;
if (var_3 == (type_2 *)0x0) {
wsp->ws_head = var_6;
var_4 = var_1->next;
if (var_4 == (type_2 *)0x0) {
wsp->ws_tail = (type_2 *)0x0;
}
else {
LAB_0001d8dc:
var_4->prev = var_3;
}
}
else {
var_3->next = var_6;
var_4 = var_1->next;
if (var_4 != (type_2 *)0x0) goto LAB_0001d8dc;
var_3->flags = var_3->flags & 0xffffffef;
wsp->ws_tail = var_3;
}
var_1->prev = (type_2 *)0x0;
var_1->next = (type_2 *)0x0;
var_5(var_1);
}
var_1 = var_6;
if (var_6 == (type_2 *)0x0) {
return;
}
} while( true );
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier))) right: (binary_expression left: (identifier) right: (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) alternative: (else_clause (compound_statement (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier)))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement)))) condition: (parenthesized_expression (true))))))
|
void MASKED(int param_1)
{
int *piVar1;
int iVar2;
int *piVar3;
uint uVar4;
int *piVar5;
piVar1 = *(int **)(param_1 + 0x6c);
if (piVar1 == (int *)0x0) {
return;
}
do {
uVar4 = piVar1[2];
piVar5 = (int *)piVar1[1];
if (((uVar4 & 0x40) != 0) && (iVar2 = *piVar1, iVar2 != 0)) {
*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;
uVar4 = piVar1[2];
}
if ((uVar4 & 1) != 0) {
iVar2 = *piVar1;
if (iVar2 == 0) {
*(int **)(param_1 + 0x6c) = piVar5;
piVar3 = (int *)piVar1[1];
if (piVar3 == (int *)0x0) {
*(undefined4 *)(param_1 + 0x70) = 0;
}
else {
LAB_0001d8dc:
*piVar3 = iVar2;
}
}
else {
*(int **)(iVar2 + 4) = piVar5;
piVar3 = (int *)piVar1[1];
if (piVar3 != (int *)0x0) goto LAB_0001d8dc;
*(uint *)(iVar2 + 8) = *(uint *)(iVar2 + 8) & 0xffffffef;
*(int *)(param_1 + 0x70) = iVar2;
}
*piVar1 = 0;
piVar1[1] = 0;
FUN_0001d87c();
}
piVar1 = piVar5;
if (piVar5 == (int *)0x0) {
return;
}
} while( true );
}
| 5,311 |
||
780_libsqlite3.so.0.8_and_libsqlite3.so.0.8_strip.c
|
unixFetch
|
FUN_0003d614
|
int unixFetch(sqlite3_file *fd,i64 iOff,int nAmt,void **pp)
{
unixFile *pFd;
int iVar1;
int in_r3;
undefined4 unaff_r4;
undefined4 unaff_r5;
sqlite3_io_methods *psVar2;
sqlite3_io_methods *psVar3;
bool bVar4;
psVar2 = fd[0x10].pMethods;
psVar3 = fd[0x11].pMethods;
*iOff._4_4_ = 0;
if ((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3) {
if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&
(iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {
return iVar1;
}
psVar2 = fd[0xd].pMethods;
iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);
bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);
if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==
(SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {
psVar2 = fd[0xb].pMethods;
*iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;
fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);
return 0;
}
}
return 0;
}
|
int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)
{
int iVar1;
int iVar2;
bool bVar3;
iVar1 = *(int *)(param_1 + 0x40);
iVar2 = *(int *)(param_1 + 0x44);
*param_6 = 0;
if ((int)(uint)(iVar1 == 0) <= iVar2) {
if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&
(iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {
return iVar1;
}
iVar2 = *(int *)(param_1 + 0x34);
iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);
bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;
if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==
(SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {
iVar1 = *(int *)(param_1 + 0x2c);
*param_6 = *(int *)(param_1 + 0x48) + param_3;
*(int *)(param_1 + 0x2c) = iVar1 + 1;
return 0;
}
}
return 0;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
add r7,r0,#0x40
ldmia r7,{r6,r7}
cmp r6,#0x1
sbcs r1,r7,#0x0
mov r1,#0x0
ldr r5,[sp,#0x1c]
str r1,[r5,#0x0]
blt 0x0003d690
cpy r7,r3
ldr r3,[r0,#0x48]
cpy r4,r0
cmp r3,#0x0
cpy r6,r2
beq 0x0003d698
add r3,r4,#0x30
ldmia r3,{r2,r3}
ldr r12,[sp,#0x18]
adds r0,r6,r12
adc r1,r7,r12, asr #0x1f
cmp r2,r0
sbcs r3,r3,r1
blt 0x0003d690
ldr r3,[r4,#0x2c]
ldr r2,[r4,#0x48]
add r3,r3,#0x1
add r6,r2,r6
str r6,[r5,#0x0]
mov r0,#0x0
str r3,[r4,#0x2c]
ldmia sp!,{r4,r5,r6,r7,r8,pc}
mov r0,#0x0
ldmia sp!,{r4,r5,r6,r7,r8,pc}
ldr r3,[r0,#0x2c]
cmp r3,#0x0
bgt 0x0003d650
mvn r2,#0x0
mvn r3,#0x0
bl 0x0003d3f4
cmp r0,#0x0
beq 0x0003d650
ldmia sp!,{r4,r5,r6,r7,r8,pc}
| null | null | null | null |
[('const-4', u'PTRADD_-1206069085'), ('const-0', u'PTRSUB_-1206069047'), ('const-4', u'PTRADD_-1206069141'), ('const-417', u'LOAD_-1206069547'), (u'SUBPIECE_-1206069185', u'INT_CARRY_-1206069513'), (u'SUBPIECE_-1206069185', u'INT_ADD_-1206069513'), (u'CAST_-1206069047', u'INT_SRIGHT_-1206069486'), ('const-11', u'PTRADD_-1206068999'), (u'INT_SUB_-1206069464', u'INT_SBORROW_-1206069453'), ('const-11', u'PTRADD_-1206069017'), (u'CAST_-1206068975', u'CALL_-1206069252'), (u'CAST_-1206069054', u'INT_CARRY_-1206069513'), ('const-0', u'INT_EQUAL_-1206069679'), (u'PTRSUB_-1206069079', u'LOAD_-1206069547'), ('tmp_1015', u'PTRADD_-1206068999'), ('const-417', u'LOAD_-1206069323'), (u'PTRSUB_-1206069105', u'LOAD_-1206069604'), ('const-0', u'PTRSUB_-1206069079'), (u'CAST_-1206068988', u'INT_SLESS_-1206069285'), ('tmp_1018', u'CAST_-1206069011'), ('const-4', u'PTRADD_-1206069043'), ('const-0', u'COPY_-1206069357'), (u'PTRSUB_-1206069030', u'CAST_-1206069012'), (u'CAST_-1206069012', u'INT_ADD_-1206069076'), ('const-0', u'PTRSUB_-1206069105'), (u'INT_EQUAL_-1206069574', u'CBRANCH_-1206069566'), (u'LOAD_-1206069604', u'INT_EQUAL_-1206069574'), (u'INT_SUB_-1206069451', u'CAST_-1206069035'), ('const-0', u'PTRSUB_-1206069041'), ('const-0', u'INT_SLESS_-1206069457'), ('const-0', u'RETURN_-1206069321'), ('const-18', u'PTRADD_-1206069107'), ('tmp_1015', u'PTRADD_-1206069141'), (u'PTRADD_-1206069085', u'PTRSUB_-1206069079'), (u'INT_ADD_-1206069082', u'CAST_-1206069017'), (u'PTRADD_-1206069017', u'PTRSUB_-1206069015'), (u'INT_EQUAL_-1206069679', u'INT_ZEXT_-1206069642'), (u'PTRSUB_-1206068997', u'LOAD_-1206069323'), ('const-417', u'STORE_-1206069390'), ('tmp_1018', u'CAST_-1206069053'), (u'INT_EQUAL_-1206069449', u'CBRANCH_-1206069454'), (u'INT_ZEXT_-1206069460', u'INT_SBORROW_-1206069453'), ('const-13', u'PTRADD_-1206069079'), ('const-417', u'STORE_-1206069412'), ('const-11', u'PTRADD_-1206069049'), ('const-0', u'PTRSUB_-1206069036'), ('const-0', u'STORE_-1206069620'), ('const-417', u'LOAD_-1206069701'), ('const-4', u'SUBPIECE_-1206069184'), (u'INT_SLESS_-1206069457', u'INT_EQUAL_-1206069449'), ('const-0', u'COPY_-1206069402'), (u'CAST_-1206069052', u'INT_LESS_-1206069483'), (u'CAST_-1206069035', u'INT_SLESS_-1206069457'), (u'COPY_-1206069357', u'RETURN_-1206069321'), (u'LOAD_-1206069701', u'CAST_-1206069097'), (u'INT_ADD_-1206069487', u'INT_SUB_-1206069464'), (u'LOAD_-1206069451', u'PTRSUB_-1206069036'), ('const-417', u'LOAD_-1206069545'), ('const-0', u'PTRSUB_-1206069077'), (u'INT_ADD_-1206069489', u'INT_ADD_-1206069487'), (u'CAST_-1206069098', u'INT_SLESSEQUAL_-1206069604'), ('const-4', u'PTRADD_-1206069147'), ('tmp_1015', u'PTRADD_-1206069085'), (u'CAST_-1206069017', u'STORE_-1206069390'), ('tmp_530', u'CBRANCH_-1206069454'), (u'LOAD_-1206069545', u'CAST_-1206069037'), (u'INT_SRIGHT_-1206069486', u'INT_ADD_-1206069489'), (u'LOAD_-1206069545', u'CAST_-1206069038'), (u'LOAD_-1206069545', u'CAST_-1206069036'), ('const-417', u'LOAD_-1206069445'), (u'INT_ADD_-1206069076', u'STORE_-1206069412'), (u'INT_ADD_-1206069487', u'INT_ADD_-1206069453'), ('tmp_1015', u'PTRADD_-1206069049'), (u'LOAD_-1206069445', u'PTRSUB_-1206069030'), ('const-0', u'PTRSUB_-1206069139'), (u'INT_ZEXT_-1206069456', u'INT_ADD_-1206069453'), (u'INT_CARRY_-1206069513', u'INT_ZEXT_-1206069490'), (u'INT_NOTEQUAL_-1206069231', u'CBRANCH_-1206069229'), ('tmp_1015', u'PTRADD_-1206069079'), (u'PTRSUB_-1206069141', u'LOAD_-1206069703'), ('tmp_1397', u'INT_ADD_-1206069489'), (u'CALL_-1206069252', u'RETURN_-1206069201'), ('const-1', u'INT_ADD_-1206069082'), (u'PTRSUB_-1206069036', u'CAST_-1206069018'), ('const-0', u'PTRSUB_-1206069030'), (u'PTRSUB_-1206069139', u'LOAD_-1206069701'), (u'PTRSUB_-1206069077', u'LOAD_-1206069545'), ('const-0', u'RETURN_-1206069360'), ('const-4', u'PTRADD_-1206068999'), ('tmp_1016', u'SUBPIECE_-1206069184'), (u'INT_SLESS_-1206069285', u'CBRANCH_-1206069292'), ('const-4', u'PTRADD_-1206069079'), ('const-16', u'PTRADD_-1206069147'), (u'INT_ADD_-1206069487', u'INT_SBORROW_-1206069456'), (u'PTRADD_-1206069107', u'PTRSUB_-1206069105'), (u'CAST_-1206069053', u'INT_ADD_-1206069513'), (u'CAST_-1206069011', u'INT_ADD_-1206069076'), ('const-12', u'PTRADD_-1206069085'), (u'CAST_-1206069037', u'INT_SBORROW_-1206069456'), (u'CAST_-1206069036', u'INT_SUB_-1206069451'), ('const-4', u'PTRADD_-1206069049'), (u'INT_ZEXT_-1206069642', u'CAST_-1206069098'), (u'SUBPIECE_-1206069184', u'STORE_-1206069620'), (u'LOAD_-1206069703', u'INT_EQUAL_-1206069679'), (u'INT_LESS_-1206069483', u'INT_ZEXT_-1206069460'), ('const-4', u'PTRADD_-1206069107'), ('tmp_1015', u'PTRADD_-1206069147'), ('const-0', u'INT_NOTEQUAL_-1206069231'), (u'PTRSUB_-1206069041', u'LOAD_-1206069445'), (u'SUBPIECE_-1206069185', u'CAST_-1206069047'), ('const-0', u'PTRSUB_-1206069141'), (u'PTRADD_-1206069079', u'PTRSUB_-1206069077'), (u'INT_SBORROW_-1206069456', u'INT_NOTEQUAL_-1206069463'), ('const-18', u'PTRADD_-1206069043'), ('const-1', u'INT_SLESS_-1206069285'), (u'INT_ADD_-1206069453', u'INT_SUB_-1206069451'), ('const-417', u'STORE_-1206069620'), ('const-0', u'SUBPIECE_-1206069185'), (u'COPY_-1206069402', u'RETURN_-1206069360'), ('tmp_1015', u'PTRADD_-1206069043'), (u'PTRADD_-1206068999', u'PTRSUB_-1206068997'), ('const-417', u'LOAD_-1206069604'), ('const-17', u'PTRADD_-1206069141'), ('const-0', u'PTRSUB_-1206068997'), (u'CAST_-1206069018', u'INT_ADD_-1206069082'), (u'PIECE_-1206069026', u'CALL_-1206069252'), (u'INT_LESS_-1206069483', u'INT_ZEXT_-1206069456'), (u'PTRADD_-1206069043', u'PTRSUB_-1206069041'), (u'SUBPIECE_-1206069184', u'STORE_-1206069412'), ('tmp_1018', u'CAST_-1206069054'), ('tmp_256', u'CBRANCH_-1206069612'), (u'PTRSUB_-1206069015', u'STORE_-1206069390'), ('const-4', u'PTRADD_-1206069017'), ('const-31', u'INT_SRIGHT_-1206069486'), (u'INT_SBORROW_-1206069453', u'INT_NOTEQUAL_-1206069463'), (u'CAST_-1206069097', u'INT_SLESSEQUAL_-1206069604'), (u'PTRSUB_-1206069047', u'LOAD_-1206069451'), (u'PTRADD_-1206069141', u'PTRSUB_-1206069139'), (u'LOAD_-1206069547', u'INT_LESS_-1206069483'), ('tmp_1015', u'PTRADD_-1206069107'), (u'LOAD_-1206069323', u'CAST_-1206068988'), ('tmp_837', u'CBRANCH_-1206069292'), (u'INT_ZEXT_-1206069490', u'INT_ADD_-1206069487'), ('tmp_1015', u'CAST_-1206068975'), ('tmp_1015', u'PTRADD_-1206069017'), ('tmp_314', u'CBRANCH_-1206069566'), ('const-0', u'PTRSUB_-1206069015'), (u'INT_ADD_-1206069513', u'CAST_-1206069052'), ('tmp_953', u'CBRANCH_-1206069229'), (u'PTRADD_-1206069147', u'PTRSUB_-1206069141'), ('const-0', u'INT_EQUAL_-1206069574'), (u'INT_SLESSEQUAL_-1206069604', u'CBRANCH_-1206069612'), ('tmp_1016', u'SUBPIECE_-1206069185'), (u'CAST_-1206069038', u'INT_SUB_-1206069464'), ('tmp_1389', u'PIECE_-1206069026'), ('const-417', u'LOAD_-1206069451'), (u'CALL_-1206069252', u'INT_NOTEQUAL_-1206069231'), ('const-0', u'RETURN_-1206069201'), ('const-417', u'LOAD_-1206069703'), ('tmp_1390', u'PIECE_-1206069026'), (u'INT_NOTEQUAL_-1206069463', u'INT_EQUAL_-1206069449'), (u'PTRADD_-1206069049', u'PTRSUB_-1206069047')]
|
[('const-417', u'LOAD_-1206069604'), (u'INT_SUB_-1206069464', u'INT_SBORROW_-1206069453'), ('const-417', u'STORE_-1206069412'), ('const-72', u'INT_ADD_-1206069429'), ('const-52', u'INT_ADD_-1206069529'), ('tmp_1396', u'INT_ADD_-1206069538'), (u'INT_ADD_-1206069694', u'CAST_-1206069151'), ('tmp_1396', u'INT_ADD_-1206069588'), ('tmp_1396', u'INT_ADD_-1206069307'), ('const-0', u'COPY_-1206069357'), (u'INT_EQUAL_-1206069574', u'CBRANCH_-1206069566'), (u'LOAD_-1206069604', u'INT_EQUAL_-1206069574'), (u'CAST_-1206069049', u'LOAD_-1206069445'), ('const-44', u'INT_ADD_-1206069375'), (u'INT_ADD_-1206069513', u'INT_LESS_-1206069483'), ('tmp_1600', u'STORE_-1206069620'), ('const-417', u'LOAD_-1206069445'), ('const-0', u'INT_SLESS_-1206069457'), ('const-0', u'RETURN_-1206069321'), (u'INT_ADD_-1206069529', u'CAST_-1206069085'), (u'INT_EQUAL_-1206069679', u'INT_ZEXT_-1206069642'), (u'INT_SUB_-1206069451', u'CAST_-1206069063'), ('tmp_1601', u'INT_CARRY_-1206069513'), ('tmp_1601', u'INT_ADD_-1206069513'), (u'INT_EQUAL_-1206069449', u'CBRANCH_-1206069454'), (u'INT_ZEXT_-1206069460', u'INT_SBORROW_-1206069453'), ('tmp_1600', u'STORE_-1206069412'), ('tmp_1401', u'INT_ADD_-1206069489'), (u'INT_SLESS_-1206069457', u'INT_EQUAL_-1206069449'), ('const-0', u'COPY_-1206069402'), (u'COPY_-1206069357', u'RETURN_-1206069321'), (u'INT_ADD_-1206069487', u'INT_SUB_-1206069464'), ('const-44', u'INT_ADD_-1206069307'), (u'INT_ADD_-1206069435', u'CAST_-1206069054'), ('const-417', u'LOAD_-1206069547'), ('const-417', u'STORE_-1206069390'), (u'INT_ADD_-1206069489', u'INT_ADD_-1206069487'), ('const-0', u'INT_NOTEQUAL_-1206069231'), (u'CAST_-1206069151', u'LOAD_-1206069703'), (u'LOAD_-1206069701', u'INT_SLESSEQUAL_-1206069604'), ('const-0', u'INT_EQUAL_-1206069574'), ('tmp_1402', u'INT_ADD_-1206069404'), ('const-417', u'LOAD_-1206069323'), ('const-64', u'INT_ADD_-1206069694'), ('tmp_530', u'CBRANCH_-1206069454'), (u'INT_SRIGHT_-1206069486', u'INT_ADD_-1206069489'), (u'INT_ADD_-1206069487', u'INT_ADD_-1206069453'), ('const-417', u'LOAD_-1206069703'), (u'INT_ZEXT_-1206069456', u'INT_ADD_-1206069453'), (u'INT_CARRY_-1206069513', u'INT_ZEXT_-1206069490'), (u'LOAD_-1206069545', u'INT_SUB_-1206069451'), (u'INT_NOTEQUAL_-1206069231', u'CBRANCH_-1206069229'), ('const-417', u'STORE_-1206069620'), ('tmp_1396', u'INT_ADD_-1206069375'), (u'LOAD_-1206069545', u'INT_SBORROW_-1206069456'), (u'INT_ADD_-1206069429', u'CAST_-1206069049'), ('const-0', u'STORE_-1206069620'), ('const-417', u'LOAD_-1206069701'), (u'CALL_-1206069252', u'RETURN_-1206069201'), ('const-48', u'INT_ADD_-1206069538'), ('const-0', u'RETURN_-1206069360'), ('tmp_1396', u'INT_ADD_-1206069529'), (u'CAST_-1206069112', u'LOAD_-1206069604'), (u'INT_SLESS_-1206069285', u'CBRANCH_-1206069292'), (u'CAST_-1206069063', u'INT_SLESS_-1206069457'), (u'INT_ADD_-1206069487', u'INT_SBORROW_-1206069456'), ('const-417', u'LOAD_-1206069545'), ('const-1', u'INT_ADD_-1206069414'), ('const-72', u'INT_ADD_-1206069588'), (u'LOAD_-1206069703', u'INT_EQUAL_-1206069679'), (u'INT_LESS_-1206069483', u'INT_ZEXT_-1206069460'), (u'LOAD_-1206069451', u'INT_ADD_-1206069414'), ('const-68', u'INT_ADD_-1206069685'), (u'LOAD_-1206069445', u'INT_ADD_-1206069404'), ('const-4294967295', u'CALL_-1206069252'), (u'INT_SBORROW_-1206069456', u'INT_NOTEQUAL_-1206069463'), ('const-44', u'INT_ADD_-1206069435'), (u'INT_ADD_-1206069453', u'INT_SUB_-1206069451'), ('const-4294967295', u'CALL_-1206069252'), (u'CAST_-1206069028', u'STORE_-1206069390'), (u'COPY_-1206069402', u'RETURN_-1206069360'), (u'INT_ADD_-1206069307', u'CAST_-1206069019'), (u'LOAD_-1206069323', u'INT_SLESS_-1206069285'), ('tmp_1396', u'INT_ADD_-1206069429'), (u'CAST_-1206069090', u'LOAD_-1206069547'), ('tmp_1601', u'CAST_-1206069072'), (u'INT_ADD_-1206069404', u'STORE_-1206069412'), ('tmp_1396', u'INT_ADD_-1206069685'), ('const-417', u'LOAD_-1206069451'), (u'INT_LESS_-1206069483', u'INT_ZEXT_-1206069456'), ('tmp_1396', u'CALL_-1206069252'), (u'INT_ADD_-1206069685', u'CAST_-1206069146'), (u'CAST_-1206069072', u'INT_SRIGHT_-1206069486'), ('tmp_256', u'CBRANCH_-1206069612'), (u'INT_ADD_-1206069538', u'CAST_-1206069090'), ('const-31', u'INT_SRIGHT_-1206069486'), (u'INT_SBORROW_-1206069453', u'INT_NOTEQUAL_-1206069463'), ('const-0', u'CALL_-1206069252'), (u'CAST_-1206069054', u'LOAD_-1206069451'), (u'INT_ADD_-1206069375', u'CAST_-1206069028'), (u'INT_ADD_-1206069414', u'STORE_-1206069390'), (u'CAST_-1206069019', u'LOAD_-1206069323'), (u'LOAD_-1206069547', u'INT_LESS_-1206069483'), (u'CAST_-1206069121', u'INT_SLESSEQUAL_-1206069604'), (u'LOAD_-1206069545', u'INT_SUB_-1206069464'), ('tmp_1396', u'INT_ADD_-1206069435'), ('tmp_837', u'CBRANCH_-1206069292'), (u'INT_ZEXT_-1206069490', u'INT_ADD_-1206069487'), ('tmp_314', u'CBRANCH_-1206069566'), ('tmp_953', u'CBRANCH_-1206069229'), (u'INT_ADD_-1206069588', u'CAST_-1206069112'), (u'CAST_-1206069085', u'LOAD_-1206069545'), (u'INT_SLESSEQUAL_-1206069604', u'CBRANCH_-1206069612'), ('const-0', u'INT_EQUAL_-1206069679'), (u'INT_ZEXT_-1206069642', u'CAST_-1206069121'), (u'CALL_-1206069252', u'INT_NOTEQUAL_-1206069231'), ('const-0', u'RETURN_-1206069201'), ('const-1', u'INT_SLESS_-1206069285'), ('tmp_1402', u'INT_CARRY_-1206069513'), ('tmp_1402', u'INT_ADD_-1206069513'), ('tmp_1396', u'INT_ADD_-1206069694'), (u'INT_NOTEQUAL_-1206069463', u'INT_EQUAL_-1206069449'), (u'CAST_-1206069146', u'LOAD_-1206069701')]
| null | null |
0003d614
|
arm
|
O2
|
(translation_unit "int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)\n\n{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}\n\n" (function_definition "int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)\n\n{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" primitive_type (function_declarator "FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" identifier (parameter_list "(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "uint param_3" type_identifier identifier) , (parameter_declaration "int param_4" primitive_type identifier) , (parameter_declaration "uint param_5" type_identifier identifier) , (parameter_declaration "int *param_6" primitive_type (pointer_declarator "*param_6" * identifier)) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "bool bVar3;" primitive_type identifier ;) (expression_statement "iVar1 = *(int *)(param_1 + 0x40);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x40)" identifier = (pointer_expression "*(int *)(param_1 + 0x40)" * (cast_expression "(int *)(param_1 + 0x40)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x40)" ( (binary_expression "param_1 + 0x40" identifier + number_literal) ))))) ;) (expression_statement "iVar2 = *(int *)(param_1 + 0x44);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x44)" identifier = (pointer_expression "*(int *)(param_1 + 0x44)" * (cast_expression "(int *)(param_1 + 0x44)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x44)" ( (binary_expression "param_1 + 0x44" identifier + number_literal) ))))) ;) (expression_statement "*param_6 = 0;" (assignment_expression "*param_6 = 0" (pointer_expression "*param_6" * identifier) = number_literal) ;) (if_statement "if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" if (parenthesized_expression "((int)(uint)(iVar1 == 0) <= iVar2)" ( (binary_expression "(int)(uint)(iVar1 == 0) <= iVar2" (cast_expression "(int)(uint)(iVar1 == 0)" ( (type_descriptor "int" primitive_type) ) (call_expression "(uint)(iVar1 == 0)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )))) <= identifier) )) (compound_statement "{\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" { (if_statement "if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }" if (parenthesized_expression "(((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0))" ( (binary_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" (parenthesized_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1))" ( (binary_expression "(*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)" (parenthesized_expression "(*(int *)(param_1 + 0x48) == 0)" ( (binary_expression "*(int *)(param_1 + 0x48) == 0" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) == number_literal) )) && (parenthesized_expression "(*(int *)(param_1 + 0x2c) < 1)" ( (binary_expression "*(int *)(param_1 + 0x2c) < 1" (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) )))) < number_literal) ))) )) && (parenthesized_expression "(iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" ( (comma_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0" (assignment_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" identifier = (call_expression "FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" identifier (argument_list "(param_1,0,0xffffffff,0xffffffff)" ( identifier , number_literal , number_literal , number_literal )))) , (binary_expression "iVar1 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n return iVar1;\n }" { (return_statement "return iVar1;" return identifier ;) })) (expression_statement "iVar2 = *(int *)(param_1 + 0x34);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x34)" identifier = (pointer_expression "*(int *)(param_1 + 0x34)" * (cast_expression "(int *)(param_1 + 0x34)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x34)" ( (binary_expression "param_1 + 0x34" identifier + number_literal) ))))) ;) (expression_statement "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);" (assignment_expression "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" identifier = (binary_expression "param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" (binary_expression "param_4 + ((int)param_5 >> 0x1f)" identifier + (parenthesized_expression "((int)param_5 >> 0x1f)" ( (binary_expression "(int)param_5 >> 0x1f" (cast_expression "(int)param_5" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) + (cast_expression "(uint)CARRY4(param_3,param_5)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3,param_5)" identifier (argument_list "(param_3,param_5)" ( identifier , identifier )))))) ;) (expression_statement "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;" (assignment_expression "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5" identifier = (binary_expression "*(uint *)(param_1 + 0x30) < param_3 + param_5" (pointer_expression "*(uint *)(param_1 + 0x30)" * (cast_expression "(uint *)(param_1 + 0x30)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x30)" ( (binary_expression "param_1 + 0x30" identifier + number_literal) )))) < (binary_expression "param_3 + param_5" identifier + identifier))) ;) (if_statement "if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" if (parenthesized_expression "((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)))" ( (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0" (cast_expression "(int)(iVar2 - (iVar1 + (uint)bVar3))" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(iVar2 - (iVar1 + (uint)bVar3))" ( (binary_expression "iVar2 - (iVar1 + (uint)bVar3)" identifier - (parenthesized_expression "(iVar1 + (uint)bVar3)" ( (binary_expression "iVar1 + (uint)bVar3" identifier + (cast_expression "(uint)bVar3" ( (type_descriptor "uint" type_identifier) ) identifier)) ))) ))) < number_literal) == (parenthesized_expression "(SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" ( (binary_expression "SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)" (call_expression "SBORROW4(iVar2,iVar1)" identifier (argument_list "(iVar2,iVar1)" ( identifier , identifier ))) != (call_expression "SBORROW4(iVar2 - iVar1,(uint)bVar3)" identifier (argument_list "(iVar2 - iVar1,(uint)bVar3)" ( (binary_expression "iVar2 - iVar1" identifier - identifier) , (cast_expression "(uint)bVar3" ( (type_descriptor "uint" type_identifier) ) identifier) )))) ))) )) (compound_statement "{\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" { (expression_statement "iVar1 = *(int *)(param_1 + 0x2c);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x2c)" identifier = (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) ))))) ;) (expression_statement "*param_6 = *(int *)(param_1 + 0x48) + param_3;" (assignment_expression "*param_6 = *(int *)(param_1 + 0x48) + param_3" (pointer_expression "*param_6" * identifier) = (binary_expression "*(int *)(param_1 + 0x48) + param_3" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + identifier)) ;) (expression_statement "*(int *)(param_1 + 0x2c) = iVar1 + 1;" (assignment_expression "*(int *)(param_1 + 0x2c) = iVar1 + 1" (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) )))) = (binary_expression "iVar1 + 1" identifier + number_literal)) ;) (return_statement "return 0;" return number_literal ;) })) })) (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit "int unixFetch(sqlite3_file *fd,i64 iOff,int nAmt,void **pp)\n\n{\n unixFile *pFd;\n int iVar1;\n int in_r3;\n undefined4 unaff_r4;\n undefined4 unaff_r5;\n sqlite3_io_methods *psVar2;\n sqlite3_io_methods *psVar3;\n bool bVar4;\n \n psVar2 = fd[0x10].pMethods;\n psVar3 = fd[0x11].pMethods;\n *iOff._4_4_ = 0;\n if ((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3) {\n if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }\n psVar2 = fd[0xd].pMethods;\n iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);\n bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);\n if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }\n }\n return 0;\n}\n\n" (function_definition "int unixFetch(sqlite3_file *fd,i64 iOff,int nAmt,void **pp)\n\n{\n unixFile *pFd;\n int iVar1;\n int in_r3;\n undefined4 unaff_r4;\n undefined4 unaff_r5;\n sqlite3_io_methods *psVar2;\n sqlite3_io_methods *psVar3;\n bool bVar4;\n \n psVar2 = fd[0x10].pMethods;\n psVar3 = fd[0x11].pMethods;\n *iOff._4_4_ = 0;\n if ((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3) {\n if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }\n psVar2 = fd[0xd].pMethods;\n iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);\n bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);\n if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }\n }\n return 0;\n}" primitive_type (function_declarator "unixFetch(sqlite3_file *fd,i64 iOff,int nAmt,void **pp)" identifier (parameter_list "(sqlite3_file *fd,i64 iOff,int nAmt,void **pp)" ( (parameter_declaration "sqlite3_file *fd" type_identifier (pointer_declarator "*fd" * identifier)) , (parameter_declaration "i64 iOff" type_identifier identifier) , (parameter_declaration "int nAmt" primitive_type identifier) , (parameter_declaration "void **pp" primitive_type (pointer_declarator "**pp" * (pointer_declarator "*pp" * identifier))) ))) (compound_statement "{\n unixFile *pFd;\n int iVar1;\n int in_r3;\n undefined4 unaff_r4;\n undefined4 unaff_r5;\n sqlite3_io_methods *psVar2;\n sqlite3_io_methods *psVar3;\n bool bVar4;\n \n psVar2 = fd[0x10].pMethods;\n psVar3 = fd[0x11].pMethods;\n *iOff._4_4_ = 0;\n if ((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3) {\n if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }\n psVar2 = fd[0xd].pMethods;\n iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);\n bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);\n if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }\n }\n return 0;\n}" { (declaration "unixFile *pFd;" type_identifier (pointer_declarator "*pFd" * identifier) ;) (declaration "int iVar1;" primitive_type identifier ;) (declaration "int in_r3;" primitive_type identifier ;) (declaration "undefined4 unaff_r4;" type_identifier identifier ;) (declaration "undefined4 unaff_r5;" type_identifier identifier ;) (declaration "sqlite3_io_methods *psVar2;" type_identifier (pointer_declarator "*psVar2" * identifier) ;) (declaration "sqlite3_io_methods *psVar3;" type_identifier (pointer_declarator "*psVar3" * identifier) ;) (declaration "bool bVar4;" primitive_type identifier ;) (expression_statement "psVar2 = fd[0x10].pMethods;" (assignment_expression "psVar2 = fd[0x10].pMethods" identifier = (field_expression "fd[0x10].pMethods" (subscript_expression "fd[0x10]" identifier [ number_literal ]) . field_identifier)) ;) (expression_statement "psVar3 = fd[0x11].pMethods;" (assignment_expression "psVar3 = fd[0x11].pMethods" identifier = (field_expression "fd[0x11].pMethods" (subscript_expression "fd[0x11]" identifier [ number_literal ]) . field_identifier)) ;) (expression_statement "*iOff._4_4_ = 0;" (assignment_expression "*iOff._4_4_ = 0" (pointer_expression "*iOff._4_4_" * (field_expression "iOff._4_4_" identifier . field_identifier)) = number_literal) ;) (if_statement "if ((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3) {\n if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }\n psVar2 = fd[0xd].pMethods;\n iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);\n bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);\n if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }\n }" if (parenthesized_expression "((int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3)" ( (binary_expression "(int)(uint)(psVar2 == (sqlite3_io_methods *)0x0) <= (int)psVar3" (cast_expression "(int)(uint)(psVar2 == (sqlite3_io_methods *)0x0)" ( (type_descriptor "int" primitive_type) ) (call_expression "(uint)(psVar2 == (sqlite3_io_methods *)0x0)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(psVar2 == (sqlite3_io_methods *)0x0)" ( (binary_expression "psVar2 == (sqlite3_io_methods *)0x0" identifier == (cast_expression "(sqlite3_io_methods *)0x0" ( (type_descriptor "sqlite3_io_methods *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )))) <= (cast_expression "(int)psVar3" ( (type_descriptor "int" primitive_type) ) identifier)) )) (compound_statement "{\n if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }\n psVar2 = fd[0xd].pMethods;\n iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);\n bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);\n if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }\n }" { (if_statement "if (((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)) {\n return iVar1;\n }" if (parenthesized_expression "(((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0))" ( (binary_expression "((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)) &&\n (iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)" (parenthesized_expression "((fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1))" ( (binary_expression "(fd[0x12].pMethods == (sqlite3_io_methods *)0x0) && ((int)fd[0xb].pMethods < 1)" (parenthesized_expression "(fd[0x12].pMethods == (sqlite3_io_methods *)0x0)" ( (binary_expression "fd[0x12].pMethods == (sqlite3_io_methods *)0x0" (field_expression "fd[0x12].pMethods" (subscript_expression "fd[0x12]" identifier [ number_literal ]) . field_identifier) == (cast_expression "(sqlite3_io_methods *)0x0" ( (type_descriptor "sqlite3_io_methods *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) && (parenthesized_expression "((int)fd[0xb].pMethods < 1)" ( (binary_expression "(int)fd[0xb].pMethods < 1" (cast_expression "(int)fd[0xb].pMethods" ( (type_descriptor "int" primitive_type) ) (field_expression "fd[0xb].pMethods" (subscript_expression "fd[0xb]" identifier [ number_literal ]) . field_identifier)) < number_literal) ))) )) && (parenthesized_expression "(iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0)" ( (comma_expression "iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4)), iVar1 != 0" (assignment_expression "iVar1 = unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4))" identifier = (call_expression "unixMapfile((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4))" identifier (argument_list "((unixFile *)fd,CONCAT44(unaff_r5,unaff_r4))" ( (cast_expression "(unixFile *)fd" ( (type_descriptor "unixFile *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier) , (call_expression "CONCAT44(unaff_r5,unaff_r4)" identifier (argument_list "(unaff_r5,unaff_r4)" ( identifier , identifier ))) )))) , (binary_expression "iVar1 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n return iVar1;\n }" { (return_statement "return iVar1;" return identifier ;) })) (expression_statement "psVar2 = fd[0xd].pMethods;" (assignment_expression "psVar2 = fd[0xd].pMethods" identifier = (field_expression "fd[0xd].pMethods" (subscript_expression "fd[0xd]" identifier [ number_literal ]) . field_identifier)) ;) (expression_statement "iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff);" (assignment_expression "iVar1 = in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff)" identifier = (binary_expression "in_r3 + ((int)(uint)iOff >> 0x1f) + (uint)CARRY4((uint)pp,(uint)iOff)" (binary_expression "in_r3 + ((int)(uint)iOff >> 0x1f)" identifier + (parenthesized_expression "((int)(uint)iOff >> 0x1f)" ( (binary_expression "(int)(uint)iOff >> 0x1f" (cast_expression "(int)(uint)iOff" ( (type_descriptor "int" primitive_type) ) (cast_expression "(uint)iOff" ( (type_descriptor "uint" type_identifier) ) identifier)) >> number_literal) ))) + (cast_expression "(uint)CARRY4((uint)pp,(uint)iOff)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4((uint)pp,(uint)iOff)" identifier (argument_list "((uint)pp,(uint)iOff)" ( (cast_expression "(uint)pp" ( (type_descriptor "uint" type_identifier) ) identifier) , (cast_expression "(uint)iOff" ( (type_descriptor "uint" type_identifier) ) identifier) )))))) ;) (expression_statement "bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff);" (assignment_expression "bVar4 = fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff)" identifier = (binary_expression "fd[0xc].pMethods < (sqlite3_io_methods *)((int)pp + (uint)iOff)" (field_expression "fd[0xc].pMethods" (subscript_expression "fd[0xc]" identifier [ number_literal ]) . field_identifier) < (cast_expression "(sqlite3_io_methods *)((int)pp + (uint)iOff)" ( (type_descriptor "sqlite3_io_methods *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)pp + (uint)iOff)" ( (binary_expression "(int)pp + (uint)iOff" (cast_expression "(int)pp" ( (type_descriptor "int" primitive_type) ) identifier) + (cast_expression "(uint)iOff" ( (type_descriptor "uint" type_identifier) ) identifier)) ))))) ;) (if_statement "if ((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))) {\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }" if (parenthesized_expression "((int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4)))" ( (binary_expression "(int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0 ==\n (SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))" (binary_expression "(int)((int)psVar2 - (iVar1 + (uint)bVar4)) < 0" (cast_expression "(int)((int)psVar2 - (iVar1 + (uint)bVar4))" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "((int)psVar2 - (iVar1 + (uint)bVar4))" ( (binary_expression "(int)psVar2 - (iVar1 + (uint)bVar4)" (cast_expression "(int)psVar2" ( (type_descriptor "int" primitive_type) ) identifier) - (parenthesized_expression "(iVar1 + (uint)bVar4)" ( (binary_expression "iVar1 + (uint)bVar4" identifier + (cast_expression "(uint)bVar4" ( (type_descriptor "uint" type_identifier) ) identifier)) ))) ))) < number_literal) == (parenthesized_expression "(SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4))" ( (binary_expression "SBORROW4((int)psVar2,iVar1) != SBORROW4((int)psVar2 - iVar1,(uint)bVar4)" (call_expression "SBORROW4((int)psVar2,iVar1)" identifier (argument_list "((int)psVar2,iVar1)" ( (cast_expression "(int)psVar2" ( (type_descriptor "int" primitive_type) ) identifier) , identifier ))) != (call_expression "SBORROW4((int)psVar2 - iVar1,(uint)bVar4)" identifier (argument_list "((int)psVar2 - iVar1,(uint)bVar4)" ( (binary_expression "(int)psVar2 - iVar1" (cast_expression "(int)psVar2" ( (type_descriptor "int" primitive_type) ) identifier) - identifier) , (cast_expression "(uint)bVar4" ( (type_descriptor "uint" type_identifier) ) identifier) )))) ))) )) (compound_statement "{\n psVar2 = fd[0xb].pMethods;\n *iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;\n fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);\n return 0;\n }" { (expression_statement "psVar2 = fd[0xb].pMethods;" (assignment_expression "psVar2 = fd[0xb].pMethods" identifier = (field_expression "fd[0xb].pMethods" (subscript_expression "fd[0xb]" identifier [ number_literal ]) . field_identifier)) ;) (expression_statement "*iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;" (assignment_expression "*iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp" (pointer_expression "*iOff._4_4_" * (field_expression "iOff._4_4_" identifier . field_identifier)) = (binary_expression "(int)&(fd[0x12].pMethods)->iVersion + (int)pp" (cast_expression "(int)&(fd[0x12].pMethods)->iVersion" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&(fd[0x12].pMethods)->iVersion" & (field_expression "(fd[0x12].pMethods)->iVersion" (parenthesized_expression "(fd[0x12].pMethods)" ( (field_expression "fd[0x12].pMethods" (subscript_expression "fd[0x12]" identifier [ number_literal ]) . field_identifier) )) -> field_identifier))) + (cast_expression "(int)pp" ( (type_descriptor "int" primitive_type) ) identifier))) ;) (expression_statement "fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1);" (assignment_expression "fd[0xb].pMethods = (sqlite3_io_methods *)((int)&psVar2->iVersion + 1)" (field_expression "fd[0xb].pMethods" (subscript_expression "fd[0xb]" identifier [ number_literal ]) . field_identifier) = (cast_expression "(sqlite3_io_methods *)((int)&psVar2->iVersion + 1)" ( (type_descriptor "sqlite3_io_methods *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&psVar2->iVersion + 1)" ( (binary_expression "(int)&psVar2->iVersion + 1" (cast_expression "(int)&psVar2->iVersion" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&psVar2->iVersion" & (field_expression "psVar2->iVersion" identifier -> field_identifier))) + number_literal) )))) ;) (return_statement "return 0;" return number_literal ;) })) })) (return_statement "return 0;" return number_literal ;) })))
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(translation_unit "int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)\n\n{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}\n\n" (function_definition "int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)\n\n{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" primitive_type (function_declarator "FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" identifier (parameter_list "(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" ( (parameter_declaration "int param_1" primitive_type identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "uint param_3" type_identifier identifier) , (parameter_declaration "int param_4" primitive_type identifier) , (parameter_declaration "uint param_5" type_identifier identifier) , (parameter_declaration "int *param_6" primitive_type (pointer_declarator "*param_6" * identifier)) ))) (compound_statement "{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int iVar2;" primitive_type identifier ;) (declaration "bool bVar3;" primitive_type identifier ;) (expression_statement "iVar1 = *(int *)(param_1 + 0x40);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x40)" identifier = (pointer_expression "*(int *)(param_1 + 0x40)" * (cast_expression "(int *)(param_1 + 0x40)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x40)" ( (binary_expression "param_1 + 0x40" identifier + number_literal) ))))) ;) (expression_statement "iVar2 = *(int *)(param_1 + 0x44);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x44)" identifier = (pointer_expression "*(int *)(param_1 + 0x44)" * (cast_expression "(int *)(param_1 + 0x44)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x44)" ( (binary_expression "param_1 + 0x44" identifier + number_literal) ))))) ;) (expression_statement "*param_6 = 0;" (assignment_expression "*param_6 = 0" (pointer_expression "*param_6" * identifier) = number_literal) ;) (if_statement "if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" if (parenthesized_expression "((int)(uint)(iVar1 == 0) <= iVar2)" ( (binary_expression "(int)(uint)(iVar1 == 0) <= iVar2" (cast_expression "(int)(uint)(iVar1 == 0)" ( (type_descriptor "int" primitive_type) ) (call_expression "(uint)(iVar1 == 0)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )))) <= identifier) )) (compound_statement "{\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" { (if_statement "if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }" if (parenthesized_expression "(((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0))" ( (binary_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" (parenthesized_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1))" ( (binary_expression "(*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)" (parenthesized_expression "(*(int *)(param_1 + 0x48) == 0)" ( (binary_expression "*(int *)(param_1 + 0x48) == 0" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) == number_literal) )) && (parenthesized_expression "(*(int *)(param_1 + 0x2c) < 1)" ( (binary_expression "*(int *)(param_1 + 0x2c) < 1" (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) )))) < number_literal) ))) )) && (parenthesized_expression "(iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" ( (comma_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0" (assignment_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" identifier = (call_expression "FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" identifier (argument_list "(param_1,0,0xffffffff,0xffffffff)" ( identifier , number_literal , number_literal , number_literal )))) , (binary_expression "iVar1 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n return iVar1;\n }" { (return_statement "return iVar1;" return identifier ;) })) (expression_statement "iVar2 = *(int *)(param_1 + 0x34);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x34)" identifier = (pointer_expression "*(int *)(param_1 + 0x34)" * (cast_expression "(int *)(param_1 + 0x34)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x34)" ( (binary_expression "param_1 + 0x34" identifier + number_literal) ))))) ;) (expression_statement "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);" (assignment_expression "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" identifier = (binary_expression "param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" (binary_expression "param_4 + ((int)param_5 >> 0x1f)" identifier + (parenthesized_expression "((int)param_5 >> 0x1f)" ( (binary_expression "(int)param_5 >> 0x1f" (cast_expression "(int)param_5" ( (type_descriptor "int" primitive_type) ) identifier) >> number_literal) ))) + (cast_expression "(uint)CARRY4(param_3,param_5)" ( (type_descriptor "uint" type_identifier) ) (call_expression "CARRY4(param_3,param_5)" identifier (argument_list "(param_3,param_5)" ( identifier , identifier )))))) ;) (expression_statement "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;" (assignment_expression "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5" identifier = (binary_expression "*(uint *)(param_1 + 0x30) < param_3 + param_5" (pointer_expression "*(uint *)(param_1 + 0x30)" * (cast_expression "(uint *)(param_1 + 0x30)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x30)" ( (binary_expression "param_1 + 0x30" identifier + number_literal) )))) < (binary_expression "param_3 + param_5" identifier + identifier))) ;) (if_statement "if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" if (parenthesized_expression "((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)))" ( (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0" (cast_expression "(int)(iVar2 - (iVar1 + (uint)bVar3))" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(iVar2 - (iVar1 + (uint)bVar3))" ( (binary_expression "iVar2 - (iVar1 + (uint)bVar3)" identifier - (parenthesized_expression "(iVar1 + (uint)bVar3)" ( (binary_expression "iVar1 + (uint)bVar3" identifier + (cast_expression "(uint)bVar3" ( (type_descriptor "uint" type_identifier) ) identifier)) ))) ))) < number_literal) == (parenthesized_expression "(SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" ( (binary_expression "SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)" (call_expression "SBORROW4(iVar2,iVar1)" identifier (argument_list "(iVar2,iVar1)" ( identifier , identifier ))) != (call_expression "SBORROW4(iVar2 - iVar1,(uint)bVar3)" identifier (argument_list "(iVar2 - iVar1,(uint)bVar3)" ( (binary_expression "iVar2 - iVar1" identifier - identifier) , (cast_expression "(uint)bVar3" ( (type_descriptor "uint" type_identifier) ) identifier) )))) ))) )) (compound_statement "{\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" { (expression_statement "iVar1 = *(int *)(param_1 + 0x2c);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x2c)" identifier = (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) ))))) ;) (expression_statement "*param_6 = *(int *)(param_1 + 0x48) + param_3;" (assignment_expression "*param_6 = *(int *)(param_1 + 0x48) + param_3" (pointer_expression "*param_6" * identifier) = (binary_expression "*(int *)(param_1 + 0x48) + param_3" (pointer_expression "*(int *)(param_1 + 0x48)" * (cast_expression "(int *)(param_1 + 0x48)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x48)" ( (binary_expression "param_1 + 0x48" identifier + number_literal) )))) + identifier)) ;) (expression_statement "*(int *)(param_1 + 0x2c) = iVar1 + 1;" (assignment_expression "*(int *)(param_1 + 0x2c) = iVar1 + 1" (pointer_expression "*(int *)(param_1 + 0x2c)" * (cast_expression "(int *)(param_1 + 0x2c)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 0x2c)" ( (binary_expression "param_1 + 0x2c" identifier + number_literal) )))) = (binary_expression "iVar1 + 1" identifier + number_literal)) ;) (return_statement "return 0;" return number_literal ;) })) })) (return_statement "return 0;" return number_literal ;) })))
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(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression IDENT == LIT) )))) <= IDENT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == LIT) )) && (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) < LIT) ))) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , LIT , LIT , LIT )))) , (binary_expression IDENT != LIT)) ))) )) (compound_statement { (return_statement return IDENT ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT + (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) >> LIT) ))) + (cast_expression ( (type_descriptor TYPE) ) (call_expression IDENT (argument_list ( IDENT , IDENT )))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) < (binary_expression IDENT + IDENT))) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT - (parenthesized_expression ( (binary_expression IDENT + (cast_expression ( (type_descriptor TYPE) ) IDENT)) ))) ))) < LIT) == (parenthesized_expression ( (binary_expression (call_expression IDENT (argument_list ( IDENT , IDENT ))) != (call_expression IDENT (argument_list ( (binary_expression IDENT - IDENT) , (cast_expression ( (type_descriptor TYPE) ) IDENT) )))) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) + IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression IDENT + LIT)) ;) (return_statement return LIT ;) })) })) (return_statement return LIT ;) })))
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(function_definition "int FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)\n\n{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" (primitive_type "int") (function_declarator "FUN_0003d614(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" (identifier "FUN_0003d614") (parameter_list "(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)" (( "(") (parameter_declaration "int param_1" (primitive_type "int") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "uint param_3" (type_identifier "uint") (identifier "param_3")) (, ",") (parameter_declaration "int param_4" (primitive_type "int") (identifier "param_4")) (, ",") (parameter_declaration "uint param_5" (type_identifier "uint") (identifier "param_5")) (, ",") (parameter_declaration "int *param_6" (primitive_type "int") (pointer_declarator "*param_6" (* "*") (identifier "param_6"))) () ")"))) (compound_statement "{\n int iVar1;\n int iVar2;\n bool bVar3;\n \n iVar1 = *(int *)(param_1 + 0x40);\n iVar2 = *(int *)(param_1 + 0x44);\n *param_6 = 0;\n if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }\n return 0;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int iVar2;" (primitive_type "int") (identifier "iVar2") (; ";")) (declaration "bool bVar3;" (primitive_type "bool") (identifier "bVar3") (; ";")) (expression_statement "iVar1 = *(int *)(param_1 + 0x40);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x40)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(param_1 + 0x40)" (* "*") (cast_expression "(int *)(param_1 + 0x40)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x40)" (( "(") (binary_expression "param_1 + 0x40" (identifier "param_1") (+ "+") (number_literal "0x40")) () ")"))))) (; ";")) (expression_statement "iVar2 = *(int *)(param_1 + 0x44);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x44)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(param_1 + 0x44)" (* "*") (cast_expression "(int *)(param_1 + 0x44)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x44)" (( "(") (binary_expression "param_1 + 0x44" (identifier "param_1") (+ "+") (number_literal "0x44")) () ")"))))) (; ";")) (expression_statement "*param_6 = 0;" (assignment_expression "*param_6 = 0" (pointer_expression "*param_6" (* "*") (identifier "param_6")) (= "=") (number_literal "0")) (; ";")) (if_statement "if ((int)(uint)(iVar1 == 0) <= iVar2) {\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" (if "if") (parenthesized_expression "((int)(uint)(iVar1 == 0) <= iVar2)" (( "(") (binary_expression "(int)(uint)(iVar1 == 0) <= iVar2" (cast_expression "(int)(uint)(iVar1 == 0)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (call_expression "(uint)(iVar1 == 0)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (argument_list "(iVar1 == 0)" (( "(") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0")) () ")")))) (<= "<=") (identifier "iVar2")) () ")")) (compound_statement "{\n if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }\n iVar2 = *(int *)(param_1 + 0x34);\n iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);\n bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;\n if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }\n }" ({ "{") (if_statement "if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {\n return iVar1;\n }" (if "if") (parenthesized_expression "(((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0))" (( "(") (binary_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&\n (iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" (parenthesized_expression "((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1))" (( "(") (binary_expression "(*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)" (parenthesized_expression "(*(int *)(param_1 + 0x48) == 0)" (( "(") (binary_expression "*(int *)(param_1 + 0x48) == 0" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (== "==") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(*(int *)(param_1 + 0x2c) < 1)" (( "(") (binary_expression "*(int *)(param_1 + 0x2c) < 1" (pointer_expression "*(int *)(param_1 + 0x2c)" (* "*") (cast_expression "(int *)(param_1 + 0x2c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x2c)" (( "(") (binary_expression "param_1 + 0x2c" (identifier "param_1") (+ "+") (number_literal "0x2c")) () ")")))) (< "<") (number_literal "1")) () ")"))) () ")")) (&& "&&") (parenthesized_expression "(iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)" (( "(") (comma_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0" (assignment_expression "iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" (identifier "iVar1") (= "=") (call_expression "FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff)" (identifier "FUN_0003d3f4") (argument_list "(param_1,0,0xffffffff,0xffffffff)" (( "(") (identifier "param_1") (, ",") (number_literal "0") (, ",") (number_literal "0xffffffff") (, ",") (number_literal "0xffffffff") () ")")))) (, ",") (binary_expression "iVar1 != 0" (identifier "iVar1") (!= "!=") (number_literal "0"))) () ")"))) () ")")) (compound_statement "{\n return iVar1;\n }" ({ "{") (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}"))) (expression_statement "iVar2 = *(int *)(param_1 + 0x34);" (assignment_expression "iVar2 = *(int *)(param_1 + 0x34)" (identifier "iVar2") (= "=") (pointer_expression "*(int *)(param_1 + 0x34)" (* "*") (cast_expression "(int *)(param_1 + 0x34)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x34)" (( "(") (binary_expression "param_1 + 0x34" (identifier "param_1") (+ "+") (number_literal "0x34")) () ")"))))) (; ";")) (expression_statement "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);" (assignment_expression "iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" (identifier "iVar1") (= "=") (binary_expression "param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5)" (binary_expression "param_4 + ((int)param_5 >> 0x1f)" (identifier "param_4") (+ "+") (parenthesized_expression "((int)param_5 >> 0x1f)" (( "(") (binary_expression "(int)param_5 >> 0x1f" (cast_expression "(int)param_5" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_5")) (>> ">>") (number_literal "0x1f")) () ")"))) (+ "+") (cast_expression "(uint)CARRY4(param_3,param_5)" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (call_expression "CARRY4(param_3,param_5)" (identifier "CARRY4") (argument_list "(param_3,param_5)" (( "(") (identifier "param_3") (, ",") (identifier "param_5") () ")")))))) (; ";")) (expression_statement "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;" (assignment_expression "bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5" (identifier "bVar3") (= "=") (binary_expression "*(uint *)(param_1 + 0x30) < param_3 + param_5" (pointer_expression "*(uint *)(param_1 + 0x30)" (* "*") (cast_expression "(uint *)(param_1 + 0x30)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x30)" (( "(") (binary_expression "param_1 + 0x30" (identifier "param_1") (+ "+") (number_literal "0x30")) () ")")))) (< "<") (binary_expression "param_3 + param_5" (identifier "param_3") (+ "+") (identifier "param_5")))) (; ";")) (if_statement "if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" (if "if") (parenthesized_expression "((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)))" (( "(") (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==\n (SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" (binary_expression "(int)(iVar2 - (iVar1 + (uint)bVar3)) < 0" (cast_expression "(int)(iVar2 - (iVar1 + (uint)bVar3))" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(iVar2 - (iVar1 + (uint)bVar3))" (( "(") (binary_expression "iVar2 - (iVar1 + (uint)bVar3)" (identifier "iVar2") (- "-") (parenthesized_expression "(iVar1 + (uint)bVar3)" (( "(") (binary_expression "iVar1 + (uint)bVar3" (identifier "iVar1") (+ "+") (cast_expression "(uint)bVar3" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar3"))) () ")"))) () ")"))) (< "<") (number_literal "0")) (== "==") (parenthesized_expression "(SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))" (( "(") (binary_expression "SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3)" (call_expression "SBORROW4(iVar2,iVar1)" (identifier "SBORROW4") (argument_list "(iVar2,iVar1)" (( "(") (identifier "iVar2") (, ",") (identifier "iVar1") () ")"))) (!= "!=") (call_expression "SBORROW4(iVar2 - iVar1,(uint)bVar3)" (identifier "SBORROW4") (argument_list "(iVar2 - iVar1,(uint)bVar3)" (( "(") (binary_expression "iVar2 - iVar1" (identifier "iVar2") (- "-") (identifier "iVar1")) (, ",") (cast_expression "(uint)bVar3" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "bVar3")) () ")")))) () ")"))) () ")")) (compound_statement "{\n iVar1 = *(int *)(param_1 + 0x2c);\n *param_6 = *(int *)(param_1 + 0x48) + param_3;\n *(int *)(param_1 + 0x2c) = iVar1 + 1;\n return 0;\n }" ({ "{") (expression_statement "iVar1 = *(int *)(param_1 + 0x2c);" (assignment_expression "iVar1 = *(int *)(param_1 + 0x2c)" (identifier "iVar1") (= "=") (pointer_expression "*(int *)(param_1 + 0x2c)" (* "*") (cast_expression "(int *)(param_1 + 0x2c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x2c)" (( "(") (binary_expression "param_1 + 0x2c" (identifier "param_1") (+ "+") (number_literal "0x2c")) () ")"))))) (; ";")) (expression_statement "*param_6 = *(int *)(param_1 + 0x48) + param_3;" (assignment_expression "*param_6 = *(int *)(param_1 + 0x48) + param_3" (pointer_expression "*param_6" (* "*") (identifier "param_6")) (= "=") (binary_expression "*(int *)(param_1 + 0x48) + param_3" (pointer_expression "*(int *)(param_1 + 0x48)" (* "*") (cast_expression "(int *)(param_1 + 0x48)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x48)" (( "(") (binary_expression "param_1 + 0x48" (identifier "param_1") (+ "+") (number_literal "0x48")) () ")")))) (+ "+") (identifier "param_3"))) (; ";")) (expression_statement "*(int *)(param_1 + 0x2c) = iVar1 + 1;" (assignment_expression "*(int *)(param_1 + 0x2c) = iVar1 + 1" (pointer_expression "*(int *)(param_1 + 0x2c)" (* "*") (cast_expression "(int *)(param_1 + 0x2c)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 0x2c)" (( "(") (binary_expression "param_1 + 0x2c" (identifier "param_1") (+ "+") (number_literal "0x2c")) () ")")))) (= "=") (binary_expression "iVar1 + 1" (identifier "iVar1") (+ "+") (number_literal "1"))) (; ";")) (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}"))) (} "}"))) (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}")))
|
int function_1(type_1 *fd,type_2 iOff,int nAmt,void **pp)
{
type_3 *pFd;
int var_4;
int var_5;
type_4 unaff_r4;
type_4 unaff_r5;
type_5 *var_1;
type_5 *psVar3;
bool bVar4;
var_1 = fd[0x10].pMethods;
psVar3 = fd[0x11].pMethods;
*iOff._4_4_ = 0;
if ((int)(type_6)(var_1 == (type_5 *)0x0) <= (int)psVar3) {
if (((fd[0x12].pMethods == (type_5 *)0x0) && ((int)fd[0xb].pMethods < 1)) &&
(var_4 = var_2((type_3 *)fd,var_3(unaff_r5,unaff_r4)), var_4 != 0)) {
return var_4;
}
var_1 = fd[0xd].pMethods;
var_4 = var_5 + ((int)(type_6)iOff >> 0x1f) + (type_6)var_6((type_6)pp,(type_6)iOff);
bVar4 = fd[0xc].pMethods < (type_5 *)((int)pp + (type_6)iOff);
if ((int)((int)var_1 - (var_4 + (type_6)bVar4)) < 0 ==
(var_7((int)var_1,var_4) != var_7((int)var_1 - var_4,(type_6)bVar4))) {
var_1 = fd[0xb].pMethods;
*iOff._4_4_ = (int)&(fd[0x12].pMethods)->iVersion + (int)pp;
fd[0xb].pMethods = (type_5 *)((int)&var_1->iVersion + 1);
return 0;
}
}
return 0;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (number_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (number_literal) (number_literal)))) right: (binary_expression left: (identifier) right: (number_literal)))))) consequence: (compound_statement (return_statement (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier))))))) right: (number_literal)) right: (parenthesized_expression (binary_expression left: (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier))) right: (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (identifier)) (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (identifier) right: (number_literal)))) (return_statement (number_literal)))))) (return_statement (number_literal)))))
|
int MASKED(int param_1,undefined4 param_2,uint param_3,int param_4,uint param_5,int *param_6)
{
int iVar1;
int iVar2;
bool bVar3;
iVar1 = *(int *)(param_1 + 0x40);
iVar2 = *(int *)(param_1 + 0x44);
*param_6 = 0;
if ((int)(uint)(iVar1 == 0) <= iVar2) {
if (((*(int *)(param_1 + 0x48) == 0) && (*(int *)(param_1 + 0x2c) < 1)) &&
(iVar1 = FUN_0003d3f4(param_1,0,0xffffffff,0xffffffff), iVar1 != 0)) {
return iVar1;
}
iVar2 = *(int *)(param_1 + 0x34);
iVar1 = param_4 + ((int)param_5 >> 0x1f) + (uint)CARRY4(param_3,param_5);
bVar3 = *(uint *)(param_1 + 0x30) < param_3 + param_5;
if ((int)(iVar2 - (iVar1 + (uint)bVar3)) < 0 ==
(SBORROW4(iVar2,iVar1) != SBORROW4(iVar2 - iVar1,(uint)bVar3))) {
iVar1 = *(int *)(param_1 + 0x2c);
*param_6 = *(int *)(param_1 + 0x48) + param_3;
*(int *)(param_1 + 0x2c) = iVar1 + 1;
return 0;
}
}
return 0;
}
| 67,969 |
||
347_locate_and_locate_strip.c
|
lseek64
|
lseek64
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
__off64_t lseek64(int __fd,__off64_t __offset,int __whence)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* lseek64@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
__off64_t lseek64(int __fd,__off64_t __offset,int __whence)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206169410')]
|
[('const-1', u'RETURN_-1206169410')]
| null | null |
000450b4
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\n__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" type_identifier (function_declarator "lseek64(int __fd,__off64_t __offset,int __whence)" identifier (parameter_list "(int __fd,__off64_t __offset,int __whence)" ( (parameter_declaration "int __fd" primitive_type identifier) , (parameter_declaration "__off64_t __offset" type_identifier identifier) , (parameter_declaration "int __whence" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\n__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* lseek64@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* lseek64@@GLIBC_2.4 */\n halt_baddata();\n}" type_identifier (function_declarator "lseek64(int __fd,__off64_t __offset,int __whence)" identifier (parameter_list "(int __fd,__off64_t __offset,int __whence)" ( (parameter_declaration "int __fd" primitive_type identifier) , (parameter_declaration "__off64_t __offset" type_identifier identifier) , (parameter_declaration "int __whence" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* lseek64@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\n__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" type_identifier (function_declarator "lseek64(int __fd,__off64_t __offset,int __whence)" identifier (parameter_list "(int __fd,__off64_t __offset,int __whence)" ( (parameter_declaration "int __fd" primitive_type identifier) , (parameter_declaration "__off64_t __offset" type_identifier identifier) , (parameter_declaration "int __whence" primitive_type identifier) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "__off64_t lseek64(int __fd,__off64_t __offset,int __whence)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (type_identifier "__off64_t") (function_declarator "lseek64(int __fd,__off64_t __offset,int __whence)" (identifier "lseek64") (parameter_list "(int __fd,__off64_t __offset,int __whence)" (( "(") (parameter_declaration "int __fd" (primitive_type "int") (identifier "__fd")) (, ",") (parameter_declaration "__off64_t __offset" (type_identifier "__off64_t") (identifier "__offset")) (, ",") (parameter_declaration "int __whence" (primitive_type "int") (identifier "__whence")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
type_1 function_1(int __fd,type_1 __offset,int __whence)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* lseek64@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
__off64_t MASKED(int __fd,__off64_t __offset,int __whence)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 64,925 |
||
1014_libcurl.so.4.5_and_libcurl.so.4.5_strip.c
|
Curl_resolver_global_init
|
FUN_00058c2c
|
/* WARNING: Unknown calling convention */
int Curl_resolver_global_init(void)
{
return 0;
}
|
undefined4 FUN_00058c2c(void)
{
return 0;
}
|
mov r0,#0x0
bx lr
| null | null | null | null |
[('const-0', u'RETURN_-1206219702'), (u'COPY_-1206219724', u'RETURN_-1206219702'), ('const-0', u'COPY_-1206219724')]
|
[('const-0', u'RETURN_-1206219702'), (u'COPY_-1206219724', u'RETURN_-1206219702'), ('const-0', u'COPY_-1206219724')]
| null | null |
00058c2c
|
arm
|
O2
|
(translation_unit "undefined4 FUN_00058c2c(void)\n\n{\n return 0;\n}\n\n" (function_definition "undefined4 FUN_00058c2c(void)\n\n{\n return 0;\n}" type_identifier (function_declarator "FUN_00058c2c(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n return 0;\n}" { (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention */\n\nint Curl_resolver_global_init(void)\n\n{\n return 0;\n}\n\n" comment (function_definition "int Curl_resolver_global_init(void)\n\n{\n return 0;\n}" primitive_type (function_declarator "Curl_resolver_global_init(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n return 0;\n}" { (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit "undefined4 FUN_00058c2c(void)\n\n{\n return 0;\n}\n\n" (function_definition "undefined4 FUN_00058c2c(void)\n\n{\n return 0;\n}" type_identifier (function_declarator "FUN_00058c2c(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n return 0;\n}" { (return_statement "return 0;" return number_literal ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (return_statement return LIT ;) })))
|
(function_definition "undefined4 FUN_00058c2c(void)\n\n{\n return 0;\n}" (type_identifier "undefined4") (function_declarator "FUN_00058c2c(void)" (identifier "FUN_00058c2c") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n return 0;\n}" ({ "{") (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention */
int function_1(void)
{
return 0;
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (return_statement (number_literal)))))
|
undefined4 MASKED(void)
{
return 0;
}
| 62,955 |
||
1503_pterm_and_pterm_strip.c
|
ptsname
|
ptsname
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * ptsname(int __fd)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* ptsname@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * ptsname(int __fd)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206516014')]
|
[('const-1', u'RETURN_-1206516014')]
| null | null |
000906c8
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (pointer_declarator "* ptsname(int __fd)" * (function_declarator "ptsname(int __fd)" identifier (parameter_list "(int __fd)" ( (parameter_declaration "int __fd" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* ptsname@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* ptsname@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (pointer_declarator "* ptsname(int __fd)" * (function_declarator "ptsname(int __fd)" identifier (parameter_list "(int __fd)" ( (parameter_declaration "int __fd" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* ptsname@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nchar * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "char * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (pointer_declarator "* ptsname(int __fd)" * (function_declarator "ptsname(int __fd)" identifier (parameter_list "(int __fd)" ( (parameter_declaration "int __fd" primitive_type identifier) )))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) )))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "char * ptsname(int __fd)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "char") (pointer_declarator "* ptsname(int __fd)" (* "*") (function_declarator "ptsname(int __fd)" (identifier "ptsname") (parameter_list "(int __fd)" (( "(") (parameter_declaration "int __fd" (primitive_type "int") (identifier "__fd")) () ")")))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * function_1(int __fd)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* ptsname@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
char * MASKED(int __fd)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 59,735 |
||
60_cat_and_cat_strip.c
|
frame_dummy
|
_INIT_0
|
void frame_dummy(void)
{
code *pcVar1;
if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {
return;
}
pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);
if (pcVar1 == (code *)0x0) {
return;
}
(*pcVar1)();
return;
}
|
void _INIT_0(void)
{
code *pcVar1;
if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {
return;
}
pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);
if (pcVar1 == (code *)0x0) {
return;
}
(*pcVar1)();
return;
}
|
b 0x00011dbc
| null | null | null | null |
[('const-0', u'RETURN_-1205985739'), ('tmp_250', u'CBRANCH_-1205985707'), ('tmp_413', u'COPY_-1205985665'), ('tmp_414', u'INT_ADD_-1205985720'), (u'INT_SUB_-1205985804', u'INT_SRIGHT_-1205985782'), (u'INT_ADD_-1205985743', u'INT_ADD_-1205985720'), ('tmp_411', u'INT_ADD_-1205985826'), ('tmp_412', u'INT_ADD_-1205985815'), ('tmp_414', u'COPY_-1205985678'), ('const-73164', u'INT_ADD_-1205985826'), ('const-2', u'INT_SDIV_-1205985746'), (u'INT_EQUAL_-1205985766', u'CBRANCH_-1205985749'), ('const-417', u'LOAD_-1205985736'), (u'INDIRECT_-1205985611', u'COPY_-1205985668'), (u'INDIRECT_-1205985599', u'COPY_-1205985656'), ('const-73192', u'INT_ADD_-1205985743'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985603'), ('const-0', u'RETURN_-1205985697'), (u'INDIRECT_-1205985603', u'COPY_-1205985660'), ('const-2', u'INT_SRIGHT_-1205985782'), (u'CAST_-1205985602', u'LOAD_-1205985736'), (u'INT_ADD_-1205985815', u'INT_SUB_-1205985804'), ('tmp_411', u'COPY_-1205985673'), (u'INT_EQUAL_-1205985711', u'CBRANCH_-1205985707'), (u'INT_ADD_-1205985826', u'INT_SUB_-1205985804'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985607'), ('tmp_411', u'COPY_-1205985690'), (u'INT_ADD_-1205985720', u'CAST_-1205985602'), (u'LOAD_-1205985736', u'INT_EQUAL_-1205985711'), ('const-0', u'INT_EQUAL_-1205985711'), ('tmp_412', u'COPY_-1205985686'), ('tmp_412', u'COPY_-1205985669'), ('tmp_414', u'COPY_-1205985661'), ('const-73168', u'INT_ADD_-1205985815'), (u'INDIRECT_-1205985607', u'COPY_-1205985664'), ('tmp_413', u'INT_ADD_-1205985743'), (u'LOAD_-1205985736', u'CALLIND_-1205985690'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985599'), ('const-0', u'INT_EQUAL_-1205985766'), ('tmp_413', u'COPY_-1205985682'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985611'), ('tmp_181', u'CBRANCH_-1205985749'), ('const-0', u'RETURN_-1205985687'), (u'INT_SRIGHT_-1205985782', u'INT_SDIV_-1205985746'), (u'INT_SDIV_-1205985746', u'INT_EQUAL_-1205985766')]
|
[('const-0', u'RETURN_-1205985739'), ('tmp_250', u'CBRANCH_-1205985707'), ('tmp_413', u'COPY_-1205985665'), ('tmp_414', u'INT_ADD_-1205985720'), (u'INT_SUB_-1205985804', u'INT_SRIGHT_-1205985782'), (u'INT_ADD_-1205985743', u'INT_ADD_-1205985720'), ('tmp_411', u'INT_ADD_-1205985826'), ('tmp_412', u'INT_ADD_-1205985815'), ('tmp_414', u'COPY_-1205985678'), ('const-73164', u'INT_ADD_-1205985826'), ('const-2', u'INT_SDIV_-1205985746'), (u'INT_EQUAL_-1205985766', u'CBRANCH_-1205985749'), ('const-417', u'LOAD_-1205985736'), (u'INDIRECT_-1205985611', u'COPY_-1205985668'), (u'INDIRECT_-1205985599', u'COPY_-1205985656'), ('const-73192', u'INT_ADD_-1205985743'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985603'), ('const-0', u'RETURN_-1205985697'), (u'INDIRECT_-1205985603', u'COPY_-1205985660'), ('const-2', u'INT_SRIGHT_-1205985782'), (u'CAST_-1205985602', u'LOAD_-1205985736'), (u'INT_ADD_-1205985815', u'INT_SUB_-1205985804'), ('tmp_411', u'COPY_-1205985673'), (u'INT_EQUAL_-1205985711', u'CBRANCH_-1205985707'), (u'INT_ADD_-1205985826', u'INT_SUB_-1205985804'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985607'), ('tmp_411', u'COPY_-1205985690'), (u'INT_ADD_-1205985720', u'CAST_-1205985602'), (u'LOAD_-1205985736', u'INT_EQUAL_-1205985711'), ('const-0', u'INT_EQUAL_-1205985711'), ('tmp_412', u'COPY_-1205985686'), ('tmp_412', u'COPY_-1205985669'), ('tmp_414', u'COPY_-1205985661'), ('const-73168', u'INT_ADD_-1205985815'), (u'INDIRECT_-1205985607', u'COPY_-1205985664'), ('tmp_413', u'INT_ADD_-1205985743'), (u'LOAD_-1205985736', u'CALLIND_-1205985690'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985599'), ('const-0', u'INT_EQUAL_-1205985766'), ('tmp_413', u'COPY_-1205985682'), (u'CALLIND_-1205985690', u'INDIRECT_-1205985611'), ('tmp_181', u'CBRANCH_-1205985749'), ('const-0', u'RETURN_-1205985687'), (u'INT_SRIGHT_-1205985782', u'INT_SDIV_-1205985746'), (u'INT_SDIV_-1205985746', u'INT_EQUAL_-1205985766')]
| null | null |
00011e74
|
arm
|
O2
|
(translation_unit "void _INIT_0(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}\n\n" (function_definition "void _INIT_0(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" primitive_type (function_declarator "_INIT_0(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" { (declaration "code *pcVar1;" type_identifier (pointer_declarator "*pcVar1" * identifier) ;) (if_statement "if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }" if (parenthesized_expression "(((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0)" ( (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0" (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2" (parenthesized_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2)" ( (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2" (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc)" (parenthesized_expression "(DAT_00011e00 + 0x11dd0)" ( (binary_expression "DAT_00011e00 + 0x11dd0" identifier + number_literal) )) - (parenthesized_expression "(DAT_00011dfc + 0x11dcc)" ( (binary_expression "DAT_00011dfc + 0x11dcc" identifier + number_literal) ))) >> number_literal) )) / number_literal) == number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);" (assignment_expression "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" identifier = (pointer_expression "*(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" * (cast_expression "(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (binary_expression "DAT_00011e04 + 0x11de8 + DAT_00011e08" (binary_expression "DAT_00011e04 + 0x11de8" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (pcVar1 == (code *)0x0) {\n return;\n }" if (parenthesized_expression "(pcVar1 == (code *)0x0)" ( (binary_expression "pcVar1 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "(*pcVar1)();" (call_expression "(*pcVar1)()" (parenthesized_expression "(*pcVar1)" ( (pointer_expression "*pcVar1" * identifier) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void frame_dummy(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}\n\n" (function_definition "void frame_dummy(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" primitive_type (function_declarator "frame_dummy(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" { (declaration "code *pcVar1;" type_identifier (pointer_declarator "*pcVar1" * identifier) ;) (if_statement "if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }" if (parenthesized_expression "(((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0)" ( (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0" (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2" (parenthesized_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2)" ( (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2" (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc)" (parenthesized_expression "(DAT_00011e00 + 0x11dd0)" ( (binary_expression "DAT_00011e00 + 0x11dd0" identifier + number_literal) )) - (parenthesized_expression "(DAT_00011dfc + 0x11dcc)" ( (binary_expression "DAT_00011dfc + 0x11dcc" identifier + number_literal) ))) >> number_literal) )) / number_literal) == number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);" (assignment_expression "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" identifier = (pointer_expression "*(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" * (cast_expression "(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (binary_expression "DAT_00011e04 + 0x11de8 + DAT_00011e08" (binary_expression "DAT_00011e04 + 0x11de8" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (pcVar1 == (code *)0x0) {\n return;\n }" if (parenthesized_expression "(pcVar1 == (code *)0x0)" ( (binary_expression "pcVar1 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "(*pcVar1)();" (call_expression "(*pcVar1)()" (parenthesized_expression "(*pcVar1)" ( (pointer_expression "*pcVar1" * identifier) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void _INIT_0(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}\n\n" (function_definition "void _INIT_0(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" primitive_type (function_declarator "_INIT_0(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" { (declaration "code *pcVar1;" type_identifier (pointer_declarator "*pcVar1" * identifier) ;) (if_statement "if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }" if (parenthesized_expression "(((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0)" ( (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0" (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2" (parenthesized_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2)" ( (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2" (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc)" (parenthesized_expression "(DAT_00011e00 + 0x11dd0)" ( (binary_expression "DAT_00011e00 + 0x11dd0" identifier + number_literal) )) - (parenthesized_expression "(DAT_00011dfc + 0x11dcc)" ( (binary_expression "DAT_00011dfc + 0x11dcc" identifier + number_literal) ))) >> number_literal) )) / number_literal) == number_literal) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);" (assignment_expression "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" identifier = (pointer_expression "*(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" * (cast_expression "(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (type_descriptor "code **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00011e04 + 0x11de8 + DAT_00011e08)" ( (binary_expression "DAT_00011e04 + 0x11de8 + DAT_00011e08" (binary_expression "DAT_00011e04 + 0x11de8" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (pcVar1 == (code *)0x0) {\n return;\n }" if (parenthesized_expression "(pcVar1 == (code *)0x0)" ( (binary_expression "pcVar1 == (code *)0x0" identifier == (cast_expression "(code *)0x0" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) (expression_statement "(*pcVar1)();" (call_expression "(*pcVar1)()" (parenthesized_expression "(*pcVar1)" ( (pointer_expression "*pcVar1" * identifier) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression (parenthesized_expression ( (binary_expression (binary_expression (parenthesized_expression ( (binary_expression IDENT + LIT) )) - (parenthesized_expression ( (binary_expression IDENT + LIT) ))) >> LIT) )) / LIT) == LIT) )) (compound_statement { (return_statement return ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (return_statement return ;) })) (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void _INIT_0(void)\n\n{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" (primitive_type "void") (function_declarator "_INIT_0(void)" (identifier "_INIT_0") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n code *pcVar1;\n \n if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }\n pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);\n if (pcVar1 == (code *)0x0) {\n return;\n }\n (*pcVar1)();\n return;\n}" ({ "{") (declaration "code *pcVar1;" (type_identifier "code") (pointer_declarator "*pcVar1" (* "*") (identifier "pcVar1")) (; ";")) (if_statement "if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {\n return;\n }" (if "if") (parenthesized_expression "(((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0)" (( "(") (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0" (binary_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2" (parenthesized_expression "((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2)" (( "(") (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2" (binary_expression "(DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc)" (parenthesized_expression "(DAT_00011e00 + 0x11dd0)" (( "(") (binary_expression "DAT_00011e00 + 0x11dd0" (identifier "DAT_00011e00") (+ "+") (number_literal "0x11dd0")) () ")")) (- "-") (parenthesized_expression "(DAT_00011dfc + 0x11dcc)" (( "(") (binary_expression "DAT_00011dfc + 0x11dcc" (identifier "DAT_00011dfc") (+ "+") (number_literal "0x11dcc")) () ")"))) (>> ">>") (number_literal "2")) () ")")) (/ "/") (number_literal "2")) (== "==") (number_literal "0")) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);" (assignment_expression "pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" (identifier "pcVar1") (= "=") (pointer_expression "*(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" (* "*") (cast_expression "(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08)" (( "(") (type_descriptor "code **" (type_identifier "code") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00011e04 + 0x11de8 + DAT_00011e08)" (( "(") (binary_expression "DAT_00011e04 + 0x11de8 + DAT_00011e08" (binary_expression "DAT_00011e04 + 0x11de8" (identifier "DAT_00011e04") (+ "+") (number_literal "0x11de8")) (+ "+") (identifier "DAT_00011e08")) () ")"))))) (; ";")) (if_statement "if (pcVar1 == (code *)0x0) {\n return;\n }" (if "if") (parenthesized_expression "(pcVar1 == (code *)0x0)" (( "(") (binary_expression "pcVar1 == (code *)0x0" (identifier "pcVar1") (== "==") (cast_expression "(code *)0x0" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (expression_statement "(*pcVar1)();" (call_expression "(*pcVar1)()" (parenthesized_expression "(*pcVar1)" (( "(") (pointer_expression "*pcVar1" (* "*") (identifier "pcVar1")) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
type_1 *var_5;
if (((var_1 + 0x11dd0) - (var_2 + 0x11dcc) >> 2) / 2 == 0) {
return;
}
var_5 = *(type_1 **)(var_3 + 0x11de8 + var_4);
if (var_5 == (type_1 *)0x0) {
return;
}
(*var_5)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) right: (number_literal))) right: (number_literal)) right: (number_literal))) consequence: (compound_statement (return_statement))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (return_statement))) (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
code *pcVar1;
if (((DAT_00011e00 + 0x11dd0) - (DAT_00011dfc + 0x11dcc) >> 2) / 2 == 0) {
return;
}
pcVar1 = *(code **)(DAT_00011e04 + 0x11de8 + DAT_00011e08);
if (pcVar1 == (code *)0x0) {
return;
}
(*pcVar1)();
return;
}
| 769 |
||
242_locate_and_locate_strip.c
|
re_compile_fastmap_iter
|
FUN_00026a1c
|
/* DWARF original prototype: void re_compile_fastmap_iter(regex_t * bufp, re_dfastate_t *
init_state, char * fastmap, re_dfastate_t * init_state) */
void re_compile_fastmap_iter
(regex_t *bufp,re_dfastate_t *init_state,char *fastmap,re_dfastate_t *init_state_1)
{
byte bVar1;
uint uVar2;
__int32_t **pp_Var3;
size_t sVar4;
wchar_t wVar5;
size_t sVar6;
re_hashval_t rVar7;
re_token_t *prVar8;
uint uVar9;
re_dfastate_t *prVar10;
int iVar11;
uint unaff_r5;
int iVar12;
int iVar13;
int iVar14;
uchar *puVar15;
uchar *puVar16;
size_t sVar17;
int iVar18;
re_dfa_t *prVar19;
re_bitset_ptr_t pbVar20;
int *piVar21;
int iVar22;
bool bVar23;
int local_15c;
char *local_158;
uchar c;
undefined3 uStack_137;
mbstate_t state;
char buf [256];
uVar2 = DAT_00026ed0;
prVar19 = bufp->buffer;
bVar23 = prVar19->mb_cur_max == 1;
prVar10 = init_state_1;
if (bVar23) {
prVar10 = (re_dfastate_t *)bufp;
}
piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);
if (bVar23) {
unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;
}
rVar7 = init_state->hash;
if (bVar23) {
unaff_r5 = unaff_r5 & 1;
}
iVar22 = *piVar21;
if (!bVar23) {
unaff_r5 = 0;
}
if (0 < (int)rVar7) {
local_15c = 0;
do {
prVar8 = prVar19->nodes;
iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);
bVar1 = prVar8[iVar12].field_0x4;
if (bVar1 == 1) {
bVar1 = prVar8[iVar12].opr.c;
*(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;
}
if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {
uVar9 = iVar12 + 1;
buf[0] = prVar19->nodes[iVar12].opr.c;
if ((uVar9 < prVar19->nodes_len) &&
(prVar8 = prVar19->nodes + iVar12 + 1,
(*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {
puVar15 = (uchar *)(buf + 1);
do {
puVar16 = puVar15 + 1;
*puVar15 = (prVar8->opr).c;
uVar9 = uVar9 + 1;
if (prVar19->nodes_len <= uVar9) break;
prVar8 = prVar19->nodes + uVar9;
puVar15 = puVar16;
} while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);
sVar17 = (int)puVar16 - (int)buf;
}
else {
sVar17 = 1;
}
local_158 = buf;
state.__count = 0;
state.__value.__wch = L'\0';
sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);
if (sVar4 == sVar17) {
wVar5 = towlower(_c);
sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;
rVar7 = init_state->hash;
goto LAB_00026ab4;
}
}
}
LAB_00026b30:
rVar7 = init_state->hash;
}
else {
if (bVar1 != 3) {
if (bVar1 == 6) {
pbVar20 = prVar8[iVar12].opr.sbcset;
if ((prVar19->mb_cur_max < 2) ||
(((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {
if ((int)pbVar20[5] < 1) goto LAB_00026ab4;
iVar12 = 0;
do {
state.__count = 0;
state.__value.__wch = L'\0';
sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);
if (sVar6 != 0xffffffff) {
uVar9 = (uint)(byte)buf[0];
*(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;
}
}
if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {
wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));
sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;
}
}
iVar12 = iVar12 + 1;
} while (iVar12 < (int)pbVar20[5]);
}
else {
_c = _c & 0xffffff00;
do {
state.__count = 0;
state.__value.__wch = L'\0';
sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);
if (sVar17 == 0xfffffffe) {
*(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;
}
uVar9 = (_c & 0xffU) + 1;
_c = CONCAT31(uStack_137,(char)uVar9);
} while ((uVar9 & 0xff) != 0);
}
goto LAB_00026b30;
}
if ((bVar1 & 0xfd) == 5) {
memset(init_state_1,1,0x100);
if (bVar1 != 2) break;
}
else {
if (bVar1 != 2) goto LAB_00026ab4;
memset(init_state_1,1,0x100);
}
bufp->field_0x1c = bufp->field_0x1c | 1;
break;
}
iVar18 = 0;
iVar14 = 0x20;
local_158 = (char *)0x0;
while( true ) {
iVar13 = iVar14 + -0x20;
uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);
do {
if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&
(*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {
iVar11 = iVar13;
if (iVar13 + 0x80U <= uVar2) {
pp_Var3 = __ctype_tolower_loc();
iVar11 = (*pp_Var3)[iVar13];
}
*(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;
}
iVar13 = iVar13 + 1;
} while (iVar14 != iVar13);
iVar14 = iVar14 + 0x20;
local_158 = (char *)((int)local_158 + 4);
iVar18 = iVar18 + -0x20;
if (iVar14 == 0x120) break;
prVar8 = prVar19->nodes;
}
rVar7 = init_state->hash;
}
LAB_00026ab4:
local_15c = local_15c + 1;
} while (local_15c < (int)rVar7);
}
if (iVar22 != *piVar21) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return;
}
|
void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)
{
byte bVar1;
uint uVar2;
__int32_t **pp_Var3;
int iVar4;
wchar_t wVar5;
size_t sVar6;
int iVar7;
int iVar8;
undefined4 *puVar9;
undefined1 *puVar10;
uint unaff_r5;
int iVar11;
int iVar12;
undefined1 *puVar13;
undefined1 *puVar14;
int *piVar15;
uint uVar16;
int *piVar17;
int *piVar18;
bool bVar19;
int local_15c;
byte *local_158;
uint local_138;
mbstate_t local_134;
byte local_12c;
undefined1 auStack_12b [255];
int local_2c;
uVar2 = DAT_00026ed0;
piVar15 = (int *)*param_1;
bVar19 = piVar15[0x17] == 1;
puVar9 = param_4;
if (bVar19) {
puVar9 = param_1;
}
piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);
if (bVar19) {
unaff_r5 = (uint)puVar9[3] >> 0x16;
}
iVar7 = *param_2;
if (bVar19) {
unaff_r5 = unaff_r5 & 1;
}
local_2c = *piVar18;
if (!bVar19) {
unaff_r5 = 0;
}
if (0 < iVar7) {
local_15c = 0;
do {
iVar8 = *piVar15;
iVar11 = *(int *)(*param_3 + local_15c * 4);
iVar4 = iVar11 * 8;
bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);
if (bVar1 == 1) {
uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);
*(undefined1 *)((int)param_4 + uVar16) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;
}
if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {
uVar16 = iVar11 + 1;
local_12c = *(byte *)(*piVar15 + iVar11 * 8);
if ((uVar16 < (uint)piVar15[2]) &&
(puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),
(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {
puVar13 = auStack_12b;
do {
puVar14 = puVar13 + 1;
*puVar13 = *puVar10;
uVar16 = uVar16 + 1;
if ((uint)piVar15[2] <= uVar16) break;
puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);
puVar13 = puVar14;
} while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);
iVar7 = (int)puVar14 - (int)&local_12c;
}
else {
iVar7 = 1;
}
local_158 = &local_12c;
local_134.__count = 0;
local_134.__value.__wch = 0;
iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);
if (iVar4 == iVar7) {
wVar5 = towlower(local_138);
sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;
iVar7 = *param_2;
goto LAB_00026ab4;
}
}
}
LAB_00026b30:
iVar7 = *param_2;
}
else {
if (bVar1 != 3) {
if (bVar1 == 6) {
piVar17 = *(int **)(iVar8 + iVar4);
if ((piVar15[0x17] < 2) ||
(((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {
if (piVar17[5] < 1) goto LAB_00026ab4;
iVar7 = 0;
do {
local_134.__count = 0;
local_134.__value.__wch = 0;
sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);
if (sVar6 != 0xffffffff) {
uVar16 = (uint)local_12c;
*(undefined1 *)((int)param_4 + uVar16) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;
}
}
if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {
wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));
sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;
}
}
iVar7 = iVar7 + 1;
} while (iVar7 < piVar17[5]);
}
else {
local_138 = local_138 & 0xffffff00;
do {
local_134.__count = 0;
local_134.__value.__wch = 0;
iVar7 = FUN_000208cc(0,&local_138,1,&local_134);
if (iVar7 == -2) {
*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;
}
uVar16 = (local_138 & 0xff) + 1;
local_138 = CONCAT31(local_138._1_3_,(char)uVar16);
} while ((uVar16 & 0xff) != 0);
}
goto LAB_00026b30;
}
if ((bVar1 & 0xfd) == 5) {
memset(param_4,1,0x100);
if (bVar1 != 2) break;
}
else {
if (bVar1 != 2) goto LAB_00026ab4;
memset(param_4,1,0x100);
}
*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;
break;
}
iVar11 = 0;
iVar7 = 0x20;
local_158 = (byte *)0x0;
while( true ) {
iVar12 = iVar7 + -0x20;
uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);
do {
if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&
(*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {
iVar8 = iVar12;
if (iVar12 + 0x80U <= uVar2) {
pp_Var3 = __ctype_tolower_loc();
iVar8 = (*pp_Var3)[iVar12];
}
*(undefined1 *)((int)param_4 + iVar8) = 1;
}
iVar12 = iVar12 + 1;
} while (iVar7 != iVar12);
iVar7 = iVar7 + 0x20;
local_158 = (byte *)((int)local_158 + 4);
iVar11 = iVar11 + -0x20;
if (iVar7 == 0x120) break;
iVar8 = *piVar15;
}
iVar7 = *param_2;
}
LAB_00026ab4:
local_15c = local_15c + 1;
} while (local_15c < iVar7);
}
if (local_2c != *piVar18) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
ldr r10,[r0,#0x0]
sub sp,sp,#0x13c
ldr lr,[r10,#0x5c]
str r0,[sp,#0x1c]
ldr r0,[0x26ec8]
cmp lr,#0x1
ldr r12,[0x26ecc]
add r0,pc,r0
cpy r4,r3
ldreq r3,[sp,#0x1c]
ldr r12,[r0,r12]
str r1,[sp,#0x18]
ldreq r5,[r3,#0xc]
ldr r3,[sp,#0x18]
moveq r5,r5, lsr #0x16
ldr r1,[r3,#0x0]
str r12,[sp,#0x24]
andeq r5,r5,#0x1
ldr r12,[r12,#0x0]
movne r5,#0x0
cmp r1,#0x0
str r2,[sp,#0x10]
str r12,[sp,#0x134]
ble 0x00026d84
mov r3,#0x0
ldr r6,[0x26ed0]
str r3,[sp,#0x4]
b 0x00026ac8
cmp r8,#0x3
beq 0x00026cb4
cmp r8,#0x6
beq 0x00026b3c
and r3,r8,#0xfd
cmp r3,#0x5
beq 0x00026e9c
cmp r8,#0x2
beq 0x00026d64
ldr r3,[sp,#0x4]
add r3,r3,#0x1
cmp r3,r1
str r3,[sp,#0x4]
bge 0x00026d84
ldr r3,[sp,#0x10]
ldr r0,[sp,#0x4]
ldr r3,[r3,#0x0]
ldr r2,[r10,#0x0]
ldr r7,[r3,r0,lsl #0x2]
mov r3,r7, lsl #0x3
str r3,[sp,#0xc]
add r3,r2,r3
ldrb r8,[r3,#0x4]
cmp r8,#0x1
bne 0x00026a90
ldrb r11,[r2,r7,lsl #0x3]
cmp r5,#0x0
strb r8,[r4,r11]
beq 0x00026b14
bl 0x00011840
ldr r3,[r0,#0x0]
ldr r3,[r3,r11,lsl #0x2]
strb r8,[r4,r3]
ldr r3,[sp,#0x1c]
ldr r3,[r3,#0xc]
tst r3,#0x400000
beq 0x00026b30
ldr r3,[r10,#0x5c]
cmp r3,#0x1
bgt 0x00026da0
ldr r3,[sp,#0x18]
ldr r1,[r3,#0x0]
b 0x00026ab4
ldr r2,[r10,#0x5c]
ldr r11,[r3,#0x0]
cmp r2,#0x1
ble 0x00026b70
ldr r3,[r11,#0x24]
cmp r3,#0x0
bne 0x00026c5c
ldrb r3,[r11,#0x10]
tst r3,#0x1
bne 0x00026c5c
ldr r3,[r11,#0x20]
cmp r3,#0x0
bne 0x00026c5c
ldr r3,[r11,#0x14]
cmp r3,#0x0
ble 0x00026ab4
mov r8,#0x0
str r5,[sp,#0x14]
cpy r5,r11
ldr r11,[sp,#0x1c]
add r3,sp,#0x34
cpy r9,r8
add r7,sp,#0x2c
str r3,[sp,#0x8]
str r9,[r7,#0x0]
str r9,[r7,#0x4]
ldr r1,[r5,#0x0]
cpy r2,r7
ldr r1,[r1,r8,lsl #0x2]
ldr r0,[sp,#0x8]
bl 0x000115f4
mov r1,r8, lsl #0x2
cmn r0,#0x1
beq 0x00026c00
ldr r3,[sp,#0x14]
ldrb r2,[sp,#0x34]
cmp r3,#0x0
mov r3,#0x1
strb r3,[r4,r2]
str r2,[sp,#0xc]
beq 0x00026c00
str r1,[sp,#0x20]
bl 0x00011840
ldr r2,[sp,#0xc]
ldr r1,[sp,#0x20]
mov r3,#0x1
ldr r0,[r0,#0x0]
ldr r2,[r0,r2,lsl #0x2]
strb r3,[r4,r2]
ldr r2,[r11,#0xc]
tst r2,#0x400000
beq 0x00026c44
ldr r2,[r10,#0x5c]
cmp r2,#0x1
ble 0x00026c44
ldr r2,[r5,#0x0]
ldr r0,[r2,r1]
bl 0x000116cc
cpy r2,r7
cpy r1,r0
ldr r0,[sp,#0x8]
bl 0x000115f4
cmn r0,#0x1
ldrbne r2,[sp,#0x34]
movne r3,#0x1
strbne r3,[r4,r2]
ldr r2,[r5,#0x14]
add r8,r8,#0x1
cmp r8,r2
blt 0x00026b9c
ldr r5,[sp,#0x14]
b 0x00026b30
mov r3,#0x0
cpy r8,r3
add r7,sp,#0x2c
add r9,sp,#0x28
mov r11,#0x1
strb r3,[sp,#0x28]
cpy r3,r7
mov r2,#0x1
cpy r1,r9
mov r0,#0x0
str r8,[r7,#0x0]
str r8,[r7,#0x4]
bl 0x000208cc
ldrb r3,[sp,#0x28]
cmn r0,#0x2
strbeq r11,[r4,r3]
add r3,r3,#0x1
and r3,r3,#0xff
cmp r3,#0x0
strb r3,[sp,#0x28]
bne 0x00026c74
b 0x00026b30
mov r9,#0x0
str r10,[sp,#0x14]
mov r8,#0x20
mov r11,#0x1
cpy r10,r4
str r9,[sp,#0x8]
ldr r3,[sp,#0xc]
sub r7,r8,#0x20
ldr r2,[r2,r3]
ldr r3,[sp,#0x8]
ldr r4,[r2,r3]
add r3,r9,r7
mov r3,r4, lsr r3
tst r3,#0x1
beq 0x00026d20
cmp r5,#0x0
strb r11,[r10,r7]
add r3,r10,r7
beq 0x00026d20
add r2,r7,#0x80
cmp r2,r6
bhi 0x00026d1c
bl 0x00011840
ldr r3,[r0,#0x0]
ldr r3,[r3,r7,lsl #0x2]
add r3,r10,r3
strb r11,[r3,#0x0]
add r7,r7,#0x1
cmp r8,r7
bne 0x00026ce0
ldr r3,[sp,#0x8]
add r8,r8,#0x20
add r3,r3,#0x4
cmp r8,#0x120
str r3,[sp,#0x8]
sub r9,r9,#0x20
ldrne r3,[sp,#0x14]
ldrne r2,[r3,#0x0]
bne 0x00026ccc
ldr r3,[sp,#0x18]
cpy r4,r10
ldr r1,[r3,#0x0]
ldr r10,[sp,#0x14]
b 0x00026ab4
cpy r0,r4
mov r2,#0x100
mov r1,#0x1
bl 0x0001190c
ldr r2,[sp,#0x1c]
ldrb r3,[r2,#0x1c]
orr r3,r3,#0x1
strb r3,[r2,#0x1c]
ldr r3,[sp,#0x24]
ldr r2,[sp,#0x134]
ldr r3,[r3,#0x0]
cmp r2,r3
bne 0x00026ec4
add sp,sp,#0x13c
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,r11,pc}
ldr r3,[r10,#0x0]
add r2,r7,#0x1
ldrb r1,[r3,r7,lsl #0x3]
strb r1,[sp,#0x34]
ldr r1,[r10,#0x8]
cmp r1,r2
bls 0x00026eb8
ldr r1,[sp,#0xc]
ldr r0,[0x26ed4]
add r9,r1,#0x8
add r3,r3,r9
ldr r1,[r3,#0x4]
bic r1,r1,#0xff000000
bic r1,r1,#0xdf0000
bic r1,r1,#0xff00
cmp r1,r0
addeq r1,sp,#0x34
streq r1,[sp,#0x8]
addeq r8,sp,#0x35
beq 0x00026e18
b 0x00026eb8
ldr r3,[r10,#0x0]
ldr r0,[0x26ed4]
add r3,r3,r2, lsl #0x3
ldr r1,[r3,#0x4]
bic r1,r1,#0xff000000
bic r1,r1,#0xdf0000
bic r1,r1,#0xff00
cmp r1,r0
bne 0x00026e30
ldrb r3,[r3,#0x0]
strb r3,[r8],#0x1
ldr r3,[r10,#0x8]
add r2,r2,#0x1
cmp r3,r2
bhi 0x00026df4
ldr r3,[sp,#0x8]
sub r8,r8,r3
mov r12,#0x0
add r7,sp,#0x2c
str r12,[sp,#0x2c]
cpy r3,r7
cpy r2,r8
ldr r1,[sp,#0x8]
add r0,sp,#0x28
str r12,[r7,#0x4]
bl 0x000208cc
cmp r0,r8
bne 0x00026b30
ldr r0,[sp,#0x28]
bl 0x000116cc
cpy r2,r7
cpy r1,r0
ldr r0,[sp,#0x8]
bl 0x000115f4
cmn r0,#0x1
beq 0x00026b30
ldrb r3,[sp,#0x34]
mov r2,#0x1
strb r2,[r4,r3]
ldr r3,[sp,#0x18]
ldr r1,[r3,#0x0]
b 0x00026ab4
cpy r0,r4
mov r2,#0x100
mov r1,#0x1
bl 0x0001190c
cmp r8,#0x2
bne 0x00026d84
b 0x00026d74
add r3,sp,#0x34
str r3,[sp,#0x8]
b 0x00026e38
bl 0x00011708
| null | null | null | null |
[('const-0', u'COPY_-1206030450'), (u'INT_AND_-1206029547', u'INT_NOTEQUAL_-1206029558'), (u'CAST_-1206027557', u'STORE_-1206031350'), (u'CALL_-1206030265', u'INDIRECT_-1206027525'), ('tmp_8970', u'PTRSUB_-1206027529'), ('tmp_4764', u'PTRSUB_-1206027024'), (u'INDIRECT_-1206027213', u'MULTIEQUAL_-1206028166'), (u'STORE_-1206030091', u'INDIRECT_-1206027971'), (u'CALL_-1206030114', u'INDIRECT_-1206027602'), ('const-4', u'PTRSUB_-1206026902'), ('const-255', u'INT_AND_-1206029574'), (u'LOAD_-1206031817', u'PTRSUB_-1206027367'), (u'MULTIEQUAL_-1206028201', u'MULTIEQUAL_-1206028227'), ('const-4', u'PTRADD_-1206027594'), ('tmp_4767', u'PTRSUB_-1206027256'), (u'CAST_-1206027793', u'LOAD_-1206031729'), ('const-417', u'LOAD_-1206030521'), (u'INDIRECT_-1206028113', u'MULTIEQUAL_-1206028100'), ('const-417', u'LOAD_-1206031268'), (u'PTRADD_-1206027157', u'PTRSUB_-1206027155'), (u'PTRSUB_-1206026820', u'CALL_-1206030168'), (u'MULTIEQUAL_-1206028057', u'MULTIEQUAL_-1206028096'), (u'PTRSUB_-1206027871', u'PTRSUB_-1206027815'), (u'CALL_-1206031366', u'INDIRECT_-1206028532'), ('const-0', u'INT_NOTEQUAL_-1206031383'), (u'CALL_-1206030265', u'INDIRECT_-1206027568'), (u'LOAD_-1206030367', u'INT_ADD_-1206030339'), ('const-4294966988', u'PTRSUB_-1206027310'), (u'STORE_-1206030247', u'INDIRECT_-1206028269'), (u'STORE_-1206030247', u'INDIRECT_-1206028312'), (u'LOAD_-1206030101', u'CALL_-1206030090'), (u'CALL_-1206030114', u'INDIRECT_-1206027275'), ('const-1', u'INT_SLESS_-1206030451'), ('const-0', u'PTRSUB_-1206027672'), (u'MULTIEQUAL_-1206027596', u'MULTIEQUAL_-1206027577'), (u'INT_ADD_-1206029413', u'INT_NOTEQUAL_-1206029408'), ('const-0', u'PTRSUB_-1206027155'), ('tmp_12540', u'MULTIEQUAL_-1206027472'), (u'MULTIEQUAL_-1206028467', u'MULTIEQUAL_-1206028586'), ('tmp_4764', u'PTRSUB_-1206027921'), (u'CALL_-1206030338', u'INDIRECT_-1206028319'), (u'MULTIEQUAL_-1206028166', u'MULTIEQUAL_-1206027441'), (u'INDIRECT_-1206027588', u'MULTIEQUAL_-1206027552'), (u'INDIRECT_-1206027278', u'MULTIEQUAL_-1206028077'), ('const-417', u'LOAD_-1206029287'), (u'COPY_-1206029708', u'MULTIEQUAL_-1206028750'), (u'INDIRECT_-1206027777', u'SUBPIECE_-1206027750'), ('const-1', u'INT_ADD_-1206031362'), (u'PTRSUB_-1206027652', u'LOAD_-1206031444'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206027596'), ('const-0', u'INT_NOTEQUAL_-1206030265'), (u'MULTIEQUAL_-1206029061', u'INT_ADD_-1206029977'), (u'MULTIEQUAL_-1206027547', u'MULTIEQUAL_-1206027608'), ('tmp_2776', u'CBRANCH_-1206030491'), (u'INT_ADD_-1206029589', u'INT_AND_-1206029574'), (u'CAST_-1206027345', u'INT_ADD_-1206027467'), (u'COPY_-1206027154', u'MULTIEQUAL_-1206028108'), ('const-1', u'INT_SLESS_-1206031270'), (u'PTRADD_-1206027658', u'PTRSUB_-1206027561'), (u'CALL_-1206030136', u'INDIRECT_-1206027705'), (u'LOAD_-1206030618', u'PTRADD_-1206027594'), ('tmp_3582', u'CBRANCH_-1206029969'), (u'MULTIEQUAL_-1206027926', u'MULTIEQUAL_-1206028004'), (u'INDIRECT_-1206027450', u'MULTIEQUAL_-1206027427'), (u'INDIRECT_-1206027182', u'MULTIEQUAL_-1206028135'), (u'INT_EQUAL_-1206029793', u'CBRANCH_-1206029789'), ('const-417', u'LOAD_-1206030488'), (u'INDIRECT_-1206027650', u'MULTIEQUAL_-1206027614'), ('const-417', u'LOAD_-1206029614'), (u'INDIRECT_-1206028598', u'MULTIEQUAL_-1206028570'), (u'INT_NOTEQUAL_-1206029533', u'CBRANCH_-1206029514'), (u'INDIRECT_-1206028398', u'MULTIEQUAL_-1206028344'), (u'MULTIEQUAL_-1206028516', u'MULTIEQUAL_-1206028096'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206028135'), (u'CAST_-1206027255', u'INT_SLESS_-1206029962'), ('const-92', u'PTRSUB_-1206027856'), ('tmp_4760', u'BRANCH_-1206029274'), (u'INT_AND_-1206031642', u'MULTIEQUAL_-1206029383'), (u'INT_NOTEQUAL_-1206030093', u'CBRANCH_-1206030091'), ('const-2097407', u'INT_AND_-1206030385'), ('const-417', u'STORE_-1206029531'), (u'CALL_-1206029764', u'INDIRECT_-1206027559'), ('const-417', u'LOAD_-1206030173'), (u'INDIRECT_-1206027705', u'MULTIEQUAL_-1206028672'), ('tmp_660', u'CBRANCH_-1206031374'), ('const-417', u'LOAD_-1206030520'), (u'MULTIEQUAL_-1206028516', u'MULTIEQUAL_-1206028317'), (u'MULTIEQUAL_-1206028645', u'MULTIEQUAL_-1206028225'), (u'COPY_-1206027866', u'MULTIEQUAL_-1206029425'), (u'LOAD_-1206031308', u'INT_SLESS_-1206031270'), ('const-92', u'PTRSUB_-1206027576'), (u'CALL_-1206030068', u'INDIRECT_-1206027772'), ('const-417', u'LOAD_-1206031339'), (u'LOAD_-1206030633', u'INT_NOTEQUAL_-1206030613'), (u'INT_ADD_-1206030527', u'INT_LESS_-1206030488'), (u'PTRADD_-1206027678', u'LOAD_-1206031358'), (u'CALL_-1206031366', u'INDIRECT_-1206028618'), (u'INDIRECT_-1206028104', u'MULTIEQUAL_-1206028057'), (u'CAST_-1206026826', u'COPY_-1206026932'), (u'MULTIEQUAL_-1206027658', u'MULTIEQUAL_-1206027639'), ('const-1', u'STORE_-1206029531'), (u'MULTIEQUAL_-1206028570', u'MULTIEQUAL_-1206028553'), ('tmp_12548', u'MULTIEQUAL_-1206028559'), (u'CALL_-1206030090', u'INDIRECT_-1206027882'), (u'MULTIEQUAL_-1206029376', u'INT_NOTEQUAL_-1206031383'), ('const-0', u'INT_NOTEQUAL_-1206030145'), (u'INT_ADD_-1206029313', u'MULTIEQUAL_-1206028750'), ('tmp_4767', u'PTRSUB_-1206027349'), (u'PTRADD_-1206027344', u'LOAD_-1206030008'), (u'LOAD_-1206031444', u'INT_EQUAL_-1206030925'), ('const-417', u'LOAD_-1206029468'), (u'INT_SUB_-1206030089', u'MULTIEQUAL_-1206028397'), (u'CAST_-1206026737', u'CALL_-1206030114'), ('tmp_594', u'CBRANCH_-1206031414'), (u'PTRSUB_-1206027601', u'LOAD_-1206031308'), (u'INT_ADD_-1206026955', u'PTRADD_-1206026908'), ('tmp_12538', u'MULTIEQUAL_-1206028108'), (u'CAST_-1206026663', u'INT_ZEXT_-1206030072'), (u'MULTIEQUAL_-1206028055', u'MULTIEQUAL_-1206028133'), (u'INDIRECT_-1206028490', u'MULTIEQUAL_-1206028441'), (u'MULTIEQUAL_-1206028227', u'MULTIEQUAL_-1206027503'), (u'MULTIEQUAL_-1206028170', u'MULTIEQUAL_-1206028197'), (u'LOAD_-1206030008', u'CAST_-1206027255'), (u'MULTIEQUAL_-1206028602', u'MULTIEQUAL_-1206028090'), (u'MULTIEQUAL_-1206027609', u'MULTIEQUAL_-1206027670'), ('const-417', u'LOAD_-1206030553'), (u'CAST_-1206027645', u'LOAD_-1206031480'), ('const-1', u'INT_AND_-1206031642'), (u'INDIRECT_-1206028619', u'MULTIEQUAL_-1206028570'), (u'INT_AND_-1206027837', u'INT_EQUAL_-1206030884'), (u'PTRSUB_-1206027856', u'LOAD_-1206031795'), (u'CALL_-1206030090', u'INDIRECT_-1206028209'), (u'INDIRECT_-1206027870', u'MULTIEQUAL_-1206027835'), (u'LOAD_-1206031480', u'INT_ADD_-1206030527'), (u'MULTIEQUAL_-1206028527', u'MULTIEQUAL_-1206028510'), ('const-1', u'COPY_-1206026809'), (u'INT_LESSEQUAL_-1206029467', u'CBRANCH_-1206029477'), ('const-417', u'LOAD_-1206031444'), (u'CALL_-1206030114', u'INDIRECT_-1206027244'), (u'CALL_-1206029820', u'INDIRECT_-1206027715'), (u'CALL_-1206031366', u'INDIRECT_-1206028100'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206030858'), (u'PTRADD_-1206026908', u'CAST_-1206026826'), (u'LOAD_-1206031817', u'PTRSUB_-1206027856'), (u'MULTIEQUAL_-1206027834', u'MULTIEQUAL_-1206028001'), (u'SUBPIECE_-1206027750', u'PIECE_-1206027750'), (u'LOAD_-1206030052', u'MULTIEQUAL_-1206029399'), ('const-417', u'LOAD_-1206031795'), (u'MULTIEQUAL_-1206028672', u'MULTIEQUAL_-1206028645'), ('const-1', u'PTRADD_-1206026908'), (u'INDIRECT_-1206027662', u'MULTIEQUAL_-1206028629'), (u'CALL_-1206029469', u'LOAD_-1206029468'), ('const-0', u'COPY_-1206029708'), (u'MULTIEQUAL_-1206028441', u'INT_EQUAL_-1206030387'), (u'LOAD_-1206029461', u'MULTIEQUAL_-1206028108'), (u'CALL_-1206030136', u'CALL_-1206030114'), (u'PTRSUB_-1206027682', u'LOAD_-1206031487'), (u'INDIRECT_-1206028233', u'MULTIEQUAL_-1206028186'), (u'LOAD_-1206029468', u'PTRADD_-1206027127'), (u'INDIRECT_-1206027961', u'MULTIEQUAL_-1206027868'), ('const-417', u'STORE_-1206029788'), (u'LOAD_-1206031487', u'MULTIEQUAL_-1206028829'), (u'INT_ADD_-1206027510', u'CAST_-1206027386'), (u'LOAD_-1206030618', u'PTRADD_-1206027344'), (u'MULTIEQUAL_-1206029425', u'PTRSUB_-1206027871'), ('const-2', u'INT_NOTEQUAL_-1206029743'), (u'INT_EQUAL_-1206030495', u'CBRANCH_-1206030491'), ('const-4', u'PTRSUB_-1206026848'), (u'CAST_-1206027014', u'MULTIEQUAL_-1206027943'), ('const-417', u'LOAD_-1206030142'), (u'CALL_-1206029764', u'INDIRECT_-1206027170'), (u'MULTIEQUAL_-1206027969', u'MULTIEQUAL_-1206028028'), (u'LOAD_-1206031817', u'PTRSUB_-1206027576'), ('tmp_12536', u'INT_ADD_-1206031733'), (u'INDIRECT_-1206027602', u'MULTIEQUAL_-1206028424'), ('const-417', u'STORE_-1206029443'), (u'CALL_-1206030220', u'INDIRECT_-1206027912'), (u'INT_RIGHT_-1206031670', u'MULTIEQUAL_-1206029394'), (u'LOAD_-1206030553', u'INT_AND_-1206028599'), (u'LOAD_-1206030520', u'INT_EQUAL_-1206030495'), (u'CALL_-1206029820', u'INT_EQUAL_-1206029793'), (u'CAST_-1206027387', u'INT_ADD_-1206027510'), ('tmp_2082', u'CBRANCH_-1206030068'), ('const-1', u'INT_ADD_-1206029413'), (u'COPY_-1206030450', u'MULTIEQUAL_-1206029061'), (u'MULTIEQUAL_-1206027985', u'MULTIEQUAL_-1206027926'), (u'MULTIEQUAL_-1206028195', u'MULTIEQUAL_-1206028467'), (u'INDIRECT_-1206027928', u'MULTIEQUAL_-1206027904'), (u'INT_ADD_-1206027302', u'CAST_-1206027180'), (u'MULTIEQUAL_-1206028201', u'MULTIEQUAL_-1206028126'), ('const-4', u'PTRSUB_-1206027652'), (u'INT_EQUAL_-1206030387', u'CBRANCH_-1206030383'), ('const-6', u'INT_EQUAL_-1206030925'), (u'CALL_-1206030220', u'INDIRECT_-1206028270'), (u'STORE_-1206030176', u'INDIRECT_-1206028271'), (u'INT_ADD_-1206029598', u'CAST_-1206027108'), ('const-0', u'INT_EQUAL_-1206030495'), ('tmp_456', u'BRANCH_-1206031565'), ('const-417', u'LOAD_-1206030618'), (u'PTRSUB_-1206026848', u'CAST_-1206026800'), (u'COPY_-1206027907', u'INT_LESSEQUAL_-1206029467'), ('const-1', u'INT_EQUAL_-1206031759'), (u'STORE_-1206030176', u'INDIRECT_-1206028357'), (u'INT_ADD_-1206031464', u'CAST_-1206027645'), ('const-417', u'LOAD_-1206031358'), (u'MULTIEQUAL_-1206028281', u'MULTIEQUAL_-1206028446'), (u'CAST_-1206027429', u'LOAD_-1206030355'), (u'INDIRECT_-1206028512', u'MULTIEQUAL_-1206028484'), (u'MULTIEQUAL_-1206027670', u'MULTIEQUAL_-1206027614'), (u'STORE_-1206030091', u'INDIRECT_-1206027885'), (u'CALL_-1206031366', u'LOAD_-1206031365'), ('const-1', u'PTRADD_-1206026908'), (u'INT_ADD_-1206029371', u'MULTIEQUAL_-1206028754'), (u'INT_NOTEQUAL_-1206029558', u'CBRANCH_-1206029556'), (u'INDIRECT_-1206027645', u'MULTIEQUAL_-1206028467'), (u'CALL_-1206030114', u'INDIRECT_-1206027645'), (u'INT_ADD_-1206027202', u'CAST_-1206027076'), (u'INDIRECT_-1206027182', u'MULTIEQUAL_-1206028015'), ('const-255', u'INT_AND_-1206029793'), (u'CAST_-1206027110', u'INT_ADD_-1206029598'), (u'PTRSUB_-1206027256', u'CAST_-1206027181'), (u'CALL_-1206030265', u'INDIRECT_-1206027167'), (u'INDIRECT_-1206028228', u'MULTIEQUAL_-1206028215'), (u'STORE_-1206030091', u'INDIRECT_-1206027842'), (u'INT_AND_-1206029574', u'INT_RIGHT_-1206029561'), (u'CALL_-1206029764', u'INDIRECT_-1206027688'), (u'INDIRECT_-1206028533', u'MULTIEQUAL_-1206028484'), ('const-0', u'PTRSUB_-1206027256'), ('const-417', u'STORE_-1206030247'), (u'LOAD_-1206030618', u'PTRADD_-1206027581'), ('tmp_4767', u'CALL_-1206030123'), (u'CAST_-1206027311', u'LOAD_-1206030101'), (u'PTRADD_-1206026854', u'MULTIEQUAL_-1206028468'), ('const-417', u'LOAD_-1206031365'), (u'INT_EQUAL_-1206030072', u'CBRANCH_-1206030068'), ('tmp_12548', u'MULTIEQUAL_-1206027861'), (u'INDIRECT_-1206027512', u'MULTIEQUAL_-1206027489'), (u'PTRSUB_-1206027561', u'PTRSUB_-1206027538'), ('const-0', u'PTRSUB_-1206027538'), (u'MULTIEQUAL_-1206027772', u'MULTIEQUAL_-1206028046'), (u'CAST_-1206027108', u'LOAD_-1206029614'), (u'INDIRECT_-1206027688', u'MULTIEQUAL_-1206027947'), (u'MULTIEQUAL_-1206027609', u'MULTIEQUAL_-1206027689'), (u'PTRSUB_-1206027367', u'LOAD_-1206030140'), (u'MULTIEQUAL_-1206028077', u'MULTIEQUAL_-1206028197'), (u'STORE_-1206030091', u'INDIRECT_-1206027928'), (u'MULTIEQUAL_-1206028238', u'MULTIEQUAL_-1206028510'), (u'PIECE_-1206027750', u'MULTIEQUAL_-1206028108'), ('const-0', u'PTRSUB_-1206026823'), ('const-0', u'COPY_-1206030218'), (u'MULTIEQUAL_-1206027578', u'MULTIEQUAL_-1206028197'), (u'MULTIEQUAL_-1206028126', u'MULTIEQUAL_-1206028108'), ('const-8', u'PTRSUB_-1206026830'), (u'CALL_-1206030123', u'INDIRECT_-1206027870'), ('tmp_4716', u'CBRANCH_-1206029318'), (u'INDIRECT_-1206027568', u'COPY_-1206027626'), ('const-417', u'LOAD_-1206030624'), (u'STORE_-1206029443', u'INDIRECT_-1206028065'), (u'BOOL_NEGATE_-1206027908', u'CBRANCH_-1206031647'), (u'MULTIEQUAL_-1206028301', u'MULTIEQUAL_-1206028238'), (u'STORE_-1206029443', u'INDIRECT_-1206028022'), (u'INDIRECT_-1206028314', u'MULTIEQUAL_-1206028301'), (u'INDIRECT_-1206028278', u'MULTIEQUAL_-1206028238'), (u'CALL_-1206029820', u'INDIRECT_-1206027746'), (u'INDIRECT_-1206028199', u'MULTIEQUAL_-1206028186'), ('tmp_4767', u'CALL_-1206029764'), ('tmp_4766', u'CAST_-1206027654'), (u'PTRADD_-1206026908', u'MULTIEQUAL_-1206028468'), (u'INDIRECT_-1206027602', u'MULTIEQUAL_-1206027861'), ('tmp_4296', u'CBRANCH_-1206029556'), (u'PTRSUB_-1206027117', u'LOAD_-1206029626'), (u'CAST_-1206026800', u'LOAD_-1206030142'), (u'INT_AND_-1206030070', u'INT_EQUAL_-1206030072'), (u'INDIRECT_-1206028162', u'MULTIEQUAL_-1206028126'), (u'INT_OR_-1206028039', u'STORE_-1206030091'), (u'INT_ADD_-1206026784', u'CAST_-1206026653'), ('tmp_12537', u'MULTIEQUAL_-1206028602'), ('const-8', u'PTRSUB_-1206026944'), (u'PTRSUB_-1206026908', u'PTRADD_-1206026908'), ('const-4', u'PTRADD_-1206027568'), ('const-0', u'PTRSUB_-1206027156'), (u'LOAD_-1206031715', u'CAST_-1206027776'), (u'STORE_-1206030176', u'INDIRECT_-1206028314'), (u'MULTIEQUAL_-1206027639', u'MULTIEQUAL_-1206027583'), (u'INT_RIGHT_-1206029561', u'INT_AND_-1206029547'), ('tmp_4767', u'PTRSUB_-1206027672'), ('const-417', u'LOAD_-1206029626'), (u'INDIRECT_-1206028321', u'MULTIEQUAL_-1206028281'), (u'INT_ADD_-1206029977', u'INT_SLESS_-1206029962'), ('const-417', u'STORE_-1206030163'), (u'INT_EQUAL_-1206030925', u'CBRANCH_-1206030922'), (u'LOAD_-1206030140', u'INT_SLESS_-1206030103'), (u'CALL_-1206029469', u'INDIRECT_-1206028106'), (u'CALL_-1206029820', u'INDIRECT_-1206028104'), (u'MULTIEQUAL_-1206028745', u'INT_ADD_-1206027208'), (u'INT_ADD_-1206031362', u'INT_SLESS_-1206031341'), (u'LOAD_-1206031817', u'PTRSUB_-1206026944'), (u'MULTIEQUAL_-1206028166', u'MULTIEQUAL_-1206028139'), (u'CALL_-1206030220', u'INDIRECT_-1206027943'), (u'MULTIEQUAL_-1206028750', u'INT_ADD_-1206029589'), (u'INDIRECT_-1206027746', u'MULTIEQUAL_-1206028077'), (u'STORE_-1206029531', u'INDIRECT_-1206028020'), (u'INDIRECT_-1206028271', u'MULTIEQUAL_-1206028258'), (u'MULTIEQUAL_-1206028441', u'INT_EQUAL_-1206030072'), ('const-32', u'COPY_-1206029686'), ('const-4294966996', u'PTRSUB_-1206027538'), (u'INDIRECT_-1206027899', u'CAST_-1206027400'), ('tmp_4764', u'PTRSUB_-1206027015'), ('tmp_8970', u'PTRSUB_-1206027305'), ('const-4294967295', u'INT_NOTEQUAL_-1206030093'), ('const-0', u'PTRSUB_-1206027050'), (u'MULTIEQUAL_-1206028100', u'MULTIEQUAL_-1206028467'), (u'PTRSUB_-1206026941', u'PTRSUB_-1206026890'), ('tmp_1651', u'CBRANCH_-1206030150'), (u'CALL_-1206029764', u'INDIRECT_-1206027645'), (u'CALL_-1206031366', u'INDIRECT_-1206028069'), ('tmp_1785', u'BRANCH_-1206030045'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031714'), ('const-9', u'PTRADD_-1206027607'), ('const-417', u'STORE_-1206030091'), (u'INT_EQUAL_-1206029345', u'CBRANCH_-1206029318'), (u'CALL_-1206030168', u'INDIRECT_-1206027636'), ('const-417', u'LOAD_-1206030158'), ('const-0', u'RETURN_-1206030560'), ('tmp_1154', u'CBRANCH_-1206030497'), (u'MULTIEQUAL_-1206028441', u'MULTIEQUAL_-1206028424'), (u'PTRSUB_-1206026738', u'CAST_-1206026654'), (u'PTRADD_-1206027640', u'PTRSUB_-1206027638'), (u'CALL_-1206030220', u'INDIRECT_-1206028313'), ('const-4194304', u'INT_AND_-1206031302'), (u'INDIRECT_-1206027139', u'MULTIEQUAL_-1206027410'), (u'INT_ZEXT_-1206031394', u'PTRADD_-1206027678'), ('const-4294967040', u'INT_AND_-1206027843'), (u'MULTIEQUAL_-1206027806', u'MULTIEQUAL_-1206027741'), (u'INDIRECT_-1206027201', u'MULTIEQUAL_-1206027489'), (u'PTRSUB_-1206027538', u'CALL_-1206030068'), (u'COPY_-1206031573', u'MULTIEQUAL_-1206028485'), (u'INT_EQUAL_-1206031759', u'BOOL_NEGATE_-1206027908'), (u'CALL_-1206029764', u'INDIRECT_-1206027139'), (u'LOAD_-1206031365', u'PTRADD_-1206027678'), ('const-0', u'PTRSUB_-1206027561'), ('const-417', u'LOAD_-1206031729'), ('const-0', u'PTRSUB_-1206026961'), ('const-0', u'COPY_-1206031643'), ('tmp_2668', u'CBRANCH_-1206030556'), ('const-1', u'INT_AND_-1206029547'), (u'INT_ADD_-1206029486', u'INT_LESSEQUAL_-1206029467'), (u'INDIRECT_-1206027244', u'MULTIEQUAL_-1206028077'), (u'INT_ADD_-1206031362', u'MULTIEQUAL_-1206028485'), ('const-1', u'INT_EQUAL_-1206031418'), ('const-417', u'LOAD_-1206030191'), (u'CALL_-1206030090', u'INDIRECT_-1206027820'), ('const-8', u'PTRADD_-1206026943'), (u'INT_NOTEQUAL_-1206030303', u'CBRANCH_-1206030301'), (u'CALL_-1206030068', u'INDIRECT_-1206028235'), (u'CAST_-1206027344', u'STORE_-1206030176'), (u'CALL_-1206030068', u'INDIRECT_-1206028192'), (u'CALL_-1206030114', u'INDIRECT_-1206027213'), (u'INT_EQUAL_-1206030527', u'CBRANCH_-1206030523'), (u'MULTIEQUAL_-1206027926', u'MULTIEQUAL_-1206027985'), ('tmp_3310', u'CBRANCH_-1206030143'), (u'INT_AND_-1206027843', u'MULTIEQUAL_-1206027780'), (u'LOAD_-1206030173', u'STORE_-1206030163'), (u'MULTIEQUAL_-1206028553', u'MULTIEQUAL_-1206028672'), (u'MULTIEQUAL_-1206028186', u'MULTIEQUAL_-1206028225'), ('const-32', u'INT_ADD_-1206029371'), (u'PTRSUB_-1206027421', u'CAST_-1206027345'), (u'PTRSUB_-1206027156', u'CAST_-1206027077'), (u'INDIRECT_-1206028147', u'MULTIEQUAL_-1206028100'), ('tmp_3073', u'CBRANCH_-1206030301'), ('const-4', u'PTRADD_-1206027607'), (u'MULTIEQUAL_-1206028152', u'MULTIEQUAL_-1206028317'), (u'INDIRECT_-1206028357', u'MULTIEQUAL_-1206028344'), (u'PTRSUB_-1206027162', u'CAST_-1206027083'), (u'MULTIEQUAL_-1206028133', u'MULTIEQUAL_-1206028114'), ('const-4294967264', u'INT_ADD_-1206029313'), (u'PTRSUB_-1206026944', u'LOAD_-1206030521'), (u'LOAD_-1206031358', u'INT_ADD_-1206027718'), (u'PTRSUB_-1206027857', u'LOAD_-1206031687'), ('tmp_4764', u'PTRSUB_-1206027662'), (u'STORE_-1206030247', u'INDIRECT_-1206028398'), (u'CALL_-1206031366', u'INDIRECT_-1206028162'), (u'INT_ADD_-1206030127', u'INT_LESSEQUAL_-1206030108'), (u'INDIRECT_-1206027232', u'MULTIEQUAL_-1206027503'), (u'CAST_-1206026654', u'INT_ADD_-1206026784'), (u'PTRSUB_-1206026890', u'LOAD_-1206030535'), ('const-417', u'LOAD_-1206031308'), (u'MULTIEQUAL_-1206028015', u'MULTIEQUAL_-1206028135'), (u'MULTIEQUAL_-1206029399', u'CAST_-1206027620'), (u'MULTIEQUAL_-1206028033', u'MULTIEQUAL_-1206028015'), ('tmp_4767', u'PTRSUB_-1206027464'), (u'INT_ADD_-1206029355', u'CAST_-1206027014'), (u'INDIRECT_-1206027309', u'CALL_-1206030136'), (u'CALL_-1206030068', u'INDIRECT_-1206028321'), (u'INT_AND_-1206029793', u'INT_ADD_-1206029758'), ('const-417', u'LOAD_-1206030184'), (u'INT_ADD_-1206029977', u'MULTIEQUAL_-1206029061'), ('tmp_4765', u'PTRSUB_-1206026728'), (u'PTRADD_-1206027594', u'LOAD_-1206030553'), (u'MULTIEQUAL_-1206028215', u'MULTIEQUAL_-1206028152'), (u'CAST_-1206027558', u'INT_ADD_-1206027718'), ('const-4', u'PTRADD_-1206027344'), ('tmp_3181', u'CBRANCH_-1206030234'), (u'INDIRECT_-1206028022', u'MULTIEQUAL_-1206028012'), ('const-4294966984', u'PTRSUB_-1206027305'), (u'INDIRECT_-1206027930', u'MULTIEQUAL_-1206027837'), ('const-8', u'PTRADD_-1206027640'), (u'MULTIEQUAL_-1206028602', u'MULTIEQUAL_-1206028629'), ('const-1', u'SUBPIECE_-1206027750'), (u'MULTIEQUAL_-1206027861', u'COPY_-1206027923'), ('tmp_8970', u'PTRSUB_-1206026908'), (u'INT_AND_-1206028599', u'INT_EQUAL_-1206030527'), (u'CALL_-1206029820', u'INDIRECT_-1206028147'), (u'CALL_-1206029469', u'INDIRECT_-1206028020'), ('tmp_2549', u'CBRANCH_-1206029740'), (u'INT_NOTEQUAL_-1206030047', u'CBRANCH_-1206030043'), (u'MULTIEQUAL_-1206028428', u'STORE_-1206030163'), ('const-255', u'INT_AND_-1206029736'), (u'MULTIEQUAL_-1206027516', u'MULTIEQUAL_-1206027596'), ('const-0', u'PTRSUB_-1206026890'), (u'PTRSUB_-1206026775', u'LOAD_-1206030173'), ('const-417', u'LOAD_-1206030355'), (u'INDIRECT_-1206027992', u'MULTIEQUAL_-1206027899'), (u'CALL_-1206030136', u'INDIRECT_-1206027662'), ('tmp_2174', u'CBRANCH_-1206030922'), (u'LOAD_-1206031444', u'INT_AND_-1206027837'), (u'INT_ADD_-1206031713', u'CAST_-1206027793'), (u'CALL_-1206030168', u'INT_EQUAL_-1206030154'), ('const-417', u'STORE_-1206030176'), (u'MULTIEQUAL_-1206028745', u'INT_ADD_-1206029413'), ('const-4', u'PTRSUB_-1206027871'), (u'INDIRECT_-1206027309', u'MULTIEQUAL_-1206028108'), (u'CAST_-1206027181', u'INT_ADD_-1206027302'), (u'CALL_-1206030090', u'INDIRECT_-1206027789'), (u'INDIRECT_-1206027684', u'MULTIEQUAL_-1206027686'), (u'INDIRECT_-1206028106', u'MULTIEQUAL_-1206028055'), (u'INDIRECT_-1206028106', u'MULTIEQUAL_-1206028055'), (u'INDIRECT_-1206028106', u'MULTIEQUAL_-1206028055'), (u'CAST_-1206027400', u'INT_ZEXT_-1206030276'), (u'INT_LESSEQUAL_-1206030108', u'CBRANCH_-1206030118'), (u'CALL_-1206029820', u'INDIRECT_-1206027684'), (u'MULTIEQUAL_-1206028135', u'MULTIEQUAL_-1206028108'), (u'STORE_-1206029531', u'INDIRECT_-1206027977'), (u'INDIRECT_-1206027213', u'MULTIEQUAL_-1206028046'), ('const-253', u'INT_AND_-1206027837'), (u'CALL_-1206029820', u'INDIRECT_-1206028190'), ('tmp_12536', u'MULTIEQUAL_-1206027947'), (u'LOAD_-1206030191', u'PTRADD_-1206027427'), (u'MULTIEQUAL_-1206028170', u'MULTIEQUAL_-1206028095'), (u'INDIRECT_-1206027885', u'MULTIEQUAL_-1206027861'), ('const-12', u'PTRSUB_-1206027662'), (u'MULTIEQUAL_-1206028139', u'MULTIEQUAL_-1206028166'), (u'LOAD_-1206029626', u'CAST_-1206027110'), (u'INDIRECT_-1206028319', u'MULTIEQUAL_-1206028215'), (u'MULTIEQUAL_-1206028829', u'PTRADD_-1206027157'), (u'INT_ADD_-1206027208', u'CAST_-1206027082'), (u'MULTIEQUAL_-1206027670', u'MULTIEQUAL_-1206027609'), ('const-8', u'PTRADD_-1206027581'), (u'STORE_-1206030063', u'INDIRECT_-1206027662'), (u'MULTIEQUAL_-1206029061', u'INT_MULT_-1206030327'), (u'MULTIEQUAL_-1206027516', u'MULTIEQUAL_-1206028135'), ('tmp_2722', u'CBRANCH_-1206030523'), (u'MULTIEQUAL_-1206028559', u'MULTIEQUAL_-1206028047'), (u'INT_ZEXT_-1206030072', u'INT_ADD_-1206026784'), (u'MULTIEQUAL_-1206028152', u'MULTIEQUAL_-1206028424'), ('const-1', u'RETURN_-1206030260'), (u'INDIRECT_-1206028190', u'MULTIEQUAL_-1206028143'), ('const-1', u'INT_ADD_-1206029977'), (u'STORE_-1206030063', u'INDIRECT_-1206027705'), (u'MULTIEQUAL_-1206027926', u'MULTIEQUAL_-1206028543'), ('tmp_804', u'CBRANCH_-1206031277'), (u'PTRSUB_-1206027538', u'LOAD_-1206030618'), (u'STORE_-1206031381', u'INDIRECT_-1206028533'), (u'INDIRECT_-1206027899', u'MULTIEQUAL_-1206027806'), ('tmp_818', u'BRANCH_-1206031261'), (u'MULTIEQUAL_-1206028139', u'MULTIEQUAL_-1206027627'), ('const-0', u'COPY_-1206031573'), (u'STORE_-1206029788', u'INDIRECT_-1206028199'), (u'COPY_-1206029655', u'MULTIEQUAL_-1206027943'), (u'PTRSUB_-1206027057', u'LOAD_-1206029287'), (u'MULTIEQUAL_-1206027577', u'MULTIEQUAL_-1206027521'), (u'CALL_-1206030136', u'INDIRECT_-1206027748'), (u'INT_EQUAL_-1206030560', u'CBRANCH_-1206030556'), (u'INDIRECT_-1206027999', u'MULTIEQUAL_-1206027964'), (u'INT_AND_-1206029736', u'INT_NOTEQUAL_-1206029731'), (u'INT_MULT_-1206030327', u'INT_ADD_-1206030339'), (u'INDIRECT_-1206028245', u'MULTIEQUAL_-1206028238'), (u'CALL_-1206030123', u'INDIRECT_-1206027913'), ('tmp_8970', u'PTRSUB_-1206026825'), ('tmp_12537', u'MULTIEQUAL_-1206027904'), (u'MULTIEQUAL_-1206028028', u'MULTIEQUAL_-1206027969'), ('const-1', u'INT_ADD_-1206030527'), ('const-4294967264', u'INT_ADD_-1206029617'), ('tmp_12536', u'MULTIEQUAL_-1206028645'), (u'MULTIEQUAL_-1206027614', u'MULTIEQUAL_-1206027609'), ('const-4294967295', u'INT_NOTEQUAL_-1206030303'), (u'INDIRECT_-1206027715', u'MULTIEQUAL_-1206028046'), (u'MULTIEQUAL_-1206027834', u'MULTIEQUAL_-1206028108'), (u'PTRSUB_-1206027024', u'LOAD_-1206030116'), ('const-4294966996', u'PTRSUB_-1206026908'), ('const-1', u'INT_AND_-1206028599'), (u'MULTIEQUAL_-1206028559', u'MULTIEQUAL_-1206028586'), (u'SUBPIECE_-1206029670', u'PIECE_-1206027750'), ('tmp_12548', u'COPY_-1206027907'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206027908'), (u'CAST_-1206027180', u'STORE_-1206029788'), ('const-0', u'PTRSUB_-1206027162'), (u'CALL_-1206030220', u'INDIRECT_-1206027881'), (u'LOAD_-1206031687', u'MULTIEQUAL_-1206029364'), (u'MULTIEQUAL_-1206028543', u'MULTIEQUAL_-1206027818'), ('const-12', u'PTRSUB_-1206027415'), ('const-0', u'COPY_-1206029838'), (u'LOAD_-1206031268', u'MULTIEQUAL_-1206029399'), ('tmp_3880', u'CBRANCH_-1206029789'), (u'MULTIEQUAL_-1206028645', u'MULTIEQUAL_-1206028446'), (u'MULTIEQUAL_-1206028047', u'MULTIEQUAL_-1206028028'), (u'CALL_-1206029469', u'INDIRECT_-1206027619'), (u'CALL_-1206030265', u'INDIRECT_-1206027136'), (u'MULTIEQUAL_-1206027741', u'MULTIEQUAL_-1206028015'), ('tmp_1359', u'CBRANCH_-1206030383'), (u'CALL_-1206030068', u'INDIRECT_-1206028278'), (u'LOAD_-1206030618', u'PTRADD_-1206027568'), ('tmp_12547', u'MULTIEQUAL_-1206028516'), (u'INDIRECT_-1206027654', u'COPY_-1206027712'), (u'MULTIEQUAL_-1206028485', u'INT_MULT_-1206031452'), (u'MULTIEQUAL_-1206029376', u'INT_NOTEQUAL_-1206029533'), (u'LOAD_-1206031480', u'PTRADD_-1206027157'), (u'CALL_-1206029469', u'INDIRECT_-1206028063'), ('const-1', u'INT_ADD_-1206030127'), ('const-0', u'PTRSUB_-1206027349'), ('tmp_3448', u'CBRANCH_-1206030043'), (u'CALL_-1206030168', u'INDIRECT_-1206027765'), (u'STORE_-1206030247', u'INDIRECT_-1206028355'), (u'INDIRECT_-1206027201', u'MULTIEQUAL_-1206027472'), ('tmp_8970', u'PTRSUB_-1206027538'), (u'LOAD_-1206030107', u'INT_ADD_-1206030085'), (u'PTRSUB_-1206027305', u'CAST_-1206027194'), (u'MULTIEQUAL_-1206028143', u'MULTIEQUAL_-1206028182'), (u'MULTIEQUAL_-1206027943', u'CAST_-1206027015'), (u'MULTIEQUAL_-1206028227', u'MULTIEQUAL_-1206028201'), (u'PTRSUB_-1206026830', u'LOAD_-1206030158'), (u'CALL_-1206030338', u'INDIRECT_-1206027961'), (u'INDIRECT_-1206028100', u'MULTIEQUAL_-1206028064'), (u'INDIRECT_-1206028469', u'MULTIEQUAL_-1206028441'), ('tmp_12540', u'MULTIEQUAL_-1206028170'), (u'MULTIEQUAL_-1206027577', u'MULTIEQUAL_-1206027516'), (u'INDIRECT_-1206027679', u'MULTIEQUAL_-1206028467'), (u'INDIRECT_-1206028069', u'MULTIEQUAL_-1206028033'), (u'INDIRECT_-1206027936', u'MULTIEQUAL_-1206027926'), (u'CALL_-1206030136', u'INDIRECT_-1206027199'), ('const-417', u'LOAD_-1206029461'), (u'MULTIEQUAL_-1206028114', u'MULTIEQUAL_-1206028055'), (u'CALL_-1206030123', u'INDIRECT_-1206027956'), (u'INDIRECT_-1206027645', u'MULTIEQUAL_-1206027904'), ('tmp_2834', u'CBRANCH_-1206030458'), (u'MULTIEQUAL_-1206028055', u'MULTIEQUAL_-1206028672'), ('const-0', u'PTRSUB_-1206027587'), ('tmp_12547', u'MULTIEQUAL_-1206027818'), (u'INT_ADD_-1206030127', u'MULTIEQUAL_-1206028500'), (u'LOAD_-1206030585', u'INT_EQUAL_-1206030560'), (u'MULTIEQUAL_-1206028602', u'MULTIEQUAL_-1206028403'), ('const-0', u'COPY_-1206029832'), (u'PTRSUB_-1206027015', u'STORE_-1206030091'), (u'LOAD_-1206030184', u'INT_ADD_-1206027467'), (u'INT_NOTEQUAL_-1206030265', u'CBRANCH_-1206030234'), (u'INDIRECT_-1206028405', u'MULTIEQUAL_-1206028301'), (u'CALL_-1206030220', u'INDIRECT_-1206028356'), (u'MULTIEQUAL_-1206027547', u'MULTIEQUAL_-1206028166'), (u'COPY_-1206027865', u'MULTIEQUAL_-1206029425'), (u'INT_NOTEQUAL_-1206031383', u'CBRANCH_-1206031374'), (u'CAST_-1206027109', u'INT_ADD_-1206029598'), (u'COPY_-1206026887', u'MULTIEQUAL_-1206028428'), ('const-0', u'PTRSUB_-1206027632'), ('const-0', u'PTRSUB_-1206027638'), ('const-4294966988', u'PTRSUB_-1206026820'), ('const-158276', u'INT_ADD_-1206031733'), ('const-417', u'LOAD_-1206030633'), (u'PTRADD_-1206027658', u'PTRSUB_-1206027652'), ('tmp_1877', u'CBRANCH_-1206030118'), ('const-417', u'LOAD_-1206029310'), (u'CALL_-1206030123', u'INDIRECT_-1206027481'), ('const-0', u'INT_EQUAL_-1206030560'), (u'CALL_-1206029469', u'INDIRECT_-1206027557'), (u'MULTIEQUAL_-1206028100', u'MULTIEQUAL_-1206028139'), (u'INDIRECT_-1206027850', u'MULTIEQUAL_-1206027806'), (u'CALL_-1206030338', u'INDIRECT_-1206028405'), (u'INDIRECT_-1206028235', u'MULTIEQUAL_-1206028195'), (u'PTRADD_-1206027127', u'LOAD_-1206029461'), ('const-5', u'PTRADD_-1206027568'), (u'LOAD_-1206031480', u'PTRADD_-1206026943'), (u'MULTIEQUAL_-1206028754', u'INT_ADD_-1206029371'), (u'LOAD_-1206031795', u'INT_EQUAL_-1206031759'), (u'INDIRECT_-1206028202', u'MULTIEQUAL_-1206028195'), ('const-1', u'CALL_-1206029820'), (u'MULTIEQUAL_-1206028143', u'MULTIEQUAL_-1206028510'), (u'CAST_-1206027194', u'CALL_-1206029820'), ('const-417', u'LOAD_-1206030116'), (u'MULTIEQUAL_-1206028750', u'INT_ADD_-1206029313'), (u'PTRADD_-1206027427', u'LOAD_-1206030184'), ('const-417', u'LOAD_-1206031487'), (u'INT_MULT_-1206030304', u'INT_ADD_-1206030085'), (u'INDIRECT_-1206028131', u'MULTIEQUAL_-1206028095'), (u'INT_EQUAL_-1206030154', u'CBRANCH_-1206030150'), ('const-4', u'INT_MULT_-1206030327'), ('const-1', u'CALL_-1206030123'), (u'LOAD_-1206031817', u'PTRSUB_-1206026875'), (u'MULTIEQUAL_-1206028428', u'PTRADD_-1206030103'), (u'LOAD_-1206031339', u'INT_AND_-1206031302'), (u'MULTIEQUAL_-1206029364', u'MULTIEQUAL_-1206029399'), (u'CALL_-1206030168', u'INDIRECT_-1206027309'), (u'MULTIEQUAL_-1206028586', u'MULTIEQUAL_-1206028559'), ('const-0', u'PTRSUB_-1206026775'), (u'INT_ADD_-1206027741', u'CAST_-1206027579'), (u'CAST_-1206027776', u'INT_RIGHT_-1206031670'), (u'LOAD_-1206031444', u'INT_EQUAL_-1206031418'), (u'INT_ZEXT_-1206030276', u'INT_ADD_-1206027510'), (u'MULTIEQUAL_-1206028559', u'MULTIEQUAL_-1206028360'), (u'CAST_-1206027454', u'CALL_-1206030068'), (u'CAST_-1206027083', u'INT_ADD_-1206027208'), (u'MULTIEQUAL_-1206027627', u'MULTIEQUAL_-1206027608'), ('const-0', u'PTRSUB_-1206026728'), ('const-2097407', u'INT_AND_-1206030070'), ('const-4294966996', u'PTRSUB_-1206026825'), (u'INT_ADD_-1206029371', u'INT_EQUAL_-1206029345'), (u'INDIRECT_-1206027619', u'MULTIEQUAL_-1206027583'), (u'MULTIEQUAL_-1206028281', u'MULTIEQUAL_-1206028553'), (u'PIECE_-1206027750', u'MULTIEQUAL_-1206027780'), (u'LOAD_-1206031410', u'INT_ZEXT_-1206031394'), (u'PTRADD_-1206026854', u'PTRSUB_-1206026848'), (u'INDIRECT_-1206027525', u'COPY_-1206027583'), (u'LOAD_-1206031817', u'PTRSUB_-1206026830'), (u'INT_ADD_-1206031733', u'INT_ADD_-1206031713'), (u'STORE_-1206029531', u'INDIRECT_-1206028063'), (u'INDIRECT_-1206028355', u'MULTIEQUAL_-1206028301'), (u'INT_ADD_-1206030085', u'CAST_-1206027311'), (u'MULTIEQUAL_-1206027516', u'MULTIEQUAL_-1206027577'), (u'STORE_-1206029531', u'INDIRECT_-1206028106'), ('const-4', u'PTRADD_-1206027594'), ('tmp_4767', u'PTRSUB_-1206027421'), (u'PTRSUB_-1206026820', u'CAST_-1206026737'), (u'CAST_-1206027620', u'INT_SLESS_-1206031341'), ('const-8', u'PTRADD_-1206027157'), (u'CALL_-1206030338', u'INDIRECT_-1206027899'), (u'MULTIEQUAL_-1206028672', u'MULTIEQUAL_-1206027947'), (u'PTRSUB_-1206026823', u'PTRSUB_-1206026775'), ('const-256', u'CALL_-1206029764'), (u'INT_AND_-1206030385', u'INT_EQUAL_-1206030387'), (u'INDIRECT_-1206027979', u'MULTIEQUAL_-1206027969'), (u'MULTIEQUAL_-1206027427', u'MULTIEQUAL_-1206027410'), (u'CALL_-1206029469', u'INDIRECT_-1206027977'), ('const-4294966988', u'PTRSUB_-1206027529'), ('const-1', u'INT_SLESS_-1206030103'), (u'INT_AND_-1206030134', u'INT_NOTEQUAL_-1206030145'), ('const-4', u'PTRADD_-1206027427'), (u'MULTIEQUAL_-1206028397', u'INT_EQUAL_-1206030154'), (u'PTRADD_-1206026943', u'PTRSUB_-1206026941'), (u'INDIRECT_-1206027688', u'MULTIEQUAL_-1206028510'), (u'LOAD_-1206030488', u'CAST_-1206027483'), (u'MULTIEQUAL_-1206029061', u'INT_MULT_-1206030304'), (u'INDIRECT_-1206027777', u'INT_AND_-1206029793'), (u'CALL_-1206030090', u'INDIRECT_-1206027851'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031734'), (u'PTRSUB_-1206027155', u'PTRSUB_-1206027117'), (u'STORE_-1206029443', u'INDIRECT_-1206027979'), (u'INDIRECT_-1206027772', u'MULTIEQUAL_-1206027741'), (u'INT_LESS_-1206030488', u'CBRANCH_-1206030497'), (u'INT_NOTEQUAL_-1206030145', u'CBRANCH_-1206030143'), (u'PTRSUB_-1206027638', u'PTRSUB_-1206027587'), ('tmp_895', u'CBRANCH_-1206031348'), (u'INDIRECT_-1206027636', u'MULTIEQUAL_-1206028424'), ('const-1', u'INT_OR_-1206028039'), (u'CALL_-1206031366', u'INDIRECT_-1206028575'), (u'INDIRECT_-1206027772', u'CAST_-1206027282'), ('const-417', u'LOAD_-1206030457'), (u'MULTIEQUAL_-1206027837', u'MULTIEQUAL_-1206027772'), (u'CALL_-1206030068', u'INT_NOTEQUAL_-1206030047'), (u'LOAD_-1206031493', u'INT_ADD_-1206031464'), ('const-92', u'PTRSUB_-1206027367'), (u'MULTIEQUAL_-1206028186', u'MULTIEQUAL_-1206028553'), (u'MULTIEQUAL_-1206027818', u'COPY_-1206027880'), (u'CALL_-1206030220', u'LOAD_-1206030191'), (u'CALL_-1206030090', u'INDIRECT_-1206028295'), ('const-417', u'LOAD_-1206030367'), (u'MULTIEQUAL_-1206027608', u'MULTIEQUAL_-1206027552'), ('const-0', u'INT_SLESS_-1206031589'), (u'CALL_-1206030168', u'INDIRECT_-1206027722'), ('const-4', u'INT_MULT_-1206030304'), (u'PTRSUB_-1206027921', u'LOAD_-1206031817'), (u'STORE_-1206031381', u'INDIRECT_-1206028619'), ('const-0', u'INT_NOTEQUAL_-1206031313'), (u'INT_SLESS_-1206031341', u'CBRANCH_-1206031348'), (u'MULTIEQUAL_-1206028055', u'MULTIEQUAL_-1206028114'), (u'LOAD_-1206031729', u'LOAD_-1206030633'), (u'PTRSUB_-1206026917', u'CAST_-1206026746'), (u'LOAD_-1206029287', u'MULTIEQUAL_-1206029399'), (u'MULTIEQUAL_-1206028629', u'MULTIEQUAL_-1206027904'), (u'CAST_-1206027076', u'STORE_-1206029443'), ('const-8', u'PTRADD_-1206026854'), (u'STORE_-1206030063', u'INDIRECT_-1206027576'), (u'MULTIEQUAL_-1206028510', u'MULTIEQUAL_-1206028629'), (u'PTRSUB_-1206027576', u'LOAD_-1206030624'), (u'MULTIEQUAL_-1206029376', u'INT_NOTEQUAL_-1206030265'), ('tmp_4368', u'CBRANCH_-1206029514'), ('tmp_210', u'CBRANCH_-1206031714'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031672'), ('const-8', u'PTRSUB_-1206027815'), (u'CALL_-1206029820', u'INDIRECT_-1206027777'), ('const-0', u'PTRSUB_-1206027464'), (u'MULTIEQUAL_-1206027609', u'MULTIEQUAL_-1206028227'), ('const-1', u'STORE_-1206031350'), (u'MULTIEQUAL_-1206027803', u'MULTIEQUAL_-1206028077'), ('const-417', u'LOAD_-1206030558'), (u'INT_ZEXT_-1206031394', u'INT_ADD_-1206027741'), (u'PTRSUB_-1206027587', u'LOAD_-1206031410'), ('const-92', u'PTRSUB_-1206027601'), (u'CALL_-1206030265', u'INDIRECT_-1206027105'), ('const-2', u'INT_NOTEQUAL_-1206030858'), (u'MULTIEQUAL_-1206028197', u'MULTIEQUAL_-1206028170'), (u'INDIRECT_-1206028156', u'MULTIEQUAL_-1206028143'), (u'LOAD_-1206030142', u'INT_AND_-1206030070'), (u'STORE_-1206030063', u'INDIRECT_-1206027619'), (u'MULTIEQUAL_-1206028516', u'MULTIEQUAL_-1206028543'), ('const-0', u'INT_NOTEQUAL_-1206029533'), ('const-4', u'INT_MULT_-1206031452'), (u'LOAD_-1206030355', u'CALL_-1206030338'), ('const-4294966984', u'PTRSUB_-1206026799'), (u'MULTIEQUAL_-1206028500', u'INT_ADD_-1206030127'), ('const-417', u'LOAD_-1206030008'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206027686'), (u'CAST_-1206027580', u'INT_ADD_-1206027741'), (u'CALL_-1206030123', u'INDIRECT_-1206027543'), ('const-0', u'PTRSUB_-1206026875'), (u'CALL_-1206030168', u'INDIRECT_-1206027216'), (u'PTRSUB_-1206026728', u'LOAD_-1206030052'), (u'MULTIEQUAL_-1206028012', u'MULTIEQUAL_-1206028629'), (u'MULTIEQUAL_-1206027943', u'CAST_-1206027109'), (u'STORE_-1206031381', u'INDIRECT_-1206028576'), (u'MULTIEQUAL_-1206028645', u'MULTIEQUAL_-1206028133'), (u'PTRSUB_-1206027632', u'LOAD_-1206031268'), (u'STORE_-1206031350', u'INDIRECT_-1206028555'), ('const-417', u'LOAD_-1206030052'), ('const-0', u'COPY_-1206030380'), ('tmp_8970', u'PTRSUB_-1206026917'), ('const-417', u'LOAD_-1206031657'), (u'MULTIEQUAL_-1206028201', u'MULTIEQUAL_-1206028001'), (u'CAST_-1206027654', u'LOAD_-1206031493'), (u'CALL_-1206029469', u'INDIRECT_-1206027588'), ('tmp_2614', u'CBRANCH_-1206030588'), (u'MULTIEQUAL_-1206028238', u'MULTIEQUAL_-1206028403'), (u'MULTIEQUAL_-1206027583', u'MULTIEQUAL_-1206027578'), (u'MULTIEQUAL_-1206027552', u'MULTIEQUAL_-1206027547'), (u'CALL_-1206030068', u'INDIRECT_-1206027865'), (u'INT_ZEXT_-1206030028', u'INT_ADD_-1206027395'), (u'CAST_-1206026653', u'STORE_-1206030063'), ('const-1', u'CALL_-1206029764'), ('tmp_12539', u'MULTIEQUAL_-1206027441'), ('const-417', u'LOAD_-1206031480'), (u'INT_SLESS_-1206030451', u'CBRANCH_-1206030458'), (u'INDIRECT_-1206028065', u'MULTIEQUAL_-1206028055'), (u'MULTIEQUAL_-1206027868', u'MULTIEQUAL_-1206027803'), (u'MULTIEQUAL_-1206028645', u'MULTIEQUAL_-1206028672'), (u'INT_SLESS_-1206029962', u'CBRANCH_-1206029969'), ('const-1', u'STORE_-1206030063'), (u'INDIRECT_-1206028288', u'MULTIEQUAL_-1206028281'), (u'CAST_-1206027082', u'STORE_-1206029531'), (u'INDIRECT_-1206027559', u'MULTIEQUAL_-1206027818'), ('const-8', u'PTRADD_-1206026908'), ('const-0', u'COPY_-1206030180'), ('const-417', u'LOAD_-1206030140'), (u'INDIRECT_-1206028192', u'MULTIEQUAL_-1206028152'), ('tmp_4767', u'PTRSUB_-1206026738'), (u'CALL_-1206030265', u'INDIRECT_-1206027654'), ('const-128', u'INT_ADD_-1206029486'), ('const-4', u'PTRADD_-1206027581'), (u'INDIRECT_-1206027182', u'CAST_-1206026663'), ('const-0', u'INT_NOTEQUAL_-1206029731'), (u'INT_NOTEQUAL_-1206029408', u'CBRANCH_-1206029405'), (u'MULTIEQUAL_-1206028012', u'MULTIEQUAL_-1206028090'), (u'MULTIEQUAL_-1206029394', u'INT_AND_-1206031642'), (u'INT_ADD_-1206029758', u'INT_AND_-1206029736'), ('tmp_2300', u'CBRANCH_-1206030856'), (u'COPY_-1206026809', u'MULTIEQUAL_-1206028397'), (u'PTRADD_-1206026908', u'PTRSUB_-1206026902'), (u'MULTIEQUAL_-1206028745', u'INT_ADD_-1206029486'), (u'INDIRECT_-1206028555', u'MULTIEQUAL_-1206028527'), ('const-1', u'INT_ADD_-1206026955'), ('tmp_269', u'CBRANCH_-1206031672'), ('const-4', u'PTRADD_-1206027678'), (u'INT_ADD_-1206030127', u'PTRADD_-1206026854'), (u'MULTIEQUAL_-1206028071', u'MULTIEQUAL_-1206028012'), (u'INDIRECT_-1206027842', u'MULTIEQUAL_-1206027818'), (u'CALL_-1206030136', u'INDIRECT_-1206027619'), (u'INDIRECT_-1206027275', u'MULTIEQUAL_-1206028227'), ('const-417', u'LOAD_-1206030107'), (u'MULTIEQUAL_-1206027547', u'MULTIEQUAL_-1206027627'), ('tmp_12541', u'MULTIEQUAL_-1206027503'), (u'LOAD_-1206031817', u'PTRSUB_-1206026961'), (u'LOAD_-1206031487', u'PTRADD_-1206027658'), (u'MULTIEQUAL_-1206029383', u'MULTIEQUAL_-1206029376'), (u'COPY_-1206029686', u'MULTIEQUAL_-1206028754'), (u'LOAD_-1206030457', u'INT_AND_-1206030385'), (u'LOAD_-1206030618', u'LOAD_-1206030107'), (u'MULTIEQUAL_-1206027969', u'MULTIEQUAL_-1206028047'), ('const-417', u'LOAD_-1206030167'), ('const-417', u'LOAD_-1206031715'), ('const-288', u'INT_EQUAL_-1206029345'), (u'MULTIEQUAL_-1206027904', u'COPY_-1206027966'), (u'MULTIEQUAL_-1206028197', u'MULTIEQUAL_-1206027472'), (u'CAST_-1206026747', u'INT_SUB_-1206030089'), (u'CALL_-1206030114', u'INDIRECT_-1206027688'), (u'INDIRECT_-1206028269', u'MULTIEQUAL_-1206028215'), (u'MULTIEQUAL_-1206028559', u'MULTIEQUAL_-1206028139'), (u'INDIRECT_-1206027557', u'MULTIEQUAL_-1206027521'), (u'LOAD_-1206030624', u'INT_SLESS_-1206030581'), (u'INDIRECT_-1206028159', u'MULTIEQUAL_-1206028152'), (u'MULTIEQUAL_-1206027458', u'MULTIEQUAL_-1206027441'), ('const-1', u'STORE_-1206030013'), (u'INT_ADD_-1206029758', u'SUBPIECE_-1206029670'), (u'MULTIEQUAL_-1206028745', u'INT_ADD_-1206029589'), (u'MULTIEQUAL_-1206028046', u'MULTIEQUAL_-1206028166'), (u'INDIRECT_-1206027543', u'MULTIEQUAL_-1206027520'), (u'CAST_-1206027386', u'STORE_-1206030247'), (u'INDIRECT_-1206028020', u'MULTIEQUAL_-1206027969'), (u'INDIRECT_-1206028020', u'MULTIEQUAL_-1206027969'), (u'INDIRECT_-1206028020', u'MULTIEQUAL_-1206027969'), (u'PTRSUB_-1206027672', u'CAST_-1206027558'), ('const-417', u'LOAD_-1206031493'), (u'CALL_-1206030090', u'CALL_-1206030068'), ('const-0', u'SUBPIECE_-1206029670'), ('const-256', u'CALL_-1206030123'), (u'MULTIEQUAL_-1206027489', u'MULTIEQUAL_-1206027472'), (u'PTRSUB_-1206026902', u'CAST_-1206026855'), (u'STORE_-1206030013', u'INDIRECT_-1206028159'), (u'CALL_-1206029820', u'INDIRECT_-1206028233'), ('const-0', u'PTRSUB_-1206027421'), (u'CAST_-1206027483', u'INT_SLESS_-1206030451'), (u'INDIRECT_-1206027731', u'MULTIEQUAL_-1206028553'), ('tmp_315', u'CBRANCH_-1206031647'), (u'INT_NOTEQUAL_-1206031313', u'CBRANCH_-1206031311'), (u'CALL_-1206030090', u'INDIRECT_-1206028252'), ('tmp_2254', u'CBRANCH_-1206030881'), (u'PTRSUB_-1206027464', u'CAST_-1206027387'), ('const-8', u'PTRADD_-1206027658'), ('const-0', u'PTRSUB_-1206027682'), (u'MULTIEQUAL_-1206028344', u'MULTIEQUAL_-1206028281'), ('tmp_4765', u'PTRSUB_-1206027857'), (u'LOAD_-1206029310', u'MULTIEQUAL_-1206028829'), (u'CALL_-1206029764', u'INDIRECT_-1206027201'), ('const-3', u'INT_NOTEQUAL_-1206030949'), ('tmp_188', u'CBRANCH_-1206031734'), (u'LOAD_-1206031817', u'PTRSUB_-1206027601'), ('const-0', u'PTRSUB_-1206026941'), (u'INDIRECT_-1206027232', u'MULTIEQUAL_-1206027520'), (u'INT_ADD_-1206029413', u'MULTIEQUAL_-1206028745'), (u'PTRSUB_-1206027349', u'CAST_-1206027273'), (u'INDIRECT_-1206028448', u'MULTIEQUAL_-1206028344'), ('const-0', u'PTRSUB_-1206026738'), (u'CALL_-1206030068', u'INDIRECT_-1206027803'), ('tmp_4767', u'COPY_-1206027865'), (u'MULTIEQUAL_-1206028745', u'PTRADD_-1206027127'), ('const-0', u'PTRSUB_-1206027057'), ('const-5', u'INT_EQUAL_-1206030884'), ('tmp_8970', u'PTRSUB_-1206026799'), ('const-1', u'STORE_-1206029788'), (u'LOAD_-1206030116', u'INT_OR_-1206028039'), (u'INT_NOTEQUAL_-1206030613', u'CBRANCH_-1206030610'), (u'STORE_-1206031350', u'INDIRECT_-1206028512'), (u'MULTIEQUAL_-1206028201', u'INT_AND_-1206027843'), ('const-0', u'INT_NOTEQUAL_-1206029558'), (u'INDIRECT_-1206027619', u'MULTIEQUAL_-1206028586'), (u'INDIRECT_-1206027576', u'MULTIEQUAL_-1206028543'), ('tmp_744', u'CBRANCH_-1206031311'), (u'MULTIEQUAL_-1206027578', u'MULTIEQUAL_-1206027639'), (u'MULTIEQUAL_-1206028139', u'MULTIEQUAL_-1206028064'), (u'INDIRECT_-1206027977', u'MULTIEQUAL_-1206027926'), (u'INDIRECT_-1206027977', u'MULTIEQUAL_-1206027926'), (u'INDIRECT_-1206027977', u'MULTIEQUAL_-1206027926'), ('const-1', u'PTRADD_-1206030103'), ('tmp_8970', u'PTRSUB_-1206026820'), (u'CALL_-1206030338', u'INDIRECT_-1206027930'), ('const-0', u'PTRSUB_-1206027857'), (u'INDIRECT_-1206028362', u'MULTIEQUAL_-1206028258'), ('const-4', u'PTRADD_-1206027127'), ('tmp_8970', u'PTRSUB_-1206027310'), (u'INT_SLESS_-1206031270', u'CBRANCH_-1206031277'), ('const-417', u'STORE_-1206031381'), (u'MULTIEQUAL_-1206028484', u'MULTIEQUAL_-1206028467'), (u'INDIRECT_-1206027834', u'MULTIEQUAL_-1206027803'), (u'CALL_-1206031366', u'INDIRECT_-1206028131'), (u'INDIRECT_-1206027275', u'MULTIEQUAL_-1206028108'), (u'INDIRECT_-1206027139', u'MULTIEQUAL_-1206027427'), (u'CAST_-1206027282', u'INT_ZEXT_-1206030028'), ('const-1', u'STORE_-1206031381'), ('const-4294967294', u'INT_EQUAL_-1206029793'), (u'STORE_-1206030176', u'INDIRECT_-1206028228'), (u'INDIRECT_-1206027803', u'MULTIEQUAL_-1206027772'), ('const-417', u'LOAD_-1206031410'), (u'INDIRECT_-1206027943', u'MULTIEQUAL_-1206027899'), (u'CALL_-1206030220', u'INDIRECT_-1206027850'), (u'CAST_-1206027798', u'COPY_-1206027866'), (u'MULTIEQUAL_-1206028424', u'MULTIEQUAL_-1206028543'), (u'CALL_-1206030114', u'INDIRECT_-1206027731'), (u'STORE_-1206029788', u'INDIRECT_-1206028070'), (u'INT_ADD_-1206029617', u'MULTIEQUAL_-1206028745'), (u'COPY_-1206026932', u'MULTIEQUAL_-1206028428'), 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u'MULTIEQUAL_-1206028258'), (u'INDIRECT_-1206027170', u'MULTIEQUAL_-1206027458'), (u'INT_EQUAL_-1206030884', u'CBRANCH_-1206030881'), (u'CAST_-1206027454', u'CALL_-1206030338'), ('const-0', u'PTRSUB_-1206027117'), (u'LOAD_-1206029614', u'INT_RIGHT_-1206029561'), (u'INT_EQUAL_-1206031418', u'CBRANCH_-1206031414'), (u'INDIRECT_-1206027170', u'MULTIEQUAL_-1206027441'), (u'INDIRECT_-1206027912', u'MULTIEQUAL_-1206027868'), (u'LOAD_-1206030521', u'INT_LESS_-1206030488'), (u'LOAD_-1206031480', u'INT_ADD_-1206026955'), (u'MULTIEQUAL_-1206028485', u'INT_ADD_-1206031362'), (u'CALL_-1206030068', u'INDIRECT_-1206027834'), (u'CALL_-1206030338', u'INDIRECT_-1206028362'), ('const-5', u'PTRADD_-1206027344'), (u'PTRSUB_-1206026825', u'CALL_-1206030168'), (u'STORE_-1206030013', u'INDIRECT_-1206028245'), (u'MULTIEQUAL_-1206027521', u'MULTIEQUAL_-1206027516'), ('tmp_412', u'CBRANCH_-1206031596'), (u'PTRSUB_-1206026799', u'CAST_-1206026708'), (u'PTRSUB_-1206026961', u'LOAD_-1206030558'), (u'MULTIEQUAL_-1206028095', u'MULTIEQUAL_-1206028077'), (u'INT_MULT_-1206031452', u'INT_ADD_-1206031464'), ('const-1', u'STORE_-1206030247'), ('const-417', u'STORE_-1206030013'), (u'CALL_-1206030168', u'INDIRECT_-1206027278'), (u'STORE_-1206030013', u'INDIRECT_-1206028288'), ('tmp_4765', u'PTRSUB_-1206027057'), (u'INDIRECT_-1206027865', u'MULTIEQUAL_-1206027834'), (u'MULTIEQUAL_-1206028170', u'MULTIEQUAL_-1206027658'), (u'CAST_-1206027739', u'INT_SLESS_-1206031589'), (u'STORE_-1206031350', u'INDIRECT_-1206028469'), (u'INDIRECT_-1206027645', u'MULTIEQUAL_-1206027921'), ('const-4294967295', u'INT_NOTEQUAL_-1206030047'), (u'PTRSUB_-1206026825', u'CALL_-1206030114'), (u'LOAD_-1206031480', u'PTRADD_-1206027640'), (u'MULTIEQUAL_-1206027947', u'COPY_-1206028009'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206028227'), (u'INDIRECT_-1206027684', u'MULTIEQUAL_-1206028015'), (u'STORE_-1206031350', u'INDIRECT_-1206028598'), (u'MULTIEQUAL_-1206027639', u'MULTIEQUAL_-1206027578'), (u'LOAD_-1206030618', u'PTRADD_-1206027607'), ('tmp_4546', u'CBRANCH_-1206029405'), (u'CALL_-1206030265', u'INDIRECT_-1206027611'), (u'INT_AND_-1206029793', u'INT_ADD_-1206027302'), ('const-4294966996', u'PTRSUB_-1206026917'), (u'INT_ADD_-1206027718', u'CAST_-1206027557'), (u'CALL_-1206030123', u'INDIRECT_-1206027999'), (u'STORE_-1206030013', u'INDIRECT_-1206028202'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206030949'), (u'INT_NOTEQUAL_-1206029731', u'CBRANCH_-1206029721'), (u'MULTIEQUAL_-1206028543', u'MULTIEQUAL_-1206028516'), ('const-4', u'INT_ADD_-1206029355'), (u'CALL_-1206030338', u'INT_NOTEQUAL_-1206030303'), ('const-28', u'PTRSUB_-1206027024'), (u'LOAD_-1206031487', u'PTRADD_-1206027640'), (u'PTRSUB_-1206027815', u'LOAD_-1206031715'), (u'PTRADD_-1206027581', u'LOAD_-1206030520'), (u'MULTIEQUAL_-1206027969', u'MULTIEQUAL_-1206028586'), (u'CALL_-1206030220', u'INDIRECT_-1206028399'), (u'MULTIEQUAL_-1206028468', u'PTRSUB_-1206026823'), (u'CALL_-1206030338', u'INDIRECT_-1206028448'), ('const-417', u'LOAD_-1206030535'), (u'CALL_-1206029764', u'INDIRECT_-1206027232'), (u'CALL_-1206030123', u'INDIRECT_-1206027512'), (u'INDIRECT_-1206027602', u'MULTIEQUAL_-1206027878'), ('const-417', u'LOAD_-1206031687'), (u'CAST_-1206026708', u'CALL_-1206030168'), (u'INDIRECT_-1206027611', u'COPY_-1206027669'), (u'MULTIEQUAL_-1206028135', u'MULTIEQUAL_-1206027410'), (u'CAST_-1206026746', u'INT_SUB_-1206030089'), (u'PTRADD_-1206027607', u'LOAD_-1206030585'), ('tmp_4767', u'PTRSUB_-1206027162'), (u'CALL_-1206030265', u'INDIRECT_-1206027198'), (u'STORE_-1206029788', u'INDIRECT_-1206028113'), ('const-2', u'INT_SLESS_-1206030581'), ('const-0', u'PTRSUB_-1206027921'), (u'MULTIEQUAL_-1206028754', u'INT_NOTEQUAL_-1206029408'), (u'CALL_-1206030114', u'INT_NOTEQUAL_-1206030093'), ('tmp_4016', u'CBRANCH_-1206029721'), (u'CAST_-1206027015', u'INT_ADD_-1206029355'), (u'INT_SLESS_-1206030103', u'CBRANCH_-1206030110'), (u'MULTIEQUAL_-1206027520', u'MULTIEQUAL_-1206027503'), ('const-417', u'STORE_-1206031350'), ('const-417', u'LOAD_-1206030171'), ('const-0', u'PTRSUB_-1206027695'), ('tmp_4764', u'CAST_-1206027798'), (u'INT_NOTEQUAL_-1206030858', u'CBRANCH_-1206030856'), (u'STORE_-1206029788', u'INDIRECT_-1206028156'), (u'MULTIEQUAL_-1206028602', u'MULTIEQUAL_-1206028182'), (u'PTRSUB_-1206027310', u'CALL_-1206029820'), ('const-0', u'CALL_-1206029820'), ('const-22', u'INT_RIGHT_-1206031670'), (u'MULTIEQUAL_-1206028258', u'MULTIEQUAL_-1206028195'), (u'CALL_-1206030136', u'INDIRECT_-1206027230'), (u'INT_SLESS_-1206031589', u'CBRANCH_-1206031596'), ('tmp_12537', u'INT_ADD_-1206031713'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206029743'), (u'MULTIEQUAL_-1206028516', u'MULTIEQUAL_-1206028004'), (u'MULTIEQUAL_-1206028629', u'MULTIEQUAL_-1206028602'), ('tmp_4767', u'PTRSUB_-1206027156'), (u'INDIRECT_-1206028063', u'MULTIEQUAL_-1206028012'), (u'INDIRECT_-1206028063', u'MULTIEQUAL_-1206028012'), (u'INDIRECT_-1206028063', u'MULTIEQUAL_-1206028012'), (u'LOAD_-1206030158', u'INT_LESSEQUAL_-1206030108'), ('tmp_8978', u'MULTIEQUAL_-1206029394'), (u'INDIRECT_-1206027216', u'MULTIEQUAL_-1206028015'), (u'INDIRECT_-1206027722', u'MULTIEQUAL_-1206028510'), (u'CALL_-1206030168', u'INDIRECT_-1206027247'), (u'COPY_-1206031643', u'MULTIEQUAL_-1206029376'), (u'PTRSUB_-1206027695', u'CAST_-1206027580'), (u'INT_ADD_-1206027395', u'CAST_-1206027272'), (u'LOAD_-1206030167', u'PTRADD_-1206026854'), ('const-4194304', u'INT_AND_-1206030134'), ('const-417', u'LOAD_-1206030101'), ('tmp_4767', u'PTRSUB_-1206027695'), (u'MULTIEQUAL_-1206028201', u'MULTIEQUAL_-1206027689'), (u'PTRADD_-1206030103', u'COPY_-1206026887'), (u'CALL_-1206030168', u'INDIRECT_-1206027679'), (u'LOAD_-1206030558', u'PTRADD_-1206026908'), (u'LOAD_-1206030618', u'LOAD_-1206030367'), ('tmp_12538', u'MULTIEQUAL_-1206027410'), (u'CALL_-1206030338', u'INDIRECT_-1206027992'), (u'LOAD_-1206030171', u'INT_AND_-1206030134'), ('const-1', u'STORE_-1206030176'), (u'PTRSUB_-1206027415', u'LOAD_-1206030171'), ('tmp_3368', u'CBRANCH_-1206030110'), (u'PTRSUB_-1206027050', u'LOAD_-1206029310'), (u'MULTIEQUAL_-1206029399', u'MULTIEQUAL_-1206029364'), (u'MULTIEQUAL_-1206028004', u'MULTIEQUAL_-1206027985'), (u'MULTIEQUAL_-1206028090', u'MULTIEQUAL_-1206028071'), (u'MULTIEQUAL_-1206028012', u'MULTIEQUAL_-1206028071'), ('const-0', u'COPY_-1206029655'), (u'MULTIEQUAL_-1206028586', u'MULTIEQUAL_-1206027861'), (u'CALL_-1206031366', u'INDIRECT_-1206028489'), (u'PTRSUB_-1206026875', u'LOAD_-1206030167'), ('tmp_4436', u'CBRANCH_-1206029477'), ('const-1', u'PTRADD_-1206030103'), (u'LOAD_-1206031480', u'PTRADD_-1206027658'), (u'PTRADD_-1206027568', u'LOAD_-1206030488'), (u'MULTIEQUAL_-1206027608', u'MULTIEQUAL_-1206027547'), (u'INDIRECT_-1206027244', u'MULTIEQUAL_-1206028197'), (u'CAST_-1206027579', u'STORE_-1206031381'), (u'CALL_-1206029469', u'INDIRECT_-1206027650'), (u'MULTIEQUAL_-1206028195', u'MULTIEQUAL_-1206028360'), (u'MULTIEQUAL_-1206027741', u'MULTIEQUAL_-1206027908'), (u'PTRSUB_-1206027538', u'CALL_-1206030338'), (u'LOAD_-1206031687', u'CAST_-1206027739'), ('const-1', u'INT_ADD_-1206029758'), (u'CALL_-1206030136', u'INDIRECT_-1206027261'), (u'CAST_-1206027272', u'STORE_-1206030013'), ('const-417', u'LOAD_-1206030585'), (u'CAST_-1206026855', u'LOAD_-1206030457'), (u'CALL_-1206029764', u'INDIRECT_-1206027602'), (u'INDIRECT_-1206027765', u'MULTIEQUAL_-1206028553'), (u'PTRSUB_-1206027529', u'CAST_-1206027454'), (u'PTRSUB_-1206027662', u'LOAD_-1206031339'), (u'LOAD_-1206031817', u'PTRSUB_-1206027682'), (u'MULTIEQUAL_-1206027899', u'MULTIEQUAL_-1206027834'), (u'MULTIEQUAL_-1206027578', u'MULTIEQUAL_-1206027658'), (u'INT_ADD_-1206030527', u'MULTIEQUAL_-1206028500'), ('tmp_1492', u'BRANCH_-1206030113'), (u'MULTIEQUAL_-1206028108', u'MULTIEQUAL_-1206028033'), ('tmp_12539', u'MULTIEQUAL_-1206028139'), ('const-417', u'STORE_-1206030063'), (u'INT_NOTEQUAL_-1206029743', u'CBRANCH_-1206029740'), (u'INT_ADD_-1206030339', u'CAST_-1206027429'), (u'INDIRECT_-1206027881', u'MULTIEQUAL_-1206027837'), (u'MULTIEQUAL_-1206028064', u'MULTIEQUAL_-1206028046'), (u'INT_ADD_-1206027467', u'CAST_-1206027344'), (u'INDIRECT_-1206028070', u'MULTIEQUAL_-1206028057'), (u'MULTIEQUAL_-1206028745', u'COPY_-1206027154'), (u'INDIRECT_-1206027559', u'MULTIEQUAL_-1206027835'), (u'MULTIEQUAL_-1206029394', u'MULTIEQUAL_-1206029383'), ('const-0', u'COPY_-1206030374'), (u'CAST_-1206027273', u'INT_ADD_-1206027395'), (u'STORE_-1206029443', u'INDIRECT_-1206027936'), ('tmp_1721', u'CBRANCH_-1206030091'), (u'INDIRECT_-1206027247', u'MULTIEQUAL_-1206028046'), ('tmp_4764', u'PTRSUB_-1206027415'), (u'CALL_-1206030114', u'INDIRECT_-1206027182'), ('const-0', u'INT_EQUAL_-1206030527'), (u'INDIRECT_-1206027481', u'MULTIEQUAL_-1206027458'), ('tmp_12541', u'MULTIEQUAL_-1206028201'), (u'CAST_-1206027077', u'INT_ADD_-1206027202'), (u'MULTIEQUAL_-1206028057', u'MULTIEQUAL_-1206028424'), (u'MULTIEQUAL_-1206027689', u'MULTIEQUAL_-1206027670'), (u'CALL_-1206030136', u'INDIRECT_-1206027292'), (u'INDIRECT_-1206027688', u'MULTIEQUAL_-1206027964'), (u'LOAD_-1206031729', u'LOAD_-1206031657'), ('const-417', u'LOAD_-1206031817'), (u'INT_AND_-1206031302', u'INT_NOTEQUAL_-1206031313'), (u'MULTIEQUAL_-1206028108', u'INT_ADD_-1206027202'), (u'PTRADD_-1206030103', u'CAST_-1206026747')]
|
[('const-417', u'LOAD_-1206031268'), (u'COPY_-1206027914', u'MULTIEQUAL_-1206029423'), (u'MULTIEQUAL_-1206028053', u'MULTIEQUAL_-1206028670'), (u'INDIRECT_-1206027634', u'MULTIEQUAL_-1206028422'), ('const-0', u'COPY_-1206030450'), (u'INT_AND_-1206029547', u'INT_NOTEQUAL_-1206029558'), (u'MULTIEQUAL_-1206028045', u'MULTIEQUAL_-1206028026'), (u'CALL_-1206030068', u'INDIRECT_-1206028190'), (u'MULTIEQUAL_-1206027394', u'MULTIEQUAL_-1206027377'), (u'LOAD_-1206030558', u'INT_ADD_-1206030519'), ('const-4294966988', u'PTRSUB_-1206027322'), (u'STORE_-1206030247', u'INDIRECT_-1206028310'), (u'INDIRECT_-1206028360', u'MULTIEQUAL_-1206028256'), (u'INDIRECT_-1206027137', u'MULTIEQUAL_-1206027408'), (u'MULTIEQUAL_-1206028743', u'PTRADD_-1206027145'), ('const-288', u'INT_EQUAL_-1206029345'), ('const-255', u'INT_AND_-1206029574'), (u'MULTIEQUAL_-1206027606', u'MULTIEQUAL_-1206027550'), ('const-417', u'STORE_-1206031350'), (u'INDIRECT_-1206028510', u'MULTIEQUAL_-1206028482'), (u'INDIRECT_-1206028617', u'MULTIEQUAL_-1206028568'), (u'CALL_-1206030114', u'INDIRECT_-1206027273'), (u'CAST_-1206027160', u'INT_ADD_-1206029598'), (u'CAST_-1206026854', u'MULTIEQUAL_-1206028466'), (u'INDIRECT_-1206027954', u'MULTIEQUAL_-1206027919'), (u'INT_ZEXT_-1206030028', u'INT_ADD_-1206029999'), (u'INDIRECT_-1206028200', u'MULTIEQUAL_-1206028193'), (u'MULTIEQUAL_-1206028013', u'MULTIEQUAL_-1206028133'), (u'MULTIEQUAL_-1206028000', u'MULTIEQUAL_-1206027242'), ('const-4', u'PTRADD_-1206027600'), ('tmp_8972', u'PTRSUB_-1206027535'), (u'MULTIEQUAL_-1206028279', u'MULTIEQUAL_-1206028444'), (u'CALL_-1206030136', u'INDIRECT_-1206027290'), ('tmp_8982', u'COPY_-1206027914'), (u'INDIRECT_-1206027183', u'MULTIEQUAL_-1206027982'), ('tmp_12584', u'MULTIEQUAL_-1206028643'), (u'LOAD_-1206030367', u'INT_ADD_-1206030339'), (u'MULTIEQUAL_-1206028600', u'MULTIEQUAL_-1206028180'), ('tmp_8982', u'PTRADD_-1206027035'), (u'LOAD_-1206030101', u'CALL_-1206030090'), ('const-4294967040', u'INT_AND_-1206027841'), (u'COPY_-1206026981', u'MULTIEQUAL_-1206028426'), (u'INT_ADD_-1206030527', u'MULTIEQUAL_-1206028498'), (u'INT_ADD_-1206029413', u'INT_NOTEQUAL_-1206029408'), (u'CALL_-1206029820', u'INDIRECT_-1206027651'), (u'INT_OR_-1206028037', u'STORE_-1206030091'), (u'CALL_-1206030136', u'INDIRECT_-1206027197'), (u'CALL_-1206030123', u'INDIRECT_-1206027868'), (u'STORE_-1206031381', u'INDIRECT_-1206028488'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206027906'), (u'MULTIEQUAL_-1206028627', u'MULTIEQUAL_-1206027902'), (u'MULTIEQUAL_-1206028093', u'MULTIEQUAL_-1206028075'), ('tmp_8984', u'CAST_-1206027233'), ('const-3', u'PTRADD_-1206027668'), (u'CAST_-1206026796', u'INT_SUB_-1206030089'), ('const-1', u'INT_ADD_-1206031362'), (u'INDIRECT_-1206028446', u'MULTIEQUAL_-1206028342'), (u'LOAD_-1206031715', u'CAST_-1206027825'), (u'MULTIEQUAL_-1206027545', u'MULTIEQUAL_-1206027606'), (u'INDIRECT_-1206028269', u'MULTIEQUAL_-1206028256'), ('const-4', u'PTRADD_-1206026986'), (u'INT_ADD_-1206029589', u'INT_AND_-1206029574'), ('tmp_2776', u'CBRANCH_-1206030491'), (u'LOAD_-1206031817', u'CAST_-1206027883'), (u'LOAD_-1206031480', u'INT_MULT_-1206031441'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206028133'), ('const-0', u'COPY_-1206029832'), (u'INDIRECT_-1206028553', u'MULTIEQUAL_-1206028525'), ('tmp_3582', u'CBRANCH_-1206029969'), ('const-1', u'COPY_-1206026807'), (u'INDIRECT_-1206027643', u'MULTIEQUAL_-1206027919'), (u'CALL_-1206030090', u'INDIRECT_-1206028207'), (u'INDIRECT_-1206027168', u'MULTIEQUAL_-1206027439'), (u'INT_EQUAL_-1206029793', u'CBRANCH_-1206029789'), ('const-417', u'LOAD_-1206030107'), ('tmp_8984', u'CAST_-1206027128'), (u'MULTIEQUAL_-1206028643', u'MULTIEQUAL_-1206028670'), (u'CALL_-1206029469', u'INDIRECT_-1206027975'), ('const-1', u'INT_OR_-1206028037'), (u'MULTIEQUAL_-1206028225', u'MULTIEQUAL_-1206027501'), (u'INT_NOTEQUAL_-1206029533', u'CBRANCH_-1206029514'), ('tmp_12589', u'MULTIEQUAL_-1206027501'), (u'INDIRECT_-1206027770', u'INT_ZEXT_-1206030028'), ('const-417', u'LOAD_-1206029310'), ('tmp_4760', u'BRANCH_-1206029274'), (u'CALL_-1206030123', u'INDIRECT_-1206027997'), (u'MULTIEQUAL_-1206027519', u'MULTIEQUAL_-1206027514'), (u'INT_NOTEQUAL_-1206030093', u'CBRANCH_-1206030091'), (u'MULTIEQUAL_-1206028000', u'MULTIEQUAL_-1206027982'), ('const-23', u'PTRADD_-1206027912'), ('const-417', u'LOAD_-1206030116'), (u'PTRADD_-1206027035', u'CAST_-1206026998'), (u'CAST_-1206027323', u'INT_ADD_-1206029999'), (u'CAST_-1206027169', u'LOAD_-1206029626'), ('const-417', u'STORE_-1206029788'), (u'MULTIEQUAL_-1206028141', u'MULTIEQUAL_-1206028508'), ('tmp_660', u'CBRANCH_-1206031374'), (u'LOAD_-1206031308', u'INT_SLESS_-1206031270'), (u'INT_ADD_-1206029610', u'CAST_-1206027169'), (u'LOAD_-1206030633', u'INT_NOTEQUAL_-1206030613'), (u'INT_ADD_-1206030527', u'INT_LESS_-1206030488'), ('const-417', u'LOAD_-1206030173'), ('tmp_12596', u'MULTIEQUAL_-1206028557'), (u'INDIRECT_-1206027643', u'MULTIEQUAL_-1206027902'), ('const-417', u'LOAD_-1206030355'), (u'MULTIEQUAL_-1206028439', u'MULTIEQUAL_-1206028422'), ('const-417', u'LOAD_-1206030457'), ('const-1', u'INT_SLESS_-1206031270'), (u'LOAD_-1206030191', u'PTRADD_-1206027435'), (u'MULTIEQUAL_-1206027545', u'MULTIEQUAL_-1206028164'), (u'INDIRECT_-1206027211', u'MULTIEQUAL_-1206028164'), (u'INDIRECT_-1206028403', u'MULTIEQUAL_-1206028299'), (u'STORE_-1206029531', u'INDIRECT_-1206028104'), ('const-0', u'INT_NOTEQUAL_-1206030145'), (u'INDIRECT_-1206027975', u'MULTIEQUAL_-1206027924'), (u'INDIRECT_-1206027975', u'MULTIEQUAL_-1206027924'), (u'INDIRECT_-1206027975', u'MULTIEQUAL_-1206027924'), (u'INDIRECT_-1206027479', u'MULTIEQUAL_-1206027456'), (u'INT_ADD_-1206031435', u'CAST_-1206027589'), (u'LOAD_-1206031444', u'INT_EQUAL_-1206030925'), (u'PTRADD_-1206027435', u'LOAD_-1206030184'), ('tmp_594', u'CBRANCH_-1206031414'), (u'MULTIEQUAL_-1206028557', u'MULTIEQUAL_-1206028584'), ('const-417', u'LOAD_-1206030553'), (u'INDIRECT_-1206028157', u'MULTIEQUAL_-1206028150'), ('const-253', u'INT_AND_-1206027835'), ('const-256', u'CALL_-1206029764'), (u'INT_ADD_-1206029977', u'MULTIEQUAL_-1206029059'), ('tmp_12588', u'MULTIEQUAL_-1206027470'), (u'MULTIEQUAL_-1206027941', u'CAST_-1206027066'), (u'MULTIEQUAL_-1206029397', u'INT_SLESS_-1206031341'), (u'INDIRECT_-1206028467', u'MULTIEQUAL_-1206028439'), (u'INDIRECT_-1206027775', u'INT_AND_-1206029793'), (u'STORE_-1206030091', u'INDIRECT_-1206027969'), (u'INT_RIGHT_-1206031670', u'MULTIEQUAL_-1206029392'), ('const-1', u'INT_AND_-1206031642'), (u'INDIRECT_-1206027739', u'MULTIEQUAL_-1206027708'), ('const-1', u'SUBPIECE_-1206027748'), (u'MULTIEQUAL_-1206027656', u'MULTIEQUAL_-1206027637'), (u'MULTIEQUAL_-1206027637', u'MULTIEQUAL_-1206027581'), (u'LOAD_-1206031480', u'INT_ADD_-1206030527'), (u'MULTIEQUAL_-1206027550', u'MULTIEQUAL_-1206027545'), (u'INT_LESSEQUAL_-1206029467', u'CBRANCH_-1206029477'), (u'MULTIEQUAL_-1206028184', u'MULTIEQUAL_-1206028223'), (u'CAST_-1206027883', u'LOAD_-1206030167'), (u'PTRSUB_-1206026845', u'CALL_-1206030168'), (u'MULTIEQUAL_-1206027982', u'MULTIEQUAL_-1206028102'), ('const-417', u'LOAD_-1206030535'), (u'MULTIEQUAL_-1206027835', u'MULTIEQUAL_-1206027770'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206030858'), ('const-4', u'PTRADD_-1206027668'), (u'MULTIEQUAL_-1206028131', u'MULTIEQUAL_-1206028112'), (u'LOAD_-1206029287', u'MULTIEQUAL_-1206029397'), ('const-417', u'LOAD_-1206030367'), (u'CALL_-1206030114', u'INDIRECT_-1206027600'), ('const-417', u'LOAD_-1206030191'), (u'MULTIEQUAL_-1206027637', u'MULTIEQUAL_-1206027576'), (u'CALL_-1206030338', u'INDIRECT_-1206027866'), (u'LOAD_-1206031657', u'MULTIEQUAL_-1206028075'), (u'CALL_-1206030090', u'INDIRECT_-1206028336'), ('const-0', u'COPY_-1206030218'), (u'INDIRECT_-1206027883', u'MULTIEQUAL_-1206027859'), (u'INT_MULT_-1206031441', u'INT_ADD_-1206031435'), (u'INDIRECT_-1206028267', u'MULTIEQUAL_-1206028213'), (u'CALL_-1206029469', u'LOAD_-1206029468'), ('const-0', u'COPY_-1206029708'), (u'MULTIEQUAL_-1206028002', u'MULTIEQUAL_-1206027983'), (u'CAST_-1206027883', u'PTRADD_-1206026871'), (u'CALL_-1206030136', u'INDIRECT_-1206027660'), (u'CALL_-1206030136', u'CALL_-1206030114'), (u'CAST_-1206027883', u'PTRADD_-1206027655'), (u'MULTIEQUAL_-1206028752', u'INT_ADD_-1206029617'), (u'INDIRECT_-1206028063', u'MULTIEQUAL_-1206028053'), (u'CALL_-1206029764', u'INDIRECT_-1206027106'), (u'INT_ZEXT_-1206031394', u'INT_ADD_-1206031367'), (u'CALL_-1206030220', u'INDIRECT_-1206027910'), (u'STORE_-1206030013', u'INDIRECT_-1206028200'), ('const-0', u'INT_NOTEQUAL_-1206031383'), (u'CAST_-1206027640', u'LOAD_-1206031410'), (u'INT_EQUAL_-1206030495', u'CBRANCH_-1206030491'), ('const-0', u'COPY_-1206030374'), (u'INDIRECT_-1206027969', u'MULTIEQUAL_-1206027945'), (u'STORE_-1206031350', u'INDIRECT_-1206028553'), (u'INDIRECT_-1206027448', u'MULTIEQUAL_-1206027425'), (u'INDIRECT_-1206027180', u'MULTIEQUAL_-1206028133'), ('const-1', u'STORE_-1206029443'), (u'CALL_-1206030220', u'INDIRECT_-1206028397'), (u'MULTIEQUAL_-1206028395', u'INT_EQUAL_-1206030154'), (u'INDIRECT_-1206027273', u'MULTIEQUAL_-1206028106'), (u'CALL_-1206030168', u'INDIRECT_-1206027720'), (u'CALL_-1206030265', u'INDIRECT_-1206027652'), (u'LOAD_-1206030520', u'INT_EQUAL_-1206030495'), (u'CALL_-1206029820', u'INT_EQUAL_-1206029793'), ('const-417', u'STORE_-1206029531'), ('tmp_2082', u'CBRANCH_-1206030068'), (u'MULTIEQUAL_-1206028748', u'INT_ADD_-1206029589'), ('const-1', u'INT_ADD_-1206029413'), (u'SUBPIECE_-1206029670', u'PIECE_-1206027748'), (u'MULTIEQUAL_-1206028164', u'MULTIEQUAL_-1206028137'), (u'LOAD_-1206030618', u'PTRADD_-1206027613'), (u'CAST_-1206026807', u'INT_LESSEQUAL_-1206030108'), (u'MULTIEQUAL_-1206027739', u'MULTIEQUAL_-1206028013'), (u'MULTIEQUAL_-1206028600', u'MULTIEQUAL_-1206028401'), (u'MULTIEQUAL_-1206028053', u'MULTIEQUAL_-1206028112'), (u'MULTIEQUAL_-1206028193', u'MULTIEQUAL_-1206028358'), (u'INT_EQUAL_-1206030387', u'CBRANCH_-1206030383'), (u'MULTIEQUAL_-1206027514', u'MULTIEQUAL_-1206027594'), ('const-4294966984', u'PTRSUB_-1206026819'), (u'LOAD_-1206031487', u'INT_ADD_-1206031435'), ('const-4', u'PTRADD_-1206026871'), (u'MULTIEQUAL_-1206028743', u'INT_ADD_-1206029517'), ('tmp_456', u'BRANCH_-1206031565'), (u'CALL_-1206030168', u'INDIRECT_-1206027183'), (u'INT_ZEXT_-1206030276', u'PTRADD_-1206027435'), (u'CAST_-1206027883', u'LOAD_-1206030558'), (u'INDIRECT_-1206027990', u'MULTIEQUAL_-1206027897'), (u'INDIRECT_-1206027510', u'MULTIEQUAL_-1206027487'), (u'INDIRECT_-1206028102', u'MULTIEQUAL_-1206028055'), (u'LOAD_-1206030553', u'INT_AND_-1206028597'), ('const-23', u'PTRADD_-1206027655'), (u'CALL_-1206031366', u'LOAD_-1206031365'), (u'INDIRECT_-1206027648', u'MULTIEQUAL_-1206027612'), ('const-4', u'PTRADD_-1206027035'), (u'CALL_-1206030136', u'INDIRECT_-1206027259'), ('tmp_8972', u'PTRSUB_-1206027544'), (u'INT_NOTEQUAL_-1206029558', u'CBRANCH_-1206029556'), (u'MULTIEQUAL_-1206029392', u'MULTIEQUAL_-1206029381'), (u'INT_ADD_-1206029313', u'MULTIEQUAL_-1206028748'), ('const-1', u'INT_SLESS_-1206030451'), (u'STORE_-1206029788', u'INDIRECT_-1206028111'), ('tmp_12584', u'INT_ADD_-1206031733'), (u'COPY_-1206026936', u'MULTIEQUAL_-1206028426'), (u'CAST_-1206027564', u'LOAD_-1206030553'), (u'CAST_-1206026726', u'CALL_-1206030114'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206028031'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206027875'), ('tmp_8980', u'MULTIEQUAL_-1206029392'), (u'INDIRECT_-1206027239', u'MULTIEQUAL_-1206027209'), (u'CAST_-1206027883', u'PTRADD_-1206027630'), (u'INT_AND_-1206028597', u'INT_EQUAL_-1206030527'), (u'INT_ADD_-1206030162', u'CAST_-1206027394'), (u'CALL_-1206029764', u'INDIRECT_-1206027557'), (u'CALL_-1206030068', u'INDIRECT_-1206027801'), ('const-1', u'STORE_-1206030176'), (u'INDIRECT_-1206027586', u'MULTIEQUAL_-1206027550'), (u'INT_AND_-1206029574', u'INT_RIGHT_-1206029561'), (u'PTRSUB_-1206026936', u'CAST_-1206026795'), ('const-417', u'LOAD_-1206029468'), (u'MULTIEQUAL_-1206027488', u'MULTIEQUAL_-1206027483'), ('const-4', u'PTRADD_-1206027600'), (u'CAST_-1206027127', u'STORE_-1206029443'), (u'MULTIEQUAL_-1206027924', u'MULTIEQUAL_-1206027983'), (u'LOAD_-1206030558', u'INT_ADD_-1206030448'), ('const-4', u'PTRADD_-1206027587'), (u'STORE_-1206031381', u'INDIRECT_-1206028574'), (u'MULTIEQUAL_-1206028031', u'MULTIEQUAL_-1206028013'), (u'COPY_-1206031573', u'MULTIEQUAL_-1206028483'), (u'INT_EQUAL_-1206030072', u'CBRANCH_-1206030068'), (u'MULTIEQUAL_-1206028168', u'MULTIEQUAL_-1206028093'), (u'INDIRECT_-1206027230', u'MULTIEQUAL_-1206027518'), ('const-4294966996', u'PTRSUB_-1206026936'), (u'PTRSUB_-1206026840', u'CALL_-1206030168'), (u'MULTIEQUAL_-1206028193', u'MULTIEQUAL_-1206028465'), ('const-1', u'STORE_-1206031381'), (u'STORE_-1206029531', u'INDIRECT_-1206027975'), (u'LOAD_-1206029468', u'PTRADD_-1206027145'), (u'STORE_-1206030091', u'INDIRECT_-1206027926'), (u'MULTIEQUAL_-1206027816', u'COPY_-1206027878'), (u'INT_MULT_-1206030123', u'INT_ADD_-1206030133'), (u'CAST_-1206027683', u'PTRADD_-1206027718'), (u'CALL_-1206030265', u'INDIRECT_-1206027165'), ('const-417', u'LOAD_-1206029614'), (u'CALL_-1206029764', u'INDIRECT_-1206027137'), (u'MULTIEQUAL_-1206028395', u'CALL_-1206030168'), (u'CALL_-1206030265', u'INDIRECT_-1206027103'), (u'LOAD_-1206030618', u'PTRADD_-1206027574'), (u'MULTIEQUAL_-1206028168', u'MULTIEQUAL_-1206028195'), ('const-1', u'STORE_-1206030063'), (u'CAST_-1206027609', u'INT_ADD_-1206031336'), (u'INDIRECT_-1206027307', u'MULTIEQUAL_-1206028106'), (u'MULTIEQUAL_-1206029374', u'INT_NOTEQUAL_-1206031383'), (u'PTRADD_-1206026871', u'LOAD_-1206030158'), ('const-4', u'INT_MULT_-1206030327'), (u'MULTIEQUAL_-1206027924', u'MULTIEQUAL_-1206028541'), (u'MULTIEQUAL_-1206028150', u'MULTIEQUAL_-1206028315'), ('tmp_4716', u'CBRANCH_-1206029318'), (u'INDIRECT_-1206027863', u'MULTIEQUAL_-1206027832'), ('tmp_8985', u'LOAD_-1206031268'), ('const-3', u'PTRADD_-1206027426'), (u'MULTIEQUAL_-1206027606', u'MULTIEQUAL_-1206027545'), (u'INT_ADD_-1206031464', u'CAST_-1206027696'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206027563'), (u'CAST_-1206027437', u'INT_ADD_-1206030233'), ('tmp_4296', u'CBRANCH_-1206029556'), (u'INT_AND_-1206030070', u'INT_EQUAL_-1206030072'), ('const-417', u'STORE_-1206030013'), ('const-417', u'LOAD_-1206031795'), (u'INT_ADD_-1206030049', u'CAST_-1206026704'), (u'INT_MULT_-1206031382', u'INT_ADD_-1206031394'), (u'INT_ADD_-1206029517', u'CAST_-1206027133'), ('tmp_8984', u'CAST_-1206027134'), ('tmp_12596', u'MULTIEQUAL_-1206027859'), (u'INDIRECT_-1206028018', u'MULTIEQUAL_-1206027967'), (u'INDIRECT_-1206028018', u'MULTIEQUAL_-1206027967'), (u'INDIRECT_-1206028018', u'MULTIEQUAL_-1206027967'), (u'LOAD_-1206030618', u'PTRADD_-1206027356'), (u'MULTIEQUAL_-1206028098', u'MULTIEQUAL_-1206028137'), (u'CAST_-1206027883', u'PTRADD_-1206027912'), (u'MULTIEQUAL_-1206027518', u'MULTIEQUAL_-1206027501'), (u'INT_RIGHT_-1206029561', u'INT_AND_-1206029547'), (u'CAST_-1206027678', u'LOAD_-1206031444'), (u'INT_ADD_-1206029977', u'INT_SLESS_-1206029962'), (u'CALL_-1206031366', u'INDIRECT_-1206028530'), (u'INDIRECT_-1206027617', u'MULTIEQUAL_-1206028584'), ('const-417', u'LOAD_-1206030633'), (u'INT_EQUAL_-1206030925', u'CBRANCH_-1206030922'), (u'LOAD_-1206030140', u'INT_SLESS_-1206030103'), (u'MULTIEQUAL_-1206028069', u'MULTIEQUAL_-1206028010'), (u'INT_ADD_-1206031362', u'INT_SLESS_-1206031341'), (u'CAST_-1206027589', u'LOAD_-1206030618'), (u'INDIRECT_-1206027651', u'MULTIEQUAL_-1206027982'), (u'INDIRECT_-1206027879', u'MULTIEQUAL_-1206027835'), (u'PTRADD_-1206027912', u'LOAD_-1206031795'), (u'STORE_-1206030063', u'INDIRECT_-1206027660'), ('const-8', u'PTRADD_-1206027587'), ('const-32', u'COPY_-1206029686'), (u'PTRSUB_-1206026840', u'CALL_-1206030114'), (u'INDIRECT_-1206027600', u'MULTIEQUAL_-1206027876'), (u'MULTIEQUAL_-1206028053', u'MULTIEQUAL_-1206028131'), (u'MULTIEQUAL_-1206029374', u'INT_NOTEQUAL_-1206030265'), ('const-417', u'LOAD_-1206030558'), ('tmp_8972', u'PTRSUB_-1206026845'), ('const-0', u'COPY_-1206030180'), (u'CAST_-1206027133', u'STORE_-1206029531'), (u'INDIRECT_-1206027652', u'COPY_-1206027710'), (u'MULTIEQUAL_-1206028439', u'INT_EQUAL_-1206030387'), (u'MULTIEQUAL_-1206028195', u'MULTIEQUAL_-1206027470'), (u'CAST_-1206027232', u'STORE_-1206029788'), ('tmp_1651', u'CBRANCH_-1206030150'), (u'MULTIEQUAL_-1206028106', u'INT_ADD_-1206029507'), ('tmp_1785', u'BRANCH_-1206030045'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031714'), (u'MULTIEQUAL_-1206028184', u'MULTIEQUAL_-1206028551'), (u'INT_ADD_-1206031713', u'CAST_-1206027842'), (u'INDIRECT_-1206028574', u'MULTIEQUAL_-1206028525'), (u'LOAD_-1206030521', u'CAST_-1206026926'), (u'INT_EQUAL_-1206029345', u'CBRANCH_-1206029318'), (u'INDIRECT_-1206027926', u'MULTIEQUAL_-1206027902'), (u'INDIRECT_-1206027106', u'MULTIEQUAL_-1206027377'), (u'PTRADD_-1206030103', u'COPY_-1206026936'), (u'MULTIEQUAL_-1206028199', u'MULTIEQUAL_-1206027687'), ('const-0', u'RETURN_-1206030560'), ('tmp_1154', u'CBRANCH_-1206030497'), (u'MULTIEQUAL_-1206029374', u'INT_NOTEQUAL_-1206029533'), (u'CALL_-1206030114', u'INDIRECT_-1206027729'), ('const-4194304', u'INT_AND_-1206031302'), (u'MULTIEQUAL_-1206027607', u'MULTIEQUAL_-1206027687'), (u'INDIRECT_-1206027214', u'MULTIEQUAL_-1206028013'), ('const-4', u'PTRADD_-1206027044'), (u'CALL_-1206029469', u'INDIRECT_-1206027524'), ('const-0', u'CALL_-1206029820'), (u'MULTIEQUAL_-1206027545', u'MULTIEQUAL_-1206027625'), (u'INDIRECT_-1206027897', u'INT_ZEXT_-1206030276'), ('const-4', u'PTRADD_-1206027630'), ('const-0', u'COPY_-1206031643'), ('tmp_2668', u'CBRANCH_-1206030556'), (u'INDIRECT_-1206027817', u'MULTIEQUAL_-1206027773'), ('const-1', u'INT_AND_-1206029547'), (u'CAST_-1206027608', u'STORE_-1206031350'), (u'INT_ADD_-1206029486', u'INT_LESSEQUAL_-1206029467'), (u'LOAD_-1206030184', u'INT_ADD_-1206030162'), (u'MULTIEQUAL_-1206027456', u'MULTIEQUAL_-1206027439'), (u'CALL_-1206030136', u'INDIRECT_-1206027703'), (u'MULTIEQUAL_-1206029362', u'MULTIEQUAL_-1206029397'), (u'CALL_-1206030123', u'INDIRECT_-1206027448'), (u'INT_NOTEQUAL_-1206030303', u'CBRANCH_-1206030301'), (u'INDIRECT_-1206028355', u'MULTIEQUAL_-1206028342'), ('const-417', u'STORE_-1206029443'), ('const-1', u'STORE_-1206029531'), (u'INT_EQUAL_-1206030527', u'CBRANCH_-1206030523'), (u'INDIRECT_-1206028129', u'MULTIEQUAL_-1206028093'), (u'STORE_-1206030063', u'INDIRECT_-1206027617'), (u'PTRSUB_-1206027535', u'CALL_-1206030338'), (u'MULTIEQUAL_-1206028055', u'MULTIEQUAL_-1206028422'), ('tmp_3310', u'CBRANCH_-1206030143'), (u'LOAD_-1206030173', u'STORE_-1206030163'), (u'STORE_-1206030176', u'INDIRECT_-1206028226'), (u'INT_AND_-1206027835', u'INT_EQUAL_-1206030884'), ('const-32', u'INT_ADD_-1206029371'), ('const-256', u'CALL_-1206030123'), ('tmp_3073', u'CBRANCH_-1206030301'), (u'INDIRECT_-1206028243', u'MULTIEQUAL_-1206028236'), (u'CALL_-1206029764', u'INDIRECT_-1206027230'), ('tmp_8972', u'PTRSUB_-1206026927'), (u'PIECE_-1206027748', u'MULTIEQUAL_-1206028106'), (u'MULTIEQUAL_-1206027612', u'MULTIEQUAL_-1206027607'), (u'LOAD_-1206031657', u'MULTIEQUAL_-1206027377'), (u'COPY_-1206029708', u'MULTIEQUAL_-1206028748'), ('const-4', u'PTRADD_-1206027574'), (u'STORE_-1206029531', u'INDIRECT_-1206028061'), (u'CALL_-1206029469', u'INDIRECT_-1206027555'), (u'CALL_-1206029469', u'INDIRECT_-1206027617'), (u'CAST_-1206026854', u'PTRADD_-1206030080'), ('const-4', u'PTRADD_-1206030395'), ('const-1', u'PTRADD_-1206027718'), ('const-1', u'STORE_-1206029788'), (u'MULTIEQUAL_-1206027544', u'MULTIEQUAL_-1206027483'), ('const-7', u'PTRADD_-1206027035'), (u'INT_ADD_-1206030127', u'INT_LESSEQUAL_-1206030108'), (u'PTRSUB_-1206027544', u'CAST_-1206027340'), (u'INDIRECT_-1206027866', u'MULTIEQUAL_-1206027773'), (u'CAST_-1206027066', u'INT_ADD_-1206029355'), (u'INDIRECT_-1206027242', u'MULTIEQUAL_-1206028075'), (u'MULTIEQUAL_-1206027945', u'COPY_-1206028007'), ('const-417', u'LOAD_-1206030052'), (u'MULTIEQUAL_-1206028199', u'MULTIEQUAL_-1206028124'), (u'INDIRECT_-1206027600', u'MULTIEQUAL_-1206028422'), ('const-417', u'LOAD_-1206030140'), (u'CALL_-1206030090', u'INDIRECT_-1206027849'), (u'INDIRECT_-1206027897', u'MULTIEQUAL_-1206027804'), (u'PTRADD_-1206027655', u'LOAD_-1206031308'), (u'MULTIEQUAL_-1206028743', u'INT_ADD_-1206029413'), ('const-417', u'STORE_-1206030063'), (u'INT_ADD_-1206029774', u'CAST_-1206027232'), (u'INT_AND_-1206029793', u'INT_ADD_-1206029758'), (u'CALL_-1206029764', u'INDIRECT_-1206027600'), (u'MULTIEQUAL_-1206027483', u'MULTIEQUAL_-1206027544'), (u'INDIRECT_-1206028353', u'MULTIEQUAL_-1206028299'), (u'CALL_-1206031366', u'INDIRECT_-1206028036'), (u'LOAD_-1206029310', u'MULTIEQUAL_-1206028827'), ('tmp_12587', u'MULTIEQUAL_-1206027439'), (u'MULTIEQUAL_-1206028514', u'MULTIEQUAL_-1206028094'), ('tmp_3181', u'CBRANCH_-1206030234'), (u'MULTIEQUAL_-1206028465', u'MULTIEQUAL_-1206028584'), ('const-417', u'LOAD_-1206031493'), (u'MULTIEQUAL_-1206027924', u'MULTIEQUAL_-1206028002'), (u'CALL_-1206030265', u'INDIRECT_-1206027566'), ('const-1', u'STORE_-1206030247'), (u'STORE_-1206029788', u'INDIRECT_-1206028068'), (u'CALL_-1206029764', u'INDIRECT_-1206027199'), (u'MULTIEQUAL_-1206028010', u'MULTIEQUAL_-1206028088'), ('tmp_2549', u'CBRANCH_-1206029740'), (u'INT_NOTEQUAL_-1206030047', u'CBRANCH_-1206030043'), ('const-0', u'INT_NOTEQUAL_-1206029533'), ('const-5', u'PTRADD_-1206027356'), ('const-255', u'INT_AND_-1206029736'), ('const-4294967264', u'INT_ADD_-1206029617'), ('tmp_2174', u'CBRANCH_-1206030922'), (u'MULTIEQUAL_-1206027804', u'MULTIEQUAL_-1206027739'), (u'CAST_-1206027340', u'CALL_-1206030068'), (u'INT_ADD_-1206031362', u'MULTIEQUAL_-1206028483'), (u'MULTIEQUAL_-1206027425', u'MULTIEQUAL_-1206027408'), (u'CALL_-1206030168', u'INT_EQUAL_-1206030154'), ('const-1', u'INT_EQUAL_-1206031418'), (u'MULTIEQUAL_-1206028551', u'MULTIEQUAL_-1206028670'), (u'CALL_-1206030220', u'INDIRECT_-1206028311'), (u'LOAD_-1206031687', u'INT_SLESS_-1206031589'), (u'MULTIEQUAL_-1206028568', u'MULTIEQUAL_-1206028551'), (u'INT_LESSEQUAL_-1206030108', u'CBRANCH_-1206030118'), (u'MULTIEQUAL_-1206027668', u'MULTIEQUAL_-1206027607'), (u'INDIRECT_-1206028068', u'MULTIEQUAL_-1206028055'), (u'CALL_-1206030068', u'INDIRECT_-1206027739'), (u'INDIRECT_-1206028061', u'MULTIEQUAL_-1206028010'), (u'INDIRECT_-1206028061', u'MULTIEQUAL_-1206028010'), (u'INDIRECT_-1206028061', u'MULTIEQUAL_-1206028010'), ('tmp_8984', u'CAST_-1206027631'), (u'LOAD_-1206031365', u'PTRADD_-1206027681'), (u'INT_AND_-1206031642', u'MULTIEQUAL_-1206029381'), (u'CAST_-1206027395', u'INT_ADD_-1206030162'), (u'MULTIEQUAL_-1206028426', u'STORE_-1206030163'), (u'INDIRECT_-1206027682', u'MULTIEQUAL_-1206027684'), (u'INDIRECT_-1206027910', u'MULTIEQUAL_-1206027866'), (u'INDIRECT_-1206027686', u'MULTIEQUAL_-1206027962'), ('const-1', u'PTRADD_-1206030103'), (u'MULTIEQUAL_-1206028483', u'INT_ADD_-1206031362'), (u'INDIRECT_-1206028145', u'MULTIEQUAL_-1206028098'), ('const-4294966988', u'PTRSUB_-1206026840'), (u'MULTIEQUAL_-1206028299', u'MULTIEQUAL_-1206028236'), ('const-2', u'PTRADD_-1206026986'), (u'INT_ZEXT_-1206031394', u'PTRADD_-1206027681'), (u'INDIRECT_-1206027524', u'MULTIEQUAL_-1206027488'), (u'MULTIEQUAL_-1206028279', u'MULTIEQUAL_-1206028551'), (u'CALL_-1206030168', u'INDIRECT_-1206027677'), (u'MULTIEQUAL_-1206027575', u'MULTIEQUAL_-1206027514'), (u'SUBPIECE_-1206027748', u'PIECE_-1206027748'), ('tmp_2722', u'CBRANCH_-1206030523'), (u'COPY_-1206030450', u'MULTIEQUAL_-1206029059'), (u'INDIRECT_-1206027180', u'MULTIEQUAL_-1206028013'), (u'INT_AND_-1206029793', u'INT_ADD_-1206029774'), ('const-1', u'RETURN_-1206030260'), ('const-1', u'INT_ADD_-1206029977'), ('tmp_804', u'CBRANCH_-1206031277'), (u'MULTIEQUAL_-1206028102', u'MULTIEQUAL_-1206028075'), ('tmp_818', u'BRANCH_-1206031261'), ('const-1', u'STORE_-1206030013'), (u'CALL_-1206030265', u'INDIRECT_-1206027072'), ('tmp_12595', u'MULTIEQUAL_-1206027816'), (u'INT_MULT_-1206031441', u'INT_ADD_-1206030458'), (u'MULTIEQUAL_-1206028150', u'MULTIEQUAL_-1206028422'), (u'MULTIEQUAL_-1206028752', u'INT_NOTEQUAL_-1206029408'), (u'MULTIEQUAL_-1206027514', u'MULTIEQUAL_-1206027575'), ('const-4294966996', u'PTRSUB_-1206027544'), (u'STORE_-1206029443', u'INDIRECT_-1206027977'), (u'INDIRECT_-1206027868', u'MULTIEQUAL_-1206027833'), (u'INT_EQUAL_-1206030560', u'CBRANCH_-1206030556'), (u'INDIRECT_-1206027557', u'MULTIEQUAL_-1206027833'), (u'MULTIEQUAL_-1206028508', u'MULTIEQUAL_-1206028627'), (u'INT_AND_-1206029736', u'INT_NOTEQUAL_-1206029731'), ('tmp_8982', u'PTRADD_-1206027668'), (u'INT_MULT_-1206030327', u'INT_ADD_-1206030339'), (u'MULTIEQUAL_-1206028124', u'MULTIEQUAL_-1206028106'), (u'CALL_-1206030338', u'INDIRECT_-1206027990'), ('tmp_12596', u'COPY_-1206027956'), (u'COPY_-1206027956', u'INT_LESSEQUAL_-1206029467'), ('const-1', u'INT_ADD_-1206030527'), ('tmp_8972', u'PTRSUB_-1206027317'), (u'MULTIEQUAL_-1206028213', u'MULTIEQUAL_-1206028150'), (u'INDIRECT_-1206027763', u'MULTIEQUAL_-1206028551'), (u'CALL_-1206030136', u'INDIRECT_-1206027166'), (u'INT_AND_-1206027841', u'MULTIEQUAL_-1206027778'), ('const-4', u'PTRADD_-1206027413'), (u'CALL_-1206030123', u'INDIRECT_-1206027510'), (u'MULTIEQUAL_-1206028195', u'MULTIEQUAL_-1206028168'), (u'LOAD_-1206030618', u'PTRADD_-1206027587'), ('const-0', u'INT_NOTEQUAL_-1206029731'), (u'CALL_-1206030168', u'INDIRECT_-1206027307'), (u'COPY_-1206027915', u'MULTIEQUAL_-1206029423'), (u'INDIRECT_-1206027686', u'MULTIEQUAL_-1206027945'), ('const-417', u'LOAD_-1206030624'), (u'CAST_-1206027361', u'LOAD_-1206030101'), (u'INT_ADD_-1206029355', u'CAST_-1206027065'), (u'CALL_-1206030114', u'INDIRECT_-1206027643'), ('tmp_8984', u'CAST_-1206027609'), (u'CAST_-1206026904', u'LOAD_-1206030457'), (u'MULTIEQUAL_-1206027941', u'CAST_-1206027160'), ('tmp_3880', u'CBRANCH_-1206029789'), (u'CALL_-1206029820', u'INDIRECT_-1206028188'), (u'MULTIEQUAL_-1206029381', u'MULTIEQUAL_-1206029374'), ('tmp_8984', u'CALL_-1206029764'), (u'MULTIEQUAL_-1206028137', u'MULTIEQUAL_-1206027625'), ('tmp_1359', u'CBRANCH_-1206030383'), ('const-4294966988', u'PTRSUB_-1206027535'), (u'CALL_-1206030136', u'INDIRECT_-1206027746'), (u'STORE_-1206030013', u'INDIRECT_-1206028286'), ('const-0', u'COPY_-1206029655'), ('const-4294967264', u'INT_ADD_-1206029313'), ('const-8', u'INT_MULT_-1206030507'), (u'INDIRECT_-1206028160', u'MULTIEQUAL_-1206028124'), ('tmp_12586', u'MULTIEQUAL_-1206027408'), (u'CALL_-1206031366', u'INDIRECT_-1206028487'), ('const-1', u'INT_ADD_-1206030127'), (u'MULTIEQUAL_-1206027967', u'MULTIEQUAL_-1206028584'), (u'INDIRECT_-1206028020', u'MULTIEQUAL_-1206028010'), ('tmp_3448', u'CBRANCH_-1206030043'), (u'LOAD_-1206030052', u'MULTIEQUAL_-1206029397'), (u'CALL_-1206030090', u'INDIRECT_-1206027787'), (u'INDIRECT_-1206027941', u'MULTIEQUAL_-1206027897'), (u'MULTIEQUAL_-1206027983', u'MULTIEQUAL_-1206027924'), (u'MULTIEQUAL_-1206028748', u'INT_ADD_-1206029313'), (u'LOAD_-1206030107', u'INT_ADD_-1206030085'), ('const-417', u'LOAD_-1206029626'), (u'CALL_-1206030114', u'INDIRECT_-1206027242'), (u'CALL_-1206030123', u'INDIRECT_-1206027541'), (u'CALL_-1206029820', u'INDIRECT_-1206027744'), (u'INDIRECT_-1206027600', u'MULTIEQUAL_-1206027859'), (u'CALL_-1206030114', u'INDIRECT_-1206027686'), (u'PTRADD_-1206027044', u'CAST_-1206027007'), (u'MULTIEQUAL_-1206028514', u'MULTIEQUAL_-1206028541'), (u'LOAD_-1206029626', u'INT_ADD_-1206029598'), ('tmp_8985', u'LOAD_-1206030052'), (u'INDIRECT_-1206027245', u'MULTIEQUAL_-1206028044'), (u'CAST_-1206027630', u'STORE_-1206031381'), (u'INT_MULT_-1206031441', u'INT_ADD_-1206029610'), ('const-0', u'INT_EQUAL_-1206030495'), ('tmp_2834', u'CBRANCH_-1206030458'), (u'INDIRECT_-1206028596', u'MULTIEQUAL_-1206028568'), (u'MULTIEQUAL_-1206027708', u'MULTIEQUAL_-1206027875'), ('const-4294967295', u'INT_NOTEQUAL_-1206030093'), ('const-6', u'INT_EQUAL_-1206030925'), (u'MULTIEQUAL_-1206029059', u'INT_MULT_-1206030304'), (u'LOAD_-1206030585', u'INT_EQUAL_-1206030560'), (u'STORE_-1206030247', u'INDIRECT_-1206028267'), ('const-417', u'LOAD_-1206031487'), (u'CAST_-1206027394', u'STORE_-1206030176'), (u'PTRADD_-1206027630', u'LOAD_-1206030624'), (u'STORE_-1206029531', u'INDIRECT_-1206028018'), (u'INT_NOTEQUAL_-1206030265', u'CBRANCH_-1206030234'), (u'INT_ADD_-1206030085', u'CAST_-1206027361'), (u'MULTIEQUAL_-1206028199', u'MULTIEQUAL_-1206028225'), ('const-9', u'PTRADD_-1206027613'), ('const-8', u'INT_ADD_-1206030458'), (u'MULTIEQUAL_-1206027607', u'MULTIEQUAL_-1206028225'), (u'INT_NOTEQUAL_-1206031383', u'CBRANCH_-1206031374'), (u'MULTIEQUAL_-1206027668', u'MULTIEQUAL_-1206027612'), ('tmp_12589', u'MULTIEQUAL_-1206028199'), ('const-23', u'PTRADD_-1206027630'), ('tmp_1877', u'CBRANCH_-1206030118'), (u'INDIRECT_-1206028319', u'MULTIEQUAL_-1206028279'), (u'INDIRECT_-1206027168', u'MULTIEQUAL_-1206027456'), (u'MULTIEQUAL_-1206028743', u'INT_ADD_-1206029589'), ('const-0', u'COPY_-1206030380'), (u'MULTIEQUAL_-1206027897', u'MULTIEQUAL_-1206027832'), ('const-417', u'LOAD_-1206030158'), (u'MULTIEQUAL_-1206027563', u'MULTIEQUAL_-1206027544'), ('const-8', u'INT_MULT_-1206031441'), (u'PTRADD_-1206027587', u'LOAD_-1206030520'), (u'MULTIEQUAL_-1206028482', u'MULTIEQUAL_-1206028465'), (u'MULTIEQUAL_-1206027625', u'MULTIEQUAL_-1206027606'), (u'LOAD_-1206031795', u'INT_EQUAL_-1206031759'), (u'INDIRECT_-1206028098', u'MULTIEQUAL_-1206028062'), (u'INDIRECT_-1206028067', u'MULTIEQUAL_-1206028031'), (u'CAST_-1206027479', u'LOAD_-1206030355'), ('const-1', u'CALL_-1206029764'), (u'MULTIEQUAL_-1206028236', u'MULTIEQUAL_-1206028508'), ('const-4', u'INT_MULT_-1206031452'), (u'MULTIEQUAL_-1206027866', u'MULTIEQUAL_-1206027801'), (u'INDIRECT_-1206027713', u'MULTIEQUAL_-1206028044'), (u'CAST_-1206026926', u'INT_LESS_-1206030488'), (u'MULTIEQUAL_-1206028055', u'MULTIEQUAL_-1206028094'), (u'INT_MULT_-1206030304', u'INT_ADD_-1206030085'), ('const-1', u'INT_SLESS_-1206030103'), ('const-4', u'PTRADD_-1206027912'), (u'INT_EQUAL_-1206030154', u'CBRANCH_-1206030150'), ('const-417', u'LOAD_-1206031339'), (u'INT_SUB_-1206030089', u'MULTIEQUAL_-1206028395'), ('const-417', u'LOAD_-1206031715'), (u'INDIRECT_-1206028231', u'MULTIEQUAL_-1206028184'), (u'LOAD_-1206031339', u'INT_AND_-1206031302'), ('const-4', u'PTRADD_-1206027426'), ('const-2097407', u'INT_AND_-1206030385'), (u'INDIRECT_-1206027770', u'MULTIEQUAL_-1206027739'), ('tmp_8982', u'PTRADD_-1206027044'), (u'INDIRECT_-1206027686', u'MULTIEQUAL_-1206028508'), (u'LOAD_-1206031444', u'INT_AND_-1206027835'), (u'INDIRECT_-1206027523', u'COPY_-1206027581'), (u'LOAD_-1206031444', u'INT_EQUAL_-1206031418'), (u'MULTIEQUAL_-1206027832', u'MULTIEQUAL_-1206027999'), (u'COPY_-1206027203', u'MULTIEQUAL_-1206028106'), (u'MULTIEQUAL_-1206028102', u'MULTIEQUAL_-1206027377'), (u'MULTIEQUAL_-1206027483', u'MULTIEQUAL_-1206028102'), (u'CALL_-1206029469', u'INDIRECT_-1206028018'), (u'INDIRECT_-1206028190', u'MULTIEQUAL_-1206028150'), (u'INT_ADD_-1206029371', u'INT_EQUAL_-1206029345'), (u'INDIRECT_-1206027677', u'MULTIEQUAL_-1206028465'), (u'LOAD_-1206031410', u'INT_ZEXT_-1206031394'), (u'MULTIEQUAL_-1206028743', u'COPY_-1206027203'), (u'INDIRECT_-1206027928', u'MULTIEQUAL_-1206027835'), (u'CALL_-1206029469', u'INDIRECT_-1206028104'), (u'STORE_-1206030091', u'INDIRECT_-1206027840'), (u'INT_ADD_-1206031733', u'INT_ADD_-1206031713'), (u'COPY_-1206029686', u'MULTIEQUAL_-1206028752'), ('tmp_12586', u'MULTIEQUAL_-1206028106'), (u'CALL_-1206029820', u'INDIRECT_-1206028145'), ('tmp_8984', u'CALL_-1206030123'), (u'INDIRECT_-1206027775', u'SUBPIECE_-1206027748'), (u'STORE_-1206029443', u'INDIRECT_-1206027934'), (u'MULTIEQUAL_-1206029397', u'MULTIEQUAL_-1206029362'), (u'INDIRECT_-1206027643', u'MULTIEQUAL_-1206028465'), (u'INT_ZEXT_-1206030276', u'INT_ADD_-1206030233'), (u'MULTIEQUAL_-1206028137', u'MULTIEQUAL_-1206028062'), (u'LOAD_-1206031480', u'INT_MULT_-1206031382'), (u'MULTIEQUAL_-1206028044', u'MULTIEQUAL_-1206028164'), (u'MULTIEQUAL_-1206027739', u'MULTIEQUAL_-1206027906'), (u'INT_ADD_-1206029413', u'MULTIEQUAL_-1206028743'), (u'CALL_-1206029469', u'INDIRECT_-1206028061'), ('const-417', u'LOAD_-1206031308'), (u'INT_AND_-1206030385', u'INT_EQUAL_-1206030387'), ('const-417', u'LOAD_-1206030171'), (u'CALL_-1206030168', u'INDIRECT_-1206027214'), (u'INT_AND_-1206030134', u'INT_NOTEQUAL_-1206030145'), (u'INDIRECT_-1206027199', u'MULTIEQUAL_-1206027487'), (u'CALL_-1206030338', u'INDIRECT_-1206028446'), ('const-417', u'LOAD_-1206030167'), (u'CALL_-1206030168', u'INDIRECT_-1206027763'), ('const-158276', u'INT_ADD_-1206031733'), (u'PTRSUB_-1206026819', u'CALL_-1206030168'), (u'CALL_-1206029764', u'INDIRECT_-1206027686'), ('const-4', u'PTRADD_-1206027435'), (u'MULTIEQUAL_-1206028743', u'INT_ADD_-1206029486'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031734'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206028000'), (u'MULTIEQUAL_-1206027575', u'MULTIEQUAL_-1206027519'), (u'STORE_-1206031381', u'INDIRECT_-1206028617'), (u'STORE_-1206029443', u'INDIRECT_-1206028063'), (u'INT_LESS_-1206030488', u'CBRANCH_-1206030497'), (u'CALL_-1206030168', u'INDIRECT_-1206027276'), (u'INT_NOTEQUAL_-1206030145', u'CBRANCH_-1206030143'), ('tmp_895', u'CBRANCH_-1206031348'), (u'CAST_-1206026704', u'STORE_-1206030063'), ('const-417', u'LOAD_-1206030008'), (u'STORE_-1206030163', u'INDIRECT_-1206027239'), (u'CALL_-1206030068', u'INT_NOTEQUAL_-1206030047'), (u'LOAD_-1206031493', u'INT_ADD_-1206031464'), ('const-4', u'PTRADD_-1206027871'), (u'MULTIEQUAL_-1206027770', u'MULTIEQUAL_-1206028044'), (u'PTRADD_-1206027613', u'LOAD_-1206030585'), (u'CAST_-1206027128', u'INT_ADD_-1206029507'), (u'MULTIEQUAL_-1206028164', u'MULTIEQUAL_-1206027439'), (u'STORE_-1206030176', u'INDIRECT_-1206028269'), (u'CALL_-1206030220', u'LOAD_-1206030191'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206028102'), (u'CALL_-1206029820', u'INDIRECT_-1206027682'), (u'CAST_-1206027825', u'INT_RIGHT_-1206031670'), (u'MULTIEQUAL_-1206028600', u'MULTIEQUAL_-1206028088'), ('const-1', u'CALL_-1206030123'), ('const-0', u'INT_NOTEQUAL_-1206031313'), (u'CALL_-1206030338', u'INDIRECT_-1206028317'), (u'INT_SLESS_-1206031341', u'CBRANCH_-1206031348'), (u'STORE_-1206030176', u'INDIRECT_-1206028355'), (u'PTRSUB_-1206027535', u'CALL_-1206030068'), (u'LOAD_-1206031729', u'LOAD_-1206030633'), (u'INT_EQUAL_-1206031759', u'BOOL_NEGATE_-1206027906'), ('tmp_8982', u'PTRADD_-1206027426'), (u'MULTIEQUAL_-1206027801', u'MULTIEQUAL_-1206028075'), (u'CAST_-1206027007', u'LOAD_-1206030116'), ('tmp_4368', u'CBRANCH_-1206029514'), ('const-417', u'LOAD_-1206030521'), (u'CALL_-1206030265', u'INDIRECT_-1206027523'), (u'STORE_-1206030247', u'INDIRECT_-1206028396'), ('tmp_8984', u'CAST_-1206026705'), ('tmp_210', u'CBRANCH_-1206031714'), ('const-3', u'INT_NOTEQUAL_-1206030949'), (u'CALL_-1206030068', u'INDIRECT_-1206027770'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206027684'), (u'INT_EQUAL_-1206031759', u'CBRANCH_-1206031672'), (u'INDIRECT_-1206027934', u'MULTIEQUAL_-1206027924'), ('const-0', u'INT_EQUAL_-1206030527'), (u'MULTIEQUAL_-1206028514', u'MULTIEQUAL_-1206028002'), (u'MULTIEQUAL_-1206027967', u'MULTIEQUAL_-1206028045'), (u'PTRADD_-1206027718', u'CAST_-1206027678'), (u'MULTIEQUAL_-1206029423', u'PTRADD_-1206027871'), (u'LOAD_-1206030142', u'INT_AND_-1206030070'), ('const-0', u'INT_EQUAL_-1206030560'), (u'LOAD_-1206030355', u'CALL_-1206030338'), (u'CAST_-1206027065', u'MULTIEQUAL_-1206027941'), (u'LOAD_-1206030158', u'CAST_-1206026807'), ('const-5', u'PTRADD_-1206027574'), (u'MULTIEQUAL_-1206027576', u'MULTIEQUAL_-1206028195'), (u'COPY_-1206031643', u'MULTIEQUAL_-1206029374'), (u'INDIRECT_-1206028396', u'MULTIEQUAL_-1206028342'), (u'MULTIEQUAL_-1206028422', u'MULTIEQUAL_-1206028541'), (u'STORE_-1206029788', u'INDIRECT_-1206028154'), (u'MULTIEQUAL_-1206028541', u'MULTIEQUAL_-1206027816'), ('const-417', u'LOAD_-1206031687'), ('const-23', u'PTRADD_-1206027413'), (u'MULTIEQUAL_-1206027514', u'MULTIEQUAL_-1206028133'), (u'INDIRECT_-1206028154', u'MULTIEQUAL_-1206028141'), (u'PTRSUB_-1206026927', u'COPY_-1206026981'), (u'CAST_-1206026998', u'STORE_-1206030091'), ('const-417', u'LOAD_-1206031444'), (u'MULTIEQUAL_-1206028141', u'MULTIEQUAL_-1206028180'), ('tmp_8990', u'LOAD_-1206031493'), (u'MULTIEQUAL_-1206028199', u'INT_AND_-1206027841'), ('tmp_2614', u'CBRANCH_-1206030588'), (u'INDIRECT_-1206027682', u'MULTIEQUAL_-1206028013'), ('const-0', u'INT_SLESS_-1206031589'), (u'CALL_-1206030090', u'INDIRECT_-1206027818'), ('const-2', u'PTRADD_-1206026871'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206027653'), (u'CALL_-1206030123', u'INDIRECT_-1206027417'), (u'MULTIEQUAL_-1206028439', u'INT_EQUAL_-1206030072'), (u'INT_SLESS_-1206030451', u'CBRANCH_-1206030458'), ('const-417', u'STORE_-1206030163'), (u'MULTIEQUAL_-1206027607', u'MULTIEQUAL_-1206027668'), ('tmp_12585', u'INT_ADD_-1206031713'), (u'PTRADD_-1206027668', u'LOAD_-1206031339'), (u'INDIRECT_-1206027840', u'MULTIEQUAL_-1206027816'), (u'CALL_-1206031366', u'INDIRECT_-1206028129'), ('const-417', u'LOAD_-1206029461'), (u'INT_SLESS_-1206029962', u'CBRANCH_-1206029969'), ('const-1', u'CALL_-1206029820'), (u'CALL_-1206029820', u'INDIRECT_-1206028102'), (u'INDIRECT_-1206028312', u'MULTIEQUAL_-1206028299'), (u'PTRADD_-1206026986', u'LOAD_-1206030521'), (u'PTRSUB_-1206027317', u'CALL_-1206029820'), (u'CALL_-1206030090', u'INDIRECT_-1206027880'), (u'COPY_-1206029655', u'MULTIEQUAL_-1206027941'), ('const-8', u'INT_MULT_-1206031382'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206028225'), (u'CALL_-1206030136', u'INDIRECT_-1206027228'), ('const-2097407', u'INT_AND_-1206030070'), ('const-1', u'INT_EQUAL_-1206031759'), (u'PTRADD_-1206030103', u'CAST_-1206026796'), (u'INDIRECT_-1206027703', u'MULTIEQUAL_-1206028670'), ('const-4294967295', u'INT_NOTEQUAL_-1206030303'), ('const-128', u'INT_ADD_-1206029486'), (u'MULTIEQUAL_-1206027859', u'COPY_-1206027921'), ('tmp_8972', u'PTRSUB_-1206026840'), (u'LOAD_-1206031487', u'MULTIEQUAL_-1206028827'), (u'INT_NOTEQUAL_-1206029408', u'CBRANCH_-1206029405'), (u'INDIRECT_-1206027609', u'COPY_-1206027667'), ('const-0', u'INT_NOTEQUAL_-1206030265'), (u'INDIRECT_-1206027651', u'MULTIEQUAL_-1206027653'), (u'LOAD_-1206031358', u'INT_ADD_-1206031336'), (u'INT_ADD_-1206029507', u'CAST_-1206027127'), ('const-2', u'INT_NOTEQUAL_-1206030858'), (u'CALL_-1206031366', u'INDIRECT_-1206028160'), (u'INT_ADD_-1206029758', u'INT_AND_-1206029736'), ('tmp_8972', u'PTRSUB_-1206027322'), ('tmp_2300', u'CBRANCH_-1206030856'), (u'INDIRECT_-1206027801', u'MULTIEQUAL_-1206027770'), (u'CALL_-1206030220', u'INDIRECT_-1206027817'), (u'MULTIEQUAL_-1206028088', u'MULTIEQUAL_-1206028069'), ('const-417', u'LOAD_-1206031410'), ('tmp_8984', u'CAST_-1206027437'), ('const-417', u'LOAD_-1206030142'), (u'INT_ADD_-1206029617', u'MULTIEQUAL_-1206028743'), (u'LOAD_-1206030618', u'PTRADD_-1206027600'), ('tmp_269', u'CBRANCH_-1206031672'), (u'MULTIEQUAL_-1206028584', u'MULTIEQUAL_-1206027859'), (u'MULTIEQUAL_-1206028137', u'MULTIEQUAL_-1206028164'), (u'INDIRECT_-1206027541', u'MULTIEQUAL_-1206027518'), (u'INDIRECT_-1206027211', u'MULTIEQUAL_-1206028044'), (u'CALL_-1206030114', u'INDIRECT_-1206027180'), (u'CAST_-1206026849', u'LOAD_-1206030142'), ('const-0', u'COPY_-1206029838'), (u'INDIRECT_-1206028276', u'MULTIEQUAL_-1206028236'), ('tmp_12588', u'MULTIEQUAL_-1206028168'), (u'LOAD_-1206030457', u'INT_AND_-1206030385'), (u'INDIRECT_-1206027307', u'CALL_-1206030136'), (u'LOAD_-1206030618', u'LOAD_-1206030107'), (u'PTRADD_-1206027356', u'LOAD_-1206030008'), (u'MULTIEQUAL_-1206028236', u'MULTIEQUAL_-1206028401'), (u'INDIRECT_-1206027832', u'MULTIEQUAL_-1206027801'), ('const-417', u'LOAD_-1206031358'), (u'INDIRECT_-1206027137', u'MULTIEQUAL_-1206027425'), ('const-4294967295', u'INT_NOTEQUAL_-1206030047'), (u'MULTIEQUAL_-1206028541', u'MULTIEQUAL_-1206028514'), (u'MULTIEQUAL_-1206029059', u'INT_ADD_-1206029977'), (u'PTRADD_-1206027145', u'LOAD_-1206029461'), (u'LOAD_-1206031480', u'INT_MULT_-1206030507'), (u'MULTIEQUAL_-1206027487', u'MULTIEQUAL_-1206027470'), (u'LOAD_-1206031687', u'MULTIEQUAL_-1206029362'), (u'LOAD_-1206030624', u'INT_SLESS_-1206030581'), (u'CALL_-1206029764', u'INDIRECT_-1206027168'), (u'INT_ADD_-1206030127', u'MULTIEQUAL_-1206028498'), (u'INT_ADD_-1206029758', u'SUBPIECE_-1206029670'), (u'MULTIEQUAL_-1206028514', u'MULTIEQUAL_-1206028315'), ('const-4', u'INT_MULT_-1206030304'), (u'CALL_-1206030090', u'CALL_-1206030068'), ('const-0', u'SUBPIECE_-1206029670'), ('const-417', u'LOAD_-1206031729'), (u'MULTIEQUAL_-1206028426', u'PTRADD_-1206030103'), ('const-417', u'LOAD_-1206031817'), ('tmp_8984', u'COPY_-1206027915'), (u'MULTIEQUAL_-1206027967', u'MULTIEQUAL_-1206028026'), (u'CALL_-1206030338', u'INDIRECT_-1206027959'), (u'PTRADD_-1206027574', u'LOAD_-1206030488'), (u'MULTIEQUAL_-1206028670', u'MULTIEQUAL_-1206027945'), (u'LOAD_-1206030167', u'INT_ADD_-1206030133'), (u'CALL_-1206030265', u'INDIRECT_-1206027609'), ('tmp_12587', u'MULTIEQUAL_-1206028137'), ('tmp_8972', u'PTRSUB_-1206026936'), ('const-4294966984', u'PTRSUB_-1206027317'), (u'INDIRECT_-1206027911', u'MULTIEQUAL_-1206027876'), (u'CALL_-1206030114', u'INDIRECT_-1206027149'), ('tmp_315', u'CBRANCH_-1206031647'), (u'INT_NOTEQUAL_-1206031313', u'CBRANCH_-1206031311'), ('const-4', u'PTRADD_-1206027718'), ('tmp_2254', u'CBRANCH_-1206030881'), (u'CAST_-1206027883', u'LOAD_-1206029310'), (u'CALL_-1206030090', u'INDIRECT_-1206027756'), (u'STORE_-1206031350', u'INDIRECT_-1206028510'), (u'INDIRECT_-1206027848', u'MULTIEQUAL_-1206027804'), (u'PTRSUB_-1206027544', u'CAST_-1206027470'), ('const-0', u'COPY_-1206031573'), (u'CALL_-1206029469', u'INDIRECT_-1206027586'), ('tmp_188', u'CBRANCH_-1206031734'), (u'CAST_-1206026909', u'PTRADD_-1206030395'), ('const-2', u'INT_NOTEQUAL_-1206029743'), (u'INT_ADD_-1206030458', u'INT_ADD_-1206030448'), (u'STORE_-1206030063', u'INDIRECT_-1206027574'), ('const-417', u'STORE_-1206031381'), (u'CALL_-1206030265', u'INDIRECT_-1206027196'), ('const-4', u'PTRADD_-1206027356'), (u'MULTIEQUAL_-1206028752', u'INT_ADD_-1206029371'), (u'CAST_-1206026705', u'INT_ADD_-1206030049'), (u'CALL_-1206030168', u'INDIRECT_-1206027634'), (u'CALL_-1206030338', u'INDIRECT_-1206028360'), (u'CALL_-1206030338', u'INDIRECT_-1206027897'), (u'CAST_-1206027233', u'INT_ADD_-1206029774'), ('const-4', u'PTRADD_-1206027145'), (u'CAST_-1206027159', u'LOAD_-1206029614'), (u'CALL_-1206030123', u'INDIRECT_-1206027954'), (u'CALL_-1206031366', u'INDIRECT_-1206028067'), (u'CAST_-1206027631', u'INT_ADD_-1206031367'), ('const-4', u'PTRADD_-1206030080'), (u'MULTIEQUAL_-1206028112', u'MULTIEQUAL_-1206028053'), (u'INT_NOTEQUAL_-1206030613', u'CBRANCH_-1206030610'), (u'MULTIEQUAL_-1206028498', u'INT_ADD_-1206030127'), (u'CALL_-1206030068', u'INDIRECT_-1206027863'), (u'INDIRECT_-1206027617', u'MULTIEQUAL_-1206027581'), (u'INDIRECT_-1206028111', u'MULTIEQUAL_-1206028098'), ('const-0', u'INT_NOTEQUAL_-1206029558'), (u'INDIRECT_-1206027557', u'MULTIEQUAL_-1206027816'), ('const-417', u'LOAD_-1206031657'), (u'MULTIEQUAL_-1206028199', u'MULTIEQUAL_-1206027999'), ('const-1', u'PTRADD_-1206030080'), ('const-417', u'LOAD_-1206030520'), (u'CALL_-1206030220', u'INDIRECT_-1206027879'), ('const-8', u'INT_MULT_-1206030123'), ('tmp_744', u'CBRANCH_-1206031311'), ('tmp_8985', u'LOAD_-1206029287'), (u'CAST_-1206026943', u'LOAD_-1206030535'), ('tmp_12585', u'MULTIEQUAL_-1206028600'), (u'INT_ADD_-1206031336', u'CAST_-1206027608'), (u'PTRADD_-1206027871', u'LOAD_-1206031715'), (u'INDIRECT_-1206028317', u'MULTIEQUAL_-1206028213'), (u'PTRSUB_-1206027322', u'CALL_-1206029820'), (u'INT_SLESS_-1206031270', u'CBRANCH_-1206031277'), (u'CALL_-1206030068', u'INDIRECT_-1206028319'), (u'PIECE_-1206027748', u'MULTIEQUAL_-1206027778'), ('const-2', u'INT_SLESS_-1206030581'), (u'CALL_-1206030123', u'INDIRECT_-1206027911'), (u'MULTIEQUAL_-1206028062', u'MULTIEQUAL_-1206028044'), (u'STORE_-1206030013', u'INDIRECT_-1206028243'), (u'INDIRECT_-1206028488', u'MULTIEQUAL_-1206028439'), (u'CALL_-1206030338', u'INDIRECT_-1206027928'), (u'STORE_-1206031381', u'INDIRECT_-1206028531'), (u'INDIRECT_-1206027555', u'MULTIEQUAL_-1206027519'), ('const-255', u'INT_AND_-1206029793'), (u'INDIRECT_-1206027574', u'MULTIEQUAL_-1206028541'), ('tmp_8982', u'LOAD_-1206031817'), (u'MULTIEQUAL_-1206028670', u'MULTIEQUAL_-1206028643'), (u'INDIRECT_-1206028226', u'MULTIEQUAL_-1206028213'), (u'CALL_-1206031366', u'INDIRECT_-1206028616'), (u'MULTIEQUAL_-1206027576', u'MULTIEQUAL_-1206027637'), (u'MULTIEQUAL_-1206028000', u'MULTIEQUAL_-1206027209'), (u'INT_ADD_-1206031367', u'CAST_-1206027630'), (u'CAST_-1206027322', u'STORE_-1206030013'), ('const-4294966997', u'PTRSUB_-1206026927'), (u'INT_NOTEQUAL_-1206030949', u'CBRANCH_-1206030947'), (u'MULTIEQUAL_-1206028827', u'INT_ADD_-1206029610'), (u'INDIRECT_-1206028104', u'MULTIEQUAL_-1206028053'), (u'INDIRECT_-1206028104', u'MULTIEQUAL_-1206028053'), (u'INDIRECT_-1206028104', u'MULTIEQUAL_-1206028053'), (u'CALL_-1206030338', u'INDIRECT_-1206028403'), (u'PTRADD_-1206030395', u'CAST_-1206026904'), (u'CALL_-1206031366', u'INDIRECT_-1206028098'), (u'LOAD_-1206030488', u'INT_SLESS_-1206030451'), (u'INT_SLESS_-1206030581', u'CBRANCH_-1206030588'), ('tmp_2128', u'CBRANCH_-1206030947'), (u'LOAD_-1206031268', u'MULTIEQUAL_-1206029397'), ('tmp_12595', u'MULTIEQUAL_-1206028514'), ('tmp_942', u'CBRANCH_-1206030610'), (u'PTRADD_-1206027413', u'LOAD_-1206030140'), (u'MULTIEQUAL_-1206027773', u'MULTIEQUAL_-1206027708'), (u'MULTIEQUAL_-1206027832', u'MULTIEQUAL_-1206028106'), (u'LOAD_-1206029461', u'MULTIEQUAL_-1206028106'), (u'INT_EQUAL_-1206030884', u'CBRANCH_-1206030881'), (u'STORE_-1206031350', u'INDIRECT_-1206028467'), (u'STORE_-1206030063', u'INDIRECT_-1206027703'), (u'INT_ZEXT_-1206030072', u'INT_ADD_-1206030049'), (u'INT_ADD_-1206029598', u'CAST_-1206027159'), (u'BOOL_NEGATE_-1206027906', u'CBRANCH_-1206031647'), (u'INDIRECT_-1206027273', u'MULTIEQUAL_-1206028225'), (u'MULTIEQUAL_-1206027483', u'MULTIEQUAL_-1206027563'), (u'CAST_-1206027883', u'PTRADD_-1206026986'), (u'MULTIEQUAL_-1206028075', u'MULTIEQUAL_-1206028195'), (u'LOAD_-1206029614', u'INT_RIGHT_-1206029561'), (u'INT_EQUAL_-1206031418', u'CBRANCH_-1206031414'), ('const-417', u'LOAD_-1206030618'), (u'CAST_-1206027134', u'INT_ADD_-1206029517'), (u'PTRADD_-1206030080', u'CAST_-1206026849'), ('const-1', u'STORE_-1206031350'), (u'MULTIEQUAL_-1206028168', u'MULTIEQUAL_-1206027656'), (u'CAST_-1206027842', u'LOAD_-1206031729'), (u'MULTIEQUAL_-1206028133', u'MULTIEQUAL_-1206027408'), (u'CALL_-1206030220', u'INDIRECT_-1206028268'), (u'STORE_-1206029443', u'INDIRECT_-1206028020'), (u'CALL_-1206030123', u'INDIRECT_-1206027479'), (u'INDIRECT_-1206027566', u'COPY_-1206027624'), (u'MULTIEQUAL_-1206028643', u'MULTIEQUAL_-1206028223'), ('const-417', u'STORE_-1206030247'), ('const-7', u'PTRADD_-1206027044'), ('tmp_412', u'CBRANCH_-1206031596'), (u'CALL_-1206030090', u'INDIRECT_-1206028293'), (u'MULTIEQUAL_-1206027377', u'INT_NOTEQUAL_-1206030613'), (u'INT_ADD_-1206031394', u'CAST_-1206027640'), (u'CALL_-1206029469', u'INDIRECT_-1206027648'), (u'CAST_-1206026909', u'MULTIEQUAL_-1206028466'), (u'MULTIEQUAL_-1206028342', u'MULTIEQUAL_-1206028279'), (u'STORE_-1206030091', u'INDIRECT_-1206027883'), (u'CALL_-1206030068', u'INDIRECT_-1206028233'), (u'MULTIEQUAL_-1206028557', u'MULTIEQUAL_-1206028045'), (u'INT_MULT_-1206031452', u'INT_ADD_-1206031464'), (u'MULTIEQUAL_-1206027544', u'MULTIEQUAL_-1206027488'), (u'INT_MULT_-1206030507', u'INT_ADD_-1206030519'), (u'INDIRECT_-1206028286', u'MULTIEQUAL_-1206028279'), ('const-4', u'PTRADD_-1206027655'), (u'CALL_-1206030265', u'INDIRECT_-1206027134'), (u'INDIRECT_-1206028233', u'MULTIEQUAL_-1206028193'), ('tmp_8984', u'CAST_-1206027323'), (u'MULTIEQUAL_-1206028098', u'MULTIEQUAL_-1206028465'), (u'CALL_-1206029820', u'INDIRECT_-1206028231'), (u'INT_ADD_-1206029999', u'CAST_-1206027322'), (u'MULTIEQUAL_-1206028627', u'MULTIEQUAL_-1206028600'), (u'CALL_-1206029820', u'INDIRECT_-1206027775'), (u'CALL_-1206030220', u'INDIRECT_-1206027941'), ('tmp_8985', u'LOAD_-1206031687'), (u'INT_ADD_-1206030339', u'CAST_-1206027479'), (u'INDIRECT_-1206027744', u'MULTIEQUAL_-1206028075'), (u'STORE_-1206030013', u'INDIRECT_-1206028157'), (u'INDIRECT_-1206027276', u'MULTIEQUAL_-1206028075'), ('tmp_4546', u'CBRANCH_-1206029405'), (u'MULTIEQUAL_-1206027581', u'MULTIEQUAL_-1206027576'), ('const-4294966996', u'PTRSUB_-1206026845'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206030949'), (u'INT_NOTEQUAL_-1206029731', u'CBRANCH_-1206029721'), ('const-5', u'INT_EQUAL_-1206030884'), (u'STORE_-1206030247', u'INDIRECT_-1206028353'), (u'INDIRECT_-1206027149', u'MULTIEQUAL_-1206028102'), (u'MULTIEQUAL_-1206028557', u'MULTIEQUAL_-1206028137'), (u'CAST_-1206027470', u'CALL_-1206030338'), ('const-4', u'INT_ADD_-1206029355'), (u'CALL_-1206030338', u'INT_NOTEQUAL_-1206030303'), (u'INT_ADD_-1206030127', u'INT_MULT_-1206030123'), (u'INDIRECT_-1206027242', u'MULTIEQUAL_-1206028195'), (u'MULTIEQUAL_-1206027687', u'MULTIEQUAL_-1206027668'), (u'MULTIEQUAL_-1206027902', u'COPY_-1206027964'), (u'MULTIEQUAL_-1206028584', u'MULTIEQUAL_-1206028557'), (u'STORE_-1206030176', u'INDIRECT_-1206028312'), ('const-417', u'LOAD_-1206030585'), ('tmp_12584', u'MULTIEQUAL_-1206027945'), (u'COPY_-1206026807', u'MULTIEQUAL_-1206028395'), (u'CAST_-1206027883', u'PTRADD_-1206027413'), ('const-417', u'LOAD_-1206029287'), (u'INT_ADD_-1206030448', u'CAST_-1206026909'), (u'PTRSUB_-1206026845', u'CAST_-1206026726'), ('const-417', u'STORE_-1206030091'), ('const-1', u'INT_AND_-1206028597'), (u'INT_ADD_-1206031435', u'CAST_-1206027683'), (u'CALL_-1206029820', u'INDIRECT_-1206027713'), (u'STORE_-1206029788', u'INDIRECT_-1206028197'), (u'INDIRECT_-1206027239', u'MULTIEQUAL_-1206027242'), (u'MULTIEQUAL_-1206028483', u'INT_MULT_-1206031452'), (u'MULTIEQUAL_-1206028525', u'MULTIEQUAL_-1206028508'), (u'INDIRECT_-1206028036', u'MULTIEQUAL_-1206028000'), (u'PTRADD_-1206027681', u'LOAD_-1206031358'), (u'MULTIEQUAL_-1206027708', u'MULTIEQUAL_-1206027982'), ('const-4294967294', u'INT_EQUAL_-1206029793'), (u'INT_ADD_-1206030233', u'CAST_-1206027436'), (u'MULTIEQUAL_-1206029392', u'INT_AND_-1206031642'), (u'MULTIEQUAL_-1206028106', u'MULTIEQUAL_-1206027594'), (u'CALL_-1206029764', u'INDIRECT_-1206027643'), (u'CALL_-1206030220', u'INDIRECT_-1206028354'), (u'CALL_-1206030114', u'INT_NOTEQUAL_-1206030093'), (u'CALL_-1206031366', u'INDIRECT_-1206028573'), ('tmp_4016', u'CBRANCH_-1206029721'), (u'INT_SLESS_-1206030103', u'CBRANCH_-1206030110'), ('tmp_8984', u'CAST_-1206027395'), (u'INDIRECT_-1206027660', u'MULTIEQUAL_-1206028627'), (u'MULTIEQUAL_-1206027594', u'MULTIEQUAL_-1206027575'), (u'INDIRECT_-1206027199', u'MULTIEQUAL_-1206027470'), (u'INT_NOTEQUAL_-1206030858', u'CBRANCH_-1206030856'), (u'CALL_-1206030090', u'INDIRECT_-1206028250'), (u'MULTIEQUAL_-1206028600', u'MULTIEQUAL_-1206028627'), (u'INDIRECT_-1206027149', u'MULTIEQUAL_-1206027982'), (u'CAST_-1206027696', u'LOAD_-1206031480'), ('const-22', u'INT_RIGHT_-1206031670'), (u'INT_SLESS_-1206031589', u'CBRANCH_-1206031596'), ('const-417', u'STORE_-1206030176'), (u'INT_ADD_-1206030133', u'CAST_-1206026854'), (u'INDIRECT_-1206027106', u'MULTIEQUAL_-1206027394'), (u'LOAD_-1206031444', u'INT_NOTEQUAL_-1206029743'), ('const-417', u'LOAD_-1206030488'), (u'LOAD_-1206030116', u'INT_OR_-1206028037'), (u'INDIRECT_-1206027729', u'MULTIEQUAL_-1206028551'), ('const-417', u'LOAD_-1206031365'), (u'MULTIEQUAL_-1206028026', u'MULTIEQUAL_-1206027967'), (u'CAST_-1206027883', u'LOAD_-1206031487'), (u'MULTIEQUAL_-1206028643', u'MULTIEQUAL_-1206028131'), ('const-4194304', u'INT_AND_-1206030134'), (u'CAST_-1206027436', u'STORE_-1206030247'), (u'INDIRECT_-1206027997', u'MULTIEQUAL_-1206027962'), (u'LOAD_-1206030008', u'INT_SLESS_-1206029962'), (u'LOAD_-1206030618', u'LOAD_-1206030367'), (u'MULTIEQUAL_-1206028010', u'MULTIEQUAL_-1206028069'), (u'INDIRECT_-1206028197', u'MULTIEQUAL_-1206028184'), (u'LOAD_-1206030171', u'INT_AND_-1206030134'), (u'INT_ADD_-1206029371', u'MULTIEQUAL_-1206028752'), ('tmp_3368', u'CBRANCH_-1206030110'), (u'INDIRECT_-1206028531', u'MULTIEQUAL_-1206028482'), (u'MULTIEQUAL_-1206029059', u'INT_MULT_-1206030327'), (u'INDIRECT_-1206027720', u'MULTIEQUAL_-1206028508'), ('tmp_12585', u'MULTIEQUAL_-1206027902'), (u'INDIRECT_-1206027180', u'INT_ZEXT_-1206030072'), ('const-4', u'PTRADD_-1206027681'), (u'MULTIEQUAL_-1206028133', u'MULTIEQUAL_-1206028106'), ('const-3', u'PTRADD_-1206027871'), ('tmp_4436', u'CBRANCH_-1206029477'), (u'CALL_-1206030168', u'INDIRECT_-1206027245'), (u'PTRADD_-1206027426', u'LOAD_-1206030171'), ('const-1', u'PTRADD_-1206030103'), (u'STORE_-1206031350', u'INDIRECT_-1206028596'), ('const-417', u'LOAD_-1206030101'), (u'CALL_-1206030220', u'INDIRECT_-1206027848'), (u'CALL_-1206030068', u'INDIRECT_-1206028276'), (u'INDIRECT_-1206027230', u'MULTIEQUAL_-1206027501'), (u'INDIRECT_-1206028310', u'MULTIEQUAL_-1206028256'), (u'MULTIEQUAL_-1206028225', u'MULTIEQUAL_-1206028199'), (u'LOAD_-1206031487', u'INT_ADD_-1206031394'), ('const-1', u'INT_ADD_-1206029758'), (u'MULTIEQUAL_-1206028643', u'MULTIEQUAL_-1206028444'), ('tmp_8972', u'PTRSUB_-1206026819'), (u'MULTIEQUAL_-1206028557', u'MULTIEQUAL_-1206028358'), (u'CAST_-1206026795', u'INT_SUB_-1206030089'), ('const-1', u'PTRADD_-1206030395'), (u'MULTIEQUAL_-1206028256', u'MULTIEQUAL_-1206028193'), (u'MULTIEQUAL_-1206028010', u'MULTIEQUAL_-1206028627'), (u'CALL_-1206030114', u'INDIRECT_-1206027211'), (u'MULTIEQUAL_-1206028466', u'LOAD_-1206030173'), ('tmp_1492', u'BRANCH_-1206030113'), ('const-417', u'LOAD_-1206031480'), (u'INT_NOTEQUAL_-1206029743', u'CBRANCH_-1206029740'), (u'INDIRECT_-1206028188', u'MULTIEQUAL_-1206028141'), (u'INDIRECT_-1206027417', u'MULTIEQUAL_-1206027394'), (u'CALL_-1206030068', u'INDIRECT_-1206027832'), (u'INT_ADD_-1206030519', u'CAST_-1206026943'), ('const-417', u'LOAD_-1206030184'), ('tmp_1721', u'CBRANCH_-1206030091'), (u'INDIRECT_-1206027977', u'MULTIEQUAL_-1206027967'), (u'MULTIEQUAL_-1206027576', u'MULTIEQUAL_-1206027656'), (u'CALL_-1206030136', u'INDIRECT_-1206027617'), (u'PTRADD_-1206027600', u'CAST_-1206027564'), ('const-4', u'PTRADD_-1206027613'), (u'LOAD_-1206031729', u'LOAD_-1206031657'), (u'INT_AND_-1206031302', u'INT_NOTEQUAL_-1206031313'), (u'INDIRECT_-1206027959', u'MULTIEQUAL_-1206027866')]
| null | null |
00026a1c
|
arm
|
O2
|
(translation_unit "void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}\n\n" (function_definition "void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" primitive_type (function_declarator "FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" identifier (parameter_list "(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "int *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "undefined4 *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) ))) (compound_statement "{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" { (declaration "byte bVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "__int32_t **pp_Var3;" type_identifier (pointer_declarator "**pp_Var3" * (pointer_declarator "*pp_Var3" * identifier)) ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "wchar_t wVar5;" type_identifier identifier ;) (declaration "size_t sVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "undefined4 *puVar9;" type_identifier (pointer_declarator "*puVar9" * identifier) ;) (declaration "undefined1 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "int iVar11;" primitive_type identifier ;) (declaration "int iVar12;" primitive_type identifier ;) (declaration "undefined1 *puVar13;" type_identifier (pointer_declarator "*puVar13" * identifier) ;) (declaration "undefined1 *puVar14;" type_identifier (pointer_declarator "*puVar14" * identifier) ;) (declaration "int *piVar15;" primitive_type (pointer_declarator "*piVar15" * identifier) ;) (declaration "uint uVar16;" type_identifier identifier ;) (declaration "int *piVar17;" primitive_type (pointer_declarator "*piVar17" * identifier) ;) (declaration "int *piVar18;" primitive_type (pointer_declarator "*piVar18" * identifier) ;) (declaration "bool bVar19;" primitive_type identifier ;) (declaration "int local_15c;" primitive_type identifier ;) (declaration "byte *local_158;" type_identifier (pointer_declarator "*local_158" * identifier) ;) (declaration "uint local_138;" type_identifier identifier ;) (declaration "mbstate_t local_134;" type_identifier identifier ;) (declaration "byte local_12c;" type_identifier identifier ;) (declaration "undefined1 auStack_12b [255];" type_identifier (array_declarator "auStack_12b [255]" identifier [ number_literal ]) ;) (declaration "int local_2c;" primitive_type identifier ;) (expression_statement "uVar2 = DAT_00026ed0;" (assignment_expression "uVar2 = DAT_00026ed0" identifier = identifier) ;) (expression_statement "piVar15 = (int *)*param_1;" (assignment_expression "piVar15 = (int *)*param_1" identifier = (cast_expression "(int *)*param_1" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*param_1" * identifier))) ;) (expression_statement "bVar19 = piVar15[0x17] == 1;" (assignment_expression "bVar19 = piVar15[0x17] == 1" identifier = (binary_expression "piVar15[0x17] == 1" (subscript_expression "piVar15[0x17]" identifier [ number_literal ]) == number_literal)) ;) (expression_statement "puVar9 = param_4;" (assignment_expression "puVar9 = param_4" identifier = identifier) ;) (if_statement "if (bVar19) {\n puVar9 = param_1;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n puVar9 = param_1;\n }" { (expression_statement "puVar9 = param_1;" (assignment_expression "puVar9 = param_1" identifier = identifier) ;) })) (expression_statement "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);" (assignment_expression "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" identifier = (pointer_expression "*(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" * (cast_expression "(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (binary_expression "DAT_00026ec8 + 0x26a44 + DAT_00026ecc" (binary_expression "DAT_00026ec8 + 0x26a44" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" { (expression_statement "unaff_r5 = (uint)puVar9[3] >> 0x16;" (assignment_expression "unaff_r5 = (uint)puVar9[3] >> 0x16" identifier = (binary_expression "(uint)puVar9[3] >> 0x16" (cast_expression "(uint)puVar9[3]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "puVar9[3]" identifier [ number_literal ])) >> number_literal)) ;) })) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) (if_statement "if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n unaff_r5 = unaff_r5 & 1;\n }" { (expression_statement "unaff_r5 = unaff_r5 & 1;" (assignment_expression "unaff_r5 = unaff_r5 & 1" identifier = (binary_expression "unaff_r5 & 1" identifier & number_literal)) ;) })) (expression_statement "local_2c = *piVar18;" (assignment_expression "local_2c = *piVar18" identifier = (pointer_expression "*piVar18" * identifier)) ;) (if_statement "if (!bVar19) {\n unaff_r5 = 0;\n }" if (parenthesized_expression "(!bVar19)" ( (unary_expression "!bVar19" ! identifier) )) (compound_statement "{\n unaff_r5 = 0;\n }" { (expression_statement "unaff_r5 = 0;" (assignment_expression "unaff_r5 = 0" identifier = number_literal) ;) })) (if_statement "if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" if (parenthesized_expression "(0 < iVar7)" ( (binary_expression "0 < iVar7" number_literal < identifier) )) (compound_statement "{\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" { (expression_statement "local_15c = 0;" (assignment_expression "local_15c = 0" identifier = number_literal) ;) (do_statement "do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);" do (compound_statement "{\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n }" { (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" identifier = (pointer_expression "*piVar15" * identifier)) ;) (expression_statement "iVar11 = *(int *)(*param_3 + local_15c * 4);" (assignment_expression "iVar11 = *(int *)(*param_3 + local_15c * 4)" identifier = (pointer_expression "*(int *)(*param_3 + local_15c * 4)" * (cast_expression "(int *)(*param_3 + local_15c * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*param_3 + local_15c * 4)" ( (binary_expression "*param_3 + local_15c * 4" (pointer_expression "*param_3" * identifier) + (binary_expression "local_15c * 4" identifier * number_literal)) ))))) ;) (expression_statement "iVar4 = iVar11 * 8;" (assignment_expression "iVar4 = iVar11 * 8" identifier = (binary_expression "iVar11 * 8" identifier * number_literal)) ;) (expression_statement "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);" (assignment_expression "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" identifier = (pointer_expression "*(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" * (cast_expression "(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((undefined4 *)(iVar8 + iVar4) + 1)" ( (binary_expression "(undefined4 *)(iVar8 + iVar4) + 1" (cast_expression "(undefined4 *)(iVar8 + iVar4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) ))) + number_literal) ))))) ;) (if_statement "if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" if (parenthesized_expression "(bVar1 == 1)" ( (binary_expression "bVar1 == 1" identifier == number_literal) )) (compound_statement "{\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }" { (expression_statement "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);" (assignment_expression "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8)" identifier = (binary_expression "(uint)*(byte *)(iVar8 + iVar11 * 8)" (parenthesized_expression "(uint)" ( identifier )) * (cast_expression "(byte *)(iVar8 + iVar11 * 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar11 * 8)" ( (binary_expression "iVar8 + iVar11 * 8" identifier + (binary_expression "iVar11 * 8" identifier * number_literal)) ))))) ;) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" * (cast_expression "(undefined1 *)((int)param_4 + uVar16)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + uVar16)" ( (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" * (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" ( (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" if (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" ( (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" ( (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" ( (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" identifier [ number_literal ]) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < piVar15[0x17])" ( (binary_expression "1 < piVar15[0x17]" number_literal < (subscript_expression "piVar15[0x17]" identifier [ number_literal ])) ))) )) (compound_statement "{\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" { (expression_statement "uVar16 = iVar11 + 1;" (assignment_expression "uVar16 = iVar11 + 1" identifier = (binary_expression "iVar11 + 1" identifier + number_literal)) ;) (expression_statement "local_12c = *(byte *)(*piVar15 + iVar11 * 8);" (assignment_expression "local_12c = *(byte *)(*piVar15 + iVar11 * 8)" identifier = (pointer_expression "*(byte *)(*piVar15 + iVar11 * 8)" * (cast_expression "(byte *)(*piVar15 + iVar11 * 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + iVar11 * 8)" ( (binary_expression "*piVar15 + iVar11 * 8" (pointer_expression "*piVar15" * identifier) + (binary_expression "iVar11 * 8" identifier * number_literal)) ))))) ;) (if_statement "if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }" if (parenthesized_expression "((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4))" ( (binary_expression "(uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" (parenthesized_expression "(uVar16 < (uint)piVar15[2])" ( (binary_expression "uVar16 < (uint)piVar15[2]" identifier < (cast_expression "(uint)piVar15[2]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "piVar15[2]" identifier [ number_literal ]))) )) && (parenthesized_expression "(puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" ( (comma_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8)" identifier = (cast_expression "(undefined1 *)(*piVar15 + iVar4 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + iVar4 + 8)" ( (binary_expression "*piVar15 + iVar4 + 8" (binary_expression "*piVar15 + iVar4" (pointer_expression "*piVar15" * identifier) + identifier) + number_literal) )))) , (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" ( (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" * (cast_expression "(uint *)(puVar10 + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 4)" ( (binary_expression "puVar10 + 4" identifier + number_literal) )))) & number_literal) )) == identifier)) ))) )) (compound_statement "{\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }" { (expression_statement "puVar13 = auStack_12b;" (assignment_expression "puVar13 = auStack_12b" identifier = identifier) ;) (do_statement "do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);" do (compound_statement "{\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n }" { (expression_statement "puVar14 = puVar13 + 1;" (assignment_expression "puVar14 = puVar13 + 1" identifier = (binary_expression "puVar13 + 1" identifier + number_literal)) ;) (expression_statement "*puVar13 = *puVar10;" (assignment_expression "*puVar13 = *puVar10" (pointer_expression "*puVar13" * identifier) = (pointer_expression "*puVar10" * identifier)) ;) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (if_statement "if ((uint)piVar15[2] <= uVar16) break;" if (parenthesized_expression "((uint)piVar15[2] <= uVar16)" ( (binary_expression "(uint)piVar15[2] <= uVar16" (cast_expression "(uint)piVar15[2]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "piVar15[2]" identifier [ number_literal ])) <= identifier) )) (break_statement "break;" break ;)) (expression_statement "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8)" identifier = (cast_expression "(undefined1 *)(*piVar15 + uVar16 * 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + uVar16 * 8)" ( (binary_expression "*piVar15 + uVar16 * 8" (pointer_expression "*piVar15" * identifier) + (binary_expression "uVar16 * 8" identifier * number_literal)) )))) ;) (expression_statement "puVar13 = puVar14;" (assignment_expression "puVar13 = puVar14" identifier = identifier) ;) }) while (parenthesized_expression "((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" ( (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" ( (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" * (cast_expression "(uint *)(puVar10 + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 4)" ( (binary_expression "puVar10 + 4" identifier + number_literal) )))) & number_literal) )) == identifier) )) ;) (expression_statement "iVar7 = (int)puVar14 - (int)&local_12c;" (assignment_expression "iVar7 = (int)puVar14 - (int)&local_12c" identifier = (binary_expression "(int)puVar14 - (int)&local_12c" (cast_expression "(int)puVar14" ( (type_descriptor "int" primitive_type) ) identifier) - (cast_expression "(int)&local_12c" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&local_12c" & identifier)))) ;) }) (else_clause "else {\n iVar7 = 1;\n }" else (compound_statement "{\n iVar7 = 1;\n }" { (expression_statement "iVar7 = 1;" (assignment_expression "iVar7 = 1" identifier = number_literal) ;) }))) (expression_statement "local_158 = &local_12c;" (assignment_expression "local_158 = &local_12c" identifier = (pointer_expression "&local_12c" & identifier)) ;) (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);" (assignment_expression "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134)" identifier = (call_expression "FUN_000208cc(&local_138,local_158,iVar7,&local_134)" identifier (argument_list "(&local_138,local_158,iVar7,&local_134)" ( (pointer_expression "&local_138" & identifier) , identifier , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" if (parenthesized_expression "(iVar4 == iVar7)" ( (binary_expression "iVar4 == iVar7" identifier == identifier) )) (compound_statement "{\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" { (expression_statement "wVar5 = towlower(local_138);" (assignment_expression "wVar5 = towlower(local_138)" identifier = (call_expression "towlower(local_138)" identifier (argument_list "(local_138)" ( identifier )))) ;) (expression_statement "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134)" identifier = (call_expression "wcrtomb((char *)local_158,wVar5,&local_134)" identifier (argument_list "((char *)local_158,wVar5,&local_134)" ( (cast_expression "(char *)local_158" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier) , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" * (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (uint)local_12c)" ( (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) )))) = number_literal) ;) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;) })) })) })) (labeled_statement "LAB_00026b30:\n iVar7 = *param_2;" statement_identifier : (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;)) }) (else_clause "else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" else (compound_statement "{\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" { (if_statement "if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" if (parenthesized_expression "(bVar1 != 3)" ( (binary_expression "bVar1 != 3" identifier != number_literal) )) (compound_statement "{\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" { (if_statement "if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" if (parenthesized_expression "(bVar1 == 6)" ( (binary_expression "bVar1 == 6" identifier == number_literal) )) (compound_statement "{\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" { (expression_statement "piVar17 = *(int **)(iVar8 + iVar4);" (assignment_expression "piVar17 = *(int **)(iVar8 + iVar4)" identifier = (pointer_expression "*(int **)(iVar8 + iVar4)" * (cast_expression "(int **)(iVar8 + iVar4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) ))))) ;) (if_statement "if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" if (parenthesized_expression "((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))))" ( (binary_expression "(piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" (parenthesized_expression "(piVar15[0x17] < 2)" ( (binary_expression "piVar15[0x17] < 2" (subscript_expression "piVar15[0x17]" identifier [ number_literal ]) < number_literal) )) || (parenthesized_expression "(((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" ( (parenthesized_expression "((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))" ( (binary_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)" (parenthesized_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0))" ( (binary_expression "piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)" (binary_expression "piVar17[9] == 0" (subscript_expression "piVar17[9]" identifier [ number_literal ]) == number_literal) && (parenthesized_expression "((*(byte *)(piVar17 + 4) & 1) == 0)" ( (binary_expression "(*(byte *)(piVar17 + 4) & 1) == 0" (parenthesized_expression "(*(byte *)(piVar17 + 4) & 1)" ( (binary_expression "*(byte *)(piVar17 + 4) & 1" (pointer_expression "*(byte *)(piVar17 + 4)" * (cast_expression "(byte *)(piVar17 + 4)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar17 + 4)" ( (binary_expression "piVar17 + 4" identifier + number_literal) )))) & number_literal) )) == number_literal) ))) )) && (parenthesized_expression "(piVar17[8] == 0)" ( (binary_expression "piVar17[8] == 0" (subscript_expression "piVar17[8]" identifier [ number_literal ]) == number_literal) ))) )) ))) )) (compound_statement "{\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }" { (if_statement "if (piVar17[5] < 1) goto LAB_00026ab4;" if (parenthesized_expression "(piVar17[5] < 1)" ( (binary_expression "piVar17[5] < 1" (subscript_expression "piVar17[5]" identifier [ number_literal ]) < number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "iVar7 = 0;" (assignment_expression "iVar7 = 0" identifier = number_literal) ;) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);" do (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n }" { (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" identifier = (call_expression "wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" identifier (argument_list "((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" ( (cast_expression "(char *)&local_12c" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_12c" & identifier)) , (pointer_expression "*(wchar_t *)(*piVar17 + iVar7 * 4)" * (cast_expression "(wchar_t *)(*piVar17 + iVar7 * 4)" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar17 + iVar7 * 4)" ( (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" * identifier) + (binary_expression "iVar7 * 4" identifier * number_literal)) )))) , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" { (expression_statement "uVar16 = (uint)local_12c;" (assignment_expression "uVar16 = (uint)local_12c" identifier = (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) ;) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" * (cast_expression "(undefined1 *)((int)param_4 + uVar16)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + uVar16)" ( (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" * (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" ( (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) })) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" if (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" ( (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" ( (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" ( (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" identifier [ number_literal ]) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < piVar15[0x17])" ( (binary_expression "1 < piVar15[0x17]" number_literal < (subscript_expression "piVar15[0x17]" identifier [ number_literal ])) ))) )) (compound_statement "{\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" { (expression_statement "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));" (assignment_expression "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" identifier = (call_expression "towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" identifier (argument_list "(*(wint_t *)(*piVar17 + iVar7 * 4))" ( (pointer_expression "*(wint_t *)(*piVar17 + iVar7 * 4)" * (cast_expression "(wint_t *)(*piVar17 + iVar7 * 4)" ( (type_descriptor "wint_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar17 + iVar7 * 4)" ( (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" * identifier) + (binary_expression "iVar7 * 4" identifier * number_literal)) )))) )))) ;) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134)" identifier = (call_expression "wcrtomb((char *)&local_12c,wVar5,&local_134)" identifier (argument_list "((char *)&local_12c,wVar5,&local_134)" ( (cast_expression "(char *)&local_12c" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_12c" & identifier)) , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" * (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (uint)local_12c)" ( (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) )))) = number_literal) ;) })) })) (expression_statement "iVar7 = iVar7 + 1;" (assignment_expression "iVar7 = iVar7 + 1" identifier = (binary_expression "iVar7 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar7 < piVar17[5])" ( (binary_expression "iVar7 < piVar17[5]" identifier < (subscript_expression "piVar17[5]" identifier [ number_literal ])) )) ;) }) (else_clause "else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" else (compound_statement "{\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" { (expression_statement "local_138 = local_138 & 0xffffff00;" (assignment_expression "local_138 = local_138 & 0xffffff00" identifier = (binary_expression "local_138 & 0xffffff00" identifier & number_literal)) ;) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);" do (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n }" { (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "iVar7 = FUN_000208cc(0,&local_138,1,&local_134);" (assignment_expression "iVar7 = FUN_000208cc(0,&local_138,1,&local_134)" identifier = (call_expression "FUN_000208cc(0,&local_138,1,&local_134)" identifier (argument_list "(0,&local_138,1,&local_134)" ( number_literal , (pointer_expression "&local_138" & identifier) , number_literal , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" if (parenthesized_expression "(iVar7 == -2)" ( (binary_expression "iVar7 == -2" identifier == number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff))" * (cast_expression "(undefined1 *)((int)param_4 + (local_138 & 0xff))" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (local_138 & 0xff))" ( (binary_expression "(int)param_4 + (local_138 & 0xff)" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (parenthesized_expression "(local_138 & 0xff)" ( (binary_expression "local_138 & 0xff" identifier & number_literal) ))) )))) = number_literal) ;) })) (expression_statement "uVar16 = (local_138 & 0xff) + 1;" (assignment_expression "uVar16 = (local_138 & 0xff) + 1" identifier = (binary_expression "(local_138 & 0xff) + 1" (parenthesized_expression "(local_138 & 0xff)" ( (binary_expression "local_138 & 0xff" identifier & number_literal) )) + number_literal)) ;) (expression_statement "local_138 = CONCAT31(local_138._1_3_,(char)uVar16);" (assignment_expression "local_138 = CONCAT31(local_138._1_3_,(char)uVar16)" identifier = (call_expression "CONCAT31(local_138._1_3_,(char)uVar16)" identifier (argument_list "(local_138._1_3_,(char)uVar16)" ( (field_expression "local_138._1_3_" identifier . field_identifier) , (cast_expression "(char)uVar16" ( (type_descriptor "char" primitive_type) ) identifier) )))) ;) }) while (parenthesized_expression "((uVar16 & 0xff) != 0)" ( (binary_expression "(uVar16 & 0xff) != 0" (parenthesized_expression "(uVar16 & 0xff)" ( (binary_expression "uVar16 & 0xff" identifier & number_literal) )) != number_literal) )) ;) }))) (goto_statement "goto LAB_00026b30;" goto statement_identifier ;) })) (if_statement "if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" if (parenthesized_expression "((bVar1 & 0xfd) == 5)" ( (binary_expression "(bVar1 & 0xfd) == 5" (parenthesized_expression "(bVar1 & 0xfd)" ( (binary_expression "bVar1 & 0xfd" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }" { (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" identifier (argument_list "(param_4,1,0x100)" ( identifier , number_literal , number_literal ))) ;) (if_statement "if (bVar1 != 2) break;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (break_statement "break;" break ;)) }) (else_clause "else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" else (compound_statement "{\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" { (if_statement "if (bVar1 != 2) goto LAB_00026ab4;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" identifier (argument_list "(param_4,1,0x100)" ( identifier , number_literal , number_literal ))) ;) }))) (expression_statement "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;" (assignment_expression "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" * (cast_expression "(byte *)(param_1 + 7)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 7)" ( (binary_expression "param_1 + 7" identifier + number_literal) )))) = (binary_expression "*(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" * (cast_expression "(byte *)(param_1 + 7)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 7)" ( (binary_expression "param_1 + 7" identifier + number_literal) )))) | number_literal)) ;) (break_statement "break;" break ;) })) (expression_statement "iVar11 = 0;" (assignment_expression "iVar11 = 0" identifier = number_literal) ;) (expression_statement "iVar7 = 0x20;" (assignment_expression "iVar7 = 0x20" identifier = number_literal) ;) (expression_statement "local_158 = (byte *)0x0;" (assignment_expression "local_158 = (byte *)0x0" identifier = (cast_expression "(byte *)0x0" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (while_statement "while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" { (expression_statement "iVar12 = iVar7 + -0x20;" (assignment_expression "iVar12 = iVar7 + -0x20" identifier = (binary_expression "iVar7 + -0x20" identifier + number_literal)) ;) (expression_statement "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);" (assignment_expression "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" identifier = (pointer_expression "*(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" * (cast_expression "(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar8 + iVar4) + (int)local_158)" ( (binary_expression "*(int *)(iVar8 + iVar4) + (int)local_158" (pointer_expression "*(int *)(iVar8 + iVar4)" * (cast_expression "(int *)(iVar8 + iVar4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) )))) + (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier)) ))))) ;) (do_statement "do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);" do (compound_statement "{\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n }" { (if_statement "if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" if (parenthesized_expression "(((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0))" ( (binary_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" (parenthesized_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0)" ( (binary_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0" (parenthesized_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1)" ( (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU) & 1" (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU)" identifier >> (parenthesized_expression "(iVar11 + iVar12 & 0xffU)" ( (binary_expression "iVar11 + iVar12 & 0xffU" (binary_expression "iVar11 + iVar12" identifier + identifier) & number_literal) ))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" ( (comma_expression "*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0" (assignment_expression "*(undefined1 *)((int)param_4 + iVar12) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar12)" * (cast_expression "(undefined1 *)((int)param_4 + iVar12)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + iVar12)" ( (binary_expression "(int)param_4 + iVar12" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) , (binary_expression "unaff_r5 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" { (expression_statement "iVar8 = iVar12;" (assignment_expression "iVar8 = iVar12" identifier = identifier) ;) (if_statement "if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" if (parenthesized_expression "(iVar12 + 0x80U <= uVar2)" ( (binary_expression "iVar12 + 0x80U <= uVar2" (binary_expression "iVar12 + 0x80U" identifier + number_literal) <= identifier) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar8 = (*pp_Var3)[iVar12];" (assignment_expression "iVar8 = (*pp_Var3)[iVar12]" identifier = (subscript_expression "(*pp_Var3)[iVar12]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) ;) })) (expression_statement "*(undefined1 *)((int)param_4 + iVar8) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + iVar8) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar8)" * (cast_expression "(undefined1 *)((int)param_4 + iVar8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + iVar8)" ( (binary_expression "(int)param_4 + iVar8" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) })) (expression_statement "iVar12 = iVar12 + 1;" (assignment_expression "iVar12 = iVar12 + 1" identifier = (binary_expression "iVar12 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar7 != iVar12)" ( (binary_expression "iVar7 != iVar12" identifier != identifier) )) ;) (expression_statement "iVar7 = iVar7 + 0x20;" (assignment_expression "iVar7 = iVar7 + 0x20" identifier = (binary_expression "iVar7 + 0x20" identifier + number_literal)) ;) (expression_statement "local_158 = (byte *)((int)local_158 + 4);" (assignment_expression "local_158 = (byte *)((int)local_158 + 4)" identifier = (cast_expression "(byte *)((int)local_158 + 4)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)local_158 + 4)" ( (binary_expression "(int)local_158 + 4" (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) ;) (expression_statement "iVar11 = iVar11 + -0x20;" (assignment_expression "iVar11 = iVar11 + -0x20" identifier = (binary_expression "iVar11 + -0x20" identifier + number_literal)) ;) (if_statement "if (iVar7 == 0x120) break;" if (parenthesized_expression "(iVar7 == 0x120)" ( (binary_expression "iVar7 == 0x120" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" identifier = (pointer_expression "*piVar15" * identifier)) ;) })) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) }))) (labeled_statement "LAB_00026ab4:\n local_15c = local_15c + 1;" statement_identifier : (expression_statement "local_15c = local_15c + 1;" (assignment_expression "local_15c = local_15c + 1" identifier = (binary_expression "local_15c + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(local_15c < iVar7)" ( (binary_expression "local_15c < iVar7" identifier < identifier) )) ;) })) (if_statement "if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" if (parenthesized_expression "(local_2c != *piVar18)" ( (binary_expression "local_2c != *piVar18" identifier != (pointer_expression "*piVar18" * identifier)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" { comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })) (return_statement "return;" return ;) })))
|
(translation_unit "/* DWARF original prototype: void re_compile_fastmap_iter(regex_t * bufp, re_dfastate_t *\n init_state, char * fastmap, re_dfastate_t * init_state) */\n\nvoid re_compile_fastmap_iter\n (regex_t *bufp,re_dfastate_t *init_state,char *fastmap,re_dfastate_t *init_state_1)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n size_t sVar4;\n wchar_t wVar5;\n size_t sVar6;\n re_hashval_t rVar7;\n re_token_t *prVar8;\n uint uVar9;\n re_dfastate_t *prVar10;\n int iVar11;\n uint unaff_r5;\n int iVar12;\n int iVar13;\n int iVar14;\n uchar *puVar15;\n uchar *puVar16;\n size_t sVar17;\n int iVar18;\n re_dfa_t *prVar19;\n re_bitset_ptr_t pbVar20;\n int *piVar21;\n int iVar22;\n bool bVar23;\n int local_15c;\n char *local_158;\n uchar c;\n undefined3 uStack_137;\n mbstate_t state;\n char buf [256];\n \n uVar2 = DAT_00026ed0;\n prVar19 = bufp->buffer;\n bVar23 = prVar19->mb_cur_max == 1;\n prVar10 = init_state_1;\n if (bVar23) {\n prVar10 = (re_dfastate_t *)bufp;\n }\n piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar23) {\n unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;\n }\n rVar7 = init_state->hash;\n if (bVar23) {\n unaff_r5 = unaff_r5 & 1;\n }\n iVar22 = *piVar21;\n if (!bVar23) {\n unaff_r5 = 0;\n }\n if (0 < (int)rVar7) {\n local_15c = 0;\n do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);\n }\n if (iVar22 != *piVar21) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}\n\n" comment (function_definition "void re_compile_fastmap_iter\n (regex_t *bufp,re_dfastate_t *init_state,char *fastmap,re_dfastate_t *init_state_1)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n size_t sVar4;\n wchar_t wVar5;\n size_t sVar6;\n re_hashval_t rVar7;\n re_token_t *prVar8;\n uint uVar9;\n re_dfastate_t *prVar10;\n int iVar11;\n uint unaff_r5;\n int iVar12;\n int iVar13;\n int iVar14;\n uchar *puVar15;\n uchar *puVar16;\n size_t sVar17;\n int iVar18;\n re_dfa_t *prVar19;\n re_bitset_ptr_t pbVar20;\n int *piVar21;\n int iVar22;\n bool bVar23;\n int local_15c;\n char *local_158;\n uchar c;\n undefined3 uStack_137;\n mbstate_t state;\n char buf [256];\n \n uVar2 = DAT_00026ed0;\n prVar19 = bufp->buffer;\n bVar23 = prVar19->mb_cur_max == 1;\n prVar10 = init_state_1;\n if (bVar23) {\n prVar10 = (re_dfastate_t *)bufp;\n }\n piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar23) {\n unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;\n }\n rVar7 = init_state->hash;\n if (bVar23) {\n unaff_r5 = unaff_r5 & 1;\n }\n iVar22 = *piVar21;\n if (!bVar23) {\n unaff_r5 = 0;\n }\n if (0 < (int)rVar7) {\n local_15c = 0;\n do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);\n }\n if (iVar22 != *piVar21) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" primitive_type (function_declarator "re_compile_fastmap_iter\n (regex_t *bufp,re_dfastate_t *init_state,char *fastmap,re_dfastate_t *init_state_1)" identifier (parameter_list "(regex_t *bufp,re_dfastate_t *init_state,char *fastmap,re_dfastate_t *init_state_1)" ( (parameter_declaration "regex_t *bufp" type_identifier (pointer_declarator "*bufp" * identifier)) , (parameter_declaration "re_dfastate_t *init_state" type_identifier (pointer_declarator "*init_state" * identifier)) , (parameter_declaration "char *fastmap" primitive_type (pointer_declarator "*fastmap" * identifier)) , (parameter_declaration "re_dfastate_t *init_state_1" type_identifier (pointer_declarator "*init_state_1" * identifier)) ))) (compound_statement "{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n size_t sVar4;\n wchar_t wVar5;\n size_t sVar6;\n re_hashval_t rVar7;\n re_token_t *prVar8;\n uint uVar9;\n re_dfastate_t *prVar10;\n int iVar11;\n uint unaff_r5;\n int iVar12;\n int iVar13;\n int iVar14;\n uchar *puVar15;\n uchar *puVar16;\n size_t sVar17;\n int iVar18;\n re_dfa_t *prVar19;\n re_bitset_ptr_t pbVar20;\n int *piVar21;\n int iVar22;\n bool bVar23;\n int local_15c;\n char *local_158;\n uchar c;\n undefined3 uStack_137;\n mbstate_t state;\n char buf [256];\n \n uVar2 = DAT_00026ed0;\n prVar19 = bufp->buffer;\n bVar23 = prVar19->mb_cur_max == 1;\n prVar10 = init_state_1;\n if (bVar23) {\n prVar10 = (re_dfastate_t *)bufp;\n }\n piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar23) {\n unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;\n }\n rVar7 = init_state->hash;\n if (bVar23) {\n unaff_r5 = unaff_r5 & 1;\n }\n iVar22 = *piVar21;\n if (!bVar23) {\n unaff_r5 = 0;\n }\n if (0 < (int)rVar7) {\n local_15c = 0;\n do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);\n }\n if (iVar22 != *piVar21) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" { (declaration "byte bVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "__int32_t **pp_Var3;" type_identifier (pointer_declarator "**pp_Var3" * (pointer_declarator "*pp_Var3" * identifier)) ;) (declaration "size_t sVar4;" primitive_type identifier ;) (declaration "wchar_t wVar5;" type_identifier identifier ;) (declaration "size_t sVar6;" primitive_type identifier ;) (declaration "re_hashval_t rVar7;" type_identifier identifier ;) (declaration "re_token_t *prVar8;" type_identifier (pointer_declarator "*prVar8" * identifier) ;) (declaration "uint uVar9;" type_identifier identifier ;) (declaration "re_dfastate_t *prVar10;" type_identifier (pointer_declarator "*prVar10" * identifier) ;) (declaration "int iVar11;" primitive_type identifier ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "int iVar12;" primitive_type identifier ;) (declaration "int iVar13;" primitive_type identifier ;) (declaration "int iVar14;" primitive_type identifier ;) (declaration "uchar *puVar15;" type_identifier (pointer_declarator "*puVar15" * identifier) ;) (declaration "uchar *puVar16;" type_identifier (pointer_declarator "*puVar16" * identifier) ;) (declaration "size_t sVar17;" primitive_type identifier ;) (declaration "int iVar18;" primitive_type identifier ;) (declaration "re_dfa_t *prVar19;" type_identifier (pointer_declarator "*prVar19" * identifier) ;) (declaration "re_bitset_ptr_t pbVar20;" type_identifier identifier ;) (declaration "int *piVar21;" primitive_type (pointer_declarator "*piVar21" * identifier) ;) (declaration "int iVar22;" primitive_type identifier ;) (declaration "bool bVar23;" primitive_type identifier ;) (declaration "int local_15c;" primitive_type identifier ;) (declaration "char *local_158;" primitive_type (pointer_declarator "*local_158" * identifier) ;) (declaration "uchar c;" type_identifier identifier ;) (declaration "undefined3 uStack_137;" type_identifier identifier ;) (declaration "mbstate_t state;" type_identifier identifier ;) (declaration "char buf [256];" primitive_type (array_declarator "buf [256]" identifier [ number_literal ]) ;) (expression_statement "uVar2 = DAT_00026ed0;" (assignment_expression "uVar2 = DAT_00026ed0" identifier = identifier) ;) (expression_statement "prVar19 = bufp->buffer;" (assignment_expression "prVar19 = bufp->buffer" identifier = (field_expression "bufp->buffer" identifier -> field_identifier)) ;) (expression_statement "bVar23 = prVar19->mb_cur_max == 1;" (assignment_expression "bVar23 = prVar19->mb_cur_max == 1" identifier = (binary_expression "prVar19->mb_cur_max == 1" (field_expression "prVar19->mb_cur_max" identifier -> field_identifier) == number_literal)) ;) (expression_statement "prVar10 = init_state_1;" (assignment_expression "prVar10 = init_state_1" identifier = identifier) ;) (if_statement "if (bVar23) {\n prVar10 = (re_dfastate_t *)bufp;\n }" if (parenthesized_expression "(bVar23)" ( identifier )) (compound_statement "{\n prVar10 = (re_dfastate_t *)bufp;\n }" { (expression_statement "prVar10 = (re_dfastate_t *)bufp;" (assignment_expression "prVar10 = (re_dfastate_t *)bufp" identifier = (cast_expression "(re_dfastate_t *)bufp" ( (type_descriptor "re_dfastate_t *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) ;) })) (expression_statement "piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);" (assignment_expression "piVar21 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" identifier = (pointer_expression "*(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" * (cast_expression "(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (binary_expression "DAT_00026ec8 + 0x26a44 + DAT_00026ecc" (binary_expression "DAT_00026ec8 + 0x26a44" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (bVar23) {\n unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;\n }" if (parenthesized_expression "(bVar23)" ( identifier )) (compound_statement "{\n unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;\n }" { (expression_statement "unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16;" (assignment_expression "unaff_r5 = (uint)(prVar10->nodes).elems >> 0x16" identifier = (binary_expression "(uint)(prVar10->nodes).elems >> 0x16" (field_expression "(uint)(prVar10->nodes).elems" (call_expression "(uint)(prVar10->nodes)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(prVar10->nodes)" ( (field_expression "prVar10->nodes" identifier -> field_identifier) ))) . field_identifier) >> number_literal)) ;) })) (expression_statement "rVar7 = init_state->hash;" (assignment_expression "rVar7 = init_state->hash" identifier = (field_expression "init_state->hash" identifier -> field_identifier)) ;) (if_statement "if (bVar23) {\n unaff_r5 = unaff_r5 & 1;\n }" if (parenthesized_expression "(bVar23)" ( identifier )) (compound_statement "{\n unaff_r5 = unaff_r5 & 1;\n }" { (expression_statement "unaff_r5 = unaff_r5 & 1;" (assignment_expression "unaff_r5 = unaff_r5 & 1" identifier = (binary_expression "unaff_r5 & 1" identifier & number_literal)) ;) })) (expression_statement "iVar22 = *piVar21;" (assignment_expression "iVar22 = *piVar21" identifier = (pointer_expression "*piVar21" * identifier)) ;) (if_statement "if (!bVar23) {\n unaff_r5 = 0;\n }" if (parenthesized_expression "(!bVar23)" ( (unary_expression "!bVar23" ! identifier) )) (compound_statement "{\n unaff_r5 = 0;\n }" { (expression_statement "unaff_r5 = 0;" (assignment_expression "unaff_r5 = 0" identifier = number_literal) ;) })) (if_statement "if (0 < (int)rVar7) {\n local_15c = 0;\n do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);\n }" if (parenthesized_expression "(0 < (int)rVar7)" ( (binary_expression "0 < (int)rVar7" number_literal < (cast_expression "(int)rVar7" ( (type_descriptor "int" primitive_type) ) identifier)) )) (compound_statement "{\n local_15c = 0;\n do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);\n }" { (expression_statement "local_15c = 0;" (assignment_expression "local_15c = 0" identifier = number_literal) ;) (do_statement "do {\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < (int)rVar7);" do (compound_statement "{\n prVar8 = prVar19->nodes;\n iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);\n bVar1 = prVar8[iVar12].field_0x4;\n if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n }" { (expression_statement "prVar8 = prVar19->nodes;" (assignment_expression "prVar8 = prVar19->nodes" identifier = (field_expression "prVar19->nodes" identifier -> field_identifier)) ;) (expression_statement "iVar12 = *(int *)(*(int *)fastmap + local_15c * 4);" (assignment_expression "iVar12 = *(int *)(*(int *)fastmap + local_15c * 4)" identifier = (pointer_expression "*(int *)(*(int *)fastmap + local_15c * 4)" * (cast_expression "(int *)(*(int *)fastmap + local_15c * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)fastmap + local_15c * 4)" ( (binary_expression "*(int *)fastmap + local_15c * 4" (pointer_expression "*(int *)fastmap" * (cast_expression "(int *)fastmap" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier)) + (binary_expression "local_15c * 4" identifier * number_literal)) ))))) ;) (expression_statement "bVar1 = prVar8[iVar12].field_0x4;" (assignment_expression "bVar1 = prVar8[iVar12].field_0x4" identifier = (field_expression "prVar8[iVar12].field_0x4" (subscript_expression "prVar8[iVar12]" identifier [ identifier ]) . field_identifier)) ;) (if_statement "if (bVar1 == 1) {\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }" if (parenthesized_expression "(bVar1 == 1)" ( (binary_expression "bVar1 == 1" identifier == number_literal) )) (compound_statement "{\n bVar1 = prVar8[iVar12].opr.c;\n *(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n rVar7 = init_state->hash;\n }" { (expression_statement "bVar1 = prVar8[iVar12].opr.c;" (assignment_expression "bVar1 = prVar8[iVar12].opr.c" identifier = (field_expression "prVar8[iVar12].opr.c" (field_expression "prVar8[iVar12].opr" (subscript_expression "prVar8[iVar12]" identifier [ identifier ]) . field_identifier) . field_identifier)) ;) (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)bVar1) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)bVar1)" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (uint)bVar1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (uint)bVar1)" ( (binary_expression "(int)&init_state_1->hash + (uint)bVar1" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (cast_expression "(uint)bVar1" ( (type_descriptor "uint" type_identifier) ) identifier)) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1]) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1])" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[bVar1])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (*pp_Var3)[bVar1])" ( (binary_expression "(int)&init_state_1->hash + (*pp_Var3)[bVar1]" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (subscript_expression "(*pp_Var3)[bVar1]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) (if_statement "if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }" if (parenthesized_expression "(((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max))" ( (binary_expression "((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)" (parenthesized_expression "((bufp->syntax & 0x400000) != 0)" ( (binary_expression "(bufp->syntax & 0x400000) != 0" (parenthesized_expression "(bufp->syntax & 0x400000)" ( (binary_expression "bufp->syntax & 0x400000" (field_expression "bufp->syntax" identifier -> field_identifier) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < prVar19->mb_cur_max)" ( (binary_expression "1 < prVar19->mb_cur_max" number_literal < (field_expression "prVar19->mb_cur_max" identifier -> field_identifier)) ))) )) (compound_statement "{\n uVar9 = iVar12 + 1;\n buf[0] = prVar19->nodes[iVar12].opr.c;\n if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }\n local_158 = buf;\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);\n if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }\n }" { (expression_statement "uVar9 = iVar12 + 1;" (assignment_expression "uVar9 = iVar12 + 1" identifier = (binary_expression "iVar12 + 1" identifier + number_literal)) ;) (expression_statement "buf[0] = prVar19->nodes[iVar12].opr.c;" (assignment_expression "buf[0] = prVar19->nodes[iVar12].opr.c" (subscript_expression "buf[0]" identifier [ number_literal ]) = (field_expression "prVar19->nodes[iVar12].opr.c" (field_expression "prVar19->nodes[iVar12].opr" (subscript_expression "prVar19->nodes[iVar12]" (field_expression "prVar19->nodes" identifier -> field_identifier) [ identifier ]) . field_identifier) . field_identifier)) ;) (if_statement "if ((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)) {\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }\n else {\n sVar17 = 1;\n }" if (parenthesized_expression "((uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4))" ( (binary_expression "(uVar9 < prVar19->nodes_len) &&\n (prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)" (parenthesized_expression "(uVar9 < prVar19->nodes_len)" ( (binary_expression "uVar9 < prVar19->nodes_len" identifier < (field_expression "prVar19->nodes_len" identifier -> field_identifier)) )) && (parenthesized_expression "(prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)" ( (comma_expression "prVar8 = prVar19->nodes + iVar12 + 1,\n (*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4" (assignment_expression "prVar8 = prVar19->nodes + iVar12 + 1" identifier = (binary_expression "prVar19->nodes + iVar12 + 1" (binary_expression "prVar19->nodes + iVar12" (field_expression "prVar19->nodes" identifier -> field_identifier) + identifier) + number_literal)) , (binary_expression "(*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)&prVar8->field_0x4 & 0x2000ff)" ( (binary_expression "*(uint *)&prVar8->field_0x4 & 0x2000ff" (pointer_expression "*(uint *)&prVar8->field_0x4" * (cast_expression "(uint *)&prVar8->field_0x4" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&prVar8->field_0x4" & (field_expression "prVar8->field_0x4" identifier -> field_identifier)))) & number_literal) )) == identifier)) ))) )) (compound_statement "{\n puVar15 = (uchar *)(buf + 1);\n do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);\n sVar17 = (int)puVar16 - (int)buf;\n }" { (expression_statement "puVar15 = (uchar *)(buf + 1);" (assignment_expression "puVar15 = (uchar *)(buf + 1)" identifier = (cast_expression "(uchar *)(buf + 1)" ( (type_descriptor "uchar *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(buf + 1)" ( (binary_expression "buf + 1" identifier + number_literal) )))) ;) (do_statement "do {\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n } while ((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4);" do (compound_statement "{\n puVar16 = puVar15 + 1;\n *puVar15 = (prVar8->opr).c;\n uVar9 = uVar9 + 1;\n if (prVar19->nodes_len <= uVar9) break;\n prVar8 = prVar19->nodes + uVar9;\n puVar15 = puVar16;\n }" { (expression_statement "puVar16 = puVar15 + 1;" (assignment_expression "puVar16 = puVar15 + 1" identifier = (binary_expression "puVar15 + 1" identifier + number_literal)) ;) (expression_statement "*puVar15 = (prVar8->opr).c;" (assignment_expression "*puVar15 = (prVar8->opr).c" (pointer_expression "*puVar15" * identifier) = (field_expression "(prVar8->opr).c" (parenthesized_expression "(prVar8->opr)" ( (field_expression "prVar8->opr" identifier -> field_identifier) )) . field_identifier)) ;) (expression_statement "uVar9 = uVar9 + 1;" (assignment_expression "uVar9 = uVar9 + 1" identifier = (binary_expression "uVar9 + 1" identifier + number_literal)) ;) (if_statement "if (prVar19->nodes_len <= uVar9) break;" if (parenthesized_expression "(prVar19->nodes_len <= uVar9)" ( (binary_expression "prVar19->nodes_len <= uVar9" (field_expression "prVar19->nodes_len" identifier -> field_identifier) <= identifier) )) (break_statement "break;" break ;)) (expression_statement "prVar8 = prVar19->nodes + uVar9;" (assignment_expression "prVar8 = prVar19->nodes + uVar9" identifier = (binary_expression "prVar19->nodes + uVar9" (field_expression "prVar19->nodes" identifier -> field_identifier) + identifier)) ;) (expression_statement "puVar15 = puVar16;" (assignment_expression "puVar15 = puVar16" identifier = identifier) ;) }) while (parenthesized_expression "((*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4)" ( (binary_expression "(*(uint *)&prVar8->field_0x4 & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)&prVar8->field_0x4 & 0x2000ff)" ( (binary_expression "*(uint *)&prVar8->field_0x4 & 0x2000ff" (pointer_expression "*(uint *)&prVar8->field_0x4" * (cast_expression "(uint *)&prVar8->field_0x4" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&prVar8->field_0x4" & (field_expression "prVar8->field_0x4" identifier -> field_identifier)))) & number_literal) )) == identifier) )) ;) (expression_statement "sVar17 = (int)puVar16 - (int)buf;" (assignment_expression "sVar17 = (int)puVar16 - (int)buf" identifier = (binary_expression "(int)puVar16 - (int)buf" (cast_expression "(int)puVar16" ( (type_descriptor "int" primitive_type) ) identifier) - (cast_expression "(int)buf" ( (type_descriptor "int" primitive_type) ) identifier))) ;) }) (else_clause "else {\n sVar17 = 1;\n }" else (compound_statement "{\n sVar17 = 1;\n }" { (expression_statement "sVar17 = 1;" (assignment_expression "sVar17 = 1" identifier = number_literal) ;) }))) (expression_statement "local_158 = buf;" (assignment_expression "local_158 = buf" identifier = identifier) ;) (expression_statement "state.__count = 0;" (assignment_expression "state.__count = 0" (field_expression "state.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "state.__value.__wch = L'\0';" (assignment_expression "state.__value.__wch = L'\0'" (field_expression "state.__value.__wch" (field_expression "state.__value" identifier . field_identifier) . field_identifier) = (char_literal "L'\0'" L' escape_sequence ')) ;) (expression_statement "sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state);" (assignment_expression "sVar4 = rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state)" identifier = (call_expression "rpl_mbrtowc((wchar_t *)&c,local_158,sVar17,&state)" identifier (argument_list "((wchar_t *)&c,local_158,sVar17,&state)" ( (cast_expression "(wchar_t *)&c" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&c" & identifier)) , identifier , identifier , (pointer_expression "&state" & identifier) )))) ;) (if_statement "if (sVar4 == sVar17) {\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }" if (parenthesized_expression "(sVar4 == sVar17)" ( (binary_expression "sVar4 == sVar17" identifier == identifier) )) (compound_statement "{\n wVar5 = towlower(_c);\n sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }\n }" { (expression_statement "wVar5 = towlower(_c);" (assignment_expression "wVar5 = towlower(_c)" identifier = (call_expression "towlower(_c)" identifier (argument_list "(_c)" ( identifier )))) ;) (expression_statement "sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state);" (assignment_expression "sVar6 = wcrtomb(local_158,wVar5,(mbstate_t *)&state)" identifier = (call_expression "wcrtomb(local_158,wVar5,(mbstate_t *)&state)" identifier (argument_list "(local_158,wVar5,(mbstate_t *)&state)" ( identifier , identifier , (cast_expression "(mbstate_t *)&state" ( (type_descriptor "mbstate_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&state" & identifier)) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n rVar7 = init_state->hash;\n goto LAB_00026ab4;\n }" { (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0])" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (uint)(byte)buf[0])" ( (binary_expression "(int)&init_state_1->hash + (uint)(byte)buf[0]" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (cast_expression "(uint)(byte)buf[0]" ( (type_descriptor "uint" type_identifier) ) (cast_expression "(byte)buf[0]" ( (type_descriptor "byte" type_identifier) ) (subscript_expression "buf[0]" identifier [ number_literal ])))) )))) = number_literal) ;) (expression_statement "rVar7 = init_state->hash;" (assignment_expression "rVar7 = init_state->hash" identifier = (field_expression "init_state->hash" identifier -> field_identifier)) ;) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;) })) })) })) (labeled_statement "LAB_00026b30:\n rVar7 = init_state->hash;" statement_identifier : (expression_statement "rVar7 = init_state->hash;" (assignment_expression "rVar7 = init_state->hash" identifier = (field_expression "init_state->hash" identifier -> field_identifier)) ;)) }) (else_clause "else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }" else (compound_statement "{\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }\n iVar18 = 0;\n iVar14 = 0x20;\n local_158 = (char *)0x0;\n while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }\n rVar7 = init_state->hash;\n }" { (if_statement "if (bVar1 != 3) {\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }" if (parenthesized_expression "(bVar1 != 3)" ( (binary_expression "bVar1 != 3" identifier != number_literal) )) (compound_statement "{\n if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }\n bufp->field_0x1c = bufp->field_0x1c | 1;\n break;\n }" { (if_statement "if (bVar1 == 6) {\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" if (parenthesized_expression "(bVar1 == 6)" ( (binary_expression "bVar1 == 6" identifier == number_literal) )) (compound_statement "{\n pbVar20 = prVar8[iVar12].opr.sbcset;\n if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" { (expression_statement "pbVar20 = prVar8[iVar12].opr.sbcset;" (assignment_expression "pbVar20 = prVar8[iVar12].opr.sbcset" identifier = (field_expression "prVar8[iVar12].opr.sbcset" (field_expression "prVar8[iVar12].opr" (subscript_expression "prVar8[iVar12]" identifier [ identifier ]) . field_identifier) . field_identifier)) ;) (if_statement "if ((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }\n else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }" if (parenthesized_expression "((prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0))))" ( (binary_expression "(prVar19->mb_cur_max < 2) ||\n (((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))" (parenthesized_expression "(prVar19->mb_cur_max < 2)" ( (binary_expression "prVar19->mb_cur_max < 2" (field_expression "prVar19->mb_cur_max" identifier -> field_identifier) < number_literal) )) || (parenthesized_expression "(((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))" ( (parenthesized_expression "((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0))" ( (binary_expression "(pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)" (parenthesized_expression "(pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0))" ( (binary_expression "pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)" (binary_expression "pbVar20[9] == 0" (subscript_expression "pbVar20[9]" identifier [ number_literal ]) == number_literal) && (parenthesized_expression "((pbVar20[4] & 1) == 0)" ( (binary_expression "(pbVar20[4] & 1) == 0" (parenthesized_expression "(pbVar20[4] & 1)" ( (binary_expression "pbVar20[4] & 1" (subscript_expression "pbVar20[4]" identifier [ number_literal ]) & number_literal) )) == number_literal) ))) )) && (parenthesized_expression "(pbVar20[8] == 0)" ( (binary_expression "pbVar20[8] == 0" (subscript_expression "pbVar20[8]" identifier [ number_literal ]) == number_literal) ))) )) ))) )) (compound_statement "{\n if ((int)pbVar20[5] < 1) goto LAB_00026ab4;\n iVar12 = 0;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);\n }" { (if_statement "if ((int)pbVar20[5] < 1) goto LAB_00026ab4;" if (parenthesized_expression "((int)pbVar20[5] < 1)" ( (binary_expression "(int)pbVar20[5] < 1" (cast_expression "(int)pbVar20[5]" ( (type_descriptor "int" primitive_type) ) (subscript_expression "pbVar20[5]" identifier [ number_literal ])) < number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "iVar12 = 0;" (assignment_expression "iVar12 = 0" identifier = number_literal) ;) (do_statement "do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n } while (iVar12 < (int)pbVar20[5]);" do (compound_statement "{\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }\n if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }\n iVar12 = iVar12 + 1;\n }" { (expression_statement "state.__count = 0;" (assignment_expression "state.__count = 0" (field_expression "state.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "state.__value.__wch = L'\0';" (assignment_expression "state.__value.__wch = L'\0'" (field_expression "state.__value.__wch" (field_expression "state.__value" identifier . field_identifier) . field_identifier) = (char_literal "L'\0'" L' escape_sequence ')) ;) (expression_statement "sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state);" (assignment_expression "sVar6 = wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state)" identifier = (call_expression "wcrtomb(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state)" identifier (argument_list "(buf,*(wchar_t *)(*pbVar20 + iVar12 * 4),(mbstate_t *)&state)" ( identifier , (pointer_expression "*(wchar_t *)(*pbVar20 + iVar12 * 4)" * (cast_expression "(wchar_t *)(*pbVar20 + iVar12 * 4)" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*pbVar20 + iVar12 * 4)" ( (binary_expression "*pbVar20 + iVar12 * 4" (pointer_expression "*pbVar20" * identifier) + (binary_expression "iVar12 * 4" identifier * number_literal)) )))) , (cast_expression "(mbstate_t *)&state" ( (type_descriptor "mbstate_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&state" & identifier)) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n uVar9 = (uint)(byte)buf[0];\n *(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }\n }" { (expression_statement "uVar9 = (uint)(byte)buf[0];" (assignment_expression "uVar9 = (uint)(byte)buf[0]" identifier = (cast_expression "(uint)(byte)buf[0]" ( (type_descriptor "uint" type_identifier) ) (cast_expression "(byte)buf[0]" ( (type_descriptor "byte" type_identifier) ) (subscript_expression "buf[0]" identifier [ number_literal ])))) ;) (expression_statement "*(undefined1 *)((int)&init_state_1->hash + uVar9) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + uVar9) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + uVar9)" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + uVar9)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + uVar9)" ( (binary_expression "(int)&init_state_1->hash + uVar9" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + identifier) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9]) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9])" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (*pp_Var3)[uVar9])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (*pp_Var3)[uVar9])" ( (binary_expression "(int)&init_state_1->hash + (*pp_Var3)[uVar9]" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (subscript_expression "(*pp_Var3)[uVar9]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) })) (if_statement "if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }" if (parenthesized_expression "(((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max))" ( (binary_expression "((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)" (parenthesized_expression "((bufp->syntax & 0x400000) != 0)" ( (binary_expression "(bufp->syntax & 0x400000) != 0" (parenthesized_expression "(bufp->syntax & 0x400000)" ( (binary_expression "bufp->syntax & 0x400000" (field_expression "bufp->syntax" identifier -> field_identifier) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < prVar19->mb_cur_max)" ( (binary_expression "1 < prVar19->mb_cur_max" number_literal < (field_expression "prVar19->mb_cur_max" identifier -> field_identifier)) ))) )) (compound_statement "{\n wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));\n sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }\n }" { (expression_statement "wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4));" (assignment_expression "wVar5 = towlower(*(wint_t *)(*pbVar20 + iVar12 * 4))" identifier = (call_expression "towlower(*(wint_t *)(*pbVar20 + iVar12 * 4))" identifier (argument_list "(*(wint_t *)(*pbVar20 + iVar12 * 4))" ( (pointer_expression "*(wint_t *)(*pbVar20 + iVar12 * 4)" * (cast_expression "(wint_t *)(*pbVar20 + iVar12 * 4)" ( (type_descriptor "wint_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*pbVar20 + iVar12 * 4)" ( (binary_expression "*pbVar20 + iVar12 * 4" (pointer_expression "*pbVar20" * identifier) + (binary_expression "iVar12 * 4" identifier * number_literal)) )))) )))) ;) (expression_statement "sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state);" (assignment_expression "sVar6 = wcrtomb(buf,wVar5,(mbstate_t *)&state)" identifier = (call_expression "wcrtomb(buf,wVar5,(mbstate_t *)&state)" identifier (argument_list "(buf,wVar5,(mbstate_t *)&state)" ( identifier , identifier , (cast_expression "(mbstate_t *)&state" ( (type_descriptor "mbstate_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&state" & identifier)) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;\n }" { (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0]) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0])" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (uint)(byte)buf[0])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (uint)(byte)buf[0])" ( (binary_expression "(int)&init_state_1->hash + (uint)(byte)buf[0]" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (cast_expression "(uint)(byte)buf[0]" ( (type_descriptor "uint" type_identifier) ) (cast_expression "(byte)buf[0]" ( (type_descriptor "byte" type_identifier) ) (subscript_expression "buf[0]" identifier [ number_literal ])))) )))) = number_literal) ;) })) })) (expression_statement "iVar12 = iVar12 + 1;" (assignment_expression "iVar12 = iVar12 + 1" identifier = (binary_expression "iVar12 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar12 < (int)pbVar20[5])" ( (binary_expression "iVar12 < (int)pbVar20[5]" identifier < (cast_expression "(int)pbVar20[5]" ( (type_descriptor "int" primitive_type) ) (subscript_expression "pbVar20[5]" identifier [ number_literal ]))) )) ;) }) (else_clause "else {\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }" else (compound_statement "{\n _c = _c & 0xffffff00;\n do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);\n }" { (expression_statement "_c = _c & 0xffffff00;" (assignment_expression "_c = _c & 0xffffff00" identifier = (binary_expression "_c & 0xffffff00" identifier & number_literal)) ;) (do_statement "do {\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n } while ((uVar9 & 0xff) != 0);" do (compound_statement "{\n state.__count = 0;\n state.__value.__wch = L'\0';\n sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);\n if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }\n uVar9 = (_c & 0xffU) + 1;\n _c = CONCAT31(uStack_137,(char)uVar9);\n }" { (expression_statement "state.__count = 0;" (assignment_expression "state.__count = 0" (field_expression "state.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "state.__value.__wch = L'\0';" (assignment_expression "state.__value.__wch = L'\0'" (field_expression "state.__value.__wch" (field_expression "state.__value" identifier . field_identifier) . field_identifier) = (char_literal "L'\0'" L' escape_sequence ')) ;) (expression_statement "sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state);" (assignment_expression "sVar17 = rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state)" identifier = (call_expression "rpl_mbrtowc((wchar_t *)0x0,(char *)&c,1,&state)" identifier (argument_list "((wchar_t *)0x0,(char *)&c,1,&state)" ( (cast_expression "(wchar_t *)0x0" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal) , (cast_expression "(char *)&c" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "&c" & identifier)) , number_literal , (pointer_expression "&state" & identifier) )))) ;) (if_statement "if (sVar17 == 0xfffffffe) {\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }" if (parenthesized_expression "(sVar17 == 0xfffffffe)" ( (binary_expression "sVar17 == 0xfffffffe" identifier == number_literal) )) (compound_statement "{\n *(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;\n }" { (expression_statement "*(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU)) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU))" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + (_c & 0xffU))" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + (_c & 0xffU))" ( (binary_expression "(int)&init_state_1->hash + (_c & 0xffU)" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + (parenthesized_expression "(_c & 0xffU)" ( (binary_expression "_c & 0xffU" identifier & number_literal) ))) )))) = number_literal) ;) })) (expression_statement "uVar9 = (_c & 0xffU) + 1;" (assignment_expression "uVar9 = (_c & 0xffU) + 1" identifier = (binary_expression "(_c & 0xffU) + 1" (parenthesized_expression "(_c & 0xffU)" ( (binary_expression "_c & 0xffU" identifier & number_literal) )) + number_literal)) ;) (expression_statement "_c = CONCAT31(uStack_137,(char)uVar9);" (assignment_expression "_c = CONCAT31(uStack_137,(char)uVar9)" identifier = (call_expression "CONCAT31(uStack_137,(char)uVar9)" identifier (argument_list "(uStack_137,(char)uVar9)" ( identifier , (cast_expression "(char)uVar9" ( (type_descriptor "char" primitive_type) ) identifier) )))) ;) }) while (parenthesized_expression "((uVar9 & 0xff) != 0)" ( (binary_expression "(uVar9 & 0xff) != 0" (parenthesized_expression "(uVar9 & 0xff)" ( (binary_expression "uVar9 & 0xff" identifier & number_literal) )) != number_literal) )) ;) }))) (goto_statement "goto LAB_00026b30;" goto statement_identifier ;) })) (if_statement "if ((bVar1 & 0xfd) == 5) {\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }" if (parenthesized_expression "((bVar1 & 0xfd) == 5)" ( (binary_expression "(bVar1 & 0xfd) == 5" (parenthesized_expression "(bVar1 & 0xfd)" ( (binary_expression "bVar1 & 0xfd" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n memset(init_state_1,1,0x100);\n if (bVar1 != 2) break;\n }" { (expression_statement "memset(init_state_1,1,0x100);" (call_expression "memset(init_state_1,1,0x100)" identifier (argument_list "(init_state_1,1,0x100)" ( identifier , number_literal , number_literal ))) ;) (if_statement "if (bVar1 != 2) break;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (break_statement "break;" break ;)) }) (else_clause "else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }" else (compound_statement "{\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(init_state_1,1,0x100);\n }" { (if_statement "if (bVar1 != 2) goto LAB_00026ab4;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "memset(init_state_1,1,0x100);" (call_expression "memset(init_state_1,1,0x100)" identifier (argument_list "(init_state_1,1,0x100)" ( identifier , number_literal , number_literal ))) ;) }))) (expression_statement "bufp->field_0x1c = bufp->field_0x1c | 1;" (assignment_expression "bufp->field_0x1c = bufp->field_0x1c | 1" (field_expression "bufp->field_0x1c" identifier -> field_identifier) = (binary_expression "bufp->field_0x1c | 1" (field_expression "bufp->field_0x1c" identifier -> field_identifier) | number_literal)) ;) (break_statement "break;" break ;) })) (expression_statement "iVar18 = 0;" (assignment_expression "iVar18 = 0" identifier = number_literal) ;) (expression_statement "iVar14 = 0x20;" (assignment_expression "iVar14 = 0x20" identifier = number_literal) ;) (expression_statement "local_158 = (char *)0x0;" (assignment_expression "local_158 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (while_statement "while( true ) {\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n iVar13 = iVar14 + -0x20;\n uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);\n do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);\n iVar14 = iVar14 + 0x20;\n local_158 = (char *)((int)local_158 + 4);\n iVar18 = iVar18 + -0x20;\n if (iVar14 == 0x120) break;\n prVar8 = prVar19->nodes;\n }" { (expression_statement "iVar13 = iVar14 + -0x20;" (assignment_expression "iVar13 = iVar14 + -0x20" identifier = (binary_expression "iVar14 + -0x20" identifier + number_literal)) ;) (expression_statement "uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158);" (assignment_expression "uVar9 = *(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158)" identifier = (pointer_expression "*(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158)" * (cast_expression "(uint *)((int)prVar8[iVar12].opr.sbcset + (int)local_158)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)prVar8[iVar12].opr.sbcset + (int)local_158)" ( (binary_expression "(int)prVar8[iVar12].opr.sbcset + (int)local_158" (cast_expression "(int)prVar8[iVar12].opr.sbcset" ( (type_descriptor "int" primitive_type) ) (field_expression "prVar8[iVar12].opr.sbcset" (field_expression "prVar8[iVar12].opr" (subscript_expression "prVar8[iVar12]" identifier [ identifier ]) . field_identifier) . field_identifier)) + (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier)) ))))) ;) (do_statement "do {\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n } while (iVar14 != iVar13);" do (compound_statement "{\n if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }\n iVar13 = iVar13 + 1;\n }" { (if_statement "if (((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)) {\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }" if (parenthesized_expression "(((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0))" ( (binary_expression "((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)" (parenthesized_expression "((uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0)" ( (binary_expression "(uVar9 >> (iVar18 + iVar13 & 0xffU) & 1) != 0" (parenthesized_expression "(uVar9 >> (iVar18 + iVar13 & 0xffU) & 1)" ( (binary_expression "uVar9 >> (iVar18 + iVar13 & 0xffU) & 1" (binary_expression "uVar9 >> (iVar18 + iVar13 & 0xffU)" identifier >> (parenthesized_expression "(iVar18 + iVar13 & 0xffU)" ( (binary_expression "iVar18 + iVar13 & 0xffU" (binary_expression "iVar18 + iVar13" identifier + identifier) & number_literal) ))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0)" ( (comma_expression "*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1, unaff_r5 != 0" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + iVar13) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + iVar13)" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + iVar13)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + iVar13)" ( (binary_expression "(int)&init_state_1->hash + iVar13" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + identifier) )))) = number_literal) , (binary_expression "unaff_r5 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n iVar11 = iVar13;\n if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }\n *(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;\n }" { (expression_statement "iVar11 = iVar13;" (assignment_expression "iVar11 = iVar13" identifier = identifier) ;) (if_statement "if (iVar13 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }" if (parenthesized_expression "(iVar13 + 0x80U <= uVar2)" ( (binary_expression "iVar13 + 0x80U <= uVar2" (binary_expression "iVar13 + 0x80U" identifier + number_literal) <= identifier) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n iVar11 = (*pp_Var3)[iVar13];\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar11 = (*pp_Var3)[iVar13];" (assignment_expression "iVar11 = (*pp_Var3)[iVar13]" identifier = (subscript_expression "(*pp_Var3)[iVar13]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) ;) })) (expression_statement "*(undefined1 *)((int)&init_state_1->hash + iVar11) = 1;" (assignment_expression "*(undefined1 *)((int)&init_state_1->hash + iVar11) = 1" (pointer_expression "*(undefined1 *)((int)&init_state_1->hash + iVar11)" * (cast_expression "(undefined1 *)((int)&init_state_1->hash + iVar11)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&init_state_1->hash + iVar11)" ( (binary_expression "(int)&init_state_1->hash + iVar11" (cast_expression "(int)&init_state_1->hash" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&init_state_1->hash" & (field_expression "init_state_1->hash" identifier -> field_identifier))) + identifier) )))) = number_literal) ;) })) (expression_statement "iVar13 = iVar13 + 1;" (assignment_expression "iVar13 = iVar13 + 1" identifier = (binary_expression "iVar13 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar14 != iVar13)" ( (binary_expression "iVar14 != iVar13" identifier != identifier) )) ;) (expression_statement "iVar14 = iVar14 + 0x20;" (assignment_expression "iVar14 = iVar14 + 0x20" identifier = (binary_expression "iVar14 + 0x20" identifier + number_literal)) ;) (expression_statement "local_158 = (char *)((int)local_158 + 4);" (assignment_expression "local_158 = (char *)((int)local_158 + 4)" identifier = (cast_expression "(char *)((int)local_158 + 4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)local_158 + 4)" ( (binary_expression "(int)local_158 + 4" (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) ;) (expression_statement "iVar18 = iVar18 + -0x20;" (assignment_expression "iVar18 = iVar18 + -0x20" identifier = (binary_expression "iVar18 + -0x20" identifier + number_literal)) ;) (if_statement "if (iVar14 == 0x120) break;" if (parenthesized_expression "(iVar14 == 0x120)" ( (binary_expression "iVar14 == 0x120" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "prVar8 = prVar19->nodes;" (assignment_expression "prVar8 = prVar19->nodes" identifier = (field_expression "prVar19->nodes" identifier -> field_identifier)) ;) })) (expression_statement "rVar7 = init_state->hash;" (assignment_expression "rVar7 = init_state->hash" identifier = (field_expression "init_state->hash" identifier -> field_identifier)) ;) }))) (labeled_statement "LAB_00026ab4:\n local_15c = local_15c + 1;" statement_identifier : (expression_statement "local_15c = local_15c + 1;" (assignment_expression "local_15c = local_15c + 1" identifier = (binary_expression "local_15c + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(local_15c < (int)rVar7)" ( (binary_expression "local_15c < (int)rVar7" identifier < (cast_expression "(int)rVar7" ( (type_descriptor "int" primitive_type) ) identifier)) )) ;) })) (if_statement "if (iVar22 != *piVar21) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" if (parenthesized_expression "(iVar22 != *piVar21)" ( (binary_expression "iVar22 != *piVar21" identifier != (pointer_expression "*piVar21" * identifier)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" { comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}\n\n" (function_definition "void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" primitive_type (function_declarator "FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" identifier (parameter_list "(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "int *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "int *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "undefined4 *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) ))) (compound_statement "{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" { (declaration "byte bVar1;" type_identifier identifier ;) (declaration "uint uVar2;" type_identifier identifier ;) (declaration "__int32_t **pp_Var3;" type_identifier (pointer_declarator "**pp_Var3" * (pointer_declarator "*pp_Var3" * identifier)) ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "wchar_t wVar5;" type_identifier identifier ;) (declaration "size_t sVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "int iVar8;" primitive_type identifier ;) (declaration "undefined4 *puVar9;" type_identifier (pointer_declarator "*puVar9" * identifier) ;) (declaration "undefined1 *puVar10;" type_identifier (pointer_declarator "*puVar10" * identifier) ;) (declaration "uint unaff_r5;" type_identifier identifier ;) (declaration "int iVar11;" primitive_type identifier ;) (declaration "int iVar12;" primitive_type identifier ;) (declaration "undefined1 *puVar13;" type_identifier (pointer_declarator "*puVar13" * identifier) ;) (declaration "undefined1 *puVar14;" type_identifier (pointer_declarator "*puVar14" * identifier) ;) (declaration "int *piVar15;" primitive_type (pointer_declarator "*piVar15" * identifier) ;) (declaration "uint uVar16;" type_identifier identifier ;) (declaration "int *piVar17;" primitive_type (pointer_declarator "*piVar17" * identifier) ;) (declaration "int *piVar18;" primitive_type (pointer_declarator "*piVar18" * identifier) ;) (declaration "bool bVar19;" primitive_type identifier ;) (declaration "int local_15c;" primitive_type identifier ;) (declaration "byte *local_158;" type_identifier (pointer_declarator "*local_158" * identifier) ;) (declaration "uint local_138;" type_identifier identifier ;) (declaration "mbstate_t local_134;" type_identifier identifier ;) (declaration "byte local_12c;" type_identifier identifier ;) (declaration "undefined1 auStack_12b [255];" type_identifier (array_declarator "auStack_12b [255]" identifier [ number_literal ]) ;) (declaration "int local_2c;" primitive_type identifier ;) (expression_statement "uVar2 = DAT_00026ed0;" (assignment_expression "uVar2 = DAT_00026ed0" identifier = identifier) ;) (expression_statement "piVar15 = (int *)*param_1;" (assignment_expression "piVar15 = (int *)*param_1" identifier = (cast_expression "(int *)*param_1" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*param_1" * identifier))) ;) (expression_statement "bVar19 = piVar15[0x17] == 1;" (assignment_expression "bVar19 = piVar15[0x17] == 1" identifier = (binary_expression "piVar15[0x17] == 1" (subscript_expression "piVar15[0x17]" identifier [ number_literal ]) == number_literal)) ;) (expression_statement "puVar9 = param_4;" (assignment_expression "puVar9 = param_4" identifier = identifier) ;) (if_statement "if (bVar19) {\n puVar9 = param_1;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n puVar9 = param_1;\n }" { (expression_statement "puVar9 = param_1;" (assignment_expression "puVar9 = param_1" identifier = identifier) ;) })) (expression_statement "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);" (assignment_expression "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" identifier = (pointer_expression "*(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" * (cast_expression "(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" ( (binary_expression "DAT_00026ec8 + 0x26a44 + DAT_00026ecc" (binary_expression "DAT_00026ec8 + 0x26a44" identifier + number_literal) + identifier) ))))) ;) (if_statement "if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" { (expression_statement "unaff_r5 = (uint)puVar9[3] >> 0x16;" (assignment_expression "unaff_r5 = (uint)puVar9[3] >> 0x16" identifier = (binary_expression "(uint)puVar9[3] >> 0x16" (cast_expression "(uint)puVar9[3]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "puVar9[3]" identifier [ number_literal ])) >> number_literal)) ;) })) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) (if_statement "if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }" if (parenthesized_expression "(bVar19)" ( identifier )) (compound_statement "{\n unaff_r5 = unaff_r5 & 1;\n }" { (expression_statement "unaff_r5 = unaff_r5 & 1;" (assignment_expression "unaff_r5 = unaff_r5 & 1" identifier = (binary_expression "unaff_r5 & 1" identifier & number_literal)) ;) })) (expression_statement "local_2c = *piVar18;" (assignment_expression "local_2c = *piVar18" identifier = (pointer_expression "*piVar18" * identifier)) ;) (if_statement "if (!bVar19) {\n unaff_r5 = 0;\n }" if (parenthesized_expression "(!bVar19)" ( (unary_expression "!bVar19" ! identifier) )) (compound_statement "{\n unaff_r5 = 0;\n }" { (expression_statement "unaff_r5 = 0;" (assignment_expression "unaff_r5 = 0" identifier = number_literal) ;) })) (if_statement "if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" if (parenthesized_expression "(0 < iVar7)" ( (binary_expression "0 < iVar7" number_literal < identifier) )) (compound_statement "{\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" { (expression_statement "local_15c = 0;" (assignment_expression "local_15c = 0" identifier = number_literal) ;) (do_statement "do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);" do (compound_statement "{\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n }" { (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" identifier = (pointer_expression "*piVar15" * identifier)) ;) (expression_statement "iVar11 = *(int *)(*param_3 + local_15c * 4);" (assignment_expression "iVar11 = *(int *)(*param_3 + local_15c * 4)" identifier = (pointer_expression "*(int *)(*param_3 + local_15c * 4)" * (cast_expression "(int *)(*param_3 + local_15c * 4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*param_3 + local_15c * 4)" ( (binary_expression "*param_3 + local_15c * 4" (pointer_expression "*param_3" * identifier) + (binary_expression "local_15c * 4" identifier * number_literal)) ))))) ;) (expression_statement "iVar4 = iVar11 * 8;" (assignment_expression "iVar4 = iVar11 * 8" identifier = (binary_expression "iVar11 * 8" identifier * number_literal)) ;) (expression_statement "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);" (assignment_expression "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" identifier = (pointer_expression "*(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" * (cast_expression "(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((undefined4 *)(iVar8 + iVar4) + 1)" ( (binary_expression "(undefined4 *)(iVar8 + iVar4) + 1" (cast_expression "(undefined4 *)(iVar8 + iVar4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) ))) + number_literal) ))))) ;) (if_statement "if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" if (parenthesized_expression "(bVar1 == 1)" ( (binary_expression "bVar1 == 1" identifier == number_literal) )) (compound_statement "{\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }" { (expression_statement "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);" (assignment_expression "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8)" identifier = (binary_expression "(uint)*(byte *)(iVar8 + iVar11 * 8)" (parenthesized_expression "(uint)" ( identifier )) * (cast_expression "(byte *)(iVar8 + iVar11 * 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar11 * 8)" ( (binary_expression "iVar8 + iVar11 * 8" identifier + (binary_expression "iVar11 * 8" identifier * number_literal)) ))))) ;) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" * (cast_expression "(undefined1 *)((int)param_4 + uVar16)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + uVar16)" ( (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" * (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" ( (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" if (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" ( (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" ( (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" ( (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" identifier [ number_literal ]) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < piVar15[0x17])" ( (binary_expression "1 < piVar15[0x17]" number_literal < (subscript_expression "piVar15[0x17]" identifier [ number_literal ])) ))) )) (compound_statement "{\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" { (expression_statement "uVar16 = iVar11 + 1;" (assignment_expression "uVar16 = iVar11 + 1" identifier = (binary_expression "iVar11 + 1" identifier + number_literal)) ;) (expression_statement "local_12c = *(byte *)(*piVar15 + iVar11 * 8);" (assignment_expression "local_12c = *(byte *)(*piVar15 + iVar11 * 8)" identifier = (pointer_expression "*(byte *)(*piVar15 + iVar11 * 8)" * (cast_expression "(byte *)(*piVar15 + iVar11 * 8)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + iVar11 * 8)" ( (binary_expression "*piVar15 + iVar11 * 8" (pointer_expression "*piVar15" * identifier) + (binary_expression "iVar11 * 8" identifier * number_literal)) ))))) ;) (if_statement "if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }" if (parenthesized_expression "((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4))" ( (binary_expression "(uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" (parenthesized_expression "(uVar16 < (uint)piVar15[2])" ( (binary_expression "uVar16 < (uint)piVar15[2]" identifier < (cast_expression "(uint)piVar15[2]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "piVar15[2]" identifier [ number_literal ]))) )) && (parenthesized_expression "(puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" ( (comma_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8)" identifier = (cast_expression "(undefined1 *)(*piVar15 + iVar4 + 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + iVar4 + 8)" ( (binary_expression "*piVar15 + iVar4 + 8" (binary_expression "*piVar15 + iVar4" (pointer_expression "*piVar15" * identifier) + identifier) + number_literal) )))) , (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" ( (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" * (cast_expression "(uint *)(puVar10 + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 4)" ( (binary_expression "puVar10 + 4" identifier + number_literal) )))) & number_literal) )) == identifier)) ))) )) (compound_statement "{\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }" { (expression_statement "puVar13 = auStack_12b;" (assignment_expression "puVar13 = auStack_12b" identifier = identifier) ;) (do_statement "do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);" do (compound_statement "{\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n }" { (expression_statement "puVar14 = puVar13 + 1;" (assignment_expression "puVar14 = puVar13 + 1" identifier = (binary_expression "puVar13 + 1" identifier + number_literal)) ;) (expression_statement "*puVar13 = *puVar10;" (assignment_expression "*puVar13 = *puVar10" (pointer_expression "*puVar13" * identifier) = (pointer_expression "*puVar10" * identifier)) ;) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" identifier = (binary_expression "uVar16 + 1" identifier + number_literal)) ;) (if_statement "if ((uint)piVar15[2] <= uVar16) break;" if (parenthesized_expression "((uint)piVar15[2] <= uVar16)" ( (binary_expression "(uint)piVar15[2] <= uVar16" (cast_expression "(uint)piVar15[2]" ( (type_descriptor "uint" type_identifier) ) (subscript_expression "piVar15[2]" identifier [ number_literal ])) <= identifier) )) (break_statement "break;" break ;)) (expression_statement "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8)" identifier = (cast_expression "(undefined1 *)(*piVar15 + uVar16 * 8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar15 + uVar16 * 8)" ( (binary_expression "*piVar15 + uVar16 * 8" (pointer_expression "*piVar15" * identifier) + (binary_expression "uVar16 * 8" identifier * number_literal)) )))) ;) (expression_statement "puVar13 = puVar14;" (assignment_expression "puVar13 = puVar14" identifier = identifier) ;) }) while (parenthesized_expression "((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" ( (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" ( (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" * (cast_expression "(uint *)(puVar10 + 4)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar10 + 4)" ( (binary_expression "puVar10 + 4" identifier + number_literal) )))) & number_literal) )) == identifier) )) ;) (expression_statement "iVar7 = (int)puVar14 - (int)&local_12c;" (assignment_expression "iVar7 = (int)puVar14 - (int)&local_12c" identifier = (binary_expression "(int)puVar14 - (int)&local_12c" (cast_expression "(int)puVar14" ( (type_descriptor "int" primitive_type) ) identifier) - (cast_expression "(int)&local_12c" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&local_12c" & identifier)))) ;) }) (else_clause "else {\n iVar7 = 1;\n }" else (compound_statement "{\n iVar7 = 1;\n }" { (expression_statement "iVar7 = 1;" (assignment_expression "iVar7 = 1" identifier = number_literal) ;) }))) (expression_statement "local_158 = &local_12c;" (assignment_expression "local_158 = &local_12c" identifier = (pointer_expression "&local_12c" & identifier)) ;) (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);" (assignment_expression "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134)" identifier = (call_expression "FUN_000208cc(&local_138,local_158,iVar7,&local_134)" identifier (argument_list "(&local_138,local_158,iVar7,&local_134)" ( (pointer_expression "&local_138" & identifier) , identifier , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" if (parenthesized_expression "(iVar4 == iVar7)" ( (binary_expression "iVar4 == iVar7" identifier == identifier) )) (compound_statement "{\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" { (expression_statement "wVar5 = towlower(local_138);" (assignment_expression "wVar5 = towlower(local_138)" identifier = (call_expression "towlower(local_138)" identifier (argument_list "(local_138)" ( identifier )))) ;) (expression_statement "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134)" identifier = (call_expression "wcrtomb((char *)local_158,wVar5,&local_134)" identifier (argument_list "((char *)local_158,wVar5,&local_134)" ( (cast_expression "(char *)local_158" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier) , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" * (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (uint)local_12c)" ( (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) )))) = number_literal) ;) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;) })) })) })) (labeled_statement "LAB_00026b30:\n iVar7 = *param_2;" statement_identifier : (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;)) }) (else_clause "else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" else (compound_statement "{\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" { (if_statement "if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" if (parenthesized_expression "(bVar1 != 3)" ( (binary_expression "bVar1 != 3" identifier != number_literal) )) (compound_statement "{\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" { (if_statement "if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" if (parenthesized_expression "(bVar1 == 6)" ( (binary_expression "bVar1 == 6" identifier == number_literal) )) (compound_statement "{\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" { (expression_statement "piVar17 = *(int **)(iVar8 + iVar4);" (assignment_expression "piVar17 = *(int **)(iVar8 + iVar4)" identifier = (pointer_expression "*(int **)(iVar8 + iVar4)" * (cast_expression "(int **)(iVar8 + iVar4)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) ))))) ;) (if_statement "if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" if (parenthesized_expression "((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))))" ( (binary_expression "(piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" (parenthesized_expression "(piVar15[0x17] < 2)" ( (binary_expression "piVar15[0x17] < 2" (subscript_expression "piVar15[0x17]" identifier [ number_literal ]) < number_literal) )) || (parenthesized_expression "(((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" ( (parenthesized_expression "((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))" ( (binary_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)" (parenthesized_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0))" ( (binary_expression "piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)" (binary_expression "piVar17[9] == 0" (subscript_expression "piVar17[9]" identifier [ number_literal ]) == number_literal) && (parenthesized_expression "((*(byte *)(piVar17 + 4) & 1) == 0)" ( (binary_expression "(*(byte *)(piVar17 + 4) & 1) == 0" (parenthesized_expression "(*(byte *)(piVar17 + 4) & 1)" ( (binary_expression "*(byte *)(piVar17 + 4) & 1" (pointer_expression "*(byte *)(piVar17 + 4)" * (cast_expression "(byte *)(piVar17 + 4)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(piVar17 + 4)" ( (binary_expression "piVar17 + 4" identifier + number_literal) )))) & number_literal) )) == number_literal) ))) )) && (parenthesized_expression "(piVar17[8] == 0)" ( (binary_expression "piVar17[8] == 0" (subscript_expression "piVar17[8]" identifier [ number_literal ]) == number_literal) ))) )) ))) )) (compound_statement "{\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }" { (if_statement "if (piVar17[5] < 1) goto LAB_00026ab4;" if (parenthesized_expression "(piVar17[5] < 1)" ( (binary_expression "piVar17[5] < 1" (subscript_expression "piVar17[5]" identifier [ number_literal ]) < number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "iVar7 = 0;" (assignment_expression "iVar7 = 0" identifier = number_literal) ;) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);" do (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n }" { (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" identifier = (call_expression "wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" identifier (argument_list "((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" ( (cast_expression "(char *)&local_12c" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_12c" & identifier)) , (pointer_expression "*(wchar_t *)(*piVar17 + iVar7 * 4)" * (cast_expression "(wchar_t *)(*piVar17 + iVar7 * 4)" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar17 + iVar7 * 4)" ( (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" * identifier) + (binary_expression "iVar7 * 4" identifier * number_literal)) )))) , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" { (expression_statement "uVar16 = (uint)local_12c;" (assignment_expression "uVar16 = (uint)local_12c" identifier = (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) ;) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" * (cast_expression "(undefined1 *)((int)param_4 + uVar16)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + uVar16)" ( (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" if (parenthesized_expression "(unaff_r5 != 0)" ( (binary_expression "unaff_r5 != 0" identifier != number_literal) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" * (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" ( (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) )))) = number_literal) ;) })) })) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" if (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" ( (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" ( (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" ( (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" identifier [ number_literal ]) & number_literal) )) != number_literal) )) && (parenthesized_expression "(1 < piVar15[0x17])" ( (binary_expression "1 < piVar15[0x17]" number_literal < (subscript_expression "piVar15[0x17]" identifier [ number_literal ])) ))) )) (compound_statement "{\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" { (expression_statement "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));" (assignment_expression "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" identifier = (call_expression "towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" identifier (argument_list "(*(wint_t *)(*piVar17 + iVar7 * 4))" ( (pointer_expression "*(wint_t *)(*piVar17 + iVar7 * 4)" * (cast_expression "(wint_t *)(*piVar17 + iVar7 * 4)" ( (type_descriptor "wint_t *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*piVar17 + iVar7 * 4)" ( (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" * identifier) + (binary_expression "iVar7 * 4" identifier * number_literal)) )))) )))) ;) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134)" identifier = (call_expression "wcrtomb((char *)&local_12c,wVar5,&local_134)" identifier (argument_list "((char *)&local_12c,wVar5,&local_134)" ( (cast_expression "(char *)&local_12c" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "&local_12c" & identifier)) , identifier , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" if (parenthesized_expression "(sVar6 != 0xffffffff)" ( (binary_expression "sVar6 != 0xffffffff" identifier != number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" * (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (uint)local_12c)" ( (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (cast_expression "(uint)local_12c" ( (type_descriptor "uint" type_identifier) ) identifier)) )))) = number_literal) ;) })) })) (expression_statement "iVar7 = iVar7 + 1;" (assignment_expression "iVar7 = iVar7 + 1" identifier = (binary_expression "iVar7 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar7 < piVar17[5])" ( (binary_expression "iVar7 < piVar17[5]" identifier < (subscript_expression "piVar17[5]" identifier [ number_literal ])) )) ;) }) (else_clause "else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" else (compound_statement "{\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" { (expression_statement "local_138 = local_138 & 0xffffff00;" (assignment_expression "local_138 = local_138 & 0xffffff00" identifier = (binary_expression "local_138 & 0xffffff00" identifier & number_literal)) ;) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);" do (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n }" { (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" identifier . field_identifier) = number_literal) ;) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" identifier . field_identifier) . field_identifier) = number_literal) ;) (expression_statement "iVar7 = FUN_000208cc(0,&local_138,1,&local_134);" (assignment_expression "iVar7 = FUN_000208cc(0,&local_138,1,&local_134)" identifier = (call_expression "FUN_000208cc(0,&local_138,1,&local_134)" identifier (argument_list "(0,&local_138,1,&local_134)" ( number_literal , (pointer_expression "&local_138" & identifier) , number_literal , (pointer_expression "&local_134" & identifier) )))) ;) (if_statement "if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" if (parenthesized_expression "(iVar7 == -2)" ( (binary_expression "iVar7 == -2" identifier == number_literal) )) (compound_statement "{\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" { (expression_statement "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff))" * (cast_expression "(undefined1 *)((int)param_4 + (local_138 & 0xff))" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + (local_138 & 0xff))" ( (binary_expression "(int)param_4 + (local_138 & 0xff)" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + (parenthesized_expression "(local_138 & 0xff)" ( (binary_expression "local_138 & 0xff" identifier & number_literal) ))) )))) = number_literal) ;) })) (expression_statement "uVar16 = (local_138 & 0xff) + 1;" (assignment_expression "uVar16 = (local_138 & 0xff) + 1" identifier = (binary_expression "(local_138 & 0xff) + 1" (parenthesized_expression "(local_138 & 0xff)" ( (binary_expression "local_138 & 0xff" identifier & number_literal) )) + number_literal)) ;) (expression_statement "local_138 = CONCAT31(local_138._1_3_,(char)uVar16);" (assignment_expression "local_138 = CONCAT31(local_138._1_3_,(char)uVar16)" identifier = (call_expression "CONCAT31(local_138._1_3_,(char)uVar16)" identifier (argument_list "(local_138._1_3_,(char)uVar16)" ( (field_expression "local_138._1_3_" identifier . field_identifier) , (cast_expression "(char)uVar16" ( (type_descriptor "char" primitive_type) ) identifier) )))) ;) }) while (parenthesized_expression "((uVar16 & 0xff) != 0)" ( (binary_expression "(uVar16 & 0xff) != 0" (parenthesized_expression "(uVar16 & 0xff)" ( (binary_expression "uVar16 & 0xff" identifier & number_literal) )) != number_literal) )) ;) }))) (goto_statement "goto LAB_00026b30;" goto statement_identifier ;) })) (if_statement "if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" if (parenthesized_expression "((bVar1 & 0xfd) == 5)" ( (binary_expression "(bVar1 & 0xfd) == 5" (parenthesized_expression "(bVar1 & 0xfd)" ( (binary_expression "bVar1 & 0xfd" identifier & number_literal) )) == number_literal) )) (compound_statement "{\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }" { (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" identifier (argument_list "(param_4,1,0x100)" ( identifier , number_literal , number_literal ))) ;) (if_statement "if (bVar1 != 2) break;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (break_statement "break;" break ;)) }) (else_clause "else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" else (compound_statement "{\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" { (if_statement "if (bVar1 != 2) goto LAB_00026ab4;" if (parenthesized_expression "(bVar1 != 2)" ( (binary_expression "bVar1 != 2" identifier != number_literal) )) (goto_statement "goto LAB_00026ab4;" goto statement_identifier ;)) (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" identifier (argument_list "(param_4,1,0x100)" ( identifier , number_literal , number_literal ))) ;) }))) (expression_statement "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;" (assignment_expression "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" * (cast_expression "(byte *)(param_1 + 7)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 7)" ( (binary_expression "param_1 + 7" identifier + number_literal) )))) = (binary_expression "*(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" * (cast_expression "(byte *)(param_1 + 7)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(param_1 + 7)" ( (binary_expression "param_1 + 7" identifier + number_literal) )))) | number_literal)) ;) (break_statement "break;" break ;) })) (expression_statement "iVar11 = 0;" (assignment_expression "iVar11 = 0" identifier = number_literal) ;) (expression_statement "iVar7 = 0x20;" (assignment_expression "iVar7 = 0x20" identifier = number_literal) ;) (expression_statement "local_158 = (byte *)0x0;" (assignment_expression "local_158 = (byte *)0x0" identifier = (cast_expression "(byte *)0x0" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (while_statement "while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" while (parenthesized_expression "( true )" ( true )) (compound_statement "{\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" { (expression_statement "iVar12 = iVar7 + -0x20;" (assignment_expression "iVar12 = iVar7 + -0x20" identifier = (binary_expression "iVar7 + -0x20" identifier + number_literal)) ;) (expression_statement "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);" (assignment_expression "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" identifier = (pointer_expression "*(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" * (cast_expression "(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(*(int *)(iVar8 + iVar4) + (int)local_158)" ( (binary_expression "*(int *)(iVar8 + iVar4) + (int)local_158" (pointer_expression "*(int *)(iVar8 + iVar4)" * (cast_expression "(int *)(iVar8 + iVar4)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar8 + iVar4)" ( (binary_expression "iVar8 + iVar4" identifier + identifier) )))) + (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier)) ))))) ;) (do_statement "do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);" do (compound_statement "{\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n }" { (if_statement "if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" if (parenthesized_expression "(((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0))" ( (binary_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" (parenthesized_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0)" ( (binary_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0" (parenthesized_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1)" ( (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU) & 1" (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU)" identifier >> (parenthesized_expression "(iVar11 + iVar12 & 0xffU)" ( (binary_expression "iVar11 + iVar12 & 0xffU" (binary_expression "iVar11 + iVar12" identifier + identifier) & number_literal) ))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" ( (comma_expression "*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0" (assignment_expression "*(undefined1 *)((int)param_4 + iVar12) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar12)" * (cast_expression "(undefined1 *)((int)param_4 + iVar12)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + iVar12)" ( (binary_expression "(int)param_4 + iVar12" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) , (binary_expression "unaff_r5 != 0" identifier != number_literal)) ))) )) (compound_statement "{\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" { (expression_statement "iVar8 = iVar12;" (assignment_expression "iVar8 = iVar12" identifier = identifier) ;) (if_statement "if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" if (parenthesized_expression "(iVar12 + 0x80U <= uVar2)" ( (binary_expression "iVar12 + 0x80U <= uVar2" (binary_expression "iVar12 + 0x80U" identifier + number_literal) <= identifier) )) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" { (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" identifier = (call_expression "__ctype_tolower_loc()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar8 = (*pp_Var3)[iVar12];" (assignment_expression "iVar8 = (*pp_Var3)[iVar12]" identifier = (subscript_expression "(*pp_Var3)[iVar12]" (parenthesized_expression "(*pp_Var3)" ( (pointer_expression "*pp_Var3" * identifier) )) [ identifier ])) ;) })) (expression_statement "*(undefined1 *)((int)param_4 + iVar8) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + iVar8) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar8)" * (cast_expression "(undefined1 *)((int)param_4 + iVar8)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_4 + iVar8)" ( (binary_expression "(int)param_4 + iVar8" (cast_expression "(int)param_4" ( (type_descriptor "int" primitive_type) ) identifier) + identifier) )))) = number_literal) ;) })) (expression_statement "iVar12 = iVar12 + 1;" (assignment_expression "iVar12 = iVar12 + 1" identifier = (binary_expression "iVar12 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar7 != iVar12)" ( (binary_expression "iVar7 != iVar12" identifier != identifier) )) ;) (expression_statement "iVar7 = iVar7 + 0x20;" (assignment_expression "iVar7 = iVar7 + 0x20" identifier = (binary_expression "iVar7 + 0x20" identifier + number_literal)) ;) (expression_statement "local_158 = (byte *)((int)local_158 + 4);" (assignment_expression "local_158 = (byte *)((int)local_158 + 4)" identifier = (cast_expression "(byte *)((int)local_158 + 4)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)local_158 + 4)" ( (binary_expression "(int)local_158 + 4" (cast_expression "(int)local_158" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) ;) (expression_statement "iVar11 = iVar11 + -0x20;" (assignment_expression "iVar11 = iVar11 + -0x20" identifier = (binary_expression "iVar11 + -0x20" identifier + number_literal)) ;) (if_statement "if (iVar7 == 0x120) break;" if (parenthesized_expression "(iVar7 == 0x120)" ( (binary_expression "iVar7 == 0x120" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" identifier = (pointer_expression "*piVar15" * identifier)) ;) })) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) }))) (labeled_statement "LAB_00026ab4:\n local_15c = local_15c + 1;" statement_identifier : (expression_statement "local_15c = local_15c + 1;" (assignment_expression "local_15c = local_15c + 1" identifier = (binary_expression "local_15c + 1" identifier + number_literal)) ;)) }) while (parenthesized_expression "(local_15c < iVar7)" ( (binary_expression "local_15c < iVar7" identifier < identifier) )) ;) })) (if_statement "if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" if (parenthesized_expression "(local_2c != *piVar18)" ( (binary_expression "local_2c != *piVar18" identifier != (pointer_expression "*piVar18" * identifier)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" { comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * (pointer_declarator * IDENT)) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT))) ;) (expression_statement (assignment_expression IDENT = (binary_expression (subscript_expression IDENT [ LIT ]) == LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) (subscript_expression IDENT [ LIT ])) >> LIT)) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( IDENT )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT & LIT)) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (unary_expression ! IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) })) (if_statement if (parenthesized_expression ( (binary_expression LIT < IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) ))))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT * LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))) + LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( IDENT )) * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + (binary_expression IDENT * LIT)) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + (subscript_expression (parenthesized_expression ( (pointer_expression * IDENT) )) [ IDENT ])) )))) = LIT) ;) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) & LIT) )) != LIT) )) && (parenthesized_expression ( (binary_expression LIT < (subscript_expression IDENT [ LIT ])) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT < (cast_expression ( (type_descriptor TYPE) ) (subscript_expression IDENT [ LIT ]))) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (pointer_expression * IDENT) + IDENT) + LIT) )))) , (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) == IDENT)) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) (subscript_expression IDENT [ LIT ])) <= IDENT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) }) while (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) == IDENT) )) ;) (expression_statement (assignment_expression IDENT = (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) - (cast_expression ( (type_descriptor TYPE) ) (pointer_expression & IDENT)))) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) }))) (expression_statement (assignment_expression IDENT = (pointer_expression & IDENT)) ;) (expression_statement (assignment_expression (field_expression IDENT . field_identifier) = LIT) ;) (expression_statement (assignment_expression (field_expression (field_expression IDENT . field_identifier) . field_identifier) = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression & IDENT) , IDENT , IDENT , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT) , IDENT , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + (cast_expression ( (type_descriptor TYPE) ) IDENT)) )))) = LIT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (goto_statement goto statement_identifier ;) })) })) })) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;)) }) (else_clause else (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) < LIT) )) || (parenthesized_expression ( (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (binary_expression (subscript_expression IDENT [ LIT ]) == LIT) && (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) == LIT) ))) )) && (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) == LIT) ))) )) ))) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) < LIT) )) (goto_statement goto statement_identifier ;)) (expression_statement (assignment_expression IDENT = LIT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression (field_expression IDENT . field_identifier) = LIT) ;) (expression_statement (assignment_expression (field_expression (field_expression IDENT . field_identifier) . field_identifier) = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression & IDENT)) , (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE) ) IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) )))) = LIT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + (subscript_expression (parenthesized_expression ( (pointer_expression * IDENT) )) [ IDENT ])) )))) = LIT) ;) })) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (subscript_expression IDENT [ LIT ]) & LIT) )) != LIT) )) && (parenthesized_expression ( (binary_expression LIT < (subscript_expression IDENT [ LIT ])) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * IDENT) + (binary_expression IDENT * LIT)) )))) )))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression & IDENT)) , IDENT , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + (cast_expression ( (type_descriptor TYPE) ) IDENT)) )))) = LIT) ;) })) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT < (subscript_expression IDENT [ LIT ])) )) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT & LIT)) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression (field_expression IDENT . field_identifier) = LIT) ;) (expression_statement (assignment_expression (field_expression (field_expression IDENT . field_identifier) . field_identifier) = LIT) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (pointer_expression & IDENT) , LIT , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + (parenthesized_expression ( (binary_expression IDENT & LIT) ))) )))) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( (field_expression IDENT . field_identifier) , (cast_expression ( (type_descriptor TYPE) ) IDENT) )))) ;) }) while (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) != LIT) )) ;) }))) (goto_statement goto statement_identifier ;) })) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) == LIT) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , LIT ))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (break_statement break ;)) }) (else_clause else (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (goto_statement goto statement_identifier ;)) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , LIT ))) ;) }))) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) | LIT)) ;) (break_statement break ;) })) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) (while_statement while (parenthesized_expression ( BOOL )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + IDENT) )))) + (cast_expression ( (type_descriptor TYPE) ) IDENT)) ))))) ;) (do_statement do (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (binary_expression IDENT >> (parenthesized_expression ( (binary_expression (binary_expression IDENT + IDENT) & LIT) ))) & LIT) )) != LIT) )) && (parenthesized_expression ( (comma_expression (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) )))) = LIT) , (binary_expression IDENT != LIT)) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) <= IDENT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (subscript_expression (parenthesized_expression ( (pointer_expression * IDENT) )) [ IDENT ])) ;) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + IDENT) )))) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT != IDENT) )) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) }))) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;)) }) while (parenthesized_expression ( (binary_expression IDENT < IDENT) )) ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT != (pointer_expression * IDENT)) )) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })) (return_statement return ;) })))
|
(function_definition "void FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)\n\n{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" (primitive_type "void") (function_declarator "FUN_00026a1c(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" (identifier "FUN_00026a1c") (parameter_list "(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)" (( "(") (parameter_declaration "undefined4 *param_1" (type_identifier "undefined4") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "int *param_2" (primitive_type "int") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "int *param_3" (primitive_type "int") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) (, ",") (parameter_declaration "undefined4 *param_4" (type_identifier "undefined4") (pointer_declarator "*param_4" (* "*") (identifier "param_4"))) () ")"))) (compound_statement "{\n byte bVar1;\n uint uVar2;\n __int32_t **pp_Var3;\n int iVar4;\n wchar_t wVar5;\n size_t sVar6;\n int iVar7;\n int iVar8;\n undefined4 *puVar9;\n undefined1 *puVar10;\n uint unaff_r5;\n int iVar11;\n int iVar12;\n undefined1 *puVar13;\n undefined1 *puVar14;\n int *piVar15;\n uint uVar16;\n int *piVar17;\n int *piVar18;\n bool bVar19;\n int local_15c;\n byte *local_158;\n uint local_138;\n mbstate_t local_134;\n byte local_12c;\n undefined1 auStack_12b [255];\n int local_2c;\n \n uVar2 = DAT_00026ed0;\n piVar15 = (int *)*param_1;\n bVar19 = piVar15[0x17] == 1;\n puVar9 = param_4;\n if (bVar19) {\n puVar9 = param_1;\n }\n piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);\n if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }\n iVar7 = *param_2;\n if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }\n local_2c = *piVar18;\n if (!bVar19) {\n unaff_r5 = 0;\n }\n if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }\n if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }\n return;\n}" ({ "{") (declaration "byte bVar1;" (type_identifier "byte") (identifier "bVar1") (; ";")) (declaration "uint uVar2;" (type_identifier "uint") (identifier "uVar2") (; ";")) (declaration "__int32_t **pp_Var3;" (type_identifier "__int32_t") (pointer_declarator "**pp_Var3" (* "*") (pointer_declarator "*pp_Var3" (* "*") (identifier "pp_Var3"))) (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "wchar_t wVar5;" (type_identifier "wchar_t") (identifier "wVar5") (; ";")) (declaration "size_t sVar6;" (primitive_type "size_t") (identifier "sVar6") (; ";")) (declaration "int iVar7;" (primitive_type "int") (identifier "iVar7") (; ";")) (declaration "int iVar8;" (primitive_type "int") (identifier "iVar8") (; ";")) (declaration "undefined4 *puVar9;" (type_identifier "undefined4") (pointer_declarator "*puVar9" (* "*") (identifier "puVar9")) (; ";")) (declaration "undefined1 *puVar10;" (type_identifier "undefined1") (pointer_declarator "*puVar10" (* "*") (identifier "puVar10")) (; ";")) (declaration "uint unaff_r5;" (type_identifier "uint") (identifier "unaff_r5") (; ";")) (declaration "int iVar11;" (primitive_type "int") (identifier "iVar11") (; ";")) (declaration "int iVar12;" (primitive_type "int") (identifier "iVar12") (; ";")) (declaration "undefined1 *puVar13;" (type_identifier "undefined1") (pointer_declarator "*puVar13" (* "*") (identifier "puVar13")) (; ";")) (declaration "undefined1 *puVar14;" (type_identifier "undefined1") (pointer_declarator "*puVar14" (* "*") (identifier "puVar14")) (; ";")) (declaration "int *piVar15;" (primitive_type "int") (pointer_declarator "*piVar15" (* "*") (identifier "piVar15")) (; ";")) (declaration "uint uVar16;" (type_identifier "uint") (identifier "uVar16") (; ";")) (declaration "int *piVar17;" (primitive_type "int") (pointer_declarator "*piVar17" (* "*") (identifier "piVar17")) (; ";")) (declaration "int *piVar18;" (primitive_type "int") (pointer_declarator "*piVar18" (* "*") (identifier "piVar18")) (; ";")) (declaration "bool bVar19;" (primitive_type "bool") (identifier "bVar19") (; ";")) (declaration "int local_15c;" (primitive_type "int") (identifier "local_15c") (; ";")) (declaration "byte *local_158;" (type_identifier "byte") (pointer_declarator "*local_158" (* "*") (identifier "local_158")) (; ";")) (declaration "uint local_138;" (type_identifier "uint") (identifier "local_138") (; ";")) (declaration "mbstate_t local_134;" (type_identifier "mbstate_t") (identifier "local_134") (; ";")) (declaration "byte local_12c;" (type_identifier "byte") (identifier "local_12c") (; ";")) (declaration "undefined1 auStack_12b [255];" (type_identifier "undefined1") (array_declarator "auStack_12b [255]" (identifier "auStack_12b") ([ "[") (number_literal "255") (] "]")) (; ";")) (declaration "int local_2c;" (primitive_type "int") (identifier "local_2c") (; ";")) (expression_statement "uVar2 = DAT_00026ed0;" (assignment_expression "uVar2 = DAT_00026ed0" (identifier "uVar2") (= "=") (identifier "DAT_00026ed0")) (; ";")) (expression_statement "piVar15 = (int *)*param_1;" (assignment_expression "piVar15 = (int *)*param_1" (identifier "piVar15") (= "=") (cast_expression "(int *)*param_1" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*param_1" (* "*") (identifier "param_1")))) (; ";")) (expression_statement "bVar19 = piVar15[0x17] == 1;" (assignment_expression "bVar19 = piVar15[0x17] == 1" (identifier "bVar19") (= "=") (binary_expression "piVar15[0x17] == 1" (subscript_expression "piVar15[0x17]" (identifier "piVar15") ([ "[") (number_literal "0x17") (] "]")) (== "==") (number_literal "1"))) (; ";")) (expression_statement "puVar9 = param_4;" (assignment_expression "puVar9 = param_4" (identifier "puVar9") (= "=") (identifier "param_4")) (; ";")) (if_statement "if (bVar19) {\n puVar9 = param_1;\n }" (if "if") (parenthesized_expression "(bVar19)" (( "(") (identifier "bVar19") () ")")) (compound_statement "{\n puVar9 = param_1;\n }" ({ "{") (expression_statement "puVar9 = param_1;" (assignment_expression "puVar9 = param_1" (identifier "puVar9") (= "=") (identifier "param_1")) (; ";")) (} "}"))) (expression_statement "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);" (assignment_expression "piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" (identifier "piVar18") (= "=") (pointer_expression "*(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" (* "*") (cast_expression "(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00026ec8 + 0x26a44 + DAT_00026ecc)" (( "(") (binary_expression "DAT_00026ec8 + 0x26a44 + DAT_00026ecc" (binary_expression "DAT_00026ec8 + 0x26a44" (identifier "DAT_00026ec8") (+ "+") (number_literal "0x26a44")) (+ "+") (identifier "DAT_00026ecc")) () ")"))))) (; ";")) (if_statement "if (bVar19) {\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" (if "if") (parenthesized_expression "(bVar19)" (( "(") (identifier "bVar19") () ")")) (compound_statement "{\n unaff_r5 = (uint)puVar9[3] >> 0x16;\n }" ({ "{") (expression_statement "unaff_r5 = (uint)puVar9[3] >> 0x16;" (assignment_expression "unaff_r5 = (uint)puVar9[3] >> 0x16" (identifier "unaff_r5") (= "=") (binary_expression "(uint)puVar9[3] >> 0x16" (cast_expression "(uint)puVar9[3]" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (subscript_expression "puVar9[3]" (identifier "puVar9") ([ "[") (number_literal "3") (] "]"))) (>> ">>") (number_literal "0x16"))) (; ";")) (} "}"))) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" (identifier "iVar7") (= "=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) (; ";")) (if_statement "if (bVar19) {\n unaff_r5 = unaff_r5 & 1;\n }" (if "if") (parenthesized_expression "(bVar19)" (( "(") (identifier "bVar19") () ")")) (compound_statement "{\n unaff_r5 = unaff_r5 & 1;\n }" ({ "{") (expression_statement "unaff_r5 = unaff_r5 & 1;" (assignment_expression "unaff_r5 = unaff_r5 & 1" (identifier "unaff_r5") (= "=") (binary_expression "unaff_r5 & 1" (identifier "unaff_r5") (& "&") (number_literal "1"))) (; ";")) (} "}"))) (expression_statement "local_2c = *piVar18;" (assignment_expression "local_2c = *piVar18" (identifier "local_2c") (= "=") (pointer_expression "*piVar18" (* "*") (identifier "piVar18"))) (; ";")) (if_statement "if (!bVar19) {\n unaff_r5 = 0;\n }" (if "if") (parenthesized_expression "(!bVar19)" (( "(") (unary_expression "!bVar19" (! "!") (identifier "bVar19")) () ")")) (compound_statement "{\n unaff_r5 = 0;\n }" ({ "{") (expression_statement "unaff_r5 = 0;" (assignment_expression "unaff_r5 = 0" (identifier "unaff_r5") (= "=") (number_literal "0")) (; ";")) (} "}"))) (if_statement "if (0 < iVar7) {\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" (if "if") (parenthesized_expression "(0 < iVar7)" (( "(") (binary_expression "0 < iVar7" (number_literal "0") (< "<") (identifier "iVar7")) () ")")) (compound_statement "{\n local_15c = 0;\n do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);\n }" ({ "{") (expression_statement "local_15c = 0;" (assignment_expression "local_15c = 0" (identifier "local_15c") (= "=") (number_literal "0")) (; ";")) (do_statement "do {\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n } while (local_15c < iVar7);" (do "do") (compound_statement "{\n iVar8 = *piVar15;\n iVar11 = *(int *)(*param_3 + local_15c * 4);\n iVar4 = iVar11 * 8;\n bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);\n if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }\nLAB_00026ab4:\n local_15c = local_15c + 1;\n }" ({ "{") (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" (identifier "iVar8") (= "=") (pointer_expression "*piVar15" (* "*") (identifier "piVar15"))) (; ";")) (expression_statement "iVar11 = *(int *)(*param_3 + local_15c * 4);" (assignment_expression "iVar11 = *(int *)(*param_3 + local_15c * 4)" (identifier "iVar11") (= "=") (pointer_expression "*(int *)(*param_3 + local_15c * 4)" (* "*") (cast_expression "(int *)(*param_3 + local_15c * 4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*param_3 + local_15c * 4)" (( "(") (binary_expression "*param_3 + local_15c * 4" (pointer_expression "*param_3" (* "*") (identifier "param_3")) (+ "+") (binary_expression "local_15c * 4" (identifier "local_15c") (* "*") (number_literal "4"))) () ")"))))) (; ";")) (expression_statement "iVar4 = iVar11 * 8;" (assignment_expression "iVar4 = iVar11 * 8" (identifier "iVar4") (= "=") (binary_expression "iVar11 * 8" (identifier "iVar11") (* "*") (number_literal "8"))) (; ";")) (expression_statement "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);" (assignment_expression "bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" (identifier "bVar1") (= "=") (pointer_expression "*(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" (* "*") (cast_expression "(byte *)((undefined4 *)(iVar8 + iVar4) + 1)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((undefined4 *)(iVar8 + iVar4) + 1)" (( "(") (binary_expression "(undefined4 *)(iVar8 + iVar4) + 1" (cast_expression "(undefined4 *)(iVar8 + iVar4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar8 + iVar4)" (( "(") (binary_expression "iVar8 + iVar4" (identifier "iVar8") (+ "+") (identifier "iVar4")) () ")"))) (+ "+") (number_literal "1")) () ")"))))) (; ";")) (if_statement "if (bVar1 == 1) {\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }\n else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" (if "if") (parenthesized_expression "(bVar1 == 1)" (( "(") (binary_expression "bVar1 == 1" (identifier "bVar1") (== "==") (number_literal "1")) () ")")) (compound_statement "{\n uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }\nLAB_00026b30:\n iVar7 = *param_2;\n }" ({ "{") (expression_statement "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);" (assignment_expression "uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8)" (identifier "uVar16") (= "=") (binary_expression "(uint)*(byte *)(iVar8 + iVar11 * 8)" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (* "*") (cast_expression "(byte *)(iVar8 + iVar11 * 8)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar8 + iVar11 * 8)" (( "(") (binary_expression "iVar8 + iVar11 * 8" (identifier "iVar8") (+ "+") (binary_expression "iVar11 * 8" (identifier "iVar11") (* "*") (number_literal "8"))) () ")"))))) (; ";")) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + uVar16)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + uVar16)" (( "(") (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (identifier "uVar16")) () ")")))) (= "=") (number_literal "1")) (; ";")) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" (if "if") (parenthesized_expression "(unaff_r5 != 0)" (( "(") (binary_expression "unaff_r5 != 0" (identifier "unaff_r5") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" ({ "{") (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" (identifier "pp_Var3") (= "=") (call_expression "__ctype_tolower_loc()" (identifier "__ctype_tolower_loc") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" (* "*") (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" (( "(") (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" (( "(") (pointer_expression "*pp_Var3" (* "*") (identifier "pp_Var3")) () ")")) ([ "[") (identifier "uVar16") (] "]"))) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" (if "if") (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" (( "(") (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" (( "(") (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" (( "(") (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" (identifier "param_1") ([ "[") (number_literal "3") (] "]")) (& "&") (number_literal "0x400000")) () ")")) (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(1 < piVar15[0x17])" (( "(") (binary_expression "1 < piVar15[0x17]" (number_literal "1") (< "<") (subscript_expression "piVar15[0x17]" (identifier "piVar15") ([ "[") (number_literal "0x17") (] "]"))) () ")"))) () ")")) (compound_statement "{\n uVar16 = iVar11 + 1;\n local_12c = *(byte *)(*piVar15 + iVar11 * 8);\n if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }\n local_158 = &local_12c;\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);\n if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }\n }" ({ "{") (expression_statement "uVar16 = iVar11 + 1;" (assignment_expression "uVar16 = iVar11 + 1" (identifier "uVar16") (= "=") (binary_expression "iVar11 + 1" (identifier "iVar11") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "local_12c = *(byte *)(*piVar15 + iVar11 * 8);" (assignment_expression "local_12c = *(byte *)(*piVar15 + iVar11 * 8)" (identifier "local_12c") (= "=") (pointer_expression "*(byte *)(*piVar15 + iVar11 * 8)" (* "*") (cast_expression "(byte *)(*piVar15 + iVar11 * 8)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar15 + iVar11 * 8)" (( "(") (binary_expression "*piVar15 + iVar11 * 8" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (+ "+") (binary_expression "iVar11 * 8" (identifier "iVar11") (* "*") (number_literal "8"))) () ")"))))) (; ";")) (if_statement "if ((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }\n else {\n iVar7 = 1;\n }" (if "if") (parenthesized_expression "((uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4))" (( "(") (binary_expression "(uVar16 < (uint)piVar15[2]) &&\n (puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" (parenthesized_expression "(uVar16 < (uint)piVar15[2])" (( "(") (binary_expression "uVar16 < (uint)piVar15[2]" (identifier "uVar16") (< "<") (cast_expression "(uint)piVar15[2]" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (subscript_expression "piVar15[2]" (identifier "piVar15") ([ "[") (number_literal "2") (] "]")))) () ")")) (&& "&&") (parenthesized_expression "(puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" (( "(") (comma_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),\n (*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8)" (identifier "puVar10") (= "=") (cast_expression "(undefined1 *)(*piVar15 + iVar4 + 8)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar15 + iVar4 + 8)" (( "(") (binary_expression "*piVar15 + iVar4 + 8" (binary_expression "*piVar15 + iVar4" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (+ "+") (identifier "iVar4")) (+ "+") (number_literal "8")) () ")")))) (, ",") (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" (( "(") (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" (* "*") (cast_expression "(uint *)(puVar10 + 4)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar10 + 4)" (( "(") (binary_expression "puVar10 + 4" (identifier "puVar10") (+ "+") (number_literal "4")) () ")")))) (& "&") (number_literal "0x2000ff")) () ")")) (== "==") (identifier "DAT_00026ed4"))) () ")"))) () ")")) (compound_statement "{\n puVar13 = auStack_12b;\n do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);\n iVar7 = (int)puVar14 - (int)&local_12c;\n }" ({ "{") (expression_statement "puVar13 = auStack_12b;" (assignment_expression "puVar13 = auStack_12b" (identifier "puVar13") (= "=") (identifier "auStack_12b")) (; ";")) (do_statement "do {\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n } while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);" (do "do") (compound_statement "{\n puVar14 = puVar13 + 1;\n *puVar13 = *puVar10;\n uVar16 = uVar16 + 1;\n if ((uint)piVar15[2] <= uVar16) break;\n puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);\n puVar13 = puVar14;\n }" ({ "{") (expression_statement "puVar14 = puVar13 + 1;" (assignment_expression "puVar14 = puVar13 + 1" (identifier "puVar14") (= "=") (binary_expression "puVar13 + 1" (identifier "puVar13") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "*puVar13 = *puVar10;" (assignment_expression "*puVar13 = *puVar10" (pointer_expression "*puVar13" (* "*") (identifier "puVar13")) (= "=") (pointer_expression "*puVar10" (* "*") (identifier "puVar10"))) (; ";")) (expression_statement "uVar16 = uVar16 + 1;" (assignment_expression "uVar16 = uVar16 + 1" (identifier "uVar16") (= "=") (binary_expression "uVar16 + 1" (identifier "uVar16") (+ "+") (number_literal "1"))) (; ";")) (if_statement "if ((uint)piVar15[2] <= uVar16) break;" (if "if") (parenthesized_expression "((uint)piVar15[2] <= uVar16)" (( "(") (binary_expression "(uint)piVar15[2] <= uVar16" (cast_expression "(uint)piVar15[2]" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (subscript_expression "piVar15[2]" (identifier "piVar15") ([ "[") (number_literal "2") (] "]"))) (<= "<=") (identifier "uVar16")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);" (assignment_expression "puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8)" (identifier "puVar10") (= "=") (cast_expression "(undefined1 *)(*piVar15 + uVar16 * 8)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar15 + uVar16 * 8)" (( "(") (binary_expression "*piVar15 + uVar16 * 8" (pointer_expression "*piVar15" (* "*") (identifier "piVar15")) (+ "+") (binary_expression "uVar16 * 8" (identifier "uVar16") (* "*") (number_literal "8"))) () ")")))) (; ";")) (expression_statement "puVar13 = puVar14;" (assignment_expression "puVar13 = puVar14" (identifier "puVar13") (= "=") (identifier "puVar14")) (; ";")) (} "}")) (while "while") (parenthesized_expression "((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)" (( "(") (binary_expression "(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4" (parenthesized_expression "(*(uint *)(puVar10 + 4) & 0x2000ff)" (( "(") (binary_expression "*(uint *)(puVar10 + 4) & 0x2000ff" (pointer_expression "*(uint *)(puVar10 + 4)" (* "*") (cast_expression "(uint *)(puVar10 + 4)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar10 + 4)" (( "(") (binary_expression "puVar10 + 4" (identifier "puVar10") (+ "+") (number_literal "4")) () ")")))) (& "&") (number_literal "0x2000ff")) () ")")) (== "==") (identifier "DAT_00026ed4")) () ")")) (; ";")) (expression_statement "iVar7 = (int)puVar14 - (int)&local_12c;" (assignment_expression "iVar7 = (int)puVar14 - (int)&local_12c" (identifier "iVar7") (= "=") (binary_expression "(int)puVar14 - (int)&local_12c" (cast_expression "(int)puVar14" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "puVar14")) (- "-") (cast_expression "(int)&local_12c" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (pointer_expression "&local_12c" (& "&") (identifier "local_12c"))))) (; ";")) (} "}")) (else_clause "else {\n iVar7 = 1;\n }" (else "else") (compound_statement "{\n iVar7 = 1;\n }" ({ "{") (expression_statement "iVar7 = 1;" (assignment_expression "iVar7 = 1" (identifier "iVar7") (= "=") (number_literal "1")) (; ";")) (} "}")))) (expression_statement "local_158 = &local_12c;" (assignment_expression "local_158 = &local_12c" (identifier "local_158") (= "=") (pointer_expression "&local_12c" (& "&") (identifier "local_12c"))) (; ";")) (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" (identifier "local_134") (. ".") (field_identifier "__count")) (= "=") (number_literal "0")) (; ";")) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" (identifier "local_134") (. ".") (field_identifier "__value")) (. ".") (field_identifier "__wch")) (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);" (assignment_expression "iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134)" (identifier "iVar4") (= "=") (call_expression "FUN_000208cc(&local_138,local_158,iVar7,&local_134)" (identifier "FUN_000208cc") (argument_list "(&local_138,local_158,iVar7,&local_134)" (( "(") (pointer_expression "&local_138" (& "&") (identifier "local_138")) (, ",") (identifier "local_158") (, ",") (identifier "iVar7") (, ",") (pointer_expression "&local_134" (& "&") (identifier "local_134")) () ")")))) (; ";")) (if_statement "if (iVar4 == iVar7) {\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" (if "if") (parenthesized_expression "(iVar4 == iVar7)" (( "(") (binary_expression "iVar4 == iVar7" (identifier "iVar4") (== "==") (identifier "iVar7")) () ")")) (compound_statement "{\n wVar5 = towlower(local_138);\n sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }\n }" ({ "{") (expression_statement "wVar5 = towlower(local_138);" (assignment_expression "wVar5 = towlower(local_138)" (identifier "wVar5") (= "=") (call_expression "towlower(local_138)" (identifier "towlower") (argument_list "(local_138)" (( "(") (identifier "local_138") () ")")))) (; ";")) (expression_statement "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)local_158,wVar5,&local_134)" (identifier "sVar6") (= "=") (call_expression "wcrtomb((char *)local_158,wVar5,&local_134)" (identifier "wcrtomb") (argument_list "((char *)local_158,wVar5,&local_134)" (( "(") (cast_expression "(char *)local_158" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "local_158")) (, ",") (identifier "wVar5") (, ",") (pointer_expression "&local_134" (& "&") (identifier "local_134")) () ")")))) (; ";")) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" (if "if") (parenthesized_expression "(sVar6 != 0xffffffff)" (( "(") (binary_expression "sVar6 != 0xffffffff" (identifier "sVar6") (!= "!=") (number_literal "0xffffffff")) () ")")) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n iVar7 = *param_2;\n goto LAB_00026ab4;\n }" ({ "{") (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + (uint)local_12c)" (( "(") (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (cast_expression "(uint)local_12c" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "local_12c"))) () ")")))) (= "=") (number_literal "1")) (; ";")) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" (identifier "iVar7") (= "=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) (; ";")) (goto_statement "goto LAB_00026ab4;" (goto "goto") (statement_identifier "LAB_00026ab4") (; ";")) (} "}"))) (} "}"))) (} "}"))) (labeled_statement "LAB_00026b30:\n iVar7 = *param_2;" (statement_identifier "LAB_00026b30") (: ":") (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" (identifier "iVar7") (= "=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) (; ";"))) (} "}")) (else_clause "else {\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" (else "else") (compound_statement "{\n if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }\n iVar11 = 0;\n iVar7 = 0x20;\n local_158 = (byte *)0x0;\n while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }\n iVar7 = *param_2;\n }" ({ "{") (if_statement "if (bVar1 != 3) {\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" (if "if") (parenthesized_expression "(bVar1 != 3)" (( "(") (binary_expression "bVar1 != 3" (identifier "bVar1") (!= "!=") (number_literal "3")) () ")")) (compound_statement "{\n if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }\n if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }\n *(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;\n break;\n }" ({ "{") (if_statement "if (bVar1 == 6) {\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" (if "if") (parenthesized_expression "(bVar1 == 6)" (( "(") (binary_expression "bVar1 == 6" (identifier "bVar1") (== "==") (number_literal "6")) () ")")) (compound_statement "{\n piVar17 = *(int **)(iVar8 + iVar4);\n if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }\n goto LAB_00026b30;\n }" ({ "{") (expression_statement "piVar17 = *(int **)(iVar8 + iVar4);" (assignment_expression "piVar17 = *(int **)(iVar8 + iVar4)" (identifier "piVar17") (= "=") (pointer_expression "*(int **)(iVar8 + iVar4)" (* "*") (cast_expression "(int **)(iVar8 + iVar4)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar8 + iVar4)" (( "(") (binary_expression "iVar8 + iVar4" (identifier "iVar8") (+ "+") (identifier "iVar4")) () ")"))))) (; ";")) (if_statement "if ((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }\n else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" (if "if") (parenthesized_expression "((piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))))" (( "(") (binary_expression "(piVar15[0x17] < 2) ||\n (((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" (parenthesized_expression "(piVar15[0x17] < 2)" (( "(") (binary_expression "piVar15[0x17] < 2" (subscript_expression "piVar15[0x17]" (identifier "piVar15") ([ "[") (number_literal "0x17") (] "]")) (< "<") (number_literal "2")) () ")")) (|| "||") (parenthesized_expression "(((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))" (( "(") (parenthesized_expression "((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0))" (( "(") (binary_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)" (parenthesized_expression "(piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0))" (( "(") (binary_expression "piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)" (binary_expression "piVar17[9] == 0" (subscript_expression "piVar17[9]" (identifier "piVar17") ([ "[") (number_literal "9") (] "]")) (== "==") (number_literal "0")) (&& "&&") (parenthesized_expression "((*(byte *)(piVar17 + 4) & 1) == 0)" (( "(") (binary_expression "(*(byte *)(piVar17 + 4) & 1) == 0" (parenthesized_expression "(*(byte *)(piVar17 + 4) & 1)" (( "(") (binary_expression "*(byte *)(piVar17 + 4) & 1" (pointer_expression "*(byte *)(piVar17 + 4)" (* "*") (cast_expression "(byte *)(piVar17 + 4)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(piVar17 + 4)" (( "(") (binary_expression "piVar17 + 4" (identifier "piVar17") (+ "+") (number_literal "4")) () ")")))) (& "&") (number_literal "1")) () ")")) (== "==") (number_literal "0")) () ")"))) () ")")) (&& "&&") (parenthesized_expression "(piVar17[8] == 0)" (( "(") (binary_expression "piVar17[8] == 0" (subscript_expression "piVar17[8]" (identifier "piVar17") ([ "[") (number_literal "8") (] "]")) (== "==") (number_literal "0")) () ")"))) () ")")) () ")"))) () ")")) (compound_statement "{\n if (piVar17[5] < 1) goto LAB_00026ab4;\n iVar7 = 0;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);\n }" ({ "{") (if_statement "if (piVar17[5] < 1) goto LAB_00026ab4;" (if "if") (parenthesized_expression "(piVar17[5] < 1)" (( "(") (binary_expression "piVar17[5] < 1" (subscript_expression "piVar17[5]" (identifier "piVar17") ([ "[") (number_literal "5") (] "]")) (< "<") (number_literal "1")) () ")")) (goto_statement "goto LAB_00026ab4;" (goto "goto") (statement_identifier "LAB_00026ab4") (; ";"))) (expression_statement "iVar7 = 0;" (assignment_expression "iVar7 = 0" (identifier "iVar7") (= "=") (number_literal "0")) (; ";")) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n } while (iVar7 < piVar17[5]);" (do "do") (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);\n if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }\n if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }\n iVar7 = iVar7 + 1;\n }" ({ "{") (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" (identifier "local_134") (. ".") (field_identifier "__count")) (= "=") (number_literal "0")) (; ";")) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" (identifier "local_134") (. ".") (field_identifier "__value")) (. ".") (field_identifier "__wch")) (= "=") (number_literal "0")) (; ";")) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" (identifier "sVar6") (= "=") (call_expression "wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" (identifier "wcrtomb") (argument_list "((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134)" (( "(") (cast_expression "(char *)&local_12c" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "&local_12c" (& "&") (identifier "local_12c"))) (, ",") (pointer_expression "*(wchar_t *)(*piVar17 + iVar7 * 4)" (* "*") (cast_expression "(wchar_t *)(*piVar17 + iVar7 * 4)" (( "(") (type_descriptor "wchar_t *" (type_identifier "wchar_t") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar17 + iVar7 * 4)" (( "(") (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" (* "*") (identifier "piVar17")) (+ "+") (binary_expression "iVar7 * 4" (identifier "iVar7") (* "*") (number_literal "4"))) () ")")))) (, ",") (pointer_expression "&local_134" (& "&") (identifier "local_134")) () ")")))) (; ";")) (if_statement "if (sVar6 != 0xffffffff) {\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" (if "if") (parenthesized_expression "(sVar6 != 0xffffffff)" (( "(") (binary_expression "sVar6 != 0xffffffff" (identifier "sVar6") (!= "!=") (number_literal "0xffffffff")) () ")")) (compound_statement "{\n uVar16 = (uint)local_12c;\n *(undefined1 *)((int)param_4 + uVar16) = 1;\n if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }\n }" ({ "{") (expression_statement "uVar16 = (uint)local_12c;" (assignment_expression "uVar16 = (uint)local_12c" (identifier "uVar16") (= "=") (cast_expression "(uint)local_12c" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "local_12c"))) (; ";")) (expression_statement "*(undefined1 *)((int)param_4 + uVar16) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + uVar16) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + uVar16)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + uVar16)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + uVar16)" (( "(") (binary_expression "(int)param_4 + uVar16" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (identifier "uVar16")) () ")")))) (= "=") (number_literal "1")) (; ";")) (if_statement "if (unaff_r5 != 0) {\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" (if "if") (parenthesized_expression "(unaff_r5 != 0)" (( "(") (binary_expression "unaff_r5 != 0" (identifier "unaff_r5") (!= "!=") (number_literal "0")) () ")")) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n *(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;\n }" ({ "{") (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" (identifier "pp_Var3") (= "=") (call_expression "__ctype_tolower_loc()" (identifier "__ctype_tolower_loc") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" (* "*") (cast_expression "(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16])" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + (*pp_Var3)[uVar16])" (( "(") (binary_expression "(int)param_4 + (*pp_Var3)[uVar16]" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (subscript_expression "(*pp_Var3)[uVar16]" (parenthesized_expression "(*pp_Var3)" (( "(") (pointer_expression "*pp_Var3" (* "*") (identifier "pp_Var3")) () ")")) ([ "[") (identifier "uVar16") (] "]"))) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (} "}"))) (if_statement "if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" (if "if") (parenthesized_expression "(((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17]))" (( "(") (binary_expression "((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])" (parenthesized_expression "((param_1[3] & 0x400000) != 0)" (( "(") (binary_expression "(param_1[3] & 0x400000) != 0" (parenthesized_expression "(param_1[3] & 0x400000)" (( "(") (binary_expression "param_1[3] & 0x400000" (subscript_expression "param_1[3]" (identifier "param_1") ([ "[") (number_literal "3") (] "]")) (& "&") (number_literal "0x400000")) () ")")) (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(1 < piVar15[0x17])" (( "(") (binary_expression "1 < piVar15[0x17]" (number_literal "1") (< "<") (subscript_expression "piVar15[0x17]" (identifier "piVar15") ([ "[") (number_literal "0x17") (] "]"))) () ")"))) () ")")) (compound_statement "{\n wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));\n sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);\n if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }\n }" ({ "{") (expression_statement "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));" (assignment_expression "wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" (identifier "wVar5") (= "=") (call_expression "towlower(*(wint_t *)(*piVar17 + iVar7 * 4))" (identifier "towlower") (argument_list "(*(wint_t *)(*piVar17 + iVar7 * 4))" (( "(") (pointer_expression "*(wint_t *)(*piVar17 + iVar7 * 4)" (* "*") (cast_expression "(wint_t *)(*piVar17 + iVar7 * 4)" (( "(") (type_descriptor "wint_t *" (type_identifier "wint_t") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*piVar17 + iVar7 * 4)" (( "(") (binary_expression "*piVar17 + iVar7 * 4" (pointer_expression "*piVar17" (* "*") (identifier "piVar17")) (+ "+") (binary_expression "iVar7 * 4" (identifier "iVar7") (* "*") (number_literal "4"))) () ")")))) () ")")))) (; ";")) (expression_statement "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);" (assignment_expression "sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134)" (identifier "sVar6") (= "=") (call_expression "wcrtomb((char *)&local_12c,wVar5,&local_134)" (identifier "wcrtomb") (argument_list "((char *)&local_12c,wVar5,&local_134)" (( "(") (cast_expression "(char *)&local_12c" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "&local_12c" (& "&") (identifier "local_12c"))) (, ",") (identifier "wVar5") (, ",") (pointer_expression "&local_134" (& "&") (identifier "local_134")) () ")")))) (; ";")) (if_statement "if (sVar6 != 0xffffffff) {\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" (if "if") (parenthesized_expression "(sVar6 != 0xffffffff)" (( "(") (binary_expression "sVar6 != 0xffffffff" (identifier "sVar6") (!= "!=") (number_literal "0xffffffff")) () ")")) (compound_statement "{\n *(undefined1 *)((int)param_4 + (uint)local_12c) = 1;\n }" ({ "{") (expression_statement "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (uint)local_12c) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (uint)local_12c)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + (uint)local_12c)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + (uint)local_12c)" (( "(") (binary_expression "(int)param_4 + (uint)local_12c" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (cast_expression "(uint)local_12c" (( "(") (type_descriptor "uint" (type_identifier "uint")) () ")") (identifier "local_12c"))) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (} "}"))) (expression_statement "iVar7 = iVar7 + 1;" (assignment_expression "iVar7 = iVar7 + 1" (identifier "iVar7") (= "=") (binary_expression "iVar7 + 1" (identifier "iVar7") (+ "+") (number_literal "1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar7 < piVar17[5])" (( "(") (binary_expression "iVar7 < piVar17[5]" (identifier "iVar7") (< "<") (subscript_expression "piVar17[5]" (identifier "piVar17") ([ "[") (number_literal "5") (] "]"))) () ")")) (; ";")) (} "}")) (else_clause "else {\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" (else "else") (compound_statement "{\n local_138 = local_138 & 0xffffff00;\n do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);\n }" ({ "{") (expression_statement "local_138 = local_138 & 0xffffff00;" (assignment_expression "local_138 = local_138 & 0xffffff00" (identifier "local_138") (= "=") (binary_expression "local_138 & 0xffffff00" (identifier "local_138") (& "&") (number_literal "0xffffff00"))) (; ";")) (do_statement "do {\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n } while ((uVar16 & 0xff) != 0);" (do "do") (compound_statement "{\n local_134.__count = 0;\n local_134.__value.__wch = 0;\n iVar7 = FUN_000208cc(0,&local_138,1,&local_134);\n if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }\n uVar16 = (local_138 & 0xff) + 1;\n local_138 = CONCAT31(local_138._1_3_,(char)uVar16);\n }" ({ "{") (expression_statement "local_134.__count = 0;" (assignment_expression "local_134.__count = 0" (field_expression "local_134.__count" (identifier "local_134") (. ".") (field_identifier "__count")) (= "=") (number_literal "0")) (; ";")) (expression_statement "local_134.__value.__wch = 0;" (assignment_expression "local_134.__value.__wch = 0" (field_expression "local_134.__value.__wch" (field_expression "local_134.__value" (identifier "local_134") (. ".") (field_identifier "__value")) (. ".") (field_identifier "__wch")) (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar7 = FUN_000208cc(0,&local_138,1,&local_134);" (assignment_expression "iVar7 = FUN_000208cc(0,&local_138,1,&local_134)" (identifier "iVar7") (= "=") (call_expression "FUN_000208cc(0,&local_138,1,&local_134)" (identifier "FUN_000208cc") (argument_list "(0,&local_138,1,&local_134)" (( "(") (number_literal "0") (, ",") (pointer_expression "&local_138" (& "&") (identifier "local_138")) (, ",") (number_literal "1") (, ",") (pointer_expression "&local_134" (& "&") (identifier "local_134")) () ")")))) (; ";")) (if_statement "if (iVar7 == -2) {\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" (if "if") (parenthesized_expression "(iVar7 == -2)" (( "(") (binary_expression "iVar7 == -2" (identifier "iVar7") (== "==") (number_literal "-2")) () ")")) (compound_statement "{\n *(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;\n }" ({ "{") (expression_statement "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + (local_138 & 0xff))" (* "*") (cast_expression "(undefined1 *)((int)param_4 + (local_138 & 0xff))" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + (local_138 & 0xff))" (( "(") (binary_expression "(int)param_4 + (local_138 & 0xff)" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (parenthesized_expression "(local_138 & 0xff)" (( "(") (binary_expression "local_138 & 0xff" (identifier "local_138") (& "&") (number_literal "0xff")) () ")"))) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (expression_statement "uVar16 = (local_138 & 0xff) + 1;" (assignment_expression "uVar16 = (local_138 & 0xff) + 1" (identifier "uVar16") (= "=") (binary_expression "(local_138 & 0xff) + 1" (parenthesized_expression "(local_138 & 0xff)" (( "(") (binary_expression "local_138 & 0xff" (identifier "local_138") (& "&") (number_literal "0xff")) () ")")) (+ "+") (number_literal "1"))) (; ";")) (expression_statement "local_138 = CONCAT31(local_138._1_3_,(char)uVar16);" (assignment_expression "local_138 = CONCAT31(local_138._1_3_,(char)uVar16)" (identifier "local_138") (= "=") (call_expression "CONCAT31(local_138._1_3_,(char)uVar16)" (identifier "CONCAT31") (argument_list "(local_138._1_3_,(char)uVar16)" (( "(") (field_expression "local_138._1_3_" (identifier "local_138") (. ".") (field_identifier "_1_3_")) (, ",") (cast_expression "(char)uVar16" (( "(") (type_descriptor "char" (primitive_type "char")) () ")") (identifier "uVar16")) () ")")))) (; ";")) (} "}")) (while "while") (parenthesized_expression "((uVar16 & 0xff) != 0)" (( "(") (binary_expression "(uVar16 & 0xff) != 0" (parenthesized_expression "(uVar16 & 0xff)" (( "(") (binary_expression "uVar16 & 0xff" (identifier "uVar16") (& "&") (number_literal "0xff")) () ")")) (!= "!=") (number_literal "0")) () ")")) (; ";")) (} "}")))) (goto_statement "goto LAB_00026b30;" (goto "goto") (statement_identifier "LAB_00026b30") (; ";")) (} "}"))) (if_statement "if ((bVar1 & 0xfd) == 5) {\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }\n else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" (if "if") (parenthesized_expression "((bVar1 & 0xfd) == 5)" (( "(") (binary_expression "(bVar1 & 0xfd) == 5" (parenthesized_expression "(bVar1 & 0xfd)" (( "(") (binary_expression "bVar1 & 0xfd" (identifier "bVar1") (& "&") (number_literal "0xfd")) () ")")) (== "==") (number_literal "5")) () ")")) (compound_statement "{\n memset(param_4,1,0x100);\n if (bVar1 != 2) break;\n }" ({ "{") (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" (identifier "memset") (argument_list "(param_4,1,0x100)" (( "(") (identifier "param_4") (, ",") (number_literal "1") (, ",") (number_literal "0x100") () ")"))) (; ";")) (if_statement "if (bVar1 != 2) break;" (if "if") (parenthesized_expression "(bVar1 != 2)" (( "(") (binary_expression "bVar1 != 2" (identifier "bVar1") (!= "!=") (number_literal "2")) () ")")) (break_statement "break;" (break "break") (; ";"))) (} "}")) (else_clause "else {\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" (else "else") (compound_statement "{\n if (bVar1 != 2) goto LAB_00026ab4;\n memset(param_4,1,0x100);\n }" ({ "{") (if_statement "if (bVar1 != 2) goto LAB_00026ab4;" (if "if") (parenthesized_expression "(bVar1 != 2)" (( "(") (binary_expression "bVar1 != 2" (identifier "bVar1") (!= "!=") (number_literal "2")) () ")")) (goto_statement "goto LAB_00026ab4;" (goto "goto") (statement_identifier "LAB_00026ab4") (; ";"))) (expression_statement "memset(param_4,1,0x100);" (call_expression "memset(param_4,1,0x100)" (identifier "memset") (argument_list "(param_4,1,0x100)" (( "(") (identifier "param_4") (, ",") (number_literal "1") (, ",") (number_literal "0x100") () ")"))) (; ";")) (} "}")))) (expression_statement "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;" (assignment_expression "*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" (* "*") (cast_expression "(byte *)(param_1 + 7)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 7)" (( "(") (binary_expression "param_1 + 7" (identifier "param_1") (+ "+") (number_literal "7")) () ")")))) (= "=") (binary_expression "*(byte *)(param_1 + 7) | 1" (pointer_expression "*(byte *)(param_1 + 7)" (* "*") (cast_expression "(byte *)(param_1 + 7)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(param_1 + 7)" (( "(") (binary_expression "param_1 + 7" (identifier "param_1") (+ "+") (number_literal "7")) () ")")))) (| "|") (number_literal "1"))) (; ";")) (break_statement "break;" (break "break") (; ";")) (} "}"))) (expression_statement "iVar11 = 0;" (assignment_expression "iVar11 = 0" (identifier "iVar11") (= "=") (number_literal "0")) (; ";")) (expression_statement "iVar7 = 0x20;" (assignment_expression "iVar7 = 0x20" (identifier "iVar7") (= "=") (number_literal "0x20")) (; ";")) (expression_statement "local_158 = (byte *)0x0;" (assignment_expression "local_158 = (byte *)0x0" (identifier "local_158") (= "=") (cast_expression "(byte *)0x0" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) (; ";")) (while_statement "while( true ) {\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" (while "while") (parenthesized_expression "( true )" (( "(") (true "true") () ")")) (compound_statement "{\n iVar12 = iVar7 + -0x20;\n uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);\n do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);\n iVar7 = iVar7 + 0x20;\n local_158 = (byte *)((int)local_158 + 4);\n iVar11 = iVar11 + -0x20;\n if (iVar7 == 0x120) break;\n iVar8 = *piVar15;\n }" ({ "{") (expression_statement "iVar12 = iVar7 + -0x20;" (assignment_expression "iVar12 = iVar7 + -0x20" (identifier "iVar12") (= "=") (binary_expression "iVar7 + -0x20" (identifier "iVar7") (+ "+") (number_literal "-0x20"))) (; ";")) (expression_statement "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);" (assignment_expression "uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" (identifier "uVar16") (= "=") (pointer_expression "*(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" (* "*") (cast_expression "(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158)" (( "(") (type_descriptor "uint *" (type_identifier "uint") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(*(int *)(iVar8 + iVar4) + (int)local_158)" (( "(") (binary_expression "*(int *)(iVar8 + iVar4) + (int)local_158" (pointer_expression "*(int *)(iVar8 + iVar4)" (* "*") (cast_expression "(int *)(iVar8 + iVar4)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar8 + iVar4)" (( "(") (binary_expression "iVar8 + iVar4" (identifier "iVar8") (+ "+") (identifier "iVar4")) () ")")))) (+ "+") (cast_expression "(int)local_158" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "local_158"))) () ")"))))) (; ";")) (do_statement "do {\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n } while (iVar7 != iVar12);" (do "do") (compound_statement "{\n if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }\n iVar12 = iVar12 + 1;\n }" ({ "{") (if_statement "if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" (if "if") (parenthesized_expression "(((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0))" (( "(") (binary_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&\n (*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" (parenthesized_expression "((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0)" (( "(") (binary_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0" (parenthesized_expression "(uVar16 >> (iVar11 + iVar12 & 0xffU) & 1)" (( "(") (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU) & 1" (binary_expression "uVar16 >> (iVar11 + iVar12 & 0xffU)" (identifier "uVar16") (>> ">>") (parenthesized_expression "(iVar11 + iVar12 & 0xffU)" (( "(") (binary_expression "iVar11 + iVar12 & 0xffU" (binary_expression "iVar11 + iVar12" (identifier "iVar11") (+ "+") (identifier "iVar12")) (& "&") (number_literal "0xffU")) () ")"))) (& "&") (number_literal "1")) () ")")) (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)" (( "(") (comma_expression "*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0" (assignment_expression "*(undefined1 *)((int)param_4 + iVar12) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar12)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + iVar12)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + iVar12)" (( "(") (binary_expression "(int)param_4 + iVar12" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (identifier "iVar12")) () ")")))) (= "=") (number_literal "1")) (, ",") (binary_expression "unaff_r5 != 0" (identifier "unaff_r5") (!= "!=") (number_literal "0"))) () ")"))) () ")")) (compound_statement "{\n iVar8 = iVar12;\n if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }\n *(undefined1 *)((int)param_4 + iVar8) = 1;\n }" ({ "{") (expression_statement "iVar8 = iVar12;" (assignment_expression "iVar8 = iVar12" (identifier "iVar8") (= "=") (identifier "iVar12")) (; ";")) (if_statement "if (iVar12 + 0x80U <= uVar2) {\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" (if "if") (parenthesized_expression "(iVar12 + 0x80U <= uVar2)" (( "(") (binary_expression "iVar12 + 0x80U <= uVar2" (binary_expression "iVar12 + 0x80U" (identifier "iVar12") (+ "+") (number_literal "0x80U")) (<= "<=") (identifier "uVar2")) () ")")) (compound_statement "{\n pp_Var3 = __ctype_tolower_loc();\n iVar8 = (*pp_Var3)[iVar12];\n }" ({ "{") (expression_statement "pp_Var3 = __ctype_tolower_loc();" (assignment_expression "pp_Var3 = __ctype_tolower_loc()" (identifier "pp_Var3") (= "=") (call_expression "__ctype_tolower_loc()" (identifier "__ctype_tolower_loc") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "iVar8 = (*pp_Var3)[iVar12];" (assignment_expression "iVar8 = (*pp_Var3)[iVar12]" (identifier "iVar8") (= "=") (subscript_expression "(*pp_Var3)[iVar12]" (parenthesized_expression "(*pp_Var3)" (( "(") (pointer_expression "*pp_Var3" (* "*") (identifier "pp_Var3")) () ")")) ([ "[") (identifier "iVar12") (] "]"))) (; ";")) (} "}"))) (expression_statement "*(undefined1 *)((int)param_4 + iVar8) = 1;" (assignment_expression "*(undefined1 *)((int)param_4 + iVar8) = 1" (pointer_expression "*(undefined1 *)((int)param_4 + iVar8)" (* "*") (cast_expression "(undefined1 *)((int)param_4 + iVar8)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_4 + iVar8)" (( "(") (binary_expression "(int)param_4 + iVar8" (cast_expression "(int)param_4" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_4")) (+ "+") (identifier "iVar8")) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (expression_statement "iVar12 = iVar12 + 1;" (assignment_expression "iVar12 = iVar12 + 1" (identifier "iVar12") (= "=") (binary_expression "iVar12 + 1" (identifier "iVar12") (+ "+") (number_literal "1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar7 != iVar12)" (( "(") (binary_expression "iVar7 != iVar12" (identifier "iVar7") (!= "!=") (identifier "iVar12")) () ")")) (; ";")) (expression_statement "iVar7 = iVar7 + 0x20;" (assignment_expression "iVar7 = iVar7 + 0x20" (identifier "iVar7") (= "=") (binary_expression "iVar7 + 0x20" (identifier "iVar7") (+ "+") (number_literal "0x20"))) (; ";")) (expression_statement "local_158 = (byte *)((int)local_158 + 4);" (assignment_expression "local_158 = (byte *)((int)local_158 + 4)" (identifier "local_158") (= "=") (cast_expression "(byte *)((int)local_158 + 4)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)local_158 + 4)" (( "(") (binary_expression "(int)local_158 + 4" (cast_expression "(int)local_158" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "local_158")) (+ "+") (number_literal "4")) () ")")))) (; ";")) (expression_statement "iVar11 = iVar11 + -0x20;" (assignment_expression "iVar11 = iVar11 + -0x20" (identifier "iVar11") (= "=") (binary_expression "iVar11 + -0x20" (identifier "iVar11") (+ "+") (number_literal "-0x20"))) (; ";")) (if_statement "if (iVar7 == 0x120) break;" (if "if") (parenthesized_expression "(iVar7 == 0x120)" (( "(") (binary_expression "iVar7 == 0x120" (identifier "iVar7") (== "==") (number_literal "0x120")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "iVar8 = *piVar15;" (assignment_expression "iVar8 = *piVar15" (identifier "iVar8") (= "=") (pointer_expression "*piVar15" (* "*") (identifier "piVar15"))) (; ";")) (} "}"))) (expression_statement "iVar7 = *param_2;" (assignment_expression "iVar7 = *param_2" (identifier "iVar7") (= "=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) (; ";")) (} "}")))) (labeled_statement "LAB_00026ab4:\n local_15c = local_15c + 1;" (statement_identifier "LAB_00026ab4") (: ":") (expression_statement "local_15c = local_15c + 1;" (assignment_expression "local_15c = local_15c + 1" (identifier "local_15c") (= "=") (binary_expression "local_15c + 1" (identifier "local_15c") (+ "+") (number_literal "1"))) (; ";"))) (} "}")) (while "while") (parenthesized_expression "(local_15c < iVar7)" (( "(") (binary_expression "local_15c < iVar7" (identifier "local_15c") (< "<") (identifier "iVar7")) () ")")) (; ";")) (} "}"))) (if_statement "if (local_2c != *piVar18) {\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" (if "if") (parenthesized_expression "(local_2c != *piVar18)" (( "(") (binary_expression "local_2c != *piVar18" (identifier "local_2c") (!= "!=") (pointer_expression "*piVar18" (* "*") (identifier "piVar18"))) () ")")) (compound_statement "{\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n }" ({ "{") (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" (identifier "__stack_chk_fail") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}"))) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
/* DWARF original prototype: void re_compile_fastmap_iter(regex_t * bufp, re_dfastate_t *
init_state, char * fastmap, re_dfastate_t * init_state) */
void function_1
(type_1 *bufp,type_2 *init_state,char *fastmap,type_2 *init_state_1)
{
type_3 var_5;
type_4 var_24;
type_5 **pp_Var3;
size_t var_13;
type_6 wVar5;
size_t var_17;
type_7 rVar7;
type_8 *prVar8;
type_4 var_8;
type_2 *prVar10;
int var_25;
type_4 var_3;
int var_7;
int var_23;
int var_21;
type_9 *var_11;
type_9 *puVar16;
size_t var_14;
int var_22;
type_10 *prVar19;
type_11 pbVar20;
int *piVar21;
int var_26;
bool bVar23;
int var_4;
char *local_158;
type_9 c;
type_12 uStack_137;
type_13 state;
char var_10 [256];
var_24 = DAT_00026ed0;
prVar19 = bufp->buffer;
bVar23 = prVar19->mb_cur_max == 1;
prVar10 = init_state_1;
if (bVar23) {
prVar10 = (type_2 *)bufp;
}
piVar21 = *(int **)(var_1 + 0x26a44 + var_2);
if (bVar23) {
var_3 = (type_4)(prVar10->nodes).elems >> 0x16;
}
rVar7 = init_state->hash;
if (bVar23) {
var_3 = var_3 & 1;
}
var_26 = *piVar21;
if (!bVar23) {
var_3 = 0;
}
if (0 < (int)rVar7) {
var_4 = 0;
do {
prVar8 = prVar19->nodes;
var_7 = *(int *)(*(int *)fastmap + var_4 * 4);
var_5 = prVar8[var_7].field_0x4;
if (var_5 == 1) {
var_5 = prVar8[var_7].opr.c;
*(type_14 *)((int)&init_state_1->hash + (type_4)var_5) = 1;
if (var_3 != 0) {
pp_Var3 = var_6();
*(type_14 *)((int)&init_state_1->hash + (*pp_Var3)[var_5]) = 1;
}
if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {
var_8 = var_7 + 1;
var_10[0] = prVar19->nodes[var_7].opr.c;
if ((var_8 < prVar19->nodes_len) &&
(prVar8 = prVar19->nodes + var_7 + 1,
(*(type_4 *)&prVar8->field_0x4 & 0x2000ff) == var_9)) {
var_11 = (type_9 *)(var_10 + 1);
do {
puVar16 = var_11 + 1;
*var_11 = (prVar8->opr).c;
var_8 = var_8 + 1;
if (prVar19->nodes_len <= var_8) break;
prVar8 = prVar19->nodes + var_8;
var_11 = puVar16;
} while ((*(type_4 *)&prVar8->field_0x4 & 0x2000ff) == var_9);
var_14 = (int)puVar16 - (int)var_10;
}
else {
var_14 = 1;
}
local_158 = var_10;
state.__count = 0;
state.__value.__wch = L'\0';
var_13 = var_12((type_6 *)&c,local_158,var_14,&state);
if (var_13 == var_14) {
wVar5 = var_15(var_18);
var_17 = var_16(local_158,wVar5,(type_13 *)&state);
if (var_17 != 0xffffffff) {
*(type_14 *)((int)&init_state_1->hash + (type_4)(type_3)var_10[0]) = 1;
rVar7 = init_state->hash;
goto LAB_00026ab4;
}
}
}
LAB_00026b30:
rVar7 = init_state->hash;
}
else {
if (var_5 != 3) {
if (var_5 == 6) {
pbVar20 = prVar8[var_7].opr.sbcset;
if ((prVar19->mb_cur_max < 2) ||
(((pbVar20[9] == 0 && ((pbVar20[4] & 1) == 0)) && (pbVar20[8] == 0)))) {
if ((int)pbVar20[5] < 1) goto LAB_00026ab4;
var_7 = 0;
do {
state.__count = 0;
state.__value.__wch = L'\0';
var_17 = var_16(var_10,*(type_6 *)(*pbVar20 + var_7 * 4),(type_13 *)&state);
if (var_17 != 0xffffffff) {
var_8 = (type_4)(type_3)var_10[0];
*(type_14 *)((int)&init_state_1->hash + var_8) = 1;
if (var_3 != 0) {
pp_Var3 = var_6();
*(type_14 *)((int)&init_state_1->hash + (*pp_Var3)[var_8]) = 1;
}
}
if (((bufp->syntax & 0x400000) != 0) && (1 < prVar19->mb_cur_max)) {
wVar5 = var_15(*(type_15 *)(*pbVar20 + var_7 * 4));
var_17 = var_16(var_10,wVar5,(type_13 *)&state);
if (var_17 != 0xffffffff) {
*(type_14 *)((int)&init_state_1->hash + (type_4)(type_3)var_10[0]) = 1;
}
}
var_7 = var_7 + 1;
} while (var_7 < (int)pbVar20[5]);
}
else {
var_18 = var_18 & 0xffffff00;
do {
state.__count = 0;
state.__value.__wch = L'\0';
var_14 = var_12((type_6 *)0x0,(char *)&c,1,&state);
if (var_14 == 0xfffffffe) {
*(type_14 *)((int)&init_state_1->hash + (var_18 & 0xffU)) = 1;
}
var_8 = (var_18 & 0xffU) + 1;
var_18 = var_19(uStack_137,(char)var_8);
} while ((var_8 & 0xff) != 0);
}
goto LAB_00026b30;
}
if ((var_5 & 0xfd) == 5) {
var_20(init_state_1,1,0x100);
if (var_5 != 2) break;
}
else {
if (var_5 != 2) goto LAB_00026ab4;
var_20(init_state_1,1,0x100);
}
bufp->field_0x1c = bufp->field_0x1c | 1;
break;
}
var_22 = 0;
var_21 = 0x20;
local_158 = (char *)0x0;
while( true ) {
var_23 = var_21 + -0x20;
var_8 = *(type_4 *)((int)prVar8[var_7].opr.sbcset + (int)local_158);
do {
if (((var_8 >> (var_22 + var_23 & 0xffU) & 1) != 0) &&
(*(type_14 *)((int)&init_state_1->hash + var_23) = 1, var_3 != 0)) {
var_25 = var_23;
if (var_23 + 0x80U <= var_24) {
pp_Var3 = var_6();
var_25 = (*pp_Var3)[var_23];
}
*(type_14 *)((int)&init_state_1->hash + var_25) = 1;
}
var_23 = var_23 + 1;
} while (var_21 != var_23);
var_21 = var_21 + 0x20;
local_158 = (char *)((int)local_158 + 4);
var_22 = var_22 + -0x20;
if (var_21 == 0x120) break;
prVar8 = prVar19->nodes;
}
rVar7 = init_state->hash;
}
LAB_00026ab4:
var_4 = var_4 + 1;
} while (var_4 < (int)rVar7);
}
if (var_26 != *piVar21) {
/* WARNING: Subroutine does not return */
var_27();
}
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (pointer_declarator declarator: (identifier)))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (subscript_expression argument: (identifier) index: (number_literal))) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (identifier)) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (unary_expression argument: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (identifier))))) right: (number_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (subscript_expression argument: (parenthesized_expression (pointer_expression argument: (identifier))) index: (identifier)))))) right: (number_literal))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (number_literal) right: (subscript_expression argument: (identifier) index: (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (subscript_expression argument: (identifier) index: (number_literal))))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (pointer_expression argument: (identifier)) right: (identifier)) right: (number_literal))))) right: (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (identifier)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (identifier))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (type_identifier)) value: (subscript_expression argument: (identifier) index: (number_literal))) right: (identifier))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (identifier)))) condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (pointer_expression argument: (identifier))))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (field_expression argument: (identifier) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (identifier)) (identifier) (identifier) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (identifier)) (identifier) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))))) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (goto_statement label: (statement_identifier)))))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) alternative: (else_clause (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) right: (parenthesized_expression (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal)) right: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))))) right: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal)))))))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (field_expression argument: (identifier) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier))) (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (identifier))))) right: (number_literal))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (subscript_expression argument: (parenthesized_expression (pointer_expression argument: (identifier))) index: (identifier)))))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))) right: (number_literal))) right: (parenthesized_expression (binary_expression left: (number_literal) right: (subscript_expression argument: (identifier) index: (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (identifier) right: (number_literal)))))))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier))) (identifier) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (cast_expression type: (type_descriptor type: (type_identifier)) value: (identifier)))))) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (field_expression argument: (identifier) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier)) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (pointer_expression argument: (identifier)) (number_literal) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (field_expression argument: (identifier) field: (field_identifier)) (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier))))))) condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))))) (goto_statement label: (statement_identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (break_statement))) alternative: (else_clause (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (goto_statement label: (statement_identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal)))) (break_statement))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) (while_statement condition: (parenthesized_expression (true)) body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (identifier))))) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)))))))) (do_statement body: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal)))) right: (number_literal))) right: (number_literal))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (identifier))))) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (parenthesized_expression (pointer_expression argument: (identifier))) index: (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (identifier))))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier))))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))) (return_statement))))
|
void MASKED(undefined4 *param_1,int *param_2,int *param_3,undefined4 *param_4)
{
byte bVar1;
uint uVar2;
__int32_t **pp_Var3;
int iVar4;
wchar_t wVar5;
size_t sVar6;
int iVar7;
int iVar8;
undefined4 *puVar9;
undefined1 *puVar10;
uint unaff_r5;
int iVar11;
int iVar12;
undefined1 *puVar13;
undefined1 *puVar14;
int *piVar15;
uint uVar16;
int *piVar17;
int *piVar18;
bool bVar19;
int local_15c;
byte *local_158;
uint local_138;
mbstate_t local_134;
byte local_12c;
undefined1 auStack_12b [255];
int local_2c;
uVar2 = DAT_00026ed0;
piVar15 = (int *)*param_1;
bVar19 = piVar15[0x17] == 1;
puVar9 = param_4;
if (bVar19) {
puVar9 = param_1;
}
piVar18 = *(int **)(DAT_00026ec8 + 0x26a44 + DAT_00026ecc);
if (bVar19) {
unaff_r5 = (uint)puVar9[3] >> 0x16;
}
iVar7 = *param_2;
if (bVar19) {
unaff_r5 = unaff_r5 & 1;
}
local_2c = *piVar18;
if (!bVar19) {
unaff_r5 = 0;
}
if (0 < iVar7) {
local_15c = 0;
do {
iVar8 = *piVar15;
iVar11 = *(int *)(*param_3 + local_15c * 4);
iVar4 = iVar11 * 8;
bVar1 = *(byte *)((undefined4 *)(iVar8 + iVar4) + 1);
if (bVar1 == 1) {
uVar16 = (uint)*(byte *)(iVar8 + iVar11 * 8);
*(undefined1 *)((int)param_4 + uVar16) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;
}
if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {
uVar16 = iVar11 + 1;
local_12c = *(byte *)(*piVar15 + iVar11 * 8);
if ((uVar16 < (uint)piVar15[2]) &&
(puVar10 = (undefined1 *)(*piVar15 + iVar4 + 8),
(*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4)) {
puVar13 = auStack_12b;
do {
puVar14 = puVar13 + 1;
*puVar13 = *puVar10;
uVar16 = uVar16 + 1;
if ((uint)piVar15[2] <= uVar16) break;
puVar10 = (undefined1 *)(*piVar15 + uVar16 * 8);
puVar13 = puVar14;
} while ((*(uint *)(puVar10 + 4) & 0x2000ff) == DAT_00026ed4);
iVar7 = (int)puVar14 - (int)&local_12c;
}
else {
iVar7 = 1;
}
local_158 = &local_12c;
local_134.__count = 0;
local_134.__value.__wch = 0;
iVar4 = FUN_000208cc(&local_138,local_158,iVar7,&local_134);
if (iVar4 == iVar7) {
wVar5 = towlower(local_138);
sVar6 = wcrtomb((char *)local_158,wVar5,&local_134);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;
iVar7 = *param_2;
goto LAB_00026ab4;
}
}
}
LAB_00026b30:
iVar7 = *param_2;
}
else {
if (bVar1 != 3) {
if (bVar1 == 6) {
piVar17 = *(int **)(iVar8 + iVar4);
if ((piVar15[0x17] < 2) ||
(((piVar17[9] == 0 && ((*(byte *)(piVar17 + 4) & 1) == 0)) && (piVar17[8] == 0)))) {
if (piVar17[5] < 1) goto LAB_00026ab4;
iVar7 = 0;
do {
local_134.__count = 0;
local_134.__value.__wch = 0;
sVar6 = wcrtomb((char *)&local_12c,*(wchar_t *)(*piVar17 + iVar7 * 4),&local_134);
if (sVar6 != 0xffffffff) {
uVar16 = (uint)local_12c;
*(undefined1 *)((int)param_4 + uVar16) = 1;
if (unaff_r5 != 0) {
pp_Var3 = __ctype_tolower_loc();
*(undefined1 *)((int)param_4 + (*pp_Var3)[uVar16]) = 1;
}
}
if (((param_1[3] & 0x400000) != 0) && (1 < piVar15[0x17])) {
wVar5 = towlower(*(wint_t *)(*piVar17 + iVar7 * 4));
sVar6 = wcrtomb((char *)&local_12c,wVar5,&local_134);
if (sVar6 != 0xffffffff) {
*(undefined1 *)((int)param_4 + (uint)local_12c) = 1;
}
}
iVar7 = iVar7 + 1;
} while (iVar7 < piVar17[5]);
}
else {
local_138 = local_138 & 0xffffff00;
do {
local_134.__count = 0;
local_134.__value.__wch = 0;
iVar7 = FUN_000208cc(0,&local_138,1,&local_134);
if (iVar7 == -2) {
*(undefined1 *)((int)param_4 + (local_138 & 0xff)) = 1;
}
uVar16 = (local_138 & 0xff) + 1;
local_138 = CONCAT31(local_138._1_3_,(char)uVar16);
} while ((uVar16 & 0xff) != 0);
}
goto LAB_00026b30;
}
if ((bVar1 & 0xfd) == 5) {
memset(param_4,1,0x100);
if (bVar1 != 2) break;
}
else {
if (bVar1 != 2) goto LAB_00026ab4;
memset(param_4,1,0x100);
}
*(byte *)(param_1 + 7) = *(byte *)(param_1 + 7) | 1;
break;
}
iVar11 = 0;
iVar7 = 0x20;
local_158 = (byte *)0x0;
while( true ) {
iVar12 = iVar7 + -0x20;
uVar16 = *(uint *)(*(int *)(iVar8 + iVar4) + (int)local_158);
do {
if (((uVar16 >> (iVar11 + iVar12 & 0xffU) & 1) != 0) &&
(*(undefined1 *)((int)param_4 + iVar12) = 1, unaff_r5 != 0)) {
iVar8 = iVar12;
if (iVar12 + 0x80U <= uVar2) {
pp_Var3 = __ctype_tolower_loc();
iVar8 = (*pp_Var3)[iVar12];
}
*(undefined1 *)((int)param_4 + iVar8) = 1;
}
iVar12 = iVar12 + 1;
} while (iVar7 != iVar12);
iVar7 = iVar7 + 0x20;
local_158 = (byte *)((int)local_158 + 4);
iVar11 = iVar11 + -0x20;
if (iVar7 == 0x120) break;
iVar8 = *piVar15;
}
iVar7 = *param_2;
}
LAB_00026ab4:
local_15c = local_15c + 1;
} while (local_15c < iVar7);
}
if (local_2c != *piVar18) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return;
}
| 64,820 |
||
32_libsqlite3.so.0.8_and_libsqlite3.so.0.8_strip.c
|
pthread_mutex_trylock
|
pthread_mutex_trylock
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int pthread_mutex_trylock(pthread_mutex_t *__mutex)
{
int iVar1;
iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();
return iVar1;
}
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int pthread_mutex_trylock(pthread_mutex_t *__mutex)
{
int iVar1;
iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();
return iVar1;
}
|
adr r12,0x16610
add r12,r12,#0xb7000
ldr pc,[r12,#0xa84]!
| null | null | null | null |
[('const-0', u'RETURN_-1205967314'), ('tmp_120', u'CAST_-1205967242'), (u'CAST_-1205967242', u'CALLIND_-1205967317'), (u'CALLIND_-1205967317', u'INDIRECT_-1205967247'), (u'CALLIND_-1205967317', u'RETURN_-1205967314'), (u'INDIRECT_-1205967247', u'COPY_-1205967306')]
|
[('const-0', u'RETURN_-1205967314'), ('tmp_120', u'CAST_-1205967242'), (u'CAST_-1205967242', u'CALLIND_-1205967317'), (u'CALLIND_-1205967317', u'INDIRECT_-1205967247'), (u'CALLIND_-1205967317', u'RETURN_-1205967314'), (u'INDIRECT_-1205967247', u'COPY_-1205967306')]
| null | null |
00016608
|
arm
|
O2
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}\n\n" comment (function_definition "int pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" primitive_type (function_declarator "pthread_mutex_trylock(pthread_mutex_t *__mutex)" identifier (parameter_list "(pthread_mutex_t *__mutex)" ( (parameter_declaration "pthread_mutex_t *__mutex" type_identifier (pointer_declarator "*__mutex" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();" (assignment_expression "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)()" identifier = (call_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)()" (parenthesized_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)" ( (pointer_expression "*(code *)PTR_pthread_mutex_trylock_000ce094" * (cast_expression "(code *)PTR_pthread_mutex_trylock_000ce094" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}\n\n" comment (function_definition "int pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" primitive_type (function_declarator "pthread_mutex_trylock(pthread_mutex_t *__mutex)" identifier (parameter_list "(pthread_mutex_t *__mutex)" ( (parameter_declaration "pthread_mutex_t *__mutex" type_identifier (pointer_declarator "*__mutex" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();" (assignment_expression "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)()" identifier = (call_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)()" (parenthesized_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)" ( (pointer_expression "*(code *)PTR_pthread_mutex_trylock_000ce094" * (cast_expression "(code *)PTR_pthread_mutex_trylock_000ce094" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit "/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nint pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}\n\n" comment (function_definition "int pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" primitive_type (function_declarator "pthread_mutex_trylock(pthread_mutex_t *__mutex)" identifier (parameter_list "(pthread_mutex_t *__mutex)" ( (parameter_declaration "pthread_mutex_t *__mutex" type_identifier (pointer_declarator "*__mutex" * identifier)) ))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" { (declaration "int iVar1;" primitive_type identifier ;) (expression_statement "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();" (assignment_expression "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)()" identifier = (call_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)()" (parenthesized_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)" ( (pointer_expression "*(code *)PTR_pthread_mutex_trylock_000ce094" * (cast_expression "(code *)PTR_pthread_mutex_trylock_000ce094" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( )))) ;) (return_statement "return iVar1;" return identifier ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( )))) ;) (return_statement return IDENT ;) })))
|
(comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "int pthread_mutex_trylock(pthread_mutex_t *__mutex)\n\n{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" (primitive_type "int") (function_declarator "pthread_mutex_trylock(pthread_mutex_t *__mutex)" (identifier "pthread_mutex_trylock") (parameter_list "(pthread_mutex_t *__mutex)" (( "(") (parameter_declaration "pthread_mutex_t *__mutex" (type_identifier "pthread_mutex_t") (pointer_declarator "*__mutex" (* "*") (identifier "__mutex"))) () ")"))) (compound_statement "{\n int iVar1;\n \n iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();\n return iVar1;\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (expression_statement "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)();" (assignment_expression "iVar1 = (*(code *)PTR_pthread_mutex_trylock_000ce094)()" (identifier "iVar1") (= "=") (call_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)()" (parenthesized_expression "(*(code *)PTR_pthread_mutex_trylock_000ce094)" (( "(") (pointer_expression "*(code *)PTR_pthread_mutex_trylock_000ce094" (* "*") (cast_expression "(code *)PTR_pthread_mutex_trylock_000ce094" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_pthread_mutex_trylock_000ce094"))) () ")")) (argument_list "()" (( "(") () ")")))) (; ";")) (return_statement "return iVar1;" (return "return") (identifier "iVar1") (; ";")) (} "}")))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int function_1(type_1 *__mutex)
{
int iVar1;
iVar1 = (*(type_2 *)PTR_pthread_mutex_trylock_000ce094)();
return iVar1;
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list)))) (return_statement (identifier)))))
|
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
int MASKED(pthread_mutex_t *__mutex)
{
int iVar1;
iVar1 = (*(code *)PTR_MASKED_000ce094)();
return iVar1;
}
| 67,221 |
||
179_arm-linux-gnueabi-objdump_and_arm-linux-gnueabi-objdump_strip.c
|
load_separate_debug_info
|
FUN_0001b820
|
void * load_separate_debug_info
(char *main_filename,dwarf_section *xlink,parse_func_type parse_func,
check_func_type check_func,void *func_data)
{
char cVar1;
char *__s;
char *__s_00;
char *pcVar2;
size_t sVar3;
bfd_boolean bVar4;
void *pvVar5;
char *pcVar6;
__s = (*parse_func)(xlink,func_data);
if (__s == (char *)0x0) {
/* WARNING: Subroutine does not return */
dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);
}
__s_00 = (char *)lrealpath(main_filename);
pcVar2 = (char *)strlen(__s_00);
pcVar6 = __s_00;
if ((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')) {
pcVar6 = __s_00 + (int)(pcVar2 + -2);
do {
pcVar2 = pcVar6 + (1 - (int)__s_00);
if (pcVar6 == __s_00 + -1) {
pcVar2 = (char *)0x0;
pcVar6 = __s_00;
goto LAB_0001b8a4;
}
cVar1 = *pcVar6;
pcVar6 = pcVar6 + -1;
} while (cVar1 != '/');
pcVar6 = __s_00 + (int)pcVar2;
}
LAB_0001b8a4:
*pcVar6 = '\0';
sVar3 = strlen(__s);
pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33));
if (pcVar6 == (char *)0x0) {
/* WARNING: Subroutine does not return */
dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);
}
memcpy(pcVar6,__s,sVar3 + 1);
bVar4 = (*check_func)(pcVar6,func_data);
if (bVar4 != 0) {
free(__s_00);
pvVar5 = open_debug_file(pcVar6);
*(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;
if (pvVar5 != (void *)0x0) {
/* WARNING: Subroutine does not return */
dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);
}
/* WARNING: Subroutine does not return */
dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);
}
/* WARNING: Subroutine does not return */
sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s);
}
|
undefined4
FUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)
{
char cVar1;
char *pcVar2;
char *__s;
char *pcVar3;
size_t sVar4;
int iVar5;
int iVar6;
int iVar7;
undefined4 uVar8;
char *pcVar9;
char *__format;
undefined4 uVar10;
char *__format_00;
char *__format_01;
pcVar2 = (char *)(*param_3)(param_2,param_5);
if (pcVar2 == (char *)0x0) {
uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);
iVar5 = param_2[2];
if (iVar5 == 0) {
iVar5 = *param_2;
}
warn(uVar10,iVar5);
uVar10 = 0;
}
else {
__s = (char *)lrealpath(param_1);
pcVar3 = (char *)strlen(__s);
pcVar9 = __s;
if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {
pcVar9 = __s + (int)(pcVar3 + -2);
do {
pcVar3 = pcVar9 + (1 - (int)__s);
if (pcVar9 == __s + -1) {
pcVar3 = (char *)0x0;
pcVar9 = __s;
goto LAB_0001b8a4;
}
cVar1 = *pcVar9;
pcVar9 = pcVar9 + -1;
} while (cVar1 != '/');
pcVar9 = __s + (int)pcVar3;
}
LAB_0001b8a4:
*pcVar9 = '\0';
sVar4 = strlen(pcVar2);
pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));
if (pcVar9 == (char *)0x0) {
dcgettext(0,DAT_0001bc68 + 0x1bc04,5);
warn();
uVar10 = 0;
}
else {
memcpy(pcVar9,pcVar2,sVar4 + 1);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);
sprintf(pcVar9,pcVar3,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format_00 = (char *)(DAT_0001bc44 + 0x1b984);
sprintf(pcVar9,__format_00,__s,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);
sprintf(pcVar9,__format_01,__s,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format = (char *)(DAT_0001bc4c + 0x1b9e4);
iVar6 = DAT_0001bc50 + 0x1b9e8;
sprintf(pcVar9,__format,iVar6,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
iVar7 = DAT_0001bc54 + 0x1ba20;
sprintf(pcVar9,__format,iVar7,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);
uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);
*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);
*(undefined4 *)(pcVar9 + 4) = uVar10;
*(short *)(pcVar9 + 8) = (short)uVar8;
pcVar9[10] = '/';
strcpy(pcVar9 + 0xb,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
iVar5 = DAT_0001bc60 + 0x1ba98;
uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);
warn(uVar10,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format,iVar7,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format,iVar6,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format_01,__s,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format_00,__s,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,pcVar3,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
strcpy(pcVar9,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
free(__s);
free(pcVar9);
return 0;
}
}
}
}
}
}
}
free(__s);
iVar6 = FUN_0001ad44(pcVar9);
iVar5 = DAT_0001bc38;
*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;
if (iVar6 == 0) {
uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);
warn(uVar10,pcVar9);
free(pcVar9);
uVar10 = 0;
}
else {
pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);
printf(pcVar2,param_1,pcVar9);
uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);
*(char **)(iVar5 + 0x1bd6c) = pcVar9;
}
}
}
return uVar10;
}
|
stmdb sp!,{r4,r5,r6,r7,r8,r9,r10,r11,lr}
cpy r5,r1
sub sp,sp,#0x14
cpy r7,r0
ldr r1,[sp,#0x38]
cpy r0,r5
cpy r8,r3
blx r2
subs r4,r0,#0x0
beq 0x0001bbd0
cpy r0,r7
bl 0x000131c8
cpy r5,r0
bl 0x000133d8
subs r6,r0,#0x0
beq 0x0001bc30
add r3,r5,r6
ldrb r2,[r3,#-0x1]
cmp r2,#0x2f
subne r3,r6,#0x2
addne r3,r5,r3
subne r0,r5,#0x1
rsbne r1,r5,#0x1
bne 0x0001b890
b 0x0001b8a4
ldrb r2,[r3],#-0x1
cmp r2,#0x2f
beq 0x0001bbc8
cmp r3,r0
add r6,r1,r3
bne 0x0001b884
cpy r3,r5
mov r6,#0x0
mov r2,#0x0
strb r2,[r3,#0x0]
cpy r0,r4
bl 0x000133d8
cpy r9,r0
add r0,r0,r6
add r0,r0,#0x33
bl 0x00013360
subs r6,r0,#0x0
beq 0x0001bbf4
add r2,r9,#0x1
cpy r1,r4
bl 0x000131a4
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
beq 0x0001b948
cpy r0,r5
bl 0x00013174
cpy r0,r6
bl 0x0001ad44
ldr r5,[0x1bc38]
mov r2,#0x5
add r5,pc,r5
cmp r0,#0x0
cpy r4,r0
str r0,[r5,#0x45c]
beq 0x0001bc10
ldr r1,[0x1bc3c]
mov r0,#0x0
add r1,pc,r1
bl 0x00013204
cpy r2,r6
cpy r1,r7
bl 0x00013120
ldr r4,[r5,#0x45c]
str r6,[r5,#0x460]
cpy r0,r4
add sp,sp,#0x14
ldmia sp!,{r4,r5,r6,r7,r8,r9,r10,r11,pc}
ldr r9,[0x1bc40]
cpy r2,r4
add r9,pc,r9
cpy r1,r9
cpy r0,r6
bl 0x000135a0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
bne 0x0001b8ec
ldr r10,[0x1bc44]
cpy r3,r4
add r10,pc,r10
cpy r1,r10
cpy r2,r5
cpy r0,r6
bl 0x000135a0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
bne 0x0001b8ec
ldr r11,[0x1bc48]
cpy r3,r4
add r11,pc,r11
cpy r1,r11
cpy r2,r5
cpy r0,r6
bl 0x000135a0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
bne 0x0001b8ec
ldr r3,[0x1bc4c]
ldr r2,[0x1bc50]
add r3,pc,r3
add r2,pc,r2
cpy r1,r3
str r3,[sp,#0x4]
cpy r0,r6
cpy r3,r4
str r2,[sp,#0x8]
bl 0x000135a0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
bne 0x0001b8ec
ldr r2,[0x1bc54]
cpy r3,r4
add r2,pc,r2
ldr r1,[sp,#0x4]
cpy r0,r6
str r2,[sp,#0xc]
bl 0x000135a0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
cmp r0,#0x0
bne 0x0001b8ec
ldr r2,[0x1bc58]
mov r12,#0x2f
add r2,pc,r2
ldmia r2,{r0,r1,r2}
cpy r3,r6
stmia r3!,{r0,r1}
cpy r1,r4
strh r2,[r3,#0x0]
add r0,r6,#0xb
strb r12,[r6,#0xa]
bl 0x000132d0
ldr r1,[sp,#0x38]
cpy r0,r6
blx r8
subs r8,r0,#0x0
bne 0x0001b8ec
ldr r1,[0x1bc5c]
ldr r7,[0x1bc60]
mov r2,#0x5
add r1,pc,r1
add r7,pc,r7
bl 0x00013204
cpy r1,r4
bl 0x00048080
cpy r1,r7
mov r2,#0x5
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r3,r4
ldr r2,[sp,#0xc]
ldr r1,[sp,#0x4]
cpy r0,r6
bl 0x000135a0
cpy r1,r7
mov r2,#0x5
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r3,r4
ldmib sp,{r1,r2}
cpy r0,r6
bl 0x000135a0
cpy r1,r7
mov r2,#0x5
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r3,r4
cpy r2,r5
cpy r1,r11
cpy r0,r6
bl 0x000135a0
cpy r1,r7
mov r2,#0x5
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r3,r4
cpy r2,r5
cpy r1,r10
cpy r0,r6
bl 0x000135a0
cpy r1,r7
mov r2,#0x5
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r2,r4
cpy r1,r9
cpy r0,r6
bl 0x000135a0
mov r2,#0x5
cpy r1,r7
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r1,r4
cpy r0,r6
bl 0x000132d0
mov r2,#0x5
cpy r1,r7
cpy r0,r8
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r0,r5
bl 0x00013174
cpy r0,r6
cpy r4,r8
bl 0x00013174
b 0x0001b93c
add r3,r5,r6
b 0x0001b8a4
ldr r1,[0x1bc64]
mov r2,#0x5
add r1,pc,r1
bl 0x00013204
ldr r1,[r5,#0x8]
cmp r1,#0x0
ldreq r1,[r5,#0x0]
bl 0x00048080
b 0x0001b93c
ldr r1,[0x1bc68]
mov r2,#0x5
add r1,pc,r1
bl 0x00013204
cpy r4,r6
bl 0x00048080
b 0x0001b93c
ldr r1,[0x1bc6c]
add r1,pc,r1
bl 0x00013204
cpy r1,r6
bl 0x00048080
cpy r0,r6
bl 0x00013174
b 0x0001b93c
cpy r3,r5
b 0x0001b8a4
| null | null | null | null |
[(u'CALL_-1205946222', u'INDIRECT_-1205945331'), (u'CALL_-1205945656', u'INDIRECT_-1205944989'), (u'INT_NOTEQUAL_-1205946190', u'CBRANCH_-1205946188'), (u'CALL_-1205945845', u'INDIRECT_-1205945129'), (u'CALLIND_-1205946257', u'CALL_-1205945913'), (u'CALL_-1205945913', u'INDIRECT_-1205945106'), ('const-0', u'CALL_-1205944971'), ('const-1', u'INT_ADD_-1205945914'), (u'CALL_-1205946211', u'INDIRECT_-1205945280'), (u'CALLIND_-1205946257', u'INDIRECT_-1205945307'), (u'CALL_-1205945913', u'INDIRECT_-1205945190'), ('tmp_602', u'CBRANCH_-1205945942'), ('const-0', u'STORE_-1205946017'), ('const-0', u'INT_EQUAL_-1205945945'), (u'INT_ADD_-1205945662', u'CAST_-1205944797'), (u'CALL_-1205944956', u'INDIRECT_-1205944295'), (u'CALL_-1205944971', u'INDIRECT_-1205944370'), (u'INDIRECT_-1205945020', u'COPY_-1205945079'), (u'CALL_-1205946002', u'INDIRECT_-1205945166'), (u'CALLIND_-1205946257', u'INT_EQUAL_-1205946238'), ('tmp_1248', u'CALLIND_-1205946257'), (u'CAST_-1205945065', u'PTRADD_-1205944896'), ('const-0', u'INT_EQUAL_-1205946238'), ('const-114024', u'INT_ADD_-1205945771'), ('const-113668', u'PTRSUB_-1205944130'), (u'CALL_-1205945965', u'INDIRECT_-1205945128'), ('const-1', u'PTRADD_-1205946074'), (u'CALL_-1205944907', u'INDIRECT_-1205944399'), ('const-417', u'LOAD_-1205945817'), ('const-4294967295', u'PTRADD_-1205946042'), (u'INDIRECT_-1205944336', u'COPY_-1205944379'), (u'INDIRECT_-1205944337', u'COPY_-1205944386'), (u'CALL_-1205945656', u'INDIRECT_-1205945052'), ('tmp_1247', u'CALLIND_-1205946257'), ('const-0', u'INT_NOTEQUAL_-1205946190'), ('const-0', u'CALL_-1205944956'), (u'CAST_-1205944860', u'STORE_-1205945786'), (u'CAST_-1205945065', u'CAST_-1205945017'), ('const-113632', u'PTRSUB_-1205944167'), (u'PTRADD_-1205945758', u'MULTIEQUAL_-1205945544'), ('const-1', u'RETURN_-1205944951'), (u'CALL_-1205945656', u'INDIRECT_-1205945010'), (u'CAST_-1205944942', u'CALL_-1205945656'), (u'CALL_-1205946211', u'INDIRECT_-1205945301'), (u'CAST_-1205945017', u'INT_SUB_-1205946068'), 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u'INT_ADD_-1205945914'), (u'CALLIND_-1205945891', u'INT_NOTEQUAL_-1205945871'), (u'PTRADD_-1205946074', u'CAST_-1205945026'), (u'CALL_-1205946002', u'INDIRECT_-1205945250'), ('const-1', u'PTRADD_-1205946120'), (u'CALL_-1205944907', u'INDIRECT_-1205944378'), (u'STORE_-1205946017', u'INDIRECT_-1205945180'), (u'PTRADD_-1205945758', u'CAST_-1205944168'), (u'INT_NOTEQUAL_-1205946148', u'CBRANCH_-1205946144'), (u'CAST_-1205945065', u'PTRADD_-1205946042'), (u'CALL_-1205945739', u'INDIRECT_-1205945104'), (u'CALL_-1205946222', u'CAST_-1205945065'), ('const-1', u'PTRADD_-1205944857'), ('const-112984', u'INT_ADD_-1205945662'), (u'INDIRECT_-1205944357', u'COPY_-1205944400'), (u'CALL_-1205945845', u'INDIRECT_-1205945087'), ('const-417', u'STORE_-1205945786'), (u'CALLIND_-1205945891', u'INDIRECT_-1205945093'), ('tmp_1068', u'CBRANCH_-1205945810'), (u'CALL_-1205945845', u'INDIRECT_-1205945108'), (u'CAST_-1205945065', u'CALL_-1205946211'), ('const-0', u'COPY_-1205945797'), (u'CAST_-1205945065', 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u'PTRADD_-1205946061'), ('tmp_226', u'CBRANCH_-1205946188'), (u'INT_ADD_-1205945007', u'PTRADD_-1205945915'), ('const-4294967295', u'PTRADD_-1205946113'), (u'CALL_-1205945656', u'INDIRECT_-1205945031'), (u'INT_EQUAL_-1205945824', u'CBRANCH_-1205945810'), (u'CALL_-1205945656', u'INDIRECT_-1205944968'), (u'CALLIND_-1205946257', u'INDIRECT_-1205945265'), ('tmp_1178', u'BRANCH_-1205944950'), (u'INDIRECT_-1205944420', u'COPY_-1205944463'), ('const-1', u'PTRADD_-1205944896'), ('tmp_1250', u'CALLIND_-1205945891'), (u'STORE_-1205945786', u'INDIRECT_-1205945054'), (u'CALL_-1205946211', u'CAST_-1205945056'), (u'CALL_-1205945845', u'INDIRECT_-1205945171'), (u'CALL_-1205946211', u'INDIRECT_-1205945322'), ('tmp_1159', u'CBRANCH_-1205945788'), (u'INDIRECT_-1205945083', u'COPY_-1205945142'), (u'CALL_-1205944971', u'INDIRECT_-1205944307'), (u'INT_EQUAL_-1205946238', u'CBRANCH_-1205946235'), (u'PTRADD_-1205946061', u'COPY_-1205945086'), (u'CAST_-1205945043', u'PTRADD_-1205946120'), ('tmp_712', 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u'INDIRECT_-1205945156'), (u'CAST_-1205945065', u'PTRADD_-1205946120'), (u'CALL_-1205945845', u'INDIRECT_-1205945150'), (u'CALL_-1205945965', u'INDIRECT_-1205945233'), (u'STORE_-1205945786', u'INDIRECT_-1205945117'), (u'CALL_-1205945739', u'INDIRECT_-1205945125'), ('const-1', u'PTRADD_-1205946061'), (u'CALL_-1205946002', u'INT_ADD_-1205945007'), (u'INDIRECT_-1205945052', u'COPY_-1205945105'), (u'STORE_-1205945786', u'INDIRECT_-1205945033'), (u'INDIRECT_-1205944400', u'COPY_-1205944449'), (u'PTRSUB_-1205944167', u'PTRADD_-1205944857'), (u'CALL_-1205945856', u'INDIRECT_-1205945159'), (u'CALL_-1205944907', u'INDIRECT_-1205944420'), (u'STORE_-1205946017', u'INDIRECT_-1205945159'), ('tmp_1249', u'CALLIND_-1205945891'), (u'CAST_-1205944168', u'PTRADD_-1205944896'), ('tmp_168', u'CBRANCH_-1205946235'), ('const-1', u'PTRADD_-1205944906'), (u'COPY_-1205945797', u'MULTIEQUAL_-1205945544'), ('const-0', u'PTRSUB_-1205944864'), ('const-0', u'INT_NOTEQUAL_-1205945792'), (u'CALL_-1205945856', 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u'COPY_-1205944428'), (u'CALLIND_-1205946257', u'INDIRECT_-1205945286'), (u'STORE_-1205945786', u'INDIRECT_-1205945138'), (u'INDIRECT_-1205944295', u'COPY_-1205944344'), (u'INDIRECT_-1205944307', u'COPY_-1205944364'), (u'CALL_-1205945965', u'CAST_-1205944942'), (u'INT_NOTEQUAL_-1205945792', u'CBRANCH_-1205945779'), (u'CALL_-1205945739', u'INDIRECT_-1205945062'), ('const-0', u'INT_NOTEQUAL_-1205945871'), (u'INDIRECT_-1205944286', u'COPY_-1205944343'), ('const-1', u'PTRADD_-1205946113'), (u'CALL_-1205944971', u'INDIRECT_-1205944286'), (u'INDIRECT_-1205945156', u'INT_ADD_-1205945662'), (u'CALL_-1205944956', u'INDIRECT_-1205944400'), (u'MULTIEQUAL_-1205945544', u'PTRADD_-1205945915'), ('const-1', u'PTRADD_-1205945689'), ('const-4294967295', u'PTRADD_-1205945755'), ('const-1', u'PTRADD_-1205944921'), ('const-112936', u'PTRSUB_-1205944864'), (u'INDIRECT_-1205945062', u'COPY_-1205945121'), (u'MULTIEQUAL_-1205945567', u'PTRADD_-1205945755'), (u'MULTIEQUAL_-1205945548', u'STORE_-1205946017'), (u'CAST_-1205944797', u'CALL_-1205945656'), ('const-47', u'INT_NOTEQUAL_-1205945790'), (u'INDIRECT_-1205944370', u'COPY_-1205944427'), (u'PTRSUB_-1205944105', u'PTRADD_-1205944921'), (u'INT_EQUAL_-1205945945', u'CBRANCH_-1205945942'), (u'STORE_-1205945786', u'INDIRECT_-1205945075'), ('const-0', u'CALL_-1205944907'), (u'CALL_-1205945965', u'INDIRECT_-1205945149'), (u'PTRSUB_-1205944864', u'PTRADD_-1205945689'), ('const-4294967294', u'PTRADD_-1205946074'), (u'INDIRECT_-1205945125', u'COPY_-1205945184'), (u'INDIRECT_-1205945307', u'PTRADD_-1205944857'), (u'MULTIEQUAL_-1205945567', u'PTRADD_-1205945758'), (u'INDIRECT_-1205945033', u'PTRADD_-1205944921'), (u'STORE_-1205946017', u'INDIRECT_-1205945222'), (u'CALLIND_-1205945891', u'INDIRECT_-1205945114'), (u'INT_NOTEQUAL_-1205945871', u'CBRANCH_-1205945869'), (u'CALL_-1205944971', u'INDIRECT_-1205944265'), (u'CALL_-1205945856', u'INDIRECT_-1205945075'), (u'CALL_-1205946002', u'INDIRECT_-1205945187'), (u'INDIRECT_-1205944989', u'COPY_-1205945042'), (u'INT_SUB_-1205946068', u'PTRADD_-1205945758'), (u'INDIRECT_-1205944358', u'COPY_-1205944407'), (u'CALL_-1205944956', u'INDIRECT_-1205944316'), (u'CALLIND_-1205945891', u'INDIRECT_-1205945135'), (u'PTRADD_-1205946120', u'MULTIEQUAL_-1205945548'), (u'CAST_-1205945065', u'COPY_-1205945115'), (u'PTRADD_-1205944857', u'CALL_-1205944907'), ('const-1', u'PTRADD_-1205945915'), ('const-1', u'RETURN_-1205945734'), (u'CALL_-1205944971', u'INDIRECT_-1205944349'), (u'CALLIND_-1205946257', u'CALL_-1205945656'), (u'CALL_-1205946211', u'INDIRECT_-1205945238'), (u'COPY_-1205945065', u'MULTIEQUAL_-1205945567'), ('tmp_1246', u'CALL_-1205946222'), (u'CALL_-1205945965', u'INDIRECT_-1205945170'), (u'CAST_-1205945056', u'INT_NOTEQUAL_-1205946190'), ('tmp_1250', u'CALLIND_-1205946257'), (u'INDIRECT_-1205945031', u'COPY_-1205945084'), (u'INDIRECT_-1205944968', u'COPY_-1205945021'), (u'CALL_-1205945845', u'INT_NOTEQUAL_-1205945792'), (u'INDIRECT_-1205944328', u'COPY_-1205944385'), ('const-1', u'RETURN_-1205944902'), (u'LOAD_-1205945817', u'INT_NOTEQUAL_-1205945790'), (u'CAST_-1205945056', u'MULTIEQUAL_-1205945544'), (u'CAST_-1205945065', u'COPY_-1205945049'), (u'INDIRECT_-1205944399', u'COPY_-1205944442'), (u'CALL_-1205945965', u'INDIRECT_-1205945212'), (u'CALL_-1205945913', u'INDIRECT_-1205945169'), (u'INDIRECT_-1205945104', u'COPY_-1205945163'), (u'CALL_-1205945913', u'INDIRECT_-1205945211'), ('const-417', u'STORE_-1205946017'), (u'CAST_-1205944942', u'CALLIND_-1205945891'), (u'CALL_-1205945965', u'INDIRECT_-1205945191'), (u'CALL_-1205945913', u'INDIRECT_-1205945148'), (u'PTRADD_-1205946113', u'LOAD_-1205946175'), (u'COPY_-1205944236', u'MULTIEQUAL_-1205945548'), (u'CALL_-1205944956', u'INDIRECT_-1205944379'), (u'CALLIND_-1205946257', u'INDIRECT_-1205945328'), (u'INT_NOTEQUAL_-1205945790', u'CBRANCH_-1205945788'), (u'STORE_-1205945786', u'INDIRECT_-1205945096'), ('const-1', u'INT_SUB_-1205946068'), (u'CALL_-1205946002', u'INDIRECT_-1205945208'), (u'STORE_-1205946017', u'INDIRECT_-1205945243'), (u'PTRADD_-1205944906', u'CALL_-1205944956'), ('const-47', u'INT_NOTEQUAL_-1205946148'), ('const-5', u'CALL_-1205944907')]
|
[(u'CALLIND_-1205945204', u'INT_EQUAL_-1205945185'), (u'CALL_-1205944854', u'INDIRECT_-1205942350'), ('const-0', u'CALL_-1205944360'), (u'CALL_-1205944627', u'INDIRECT_-1205942132'), (u'CALL_-1205944936', u'INDIRECT_-1205942342'), (u'CAST_-1205942116', u'PTRADD_-1205946074'), (u'CALL_-1205944648', u'INDIRECT_-1205942469'), (u'CALL_-1205944916', u'INDIRECT_-1205942713'), ('const-417', u'LOAD_-1205944331'), (u'CALLIND_-1205945891', u'INT_EQUAL_-1205945872'), (u'CALLIND_-1205945585', u'INDIRECT_-1205942999'), (u'INDIRECT_-1205942901', u'INT_ADD_-1205945239'), (u'CALL_-1205944525', u'INDIRECT_-1205942323'), (u'CALL_-1205944659', u'INDIRECT_-1205942990'), ('const-1', u'INT_ADD_-1205945914'), (u'CALL_-1205945317', u'INDIRECT_-1205942786'), (u'CALL_-1205944498', u'INDIRECT_-1205942877'), ('const-0', u'INT_EQUAL_-1205945945'), (u'CALL_-1205944968', u'INDIRECT_-1205942871'), (u'CALL_-1205944728', u'INDIRECT_-1205942461'), (u'CALL_-1205944905', u'INDIRECT_-1205942768'), (u'CALL_-1205945739', u'INDIRECT_-1205943411'), ('const-5', u'CALL_-1205944728'), (u'INDIRECT_-1205942682', u'MULTIEQUAL_-1205942674'), (u'CALL_-1205944717', u'INDIRECT_-1205942196'), (u'STORE_-1205945129', u'INDIRECT_-1205942909'), (u'CAST_-1205942103', u'PTRADD_-1205946120'), (u'INT_ADD_-1205944975', u'CALL_-1205944659'), (u'INDIRECT_-1205942000', u'MULTIEQUAL_-1205942738'), (u'CALL_-1205944648', u'INDIRECT_-1205942917'), (u'CALL_-1205945913', u'INDIRECT_-1205943022'), (u'CALL_-1205944829', u'INDIRECT_-1205943101'), (u'CALLIND_-1205945407', u'INDIRECT_-1205942835'), (u'CALL_-1205945429', u'INDIRECT_-1205943232'), (u'INT_ADD_-1205944975', u'CALL_-1205944797'), ('const-1', u'PTRADD_-1205946042'), (u'CALL_-1205944584', u'INDIRECT_-1205942362'), (u'INT_EQUAL_-1205945277', u'CBRANCH_-1205945263'), (u'LOAD_-1205945722', u'MULTIEQUAL_-1205944550'), (u'MULTIEQUAL_-1205942866', u'COPY_-1205942925'), (u'INT_ADD_-1205945706', u'CAST_-1205941873'), (u'CALL_-1205944968', u'INDIRECT_-1205942743'), (u'CALL_-1205944568', u'INDIRECT_-1205942925'), (u'STORE_-1205945715', u'INDIRECT_-1205942682'), ('const-0', u'CALL_-1205945739'), (u'INT_EQUAL_-1205945566', u'CBRANCH_-1205945562'), (u'CALL_-1205944865', u'INDIRECT_-1205943063'), (u'CALL_-1205944691', u'INDIRECT_-1205942175'), (u'CALL_-1205944916', u'INDIRECT_-1205942329'), (u'CALL_-1205944916', u'INDIRECT_-1205942393'), (u'INDIRECT_-1205942640', u'MULTIEQUAL_-1205943378'), (u'STORE_-1205945127', u'INDIRECT_-1205942972'), (u'CALL_-1205945607', u'INDIRECT_-1205943396'), (u'INDIRECT_-1205942173', u'COPY_-1205941951'), (u'CALLIND_-1205945058', u'INDIRECT_-1205942465'), (u'STORE_-1205945127', u'INDIRECT_-1205943036'), (u'CALL_-1205944905', u'INDIRECT_-1205942128'), (u'CALL_-1205944659', u'INDIRECT_-1205942734'), (u'CAST_-1205942002', u'CALL_-1205944648'), (u'CALL_-1205944411', u'INDIRECT_-1205942148'), (u'CALL_-1205946211', u'INDIRECT_-1205943603'), (u'CALL_-1205945965', u'INDIRECT_-1205943493'), (u'INT_ADD_-1205945340', u'CALL_-1205944829'), 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| null | null |
0001b820
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arm
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O2
|
(translation_unit "undefined4\nFUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)\n\n{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}\n\n" (function_definition "undefined4\nFUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)\n\n{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" type_identifier (function_declarator "FUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" identifier (parameter_list "(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "code *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "code *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) , (parameter_declaration "undefined4 param_5" type_identifier identifier) ))) (compound_statement "{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" { (declaration "char cVar1;" primitive_type identifier ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "char *pcVar3;" primitive_type (pointer_declarator "*pcVar3" * identifier) ;) (declaration "size_t sVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "int iVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "undefined4 uVar8;" type_identifier identifier ;) (declaration "char *pcVar9;" primitive_type (pointer_declarator "*pcVar9" * identifier) ;) (declaration "char *__format;" primitive_type (pointer_declarator "*__format" * identifier) ;) (declaration "undefined4 uVar10;" type_identifier identifier ;) (declaration "char *__format_00;" primitive_type (pointer_declarator "*__format_00" * identifier) ;) (declaration "char *__format_01;" primitive_type (pointer_declarator "*__format_01" * identifier) ;) (expression_statement "pcVar2 = (char *)(*param_3)(param_2,param_5);" (assignment_expression "pcVar2 = (char *)(*param_3)(param_2,param_5)" identifier = (cast_expression "(char *)(*param_3)(param_2,param_5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*param_3)(param_2,param_5)" (parenthesized_expression "(*param_3)" ( (pointer_expression "*param_3" * identifier) )) (argument_list "(param_2,param_5)" ( identifier , identifier ))))) ;) (if_statement "if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" if (parenthesized_expression "(pcVar2 == (char *)0x0)" ( (binary_expression "pcVar2 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }" { (expression_statement "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" identifier (argument_list "(0,DAT_0001bc64 + 0x1bbe0,5)" ( number_literal , (binary_expression "DAT_0001bc64 + 0x1bbe0" identifier + number_literal) , number_literal )))) ;) (expression_statement "iVar5 = param_2[2];" (assignment_expression "iVar5 = param_2[2]" identifier = (subscript_expression "param_2[2]" identifier [ number_literal ])) ;) (if_statement "if (iVar5 == 0) {\n iVar5 = *param_2;\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar5 = *param_2;\n }" { (expression_statement "iVar5 = *param_2;" (assignment_expression "iVar5 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) })) (expression_statement "warn(uVar10,iVar5);" (call_expression "warn(uVar10,iVar5)" identifier (argument_list "(uVar10,iVar5)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" else (compound_statement "{\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" { (expression_statement "__s = (char *)lrealpath(param_1);" (assignment_expression "__s = (char *)lrealpath(param_1)" identifier = (cast_expression "(char *)lrealpath(param_1)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "lrealpath(param_1)" identifier (argument_list "(param_1)" ( identifier ))))) ;) (expression_statement "pcVar3 = (char *)strlen(__s);" (assignment_expression "pcVar3 = (char *)strlen(__s)" identifier = (cast_expression "(char *)strlen(__s)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier ))))) ;) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" identifier = identifier) ;) (if_statement "if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" if (parenthesized_expression "((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'))" ( (binary_expression "(pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" (parenthesized_expression "(pcVar3 != (char *)0x0)" ( (binary_expression "pcVar3 != (char *)0x0" identifier != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) && (parenthesized_expression "(pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" ( (comma_expression "pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'" (assignment_expression "pcVar9 = __s + (int)pcVar3" identifier = (binary_expression "__s + (int)pcVar3" identifier + (cast_expression "(int)pcVar3" ( (type_descriptor "int" primitive_type) ) identifier))) , (binary_expression "pcVar9[-1] != '/'" (subscript_expression "pcVar9[-1]" identifier [ number_literal ]) != (char_literal "'/'" ' character '))) ))) )) (compound_statement "{\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" { (expression_statement "pcVar9 = __s + (int)(pcVar3 + -2);" (assignment_expression "pcVar9 = __s + (int)(pcVar3 + -2)" identifier = (binary_expression "__s + (int)(pcVar3 + -2)" identifier + (cast_expression "(int)(pcVar3 + -2)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(pcVar3 + -2)" ( (binary_expression "pcVar3 + -2" identifier + number_literal) ))))) ;) (do_statement "do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');" do (compound_statement "{\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n }" { (expression_statement "pcVar3 = pcVar9 + (1 - (int)__s);" (assignment_expression "pcVar3 = pcVar9 + (1 - (int)__s)" identifier = (binary_expression "pcVar9 + (1 - (int)__s)" identifier + (parenthesized_expression "(1 - (int)__s)" ( (binary_expression "1 - (int)__s" number_literal - (cast_expression "(int)__s" ( (type_descriptor "int" primitive_type) ) identifier)) )))) ;) (if_statement "if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" if (parenthesized_expression "(pcVar9 == __s + -1)" ( (binary_expression "pcVar9 == __s + -1" identifier == (binary_expression "__s + -1" identifier + number_literal)) )) (compound_statement "{\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" { (expression_statement "pcVar3 = (char *)0x0;" (assignment_expression "pcVar3 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" identifier = identifier) ;) (goto_statement "goto LAB_0001b8a4;" goto statement_identifier ;) })) (expression_statement "cVar1 = *pcVar9;" (assignment_expression "cVar1 = *pcVar9" identifier = (pointer_expression "*pcVar9" * identifier)) ;) (expression_statement "pcVar9 = pcVar9 + -1;" (assignment_expression "pcVar9 = pcVar9 + -1" identifier = (binary_expression "pcVar9 + -1" identifier + number_literal)) ;) }) while (parenthesized_expression "(cVar1 != '/')" ( (binary_expression "cVar1 != '/'" identifier != (char_literal "'/'" ' character ')) )) ;) (expression_statement "pcVar9 = __s + (int)pcVar3;" (assignment_expression "pcVar9 = __s + (int)pcVar3" identifier = (binary_expression "__s + (int)pcVar3" identifier + (cast_expression "(int)pcVar3" ( (type_descriptor "int" primitive_type) ) identifier))) ;) })) (labeled_statement "LAB_0001b8a4:\n *pcVar9 = '\0';" statement_identifier : (expression_statement "*pcVar9 = '\0';" (assignment_expression "*pcVar9 = '\0'" (pointer_expression "*pcVar9" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;)) (expression_statement "sVar4 = strlen(pcVar2);" (assignment_expression "sVar4 = strlen(pcVar2)" identifier = (call_expression "strlen(pcVar2)" identifier (argument_list "(pcVar2)" ( identifier )))) ;) (expression_statement "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));" (assignment_expression "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" identifier = (cast_expression "(char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "malloc((size_t)(pcVar3 + sVar4 + 0x33))" identifier (argument_list "((size_t)(pcVar3 + sVar4 + 0x33))" ( (cast_expression "(size_t)(pcVar3 + sVar4 + 0x33)" ( (type_descriptor "size_t" primitive_type) ) (parenthesized_expression "(pcVar3 + sVar4 + 0x33)" ( (binary_expression "pcVar3 + sVar4 + 0x33" (binary_expression "pcVar3 + sVar4" identifier + identifier) + number_literal) ))) ))))) ;) (if_statement "if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" if (parenthesized_expression "(pcVar9 == (char *)0x0)" ( (binary_expression "pcVar9 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }" { (expression_statement "dcgettext(0,DAT_0001bc68 + 0x1bc04,5);" (call_expression "dcgettext(0,DAT_0001bc68 + 0x1bc04,5)" identifier (argument_list "(0,DAT_0001bc68 + 0x1bc04,5)" ( number_literal , (binary_expression "DAT_0001bc68 + 0x1bc04" identifier + number_literal) , number_literal ))) ;) (expression_statement "warn();" (call_expression "warn()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" else (compound_statement "{\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" { (expression_statement "memcpy(pcVar9,pcVar2,sVar4 + 1);" (call_expression "memcpy(pcVar9,pcVar2,sVar4 + 1)" identifier (argument_list "(pcVar9,pcVar2,sVar4 + 1)" ( identifier , identifier , (binary_expression "sVar4 + 1" identifier + number_literal) ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" { (expression_statement "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);" (assignment_expression "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958)" identifier = (cast_expression "(char *)(DAT_0001bc40 + 0x1b958)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc40 + 0x1b958)" ( (binary_expression "DAT_0001bc40 + 0x1b958" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" identifier (argument_list "(pcVar9,pcVar3,pcVar2)" ( identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" { (expression_statement "__format_00 = (char *)(DAT_0001bc44 + 0x1b984);" (assignment_expression "__format_00 = (char *)(DAT_0001bc44 + 0x1b984)" identifier = (cast_expression "(char *)(DAT_0001bc44 + 0x1b984)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc44 + 0x1b984)" ( (binary_expression "DAT_0001bc44 + 0x1b984" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_00,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" { (expression_statement "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);" (assignment_expression "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4)" identifier = (cast_expression "(char *)(DAT_0001bc48 + 0x1b9b4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc48 + 0x1b9b4)" ( (binary_expression "DAT_0001bc48 + 0x1b9b4" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_01,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" { (expression_statement "__format = (char *)(DAT_0001bc4c + 0x1b9e4);" (assignment_expression "__format = (char *)(DAT_0001bc4c + 0x1b9e4)" identifier = (cast_expression "(char *)(DAT_0001bc4c + 0x1b9e4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc4c + 0x1b9e4)" ( (binary_expression "DAT_0001bc4c + 0x1b9e4" identifier + number_literal) )))) ;) (expression_statement "iVar6 = DAT_0001bc50 + 0x1b9e8;" (assignment_expression "iVar6 = DAT_0001bc50 + 0x1b9e8" identifier = (binary_expression "DAT_0001bc50 + 0x1b9e8" identifier + number_literal)) ;) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar6,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" { (expression_statement "iVar7 = DAT_0001bc54 + 0x1ba20;" (assignment_expression "iVar7 = DAT_0001bc54 + 0x1ba20" identifier = (binary_expression "DAT_0001bc54 + 0x1ba20" identifier + number_literal)) ;) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar7,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" { (expression_statement "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);" (assignment_expression "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba54)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba54)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba54)" ( (binary_expression "DAT_0001bc58 + 0x1ba54" identifier + number_literal) ))))) ;) (expression_statement "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);" (assignment_expression "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba58)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba58)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba58)" ( (binary_expression "DAT_0001bc58 + 0x1ba58" identifier + number_literal) ))))) ;) (expression_statement "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);" (assignment_expression "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50)" (pointer_expression "*(undefined4 *)pcVar9" * (cast_expression "(undefined4 *)pcVar9" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba50)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba50)" ( (binary_expression "DAT_0001bc58 + 0x1ba50" identifier + number_literal) ))))) ;) (expression_statement "*(undefined4 *)(pcVar9 + 4) = uVar10;" (assignment_expression "*(undefined4 *)(pcVar9 + 4) = uVar10" (pointer_expression "*(undefined4 *)(pcVar9 + 4)" * (cast_expression "(undefined4 *)(pcVar9 + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(pcVar9 + 4)" ( (binary_expression "pcVar9 + 4" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(short *)(pcVar9 + 8) = (short)uVar8;" (assignment_expression "*(short *)(pcVar9 + 8) = (short)uVar8" (pointer_expression "*(short *)(pcVar9 + 8)" * (cast_expression "(short *)(pcVar9 + 8)" ( (type_descriptor "short *" (sized_type_specifier "short" short) (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(pcVar9 + 8)" ( (binary_expression "pcVar9 + 8" identifier + number_literal) )))) = (cast_expression "(short)uVar8" ( (type_descriptor "short" (sized_type_specifier "short" short)) ) identifier)) ;) (expression_statement "pcVar9[10] = '/';" (assignment_expression "pcVar9[10] = '/'" (subscript_expression "pcVar9[10]" identifier [ number_literal ]) = (char_literal "'/'" ' character ')) ;) (expression_statement "strcpy(pcVar9 + 0xb,pcVar2);" (call_expression "strcpy(pcVar9 + 0xb,pcVar2)" identifier (argument_list "(pcVar9 + 0xb,pcVar2)" ( (binary_expression "pcVar9 + 0xb" identifier + number_literal) , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" { (expression_statement "iVar5 = DAT_0001bc60 + 0x1ba98;" (assignment_expression "iVar5 = DAT_0001bc60 + 0x1ba98" identifier = (binary_expression "DAT_0001bc60 + 0x1ba98" identifier + number_literal)) ;) (expression_statement "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" identifier (argument_list "(0,DAT_0001bc5c + 0x1ba94,5)" ( number_literal , (binary_expression "DAT_0001bc5c + 0x1ba94" identifier + number_literal) , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar2);" (call_expression "warn(uVar10,pcVar2)" identifier (argument_list "(uVar10,pcVar2)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar7,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar6,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_01,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_00,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" identifier (argument_list "(pcVar9,pcVar3,pcVar2)" ( identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "strcpy(pcVar9,pcVar2);" (call_expression "strcpy(pcVar9,pcVar2)" identifier (argument_list "(pcVar9,pcVar2)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "free(__s);" (call_expression "free(__s)" identifier (argument_list "(__s)" ( identifier ))) ;) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier ))) ;) (return_statement "return 0;" return number_literal ;) })) })) })) })) })) })) })) (expression_statement "free(__s);" (call_expression "free(__s)" identifier (argument_list "(__s)" ( identifier ))) ;) (expression_statement "iVar6 = FUN_0001ad44(pcVar9);" (assignment_expression "iVar6 = FUN_0001ad44(pcVar9)" identifier = (call_expression "FUN_0001ad44(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier )))) ;) (expression_statement "iVar5 = DAT_0001bc38;" (assignment_expression "iVar5 = DAT_0001bc38" identifier = identifier) ;) (expression_statement "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;" (assignment_expression "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6" (pointer_expression "*(int *)(DAT_0001bc38 + 0x1bd68)" * (cast_expression "(int *)(DAT_0001bc38 + 0x1bd68)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc38 + 0x1bd68)" ( (binary_expression "DAT_0001bc38 + 0x1bd68" identifier + number_literal) )))) = identifier) ;) (if_statement "if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" if (parenthesized_expression "(iVar6 == 0)" ( (binary_expression "iVar6 == 0" identifier == number_literal) )) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }" { (expression_statement "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" identifier (argument_list "(0,DAT_0001bc6c + 0x1bc1c,5)" ( number_literal , (binary_expression "DAT_0001bc6c + 0x1bc1c" identifier + number_literal) , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" else (compound_statement "{\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" { (expression_statement "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);" (assignment_expression "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" identifier = (cast_expression "(char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "dcgettext(0,DAT_0001bc3c + 0x1b928,5)" identifier (argument_list "(0,DAT_0001bc3c + 0x1b928,5)" ( number_literal , (binary_expression "DAT_0001bc3c + 0x1b928" identifier + number_literal) , number_literal ))))) ;) (expression_statement "printf(pcVar2,param_1,pcVar9);" (call_expression "printf(pcVar2,param_1,pcVar9)" identifier (argument_list "(pcVar2,param_1,pcVar9)" ( identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);" (assignment_expression "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68)" identifier = (pointer_expression "*(undefined4 *)(iVar5 + 0x1bd68)" * (cast_expression "(undefined4 *)(iVar5 + 0x1bd68)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0x1bd68)" ( (binary_expression "iVar5 + 0x1bd68" identifier + number_literal) ))))) ;) (expression_statement "*(char **)(iVar5 + 0x1bd6c) = pcVar9;" (assignment_expression "*(char **)(iVar5 + 0x1bd6c) = pcVar9" (pointer_expression "*(char **)(iVar5 + 0x1bd6c)" * (cast_expression "(char **)(iVar5 + 0x1bd6c)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + 0x1bd6c)" ( (binary_expression "iVar5 + 0x1bd6c" identifier + number_literal) )))) = identifier) ;) }))) }))) }))) (return_statement "return uVar10;" return identifier ;) })))
|
(translation_unit "void * load_separate_debug_info\n (char *main_filename,dwarf_section *xlink,parse_func_type parse_func,\n check_func_type check_func,void *func_data)\n\n{\n char cVar1;\n char *__s;\n char *__s_00;\n char *pcVar2;\n size_t sVar3;\n bfd_boolean bVar4;\n void *pvVar5;\n char *pcVar6;\n \n __s = (*parse_func)(xlink,func_data);\n if (__s == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);\n }\n __s_00 = (char *)lrealpath(main_filename);\n pcVar2 = (char *)strlen(__s_00);\n pcVar6 = __s_00;\n if ((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')) {\n pcVar6 = __s_00 + (int)(pcVar2 + -2);\n do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');\n pcVar6 = __s_00 + (int)pcVar2;\n }\nLAB_0001b8a4:\n *pcVar6 = '\0';\n sVar3 = strlen(__s);\n pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33));\n if (pcVar6 == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);\n }\n memcpy(pcVar6,__s,sVar3 + 1);\n bVar4 = (*check_func)(pcVar6,func_data);\n if (bVar4 != 0) {\n free(__s_00);\n pvVar5 = open_debug_file(pcVar6);\n *(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;\n if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);\n }\n /* WARNING: Subroutine does not return */\n sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s);\n}\n\n" (function_definition "void * load_separate_debug_info\n (char *main_filename,dwarf_section *xlink,parse_func_type parse_func,\n check_func_type check_func,void *func_data)\n\n{\n char cVar1;\n char *__s;\n char *__s_00;\n char *pcVar2;\n size_t sVar3;\n bfd_boolean bVar4;\n void *pvVar5;\n char *pcVar6;\n \n __s = (*parse_func)(xlink,func_data);\n if (__s == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);\n }\n __s_00 = (char *)lrealpath(main_filename);\n pcVar2 = (char *)strlen(__s_00);\n pcVar6 = __s_00;\n if ((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')) {\n pcVar6 = __s_00 + (int)(pcVar2 + -2);\n do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');\n pcVar6 = __s_00 + (int)pcVar2;\n }\nLAB_0001b8a4:\n *pcVar6 = '\0';\n sVar3 = strlen(__s);\n pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33));\n if (pcVar6 == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);\n }\n memcpy(pcVar6,__s,sVar3 + 1);\n bVar4 = (*check_func)(pcVar6,func_data);\n if (bVar4 != 0) {\n free(__s_00);\n pvVar5 = open_debug_file(pcVar6);\n *(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;\n if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);\n }\n /* WARNING: Subroutine does not return */\n sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s);\n}" primitive_type (pointer_declarator "* load_separate_debug_info\n (char *main_filename,dwarf_section *xlink,parse_func_type parse_func,\n check_func_type check_func,void *func_data)" * (function_declarator "load_separate_debug_info\n (char *main_filename,dwarf_section *xlink,parse_func_type parse_func,\n check_func_type check_func,void *func_data)" identifier (parameter_list "(char *main_filename,dwarf_section *xlink,parse_func_type parse_func,\n check_func_type check_func,void *func_data)" ( (parameter_declaration "char *main_filename" primitive_type (pointer_declarator "*main_filename" * identifier)) , (parameter_declaration "dwarf_section *xlink" type_identifier (pointer_declarator "*xlink" * identifier)) , (parameter_declaration "parse_func_type parse_func" type_identifier identifier) , (parameter_declaration "check_func_type check_func" type_identifier identifier) , (parameter_declaration "void *func_data" primitive_type (pointer_declarator "*func_data" * identifier)) )))) (compound_statement "{\n char cVar1;\n char *__s;\n char *__s_00;\n char *pcVar2;\n size_t sVar3;\n bfd_boolean bVar4;\n void *pvVar5;\n char *pcVar6;\n \n __s = (*parse_func)(xlink,func_data);\n if (__s == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);\n }\n __s_00 = (char *)lrealpath(main_filename);\n pcVar2 = (char *)strlen(__s_00);\n pcVar6 = __s_00;\n if ((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')) {\n pcVar6 = __s_00 + (int)(pcVar2 + -2);\n do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');\n pcVar6 = __s_00 + (int)pcVar2;\n }\nLAB_0001b8a4:\n *pcVar6 = '\0';\n sVar3 = strlen(__s);\n pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33));\n if (pcVar6 == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);\n }\n memcpy(pcVar6,__s,sVar3 + 1);\n bVar4 = (*check_func)(pcVar6,func_data);\n if (bVar4 != 0) {\n free(__s_00);\n pvVar5 = open_debug_file(pcVar6);\n *(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;\n if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);\n }\n /* WARNING: Subroutine does not return */\n sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s);\n}" { (declaration "char cVar1;" primitive_type identifier ;) (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "char *__s_00;" primitive_type (pointer_declarator "*__s_00" * identifier) ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "size_t sVar3;" primitive_type identifier ;) (declaration "bfd_boolean bVar4;" type_identifier identifier ;) (declaration "void *pvVar5;" primitive_type (pointer_declarator "*pvVar5" * identifier) ;) (declaration "char *pcVar6;" primitive_type (pointer_declarator "*pcVar6" * identifier) ;) (expression_statement "__s = (*parse_func)(xlink,func_data);" (assignment_expression "__s = (*parse_func)(xlink,func_data)" identifier = (call_expression "(*parse_func)(xlink,func_data)" (parenthesized_expression "(*parse_func)" ( (pointer_expression "*parse_func" * identifier) )) (argument_list "(xlink,func_data)" ( identifier , identifier )))) ;) (if_statement "if (__s == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);\n }" if (parenthesized_expression "(__s == (char *)0x0)" ( (binary_expression "__s == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);\n }" { comment (expression_statement "dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5);" (call_expression "dcgettext(0,&UNK_0001bbe0 + DAT_0001bc64,5)" identifier (argument_list "(0,&UNK_0001bbe0 + DAT_0001bc64,5)" ( number_literal , (binary_expression "&UNK_0001bbe0 + DAT_0001bc64" (pointer_expression "&UNK_0001bbe0" & identifier) + identifier) , number_literal ))) ;) })) (expression_statement "__s_00 = (char *)lrealpath(main_filename);" (assignment_expression "__s_00 = (char *)lrealpath(main_filename)" identifier = (cast_expression "(char *)lrealpath(main_filename)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "lrealpath(main_filename)" identifier (argument_list "(main_filename)" ( identifier ))))) ;) (expression_statement "pcVar2 = (char *)strlen(__s_00);" (assignment_expression "pcVar2 = (char *)strlen(__s_00)" identifier = (cast_expression "(char *)strlen(__s_00)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "strlen(__s_00)" identifier (argument_list "(__s_00)" ( identifier ))))) ;) (expression_statement "pcVar6 = __s_00;" (assignment_expression "pcVar6 = __s_00" identifier = identifier) ;) (if_statement "if ((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')) {\n pcVar6 = __s_00 + (int)(pcVar2 + -2);\n do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');\n pcVar6 = __s_00 + (int)pcVar2;\n }" if (parenthesized_expression "((pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/'))" ( (binary_expression "(pcVar2 != (char *)0x0) && (pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')" (parenthesized_expression "(pcVar2 != (char *)0x0)" ( (binary_expression "pcVar2 != (char *)0x0" identifier != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) && (parenthesized_expression "(pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/')" ( (comma_expression "pcVar6 = __s_00 + (int)pcVar2, pcVar6[-1] != '/'" (assignment_expression "pcVar6 = __s_00 + (int)pcVar2" identifier = (binary_expression "__s_00 + (int)pcVar2" identifier + (cast_expression "(int)pcVar2" ( (type_descriptor "int" primitive_type) ) identifier))) , (binary_expression "pcVar6[-1] != '/'" (subscript_expression "pcVar6[-1]" identifier [ number_literal ]) != (char_literal "'/'" ' character '))) ))) )) (compound_statement "{\n pcVar6 = __s_00 + (int)(pcVar2 + -2);\n do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');\n pcVar6 = __s_00 + (int)pcVar2;\n }" { (expression_statement "pcVar6 = __s_00 + (int)(pcVar2 + -2);" (assignment_expression "pcVar6 = __s_00 + (int)(pcVar2 + -2)" identifier = (binary_expression "__s_00 + (int)(pcVar2 + -2)" identifier + (cast_expression "(int)(pcVar2 + -2)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(pcVar2 + -2)" ( (binary_expression "pcVar2 + -2" identifier + number_literal) ))))) ;) (do_statement "do {\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n } while (cVar1 != '/');" do (compound_statement "{\n pcVar2 = pcVar6 + (1 - (int)__s_00);\n if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar6;\n pcVar6 = pcVar6 + -1;\n }" { (expression_statement "pcVar2 = pcVar6 + (1 - (int)__s_00);" (assignment_expression "pcVar2 = pcVar6 + (1 - (int)__s_00)" identifier = (binary_expression "pcVar6 + (1 - (int)__s_00)" identifier + (parenthesized_expression "(1 - (int)__s_00)" ( (binary_expression "1 - (int)__s_00" number_literal - (cast_expression "(int)__s_00" ( (type_descriptor "int" primitive_type) ) identifier)) )))) ;) (if_statement "if (pcVar6 == __s_00 + -1) {\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }" if (parenthesized_expression "(pcVar6 == __s_00 + -1)" ( (binary_expression "pcVar6 == __s_00 + -1" identifier == (binary_expression "__s_00 + -1" identifier + number_literal)) )) (compound_statement "{\n pcVar2 = (char *)0x0;\n pcVar6 = __s_00;\n goto LAB_0001b8a4;\n }" { (expression_statement "pcVar2 = (char *)0x0;" (assignment_expression "pcVar2 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar6 = __s_00;" (assignment_expression "pcVar6 = __s_00" identifier = identifier) ;) (goto_statement "goto LAB_0001b8a4;" goto statement_identifier ;) })) (expression_statement "cVar1 = *pcVar6;" (assignment_expression "cVar1 = *pcVar6" identifier = (pointer_expression "*pcVar6" * identifier)) ;) (expression_statement "pcVar6 = pcVar6 + -1;" (assignment_expression "pcVar6 = pcVar6 + -1" identifier = (binary_expression "pcVar6 + -1" identifier + number_literal)) ;) }) while (parenthesized_expression "(cVar1 != '/')" ( (binary_expression "cVar1 != '/'" identifier != (char_literal "'/'" ' character ')) )) ;) (expression_statement "pcVar6 = __s_00 + (int)pcVar2;" (assignment_expression "pcVar6 = __s_00 + (int)pcVar2" identifier = (binary_expression "__s_00 + (int)pcVar2" identifier + (cast_expression "(int)pcVar2" ( (type_descriptor "int" primitive_type) ) identifier))) ;) })) (labeled_statement "LAB_0001b8a4:\n *pcVar6 = '\0';" statement_identifier : (expression_statement "*pcVar6 = '\0';" (assignment_expression "*pcVar6 = '\0'" (pointer_expression "*pcVar6" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;)) (expression_statement "sVar3 = strlen(__s);" (assignment_expression "sVar3 = strlen(__s)" identifier = (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier )))) ;) (expression_statement "pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33));" (assignment_expression "pcVar6 = (char *)malloc((size_t)(pcVar2 + sVar3 + 0x33))" identifier = (cast_expression "(char *)malloc((size_t)(pcVar2 + sVar3 + 0x33))" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "malloc((size_t)(pcVar2 + sVar3 + 0x33))" identifier (argument_list "((size_t)(pcVar2 + sVar3 + 0x33))" ( (cast_expression "(size_t)(pcVar2 + sVar3 + 0x33)" ( (type_descriptor "size_t" primitive_type) ) (parenthesized_expression "(pcVar2 + sVar3 + 0x33)" ( (binary_expression "pcVar2 + sVar3 + 0x33" (binary_expression "pcVar2 + sVar3" identifier + identifier) + number_literal) ))) ))))) ;) (if_statement "if (pcVar6 == (char *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);\n }" if (parenthesized_expression "(pcVar6 == (char *)0x0)" ( (binary_expression "pcVar6 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);\n }" { comment (expression_statement "dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5);" (call_expression "dcgettext(0,&UNK_0001bc04 + DAT_0001bc68,5)" identifier (argument_list "(0,&UNK_0001bc04 + DAT_0001bc68,5)" ( number_literal , (binary_expression "&UNK_0001bc04 + DAT_0001bc68" (pointer_expression "&UNK_0001bc04" & identifier) + identifier) , number_literal ))) ;) })) (expression_statement "memcpy(pcVar6,__s,sVar3 + 1);" (call_expression "memcpy(pcVar6,__s,sVar3 + 1)" identifier (argument_list "(pcVar6,__s,sVar3 + 1)" ( identifier , identifier , (binary_expression "sVar3 + 1" identifier + number_literal) ))) ;) (expression_statement "bVar4 = (*check_func)(pcVar6,func_data);" (assignment_expression "bVar4 = (*check_func)(pcVar6,func_data)" identifier = (call_expression "(*check_func)(pcVar6,func_data)" (parenthesized_expression "(*check_func)" ( (pointer_expression "*check_func" * identifier) )) (argument_list "(pcVar6,func_data)" ( identifier , identifier )))) ;) (if_statement "if (bVar4 != 0) {\n free(__s_00);\n pvVar5 = open_debug_file(pcVar6);\n *(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;\n if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);\n }" if (parenthesized_expression "(bVar4 != 0)" ( (binary_expression "bVar4 != 0" identifier != number_literal) )) (compound_statement "{\n free(__s_00);\n pvVar5 = open_debug_file(pcVar6);\n *(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;\n if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);\n }" { (expression_statement "free(__s_00);" (call_expression "free(__s_00)" identifier (argument_list "(__s_00)" ( identifier ))) ;) (expression_statement "pvVar5 = open_debug_file(pcVar6);" (assignment_expression "pvVar5 = open_debug_file(pcVar6)" identifier = (call_expression "open_debug_file(pcVar6)" identifier (argument_list "(pcVar6)" ( identifier )))) ;) (expression_statement "*(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5;" (assignment_expression "*(void **)(DAT_0001bc38 + 0x1bd68) = pvVar5" (pointer_expression "*(void **)(DAT_0001bc38 + 0x1bd68)" * (cast_expression "(void **)(DAT_0001bc38 + 0x1bd68)" ( (type_descriptor "void **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001bc38 + 0x1bd68)" ( (binary_expression "DAT_0001bc38 + 0x1bd68" identifier + number_literal) )))) = identifier) ;) (if_statement "if (pvVar5 != (void *)0x0) {\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }" if (parenthesized_expression "(pvVar5 != (void *)0x0)" ( (binary_expression "pvVar5 != (void *)0x0" identifier != (cast_expression "(void *)0x0" ( (type_descriptor "void *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);\n }" { comment (expression_statement "dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5);" (call_expression "dcgettext(0,&UNK_0001b928 + DAT_0001bc3c,5)" identifier (argument_list "(0,&UNK_0001b928 + DAT_0001bc3c,5)" ( number_literal , (binary_expression "&UNK_0001b928 + DAT_0001bc3c" (pointer_expression "&UNK_0001b928" & identifier) + identifier) , number_literal ))) ;) })) comment (expression_statement "dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5);" (call_expression "dcgettext(0,&UNK_0001bc1c + DAT_0001bc6c,5)" identifier (argument_list "(0,&UNK_0001bc1c + DAT_0001bc6c,5)" ( number_literal , (binary_expression "&UNK_0001bc1c + DAT_0001bc6c" (pointer_expression "&UNK_0001bc1c" & identifier) + identifier) , number_literal ))) ;) })) comment (expression_statement "sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s);" (call_expression "sprintf(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s)" identifier (argument_list "(pcVar6,(char *)(DAT_0001bc40 + 0x1b958),__s)" ( identifier , (cast_expression "(char *)(DAT_0001bc40 + 0x1b958)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc40 + 0x1b958)" ( (binary_expression "DAT_0001bc40 + 0x1b958" identifier + number_literal) ))) , identifier ))) ;) })))
|
(translation_unit "undefined4\nFUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)\n\n{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}\n\n" (function_definition "undefined4\nFUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)\n\n{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" type_identifier (function_declarator "FUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" identifier (parameter_list "(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "int *param_2" primitive_type (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "code *param_3" type_identifier (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "code *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) , (parameter_declaration "undefined4 param_5" type_identifier identifier) ))) (compound_statement "{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" { (declaration "char cVar1;" primitive_type identifier ;) (declaration "char *pcVar2;" primitive_type (pointer_declarator "*pcVar2" * identifier) ;) (declaration "char *__s;" primitive_type (pointer_declarator "*__s" * identifier) ;) (declaration "char *pcVar3;" primitive_type (pointer_declarator "*pcVar3" * identifier) ;) (declaration "size_t sVar4;" primitive_type identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "int iVar6;" primitive_type identifier ;) (declaration "int iVar7;" primitive_type identifier ;) (declaration "undefined4 uVar8;" type_identifier identifier ;) (declaration "char *pcVar9;" primitive_type (pointer_declarator "*pcVar9" * identifier) ;) (declaration "char *__format;" primitive_type (pointer_declarator "*__format" * identifier) ;) (declaration "undefined4 uVar10;" type_identifier identifier ;) (declaration "char *__format_00;" primitive_type (pointer_declarator "*__format_00" * identifier) ;) (declaration "char *__format_01;" primitive_type (pointer_declarator "*__format_01" * identifier) ;) (expression_statement "pcVar2 = (char *)(*param_3)(param_2,param_5);" (assignment_expression "pcVar2 = (char *)(*param_3)(param_2,param_5)" identifier = (cast_expression "(char *)(*param_3)(param_2,param_5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "(*param_3)(param_2,param_5)" (parenthesized_expression "(*param_3)" ( (pointer_expression "*param_3" * identifier) )) (argument_list "(param_2,param_5)" ( identifier , identifier ))))) ;) (if_statement "if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" if (parenthesized_expression "(pcVar2 == (char *)0x0)" ( (binary_expression "pcVar2 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }" { (expression_statement "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" identifier (argument_list "(0,DAT_0001bc64 + 0x1bbe0,5)" ( number_literal , (binary_expression "DAT_0001bc64 + 0x1bbe0" identifier + number_literal) , number_literal )))) ;) (expression_statement "iVar5 = param_2[2];" (assignment_expression "iVar5 = param_2[2]" identifier = (subscript_expression "param_2[2]" identifier [ number_literal ])) ;) (if_statement "if (iVar5 == 0) {\n iVar5 = *param_2;\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar5 = *param_2;\n }" { (expression_statement "iVar5 = *param_2;" (assignment_expression "iVar5 = *param_2" identifier = (pointer_expression "*param_2" * identifier)) ;) })) (expression_statement "warn(uVar10,iVar5);" (call_expression "warn(uVar10,iVar5)" identifier (argument_list "(uVar10,iVar5)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" else (compound_statement "{\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" { (expression_statement "__s = (char *)lrealpath(param_1);" (assignment_expression "__s = (char *)lrealpath(param_1)" identifier = (cast_expression "(char *)lrealpath(param_1)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "lrealpath(param_1)" identifier (argument_list "(param_1)" ( identifier ))))) ;) (expression_statement "pcVar3 = (char *)strlen(__s);" (assignment_expression "pcVar3 = (char *)strlen(__s)" identifier = (cast_expression "(char *)strlen(__s)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "strlen(__s)" identifier (argument_list "(__s)" ( identifier ))))) ;) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" identifier = identifier) ;) (if_statement "if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" if (parenthesized_expression "((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'))" ( (binary_expression "(pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" (parenthesized_expression "(pcVar3 != (char *)0x0)" ( (binary_expression "pcVar3 != (char *)0x0" identifier != (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) && (parenthesized_expression "(pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" ( (comma_expression "pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'" (assignment_expression "pcVar9 = __s + (int)pcVar3" identifier = (binary_expression "__s + (int)pcVar3" identifier + (cast_expression "(int)pcVar3" ( (type_descriptor "int" primitive_type) ) identifier))) , (binary_expression "pcVar9[-1] != '/'" (subscript_expression "pcVar9[-1]" identifier [ number_literal ]) != (char_literal "'/'" ' character '))) ))) )) (compound_statement "{\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" { (expression_statement "pcVar9 = __s + (int)(pcVar3 + -2);" (assignment_expression "pcVar9 = __s + (int)(pcVar3 + -2)" identifier = (binary_expression "__s + (int)(pcVar3 + -2)" identifier + (cast_expression "(int)(pcVar3 + -2)" ( (type_descriptor "int" primitive_type) ) (parenthesized_expression "(pcVar3 + -2)" ( (binary_expression "pcVar3 + -2" identifier + number_literal) ))))) ;) (do_statement "do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');" do (compound_statement "{\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n }" { (expression_statement "pcVar3 = pcVar9 + (1 - (int)__s);" (assignment_expression "pcVar3 = pcVar9 + (1 - (int)__s)" identifier = (binary_expression "pcVar9 + (1 - (int)__s)" identifier + (parenthesized_expression "(1 - (int)__s)" ( (binary_expression "1 - (int)__s" number_literal - (cast_expression "(int)__s" ( (type_descriptor "int" primitive_type) ) identifier)) )))) ;) (if_statement "if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" if (parenthesized_expression "(pcVar9 == __s + -1)" ( (binary_expression "pcVar9 == __s + -1" identifier == (binary_expression "__s + -1" identifier + number_literal)) )) (compound_statement "{\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" { (expression_statement "pcVar3 = (char *)0x0;" (assignment_expression "pcVar3 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" identifier = identifier) ;) (goto_statement "goto LAB_0001b8a4;" goto statement_identifier ;) })) (expression_statement "cVar1 = *pcVar9;" (assignment_expression "cVar1 = *pcVar9" identifier = (pointer_expression "*pcVar9" * identifier)) ;) (expression_statement "pcVar9 = pcVar9 + -1;" (assignment_expression "pcVar9 = pcVar9 + -1" identifier = (binary_expression "pcVar9 + -1" identifier + number_literal)) ;) }) while (parenthesized_expression "(cVar1 != '/')" ( (binary_expression "cVar1 != '/'" identifier != (char_literal "'/'" ' character ')) )) ;) (expression_statement "pcVar9 = __s + (int)pcVar3;" (assignment_expression "pcVar9 = __s + (int)pcVar3" identifier = (binary_expression "__s + (int)pcVar3" identifier + (cast_expression "(int)pcVar3" ( (type_descriptor "int" primitive_type) ) identifier))) ;) })) (labeled_statement "LAB_0001b8a4:\n *pcVar9 = '\0';" statement_identifier : (expression_statement "*pcVar9 = '\0';" (assignment_expression "*pcVar9 = '\0'" (pointer_expression "*pcVar9" * identifier) = (char_literal "'\0'" ' escape_sequence ')) ;)) (expression_statement "sVar4 = strlen(pcVar2);" (assignment_expression "sVar4 = strlen(pcVar2)" identifier = (call_expression "strlen(pcVar2)" identifier (argument_list "(pcVar2)" ( identifier )))) ;) (expression_statement "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));" (assignment_expression "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" identifier = (cast_expression "(char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "malloc((size_t)(pcVar3 + sVar4 + 0x33))" identifier (argument_list "((size_t)(pcVar3 + sVar4 + 0x33))" ( (cast_expression "(size_t)(pcVar3 + sVar4 + 0x33)" ( (type_descriptor "size_t" primitive_type) ) (parenthesized_expression "(pcVar3 + sVar4 + 0x33)" ( (binary_expression "pcVar3 + sVar4 + 0x33" (binary_expression "pcVar3 + sVar4" identifier + identifier) + number_literal) ))) ))))) ;) (if_statement "if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" if (parenthesized_expression "(pcVar9 == (char *)0x0)" ( (binary_expression "pcVar9 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }" { (expression_statement "dcgettext(0,DAT_0001bc68 + 0x1bc04,5);" (call_expression "dcgettext(0,DAT_0001bc68 + 0x1bc04,5)" identifier (argument_list "(0,DAT_0001bc68 + 0x1bc04,5)" ( number_literal , (binary_expression "DAT_0001bc68 + 0x1bc04" identifier + number_literal) , number_literal ))) ;) (expression_statement "warn();" (call_expression "warn()" identifier (argument_list "()" ( ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" else (compound_statement "{\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" { (expression_statement "memcpy(pcVar9,pcVar2,sVar4 + 1);" (call_expression "memcpy(pcVar9,pcVar2,sVar4 + 1)" identifier (argument_list "(pcVar9,pcVar2,sVar4 + 1)" ( identifier , identifier , (binary_expression "sVar4 + 1" identifier + number_literal) ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" { (expression_statement "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);" (assignment_expression "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958)" identifier = (cast_expression "(char *)(DAT_0001bc40 + 0x1b958)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc40 + 0x1b958)" ( (binary_expression "DAT_0001bc40 + 0x1b958" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" identifier (argument_list "(pcVar9,pcVar3,pcVar2)" ( identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" { (expression_statement "__format_00 = (char *)(DAT_0001bc44 + 0x1b984);" (assignment_expression "__format_00 = (char *)(DAT_0001bc44 + 0x1b984)" identifier = (cast_expression "(char *)(DAT_0001bc44 + 0x1b984)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc44 + 0x1b984)" ( (binary_expression "DAT_0001bc44 + 0x1b984" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_00,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" { (expression_statement "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);" (assignment_expression "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4)" identifier = (cast_expression "(char *)(DAT_0001bc48 + 0x1b9b4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc48 + 0x1b9b4)" ( (binary_expression "DAT_0001bc48 + 0x1b9b4" identifier + number_literal) )))) ;) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_01,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" { (expression_statement "__format = (char *)(DAT_0001bc4c + 0x1b9e4);" (assignment_expression "__format = (char *)(DAT_0001bc4c + 0x1b9e4)" identifier = (cast_expression "(char *)(DAT_0001bc4c + 0x1b9e4)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc4c + 0x1b9e4)" ( (binary_expression "DAT_0001bc4c + 0x1b9e4" identifier + number_literal) )))) ;) (expression_statement "iVar6 = DAT_0001bc50 + 0x1b9e8;" (assignment_expression "iVar6 = DAT_0001bc50 + 0x1b9e8" identifier = (binary_expression "DAT_0001bc50 + 0x1b9e8" identifier + number_literal)) ;) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar6,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" { (expression_statement "iVar7 = DAT_0001bc54 + 0x1ba20;" (assignment_expression "iVar7 = DAT_0001bc54 + 0x1ba20" identifier = (binary_expression "DAT_0001bc54 + 0x1ba20" identifier + number_literal)) ;) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar7,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" { (expression_statement "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);" (assignment_expression "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba54)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba54)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba54)" ( (binary_expression "DAT_0001bc58 + 0x1ba54" identifier + number_literal) ))))) ;) (expression_statement "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);" (assignment_expression "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58)" identifier = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba58)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba58)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba58)" ( (binary_expression "DAT_0001bc58 + 0x1ba58" identifier + number_literal) ))))) ;) (expression_statement "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);" (assignment_expression "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50)" (pointer_expression "*(undefined4 *)pcVar9" * (cast_expression "(undefined4 *)pcVar9" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) = (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba50)" * (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba50)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc58 + 0x1ba50)" ( (binary_expression "DAT_0001bc58 + 0x1ba50" identifier + number_literal) ))))) ;) (expression_statement "*(undefined4 *)(pcVar9 + 4) = uVar10;" (assignment_expression "*(undefined4 *)(pcVar9 + 4) = uVar10" (pointer_expression "*(undefined4 *)(pcVar9 + 4)" * (cast_expression "(undefined4 *)(pcVar9 + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(pcVar9 + 4)" ( (binary_expression "pcVar9 + 4" identifier + number_literal) )))) = identifier) ;) (expression_statement "*(short *)(pcVar9 + 8) = (short)uVar8;" (assignment_expression "*(short *)(pcVar9 + 8) = (short)uVar8" (pointer_expression "*(short *)(pcVar9 + 8)" * (cast_expression "(short *)(pcVar9 + 8)" ( (type_descriptor "short *" (sized_type_specifier "short" short) (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(pcVar9 + 8)" ( (binary_expression "pcVar9 + 8" identifier + number_literal) )))) = (cast_expression "(short)uVar8" ( (type_descriptor "short" (sized_type_specifier "short" short)) ) identifier)) ;) (expression_statement "pcVar9[10] = '/';" (assignment_expression "pcVar9[10] = '/'" (subscript_expression "pcVar9[10]" identifier [ number_literal ]) = (char_literal "'/'" ' character ')) ;) (expression_statement "strcpy(pcVar9 + 0xb,pcVar2);" (call_expression "strcpy(pcVar9 + 0xb,pcVar2)" identifier (argument_list "(pcVar9 + 0xb,pcVar2)" ( (binary_expression "pcVar9 + 0xb" identifier + number_literal) , identifier ))) ;) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" identifier = (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" ( (pointer_expression "*param_4" * identifier) )) (argument_list "(pcVar9,param_5)" ( identifier , identifier )))) ;) (if_statement "if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" if (parenthesized_expression "(iVar5 == 0)" ( (binary_expression "iVar5 == 0" identifier == number_literal) )) (compound_statement "{\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" { (expression_statement "iVar5 = DAT_0001bc60 + 0x1ba98;" (assignment_expression "iVar5 = DAT_0001bc60 + 0x1ba98" identifier = (binary_expression "DAT_0001bc60 + 0x1ba98" identifier + number_literal)) ;) (expression_statement "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" identifier (argument_list "(0,DAT_0001bc5c + 0x1ba94,5)" ( number_literal , (binary_expression "DAT_0001bc5c + 0x1ba94" identifier + number_literal) , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar2);" (call_expression "warn(uVar10,pcVar2)" identifier (argument_list "(uVar10,pcVar2)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar7,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" identifier (argument_list "(pcVar9,__format,iVar6,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_01,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" identifier (argument_list "(pcVar9,__format_00,__s,pcVar2)" ( identifier , identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" identifier (argument_list "(pcVar9,pcVar3,pcVar2)" ( identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "strcpy(pcVar9,pcVar2);" (call_expression "strcpy(pcVar9,pcVar2)" identifier (argument_list "(pcVar9,pcVar2)" ( identifier , identifier ))) ;) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" identifier = (call_expression "dcgettext(0,iVar5,5)" identifier (argument_list "(0,iVar5,5)" ( number_literal , identifier , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "free(__s);" (call_expression "free(__s)" identifier (argument_list "(__s)" ( identifier ))) ;) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier ))) ;) (return_statement "return 0;" return number_literal ;) })) })) })) })) })) })) })) (expression_statement "free(__s);" (call_expression "free(__s)" identifier (argument_list "(__s)" ( identifier ))) ;) (expression_statement "iVar6 = FUN_0001ad44(pcVar9);" (assignment_expression "iVar6 = FUN_0001ad44(pcVar9)" identifier = (call_expression "FUN_0001ad44(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier )))) ;) (expression_statement "iVar5 = DAT_0001bc38;" (assignment_expression "iVar5 = DAT_0001bc38" identifier = identifier) ;) (expression_statement "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;" (assignment_expression "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6" (pointer_expression "*(int *)(DAT_0001bc38 + 0x1bd68)" * (cast_expression "(int *)(DAT_0001bc38 + 0x1bd68)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001bc38 + 0x1bd68)" ( (binary_expression "DAT_0001bc38 + 0x1bd68" identifier + number_literal) )))) = identifier) ;) (if_statement "if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" if (parenthesized_expression "(iVar6 == 0)" ( (binary_expression "iVar6 == 0" identifier == number_literal) )) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }" { (expression_statement "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" identifier = (call_expression "dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" identifier (argument_list "(0,DAT_0001bc6c + 0x1bc1c,5)" ( number_literal , (binary_expression "DAT_0001bc6c + 0x1bc1c" identifier + number_literal) , number_literal )))) ;) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" identifier (argument_list "(uVar10,pcVar9)" ( identifier , identifier ))) ;) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" identifier (argument_list "(pcVar9)" ( identifier ))) ;) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" identifier = number_literal) ;) }) (else_clause "else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" else (compound_statement "{\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" { (expression_statement "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);" (assignment_expression "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" identifier = (cast_expression "(char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (call_expression "dcgettext(0,DAT_0001bc3c + 0x1b928,5)" identifier (argument_list "(0,DAT_0001bc3c + 0x1b928,5)" ( number_literal , (binary_expression "DAT_0001bc3c + 0x1b928" identifier + number_literal) , number_literal ))))) ;) (expression_statement "printf(pcVar2,param_1,pcVar9);" (call_expression "printf(pcVar2,param_1,pcVar9)" identifier (argument_list "(pcVar2,param_1,pcVar9)" ( identifier , identifier , identifier ))) ;) (expression_statement "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);" (assignment_expression "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68)" identifier = (pointer_expression "*(undefined4 *)(iVar5 + 0x1bd68)" * (cast_expression "(undefined4 *)(iVar5 + 0x1bd68)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar5 + 0x1bd68)" ( (binary_expression "iVar5 + 0x1bd68" identifier + number_literal) ))))) ;) (expression_statement "*(char **)(iVar5 + 0x1bd6c) = pcVar9;" (assignment_expression "*(char **)(iVar5 + 0x1bd6c) = pcVar9" (pointer_expression "*(char **)(iVar5 + 0x1bd6c)" * (cast_expression "(char **)(iVar5 + 0x1bd6c)" ( (type_descriptor "char **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar5 + 0x1bd6c)" ( (binary_expression "iVar5 + 0x1bd6c" identifier + number_literal) )))) = identifier) ;) }))) }))) }))) (return_statement "return uVar10;" return identifier ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT )))) ;) (expression_statement (assignment_expression IDENT = (subscript_expression IDENT [ LIT ])) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) })) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT ))))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( IDENT ))))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (binary_expression IDENT + (cast_expression ( (type_descriptor TYPE) ) IDENT))) , (binary_expression (subscript_expression IDENT [ LIT ]) != (char_literal ' character '))) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (parenthesized_expression ( (binary_expression LIT - (cast_expression ( (type_descriptor TYPE) ) IDENT)) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (binary_expression IDENT + LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (goto_statement goto statement_identifier ;) })) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT != (char_literal ' character ')) )) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + (cast_expression ( (type_descriptor TYPE) ) IDENT))) ;) })) (labeled_statement statement_identifier : (expression_statement (assignment_expression (pointer_expression * IDENT) = (char_literal ' escape_sequence ')) ;)) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + IDENT) + LIT) ))) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT ))) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , (binary_expression IDENT + LIT) ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor (sized_type_specifier short) (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = (cast_expression ( (type_descriptor (sized_type_specifier short)) ) IDENT)) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = (char_literal ' character ')) ;) (expression_statement (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression (parenthesized_expression ( (pointer_expression * IDENT) )) (argument_list ( IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (return_statement return LIT ;) })) })) })) })) })) })) })) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT )))) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) (expression_statement (assignment_expression IDENT = LIT) ;) }) (else_clause else (compound_statement { (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT ))))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) }))) }))) }))) (return_statement return IDENT ;) })))
|
(function_definition "undefined4\nFUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)\n\n{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" (type_identifier "undefined4") (function_declarator "FUN_0001b820(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" (identifier "FUN_0001b820") (parameter_list "(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "int *param_2" (primitive_type "int") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "code *param_3" (type_identifier "code") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) (, ",") (parameter_declaration "code *param_4" (type_identifier "code") (pointer_declarator "*param_4" (* "*") (identifier "param_4"))) (, ",") (parameter_declaration "undefined4 param_5" (type_identifier "undefined4") (identifier "param_5")) () ")"))) (compound_statement "{\n char cVar1;\n char *pcVar2;\n char *__s;\n char *pcVar3;\n size_t sVar4;\n int iVar5;\n int iVar6;\n int iVar7;\n undefined4 uVar8;\n char *pcVar9;\n char *__format;\n undefined4 uVar10;\n char *__format_00;\n char *__format_01;\n \n pcVar2 = (char *)(*param_3)(param_2,param_5);\n if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }\n return uVar10;\n}" ({ "{") (declaration "char cVar1;" (primitive_type "char") (identifier "cVar1") (; ";")) (declaration "char *pcVar2;" (primitive_type "char") (pointer_declarator "*pcVar2" (* "*") (identifier "pcVar2")) (; ";")) (declaration "char *__s;" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s")) (; ";")) (declaration "char *pcVar3;" (primitive_type "char") (pointer_declarator "*pcVar3" (* "*") (identifier "pcVar3")) (; ";")) (declaration "size_t sVar4;" (primitive_type "size_t") (identifier "sVar4") (; ";")) (declaration "int iVar5;" (primitive_type "int") (identifier "iVar5") (; ";")) (declaration "int iVar6;" (primitive_type "int") (identifier "iVar6") (; ";")) (declaration "int iVar7;" (primitive_type "int") (identifier "iVar7") (; ";")) (declaration "undefined4 uVar8;" (type_identifier "undefined4") (identifier "uVar8") (; ";")) (declaration "char *pcVar9;" (primitive_type "char") (pointer_declarator "*pcVar9" (* "*") (identifier "pcVar9")) (; ";")) (declaration "char *__format;" (primitive_type "char") (pointer_declarator "*__format" (* "*") (identifier "__format")) (; ";")) (declaration "undefined4 uVar10;" (type_identifier "undefined4") (identifier "uVar10") (; ";")) (declaration "char *__format_00;" (primitive_type "char") (pointer_declarator "*__format_00" (* "*") (identifier "__format_00")) (; ";")) (declaration "char *__format_01;" (primitive_type "char") (pointer_declarator "*__format_01" (* "*") (identifier "__format_01")) (; ";")) (expression_statement "pcVar2 = (char *)(*param_3)(param_2,param_5);" (assignment_expression "pcVar2 = (char *)(*param_3)(param_2,param_5)" (identifier "pcVar2") (= "=") (cast_expression "(char *)(*param_3)(param_2,param_5)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "(*param_3)(param_2,param_5)" (parenthesized_expression "(*param_3)" (( "(") (pointer_expression "*param_3" (* "*") (identifier "param_3")) () ")")) (argument_list "(param_2,param_5)" (( "(") (identifier "param_2") (, ",") (identifier "param_5") () ")"))))) (; ";")) (if_statement "if (pcVar2 == (char *)0x0) {\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }\n else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" (if "if") (parenthesized_expression "(pcVar2 == (char *)0x0)" (( "(") (binary_expression "pcVar2 == (char *)0x0" (identifier "pcVar2") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);\n iVar5 = param_2[2];\n if (iVar5 == 0) {\n iVar5 = *param_2;\n }\n warn(uVar10,iVar5);\n uVar10 = 0;\n }" ({ "{") (expression_statement "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,DAT_0001bc64 + 0x1bbe0,5)" (identifier "dcgettext") (argument_list "(0,DAT_0001bc64 + 0x1bbe0,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0001bc64 + 0x1bbe0" (identifier "DAT_0001bc64") (+ "+") (number_literal "0x1bbe0")) (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "iVar5 = param_2[2];" (assignment_expression "iVar5 = param_2[2]" (identifier "iVar5") (= "=") (subscript_expression "param_2[2]" (identifier "param_2") ([ "[") (number_literal "2") (] "]"))) (; ";")) (if_statement "if (iVar5 == 0) {\n iVar5 = *param_2;\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n iVar5 = *param_2;\n }" ({ "{") (expression_statement "iVar5 = *param_2;" (assignment_expression "iVar5 = *param_2" (identifier "iVar5") (= "=") (pointer_expression "*param_2" (* "*") (identifier "param_2"))) (; ";")) (} "}"))) (expression_statement "warn(uVar10,iVar5);" (call_expression "warn(uVar10,iVar5)" (identifier "warn") (argument_list "(uVar10,iVar5)" (( "(") (identifier "uVar10") (, ",") (identifier "iVar5") () ")"))) (; ";")) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" (identifier "uVar10") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" (else "else") (compound_statement "{\n __s = (char *)lrealpath(param_1);\n pcVar3 = (char *)strlen(__s);\n pcVar9 = __s;\n if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }\nLAB_0001b8a4:\n *pcVar9 = '\0';\n sVar4 = strlen(pcVar2);\n pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));\n if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }\n }" ({ "{") (expression_statement "__s = (char *)lrealpath(param_1);" (assignment_expression "__s = (char *)lrealpath(param_1)" (identifier "__s") (= "=") (cast_expression "(char *)lrealpath(param_1)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "lrealpath(param_1)" (identifier "lrealpath") (argument_list "(param_1)" (( "(") (identifier "param_1") () ")"))))) (; ";")) (expression_statement "pcVar3 = (char *)strlen(__s);" (assignment_expression "pcVar3 = (char *)strlen(__s)" (identifier "pcVar3") (= "=") (cast_expression "(char *)strlen(__s)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "strlen(__s)" (identifier "strlen") (argument_list "(__s)" (( "(") (identifier "__s") () ")"))))) (; ";")) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" (identifier "pcVar9") (= "=") (identifier "__s")) (; ";")) (if_statement "if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" (if "if") (parenthesized_expression "((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'))" (( "(") (binary_expression "(pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" (parenthesized_expression "(pcVar3 != (char *)0x0)" (( "(") (binary_expression "pcVar3 != (char *)0x0" (identifier "pcVar3") (!= "!=") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (&& "&&") (parenthesized_expression "(pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')" (( "(") (comma_expression "pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/'" (assignment_expression "pcVar9 = __s + (int)pcVar3" (identifier "pcVar9") (= "=") (binary_expression "__s + (int)pcVar3" (identifier "__s") (+ "+") (cast_expression "(int)pcVar3" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pcVar3")))) (, ",") (binary_expression "pcVar9[-1] != '/'" (subscript_expression "pcVar9[-1]" (identifier "pcVar9") ([ "[") (number_literal "-1") (] "]")) (!= "!=") (char_literal "'/'" (' "'") (character "/") (' "'")))) () ")"))) () ")")) (compound_statement "{\n pcVar9 = __s + (int)(pcVar3 + -2);\n do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');\n pcVar9 = __s + (int)pcVar3;\n }" ({ "{") (expression_statement "pcVar9 = __s + (int)(pcVar3 + -2);" (assignment_expression "pcVar9 = __s + (int)(pcVar3 + -2)" (identifier "pcVar9") (= "=") (binary_expression "__s + (int)(pcVar3 + -2)" (identifier "__s") (+ "+") (cast_expression "(int)(pcVar3 + -2)" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (parenthesized_expression "(pcVar3 + -2)" (( "(") (binary_expression "pcVar3 + -2" (identifier "pcVar3") (+ "+") (number_literal "-2")) () ")"))))) (; ";")) (do_statement "do {\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n } while (cVar1 != '/');" (do "do") (compound_statement "{\n pcVar3 = pcVar9 + (1 - (int)__s);\n if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }\n cVar1 = *pcVar9;\n pcVar9 = pcVar9 + -1;\n }" ({ "{") (expression_statement "pcVar3 = pcVar9 + (1 - (int)__s);" (assignment_expression "pcVar3 = pcVar9 + (1 - (int)__s)" (identifier "pcVar3") (= "=") (binary_expression "pcVar9 + (1 - (int)__s)" (identifier "pcVar9") (+ "+") (parenthesized_expression "(1 - (int)__s)" (( "(") (binary_expression "1 - (int)__s" (number_literal "1") (- "-") (cast_expression "(int)__s" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "__s"))) () ")")))) (; ";")) (if_statement "if (pcVar9 == __s + -1) {\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" (if "if") (parenthesized_expression "(pcVar9 == __s + -1)" (( "(") (binary_expression "pcVar9 == __s + -1" (identifier "pcVar9") (== "==") (binary_expression "__s + -1" (identifier "__s") (+ "+") (number_literal "-1"))) () ")")) (compound_statement "{\n pcVar3 = (char *)0x0;\n pcVar9 = __s;\n goto LAB_0001b8a4;\n }" ({ "{") (expression_statement "pcVar3 = (char *)0x0;" (assignment_expression "pcVar3 = (char *)0x0" (identifier "pcVar3") (= "=") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) (; ";")) (expression_statement "pcVar9 = __s;" (assignment_expression "pcVar9 = __s" (identifier "pcVar9") (= "=") (identifier "__s")) (; ";")) (goto_statement "goto LAB_0001b8a4;" (goto "goto") (statement_identifier "LAB_0001b8a4") (; ";")) (} "}"))) (expression_statement "cVar1 = *pcVar9;" (assignment_expression "cVar1 = *pcVar9" (identifier "cVar1") (= "=") (pointer_expression "*pcVar9" (* "*") (identifier "pcVar9"))) (; ";")) (expression_statement "pcVar9 = pcVar9 + -1;" (assignment_expression "pcVar9 = pcVar9 + -1" (identifier "pcVar9") (= "=") (binary_expression "pcVar9 + -1" (identifier "pcVar9") (+ "+") (number_literal "-1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(cVar1 != '/')" (( "(") (binary_expression "cVar1 != '/'" (identifier "cVar1") (!= "!=") (char_literal "'/'" (' "'") (character "/") (' "'"))) () ")")) (; ";")) (expression_statement "pcVar9 = __s + (int)pcVar3;" (assignment_expression "pcVar9 = __s + (int)pcVar3" (identifier "pcVar9") (= "=") (binary_expression "__s + (int)pcVar3" (identifier "__s") (+ "+") (cast_expression "(int)pcVar3" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "pcVar3")))) (; ";")) (} "}"))) (labeled_statement "LAB_0001b8a4:\n *pcVar9 = '\0';" (statement_identifier "LAB_0001b8a4") (: ":") (expression_statement "*pcVar9 = '\0';" (assignment_expression "*pcVar9 = '\0'" (pointer_expression "*pcVar9" (* "*") (identifier "pcVar9")) (= "=") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) (; ";"))) (expression_statement "sVar4 = strlen(pcVar2);" (assignment_expression "sVar4 = strlen(pcVar2)" (identifier "sVar4") (= "=") (call_expression "strlen(pcVar2)" (identifier "strlen") (argument_list "(pcVar2)" (( "(") (identifier "pcVar2") () ")")))) (; ";")) (expression_statement "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));" (assignment_expression "pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" (identifier "pcVar9") (= "=") (cast_expression "(char *)malloc((size_t)(pcVar3 + sVar4 + 0x33))" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "malloc((size_t)(pcVar3 + sVar4 + 0x33))" (identifier "malloc") (argument_list "((size_t)(pcVar3 + sVar4 + 0x33))" (( "(") (cast_expression "(size_t)(pcVar3 + sVar4 + 0x33)" (( "(") (type_descriptor "size_t" (primitive_type "size_t")) () ")") (parenthesized_expression "(pcVar3 + sVar4 + 0x33)" (( "(") (binary_expression "pcVar3 + sVar4 + 0x33" (binary_expression "pcVar3 + sVar4" (identifier "pcVar3") (+ "+") (identifier "sVar4")) (+ "+") (number_literal "0x33")) () ")"))) () ")"))))) (; ";")) (if_statement "if (pcVar9 == (char *)0x0) {\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }\n else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" (if "if") (parenthesized_expression "(pcVar9 == (char *)0x0)" (( "(") (binary_expression "pcVar9 == (char *)0x0" (identifier "pcVar9") (== "==") (cast_expression "(char *)0x0" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n dcgettext(0,DAT_0001bc68 + 0x1bc04,5);\n warn();\n uVar10 = 0;\n }" ({ "{") (expression_statement "dcgettext(0,DAT_0001bc68 + 0x1bc04,5);" (call_expression "dcgettext(0,DAT_0001bc68 + 0x1bc04,5)" (identifier "dcgettext") (argument_list "(0,DAT_0001bc68 + 0x1bc04,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0001bc68 + 0x1bc04" (identifier "DAT_0001bc68") (+ "+") (number_literal "0x1bc04")) (, ",") (number_literal "5") () ")"))) (; ";")) (expression_statement "warn();" (call_expression "warn()" (identifier "warn") (argument_list "()" (( "(") () ")"))) (; ";")) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" (identifier "uVar10") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" (else "else") (compound_statement "{\n memcpy(pcVar9,pcVar2,sVar4 + 1);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }\n free(__s);\n iVar6 = FUN_0001ad44(pcVar9);\n iVar5 = DAT_0001bc38;\n *(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;\n if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }\n }" ({ "{") (expression_statement "memcpy(pcVar9,pcVar2,sVar4 + 1);" (call_expression "memcpy(pcVar9,pcVar2,sVar4 + 1)" (identifier "memcpy") (argument_list "(pcVar9,pcVar2,sVar4 + 1)" (( "(") (identifier "pcVar9") (, ",") (identifier "pcVar2") (, ",") (binary_expression "sVar4 + 1" (identifier "sVar4") (+ "+") (number_literal "1")) () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);\n sprintf(pcVar9,pcVar3,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }\n }" ({ "{") (expression_statement "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);" (assignment_expression "pcVar3 = (char *)(DAT_0001bc40 + 0x1b958)" (identifier "pcVar3") (= "=") (cast_expression "(char *)(DAT_0001bc40 + 0x1b958)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc40 + 0x1b958)" (( "(") (binary_expression "DAT_0001bc40 + 0x1b958" (identifier "DAT_0001bc40") (+ "+") (number_literal "0x1b958")) () ")")))) (; ";")) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,pcVar3,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "pcVar3") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n __format_00 = (char *)(DAT_0001bc44 + 0x1b984);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }\n }" ({ "{") (expression_statement "__format_00 = (char *)(DAT_0001bc44 + 0x1b984);" (assignment_expression "__format_00 = (char *)(DAT_0001bc44 + 0x1b984)" (identifier "__format_00") (= "=") (cast_expression "(char *)(DAT_0001bc44 + 0x1b984)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc44 + 0x1b984)" (( "(") (binary_expression "DAT_0001bc44 + 0x1b984" (identifier "DAT_0001bc44") (+ "+") (number_literal "0x1b984")) () ")")))) (; ";")) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format_00,__s,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format_00") (, ",") (identifier "__s") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n __format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }\n }" ({ "{") (expression_statement "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);" (assignment_expression "__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4)" (identifier "__format_01") (= "=") (cast_expression "(char *)(DAT_0001bc48 + 0x1b9b4)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc48 + 0x1b9b4)" (( "(") (binary_expression "DAT_0001bc48 + 0x1b9b4" (identifier "DAT_0001bc48") (+ "+") (number_literal "0x1b9b4")) () ")")))) (; ";")) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format_01,__s,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format_01") (, ",") (identifier "__s") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n __format = (char *)(DAT_0001bc4c + 0x1b9e4);\n iVar6 = DAT_0001bc50 + 0x1b9e8;\n sprintf(pcVar9,__format,iVar6,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }\n }" ({ "{") (expression_statement "__format = (char *)(DAT_0001bc4c + 0x1b9e4);" (assignment_expression "__format = (char *)(DAT_0001bc4c + 0x1b9e4)" (identifier "__format") (= "=") (cast_expression "(char *)(DAT_0001bc4c + 0x1b9e4)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc4c + 0x1b9e4)" (( "(") (binary_expression "DAT_0001bc4c + 0x1b9e4" (identifier "DAT_0001bc4c") (+ "+") (number_literal "0x1b9e4")) () ")")))) (; ";")) (expression_statement "iVar6 = DAT_0001bc50 + 0x1b9e8;" (assignment_expression "iVar6 = DAT_0001bc50 + 0x1b9e8" (identifier "iVar6") (= "=") (binary_expression "DAT_0001bc50 + 0x1b9e8" (identifier "DAT_0001bc50") (+ "+") (number_literal "0x1b9e8"))) (; ";")) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format,iVar6,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format") (, ",") (identifier "iVar6") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n iVar7 = DAT_0001bc54 + 0x1ba20;\n sprintf(pcVar9,__format,iVar7,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }\n }" ({ "{") (expression_statement "iVar7 = DAT_0001bc54 + 0x1ba20;" (assignment_expression "iVar7 = DAT_0001bc54 + 0x1ba20" (identifier "iVar7") (= "=") (binary_expression "DAT_0001bc54 + 0x1ba20" (identifier "DAT_0001bc54") (+ "+") (number_literal "0x1ba20"))) (; ";")) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format,iVar7,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format") (, ",") (identifier "iVar7") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);\n uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);\n *(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);\n *(undefined4 *)(pcVar9 + 4) = uVar10;\n *(short *)(pcVar9 + 8) = (short)uVar8;\n pcVar9[10] = '/';\n strcpy(pcVar9 + 0xb,pcVar2);\n iVar5 = (*param_4)(pcVar9,param_5);\n if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }\n }" ({ "{") (expression_statement "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);" (assignment_expression "uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54)" (identifier "uVar10") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba54)" (* "*") (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba54)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc58 + 0x1ba54)" (( "(") (binary_expression "DAT_0001bc58 + 0x1ba54" (identifier "DAT_0001bc58") (+ "+") (number_literal "0x1ba54")) () ")"))))) (; ";")) (expression_statement "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);" (assignment_expression "uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58)" (identifier "uVar8") (= "=") (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba58)" (* "*") (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba58)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc58 + 0x1ba58)" (( "(") (binary_expression "DAT_0001bc58 + 0x1ba58" (identifier "DAT_0001bc58") (+ "+") (number_literal "0x1ba58")) () ")"))))) (; ";")) (expression_statement "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);" (assignment_expression "*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50)" (pointer_expression "*(undefined4 *)pcVar9" (* "*") (cast_expression "(undefined4 *)pcVar9" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "pcVar9"))) (= "=") (pointer_expression "*(undefined4 *)(DAT_0001bc58 + 0x1ba50)" (* "*") (cast_expression "(undefined4 *)(DAT_0001bc58 + 0x1ba50)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc58 + 0x1ba50)" (( "(") (binary_expression "DAT_0001bc58 + 0x1ba50" (identifier "DAT_0001bc58") (+ "+") (number_literal "0x1ba50")) () ")"))))) (; ";")) (expression_statement "*(undefined4 *)(pcVar9 + 4) = uVar10;" (assignment_expression "*(undefined4 *)(pcVar9 + 4) = uVar10" (pointer_expression "*(undefined4 *)(pcVar9 + 4)" (* "*") (cast_expression "(undefined4 *)(pcVar9 + 4)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(pcVar9 + 4)" (( "(") (binary_expression "pcVar9 + 4" (identifier "pcVar9") (+ "+") (number_literal "4")) () ")")))) (= "=") (identifier "uVar10")) (; ";")) (expression_statement "*(short *)(pcVar9 + 8) = (short)uVar8;" (assignment_expression "*(short *)(pcVar9 + 8) = (short)uVar8" (pointer_expression "*(short *)(pcVar9 + 8)" (* "*") (cast_expression "(short *)(pcVar9 + 8)" (( "(") (type_descriptor "short *" (sized_type_specifier "short" (short "short")) (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(pcVar9 + 8)" (( "(") (binary_expression "pcVar9 + 8" (identifier "pcVar9") (+ "+") (number_literal "8")) () ")")))) (= "=") (cast_expression "(short)uVar8" (( "(") (type_descriptor "short" (sized_type_specifier "short" (short "short"))) () ")") (identifier "uVar8"))) (; ";")) (expression_statement "pcVar9[10] = '/';" (assignment_expression "pcVar9[10] = '/'" (subscript_expression "pcVar9[10]" (identifier "pcVar9") ([ "[") (number_literal "10") (] "]")) (= "=") (char_literal "'/'" (' "'") (character "/") (' "'"))) (; ";")) (expression_statement "strcpy(pcVar9 + 0xb,pcVar2);" (call_expression "strcpy(pcVar9 + 0xb,pcVar2)" (identifier "strcpy") (argument_list "(pcVar9 + 0xb,pcVar2)" (( "(") (binary_expression "pcVar9 + 0xb" (identifier "pcVar9") (+ "+") (number_literal "0xb")) (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "iVar5 = (*param_4)(pcVar9,param_5);" (assignment_expression "iVar5 = (*param_4)(pcVar9,param_5)" (identifier "iVar5") (= "=") (call_expression "(*param_4)(pcVar9,param_5)" (parenthesized_expression "(*param_4)" (( "(") (pointer_expression "*param_4" (* "*") (identifier "param_4")) () ")")) (argument_list "(pcVar9,param_5)" (( "(") (identifier "pcVar9") (, ",") (identifier "param_5") () ")")))) (; ";")) (if_statement "if (iVar5 == 0) {\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" (if "if") (parenthesized_expression "(iVar5 == 0)" (( "(") (binary_expression "iVar5 == 0" (identifier "iVar5") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n iVar5 = DAT_0001bc60 + 0x1ba98;\n uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);\n warn(uVar10,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar7,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format,iVar6,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_01,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,__format_00,__s,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n sprintf(pcVar9,pcVar3,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n strcpy(pcVar9,pcVar2);\n uVar10 = dcgettext(0,iVar5,5);\n warn(uVar10,pcVar9);\n free(__s);\n free(pcVar9);\n return 0;\n }" ({ "{") (expression_statement "iVar5 = DAT_0001bc60 + 0x1ba98;" (assignment_expression "iVar5 = DAT_0001bc60 + 0x1ba98" (identifier "iVar5") (= "=") (binary_expression "DAT_0001bc60 + 0x1ba98" (identifier "DAT_0001bc60") (+ "+") (number_literal "0x1ba98"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,DAT_0001bc5c + 0x1ba94,5)" (identifier "dcgettext") (argument_list "(0,DAT_0001bc5c + 0x1ba94,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0001bc5c + 0x1ba94" (identifier "DAT_0001bc5c") (+ "+") (number_literal "0x1ba94")) (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar2);" (call_expression "warn(uVar10,pcVar2)" (identifier "warn") (argument_list "(uVar10,pcVar2)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "sprintf(pcVar9,__format,iVar7,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar7,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format,iVar7,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format") (, ",") (identifier "iVar7") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "sprintf(pcVar9,__format,iVar6,pcVar2);" (call_expression "sprintf(pcVar9,__format,iVar6,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format,iVar6,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format") (, ",") (identifier "iVar6") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "sprintf(pcVar9,__format_01,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_01,__s,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format_01,__s,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format_01") (, ",") (identifier "__s") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "sprintf(pcVar9,__format_00,__s,pcVar2);" (call_expression "sprintf(pcVar9,__format_00,__s,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,__format_00,__s,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "__format_00") (, ",") (identifier "__s") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "sprintf(pcVar9,pcVar3,pcVar2);" (call_expression "sprintf(pcVar9,pcVar3,pcVar2)" (identifier "sprintf") (argument_list "(pcVar9,pcVar3,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "pcVar3") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "strcpy(pcVar9,pcVar2);" (call_expression "strcpy(pcVar9,pcVar2)" (identifier "strcpy") (argument_list "(pcVar9,pcVar2)" (( "(") (identifier "pcVar9") (, ",") (identifier "pcVar2") () ")"))) (; ";")) (expression_statement "uVar10 = dcgettext(0,iVar5,5);" (assignment_expression "uVar10 = dcgettext(0,iVar5,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,iVar5,5)" (identifier "dcgettext") (argument_list "(0,iVar5,5)" (( "(") (number_literal "0") (, ",") (identifier "iVar5") (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "free(__s);" (call_expression "free(__s)" (identifier "free") (argument_list "(__s)" (( "(") (identifier "__s") () ")"))) (; ";")) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" (identifier "free") (argument_list "(pcVar9)" (( "(") (identifier "pcVar9") () ")"))) (; ";")) (return_statement "return 0;" (return "return") (number_literal "0") (; ";")) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (} "}"))) (expression_statement "free(__s);" (call_expression "free(__s)" (identifier "free") (argument_list "(__s)" (( "(") (identifier "__s") () ")"))) (; ";")) (expression_statement "iVar6 = FUN_0001ad44(pcVar9);" (assignment_expression "iVar6 = FUN_0001ad44(pcVar9)" (identifier "iVar6") (= "=") (call_expression "FUN_0001ad44(pcVar9)" (identifier "FUN_0001ad44") (argument_list "(pcVar9)" (( "(") (identifier "pcVar9") () ")")))) (; ";")) (expression_statement "iVar5 = DAT_0001bc38;" (assignment_expression "iVar5 = DAT_0001bc38" (identifier "iVar5") (= "=") (identifier "DAT_0001bc38")) (; ";")) (expression_statement "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;" (assignment_expression "*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6" (pointer_expression "*(int *)(DAT_0001bc38 + 0x1bd68)" (* "*") (cast_expression "(int *)(DAT_0001bc38 + 0x1bd68)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001bc38 + 0x1bd68)" (( "(") (binary_expression "DAT_0001bc38 + 0x1bd68" (identifier "DAT_0001bc38") (+ "+") (number_literal "0x1bd68")) () ")")))) (= "=") (identifier "iVar6")) (; ";")) (if_statement "if (iVar6 == 0) {\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }\n else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" (if "if") (parenthesized_expression "(iVar6 == 0)" (( "(") (binary_expression "iVar6 == 0" (identifier "iVar6") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);\n warn(uVar10,pcVar9);\n free(pcVar9);\n uVar10 = 0;\n }" ({ "{") (expression_statement "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);" (assignment_expression "uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" (identifier "uVar10") (= "=") (call_expression "dcgettext(0,DAT_0001bc6c + 0x1bc1c,5)" (identifier "dcgettext") (argument_list "(0,DAT_0001bc6c + 0x1bc1c,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0001bc6c + 0x1bc1c" (identifier "DAT_0001bc6c") (+ "+") (number_literal "0x1bc1c")) (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "warn(uVar10,pcVar9);" (call_expression "warn(uVar10,pcVar9)" (identifier "warn") (argument_list "(uVar10,pcVar9)" (( "(") (identifier "uVar10") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "free(pcVar9);" (call_expression "free(pcVar9)" (identifier "free") (argument_list "(pcVar9)" (( "(") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "uVar10 = 0;" (assignment_expression "uVar10 = 0" (identifier "uVar10") (= "=") (number_literal "0")) (; ";")) (} "}")) (else_clause "else {\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" (else "else") (compound_statement "{\n pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);\n printf(pcVar2,param_1,pcVar9);\n uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);\n *(char **)(iVar5 + 0x1bd6c) = pcVar9;\n }" ({ "{") (expression_statement "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);" (assignment_expression "pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" (identifier "pcVar2") (= "=") (cast_expression "(char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (call_expression "dcgettext(0,DAT_0001bc3c + 0x1b928,5)" (identifier "dcgettext") (argument_list "(0,DAT_0001bc3c + 0x1b928,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_0001bc3c + 0x1b928" (identifier "DAT_0001bc3c") (+ "+") (number_literal "0x1b928")) (, ",") (number_literal "5") () ")"))))) (; ";")) (expression_statement "printf(pcVar2,param_1,pcVar9);" (call_expression "printf(pcVar2,param_1,pcVar9)" (identifier "printf") (argument_list "(pcVar2,param_1,pcVar9)" (( "(") (identifier "pcVar2") (, ",") (identifier "param_1") (, ",") (identifier "pcVar9") () ")"))) (; ";")) (expression_statement "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);" (assignment_expression "uVar10 = *(undefined4 *)(iVar5 + 0x1bd68)" (identifier "uVar10") (= "=") (pointer_expression "*(undefined4 *)(iVar5 + 0x1bd68)" (* "*") (cast_expression "(undefined4 *)(iVar5 + 0x1bd68)" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar5 + 0x1bd68)" (( "(") (binary_expression "iVar5 + 0x1bd68" (identifier "iVar5") (+ "+") (number_literal "0x1bd68")) () ")"))))) (; ";")) (expression_statement "*(char **)(iVar5 + 0x1bd6c) = pcVar9;" (assignment_expression "*(char **)(iVar5 + 0x1bd6c) = pcVar9" (pointer_expression "*(char **)(iVar5 + 0x1bd6c)" (* "*") (cast_expression "(char **)(iVar5 + 0x1bd6c)" (( "(") (type_descriptor "char **" (primitive_type "char") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(iVar5 + 0x1bd6c)" (( "(") (binary_expression "iVar5 + 0x1bd6c" (identifier "iVar5") (+ "+") (number_literal "0x1bd6c")) () ")")))) (= "=") (identifier "pcVar9")) (; ";")) (} "}")))) (} "}")))) (} "}")))) (return_statement "return uVar10;" (return "return") (identifier "uVar10") (; ";")) (} "}")))
|
void * function_1
(char *main_filename,type_1 *xlink,type_2 parse_func,
type_3 check_func,void *func_data)
{
char var_9;
char *var_1;
char *var_7;
char *var_6;
size_t var_11;
type_4 var_14;
void *var_18;
char *var_8;
var_1 = (*parse_func)(xlink,func_data);
if (var_1 == (char *)0x0) {
/* WARNING: Subroutine does not return */
var_2(0,&UNK_0001bbe0 + var_3,5);
}
var_7 = (char *)var_4(main_filename);
var_6 = (char *)var_5(var_7);
var_8 = var_7;
if ((var_6 != (char *)0x0) && (var_8 = var_7 + (int)var_6, var_8[-1] != '/')) {
var_8 = var_7 + (int)(var_6 + -2);
do {
var_6 = var_8 + (1 - (int)var_7);
if (var_8 == var_7 + -1) {
var_6 = (char *)0x0;
var_8 = var_7;
goto LAB_0001b8a4;
}
var_9 = *var_8;
var_8 = var_8 + -1;
} while (var_9 != '/');
var_8 = var_7 + (int)var_6;
}
LAB_0001b8a4:
*var_8 = '\0';
var_11 = var_5(var_1);
var_8 = (char *)var_10((size_t)(var_6 + var_11 + 0x33));
if (var_8 == (char *)0x0) {
/* WARNING: Subroutine does not return */
var_2(0,&UNK_0001bc04 + var_12,5);
}
var_13(var_8,var_1,var_11 + 1);
var_14 = (*check_func)(var_8,func_data);
if (var_14 != 0) {
var_15(var_7);
var_18 = var_16(var_8);
*(void **)(var_17 + 0x1bd68) = var_18;
if (var_18 != (void *)0x0) {
/* WARNING: Subroutine does not return */
var_2(0,&UNK_0001b928 + var_19,5);
}
/* WARNING: Subroutine does not return */
var_2(0,&UNK_0001bc1c + var_20,5);
}
/* WARNING: Subroutine does not return */
var_21(var_8,(char *)(var_22 + 0x1b958),var_1);
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (subscript_expression argument: (identifier) index: (number_literal)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)))) right: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (char_literal (character))))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (number_literal) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (goto_statement label: (statement_identifier)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (char_literal (character))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier))))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (char_literal (escape_sequence))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (identifier)) right: (number_literal))))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (binary_expression left: (identifier) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier))) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (sized_type_specifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (cast_expression type: (type_descriptor type: (sized_type_specifier)) value: (identifier)))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (char_literal (character)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (parenthesized_expression (pointer_expression argument: (identifier))) arguments: (argument_list (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (return_statement (number_literal)))))))))))))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier))))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal)))) alternative: (else_clause (compound_statement (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal)))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier)))))))))))) (return_statement (identifier)))))
|
undefined4
MASKED(undefined4 param_1,int *param_2,code *param_3,code *param_4,undefined4 param_5)
{
char cVar1;
char *pcVar2;
char *__s;
char *pcVar3;
size_t sVar4;
int iVar5;
int iVar6;
int iVar7;
undefined4 uVar8;
char *pcVar9;
char *__format;
undefined4 uVar10;
char *__format_00;
char *__format_01;
pcVar2 = (char *)(*param_3)(param_2,param_5);
if (pcVar2 == (char *)0x0) {
uVar10 = dcgettext(0,DAT_0001bc64 + 0x1bbe0,5);
iVar5 = param_2[2];
if (iVar5 == 0) {
iVar5 = *param_2;
}
warn(uVar10,iVar5);
uVar10 = 0;
}
else {
__s = (char *)lrealpath(param_1);
pcVar3 = (char *)strlen(__s);
pcVar9 = __s;
if ((pcVar3 != (char *)0x0) && (pcVar9 = __s + (int)pcVar3, pcVar9[-1] != '/')) {
pcVar9 = __s + (int)(pcVar3 + -2);
do {
pcVar3 = pcVar9 + (1 - (int)__s);
if (pcVar9 == __s + -1) {
pcVar3 = (char *)0x0;
pcVar9 = __s;
goto LAB_0001b8a4;
}
cVar1 = *pcVar9;
pcVar9 = pcVar9 + -1;
} while (cVar1 != '/');
pcVar9 = __s + (int)pcVar3;
}
LAB_0001b8a4:
*pcVar9 = '\0';
sVar4 = strlen(pcVar2);
pcVar9 = (char *)malloc((size_t)(pcVar3 + sVar4 + 0x33));
if (pcVar9 == (char *)0x0) {
dcgettext(0,DAT_0001bc68 + 0x1bc04,5);
warn();
uVar10 = 0;
}
else {
memcpy(pcVar9,pcVar2,sVar4 + 1);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
pcVar3 = (char *)(DAT_0001bc40 + 0x1b958);
sprintf(pcVar9,pcVar3,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format_00 = (char *)(DAT_0001bc44 + 0x1b984);
sprintf(pcVar9,__format_00,__s,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format_01 = (char *)(DAT_0001bc48 + 0x1b9b4);
sprintf(pcVar9,__format_01,__s,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
__format = (char *)(DAT_0001bc4c + 0x1b9e4);
iVar6 = DAT_0001bc50 + 0x1b9e8;
sprintf(pcVar9,__format,iVar6,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
iVar7 = DAT_0001bc54 + 0x1ba20;
sprintf(pcVar9,__format,iVar7,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
uVar10 = *(undefined4 *)(DAT_0001bc58 + 0x1ba54);
uVar8 = *(undefined4 *)(DAT_0001bc58 + 0x1ba58);
*(undefined4 *)pcVar9 = *(undefined4 *)(DAT_0001bc58 + 0x1ba50);
*(undefined4 *)(pcVar9 + 4) = uVar10;
*(short *)(pcVar9 + 8) = (short)uVar8;
pcVar9[10] = '/';
strcpy(pcVar9 + 0xb,pcVar2);
iVar5 = (*param_4)(pcVar9,param_5);
if (iVar5 == 0) {
iVar5 = DAT_0001bc60 + 0x1ba98;
uVar10 = dcgettext(0,DAT_0001bc5c + 0x1ba94,5);
warn(uVar10,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format,iVar7,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format,iVar6,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format_01,__s,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,__format_00,__s,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
sprintf(pcVar9,pcVar3,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
strcpy(pcVar9,pcVar2);
uVar10 = dcgettext(0,iVar5,5);
warn(uVar10,pcVar9);
free(__s);
free(pcVar9);
return 0;
}
}
}
}
}
}
}
free(__s);
iVar6 = FUN_0001ad44(pcVar9);
iVar5 = DAT_0001bc38;
*(int *)(DAT_0001bc38 + 0x1bd68) = iVar6;
if (iVar6 == 0) {
uVar10 = dcgettext(0,DAT_0001bc6c + 0x1bc1c,5);
warn(uVar10,pcVar9);
free(pcVar9);
uVar10 = 0;
}
else {
pcVar2 = (char *)dcgettext(0,DAT_0001bc3c + 0x1b928,5);
printf(pcVar2,param_1,pcVar9);
uVar10 = *(undefined4 *)(iVar5 + 0x1bd68);
*(char **)(iVar5 + 0x1bd6c) = pcVar9;
}
}
}
return uVar10;
}
| 41,090 |
||
105_stat_and_stat_strip.c
|
find_bind_mount
|
FUN_00013bb0
|
char * find_bind_mount(char *name)
{
int iVar1;
mount_entry *pmVar2;
int *piVar3;
undefined4 uVar4;
int iVar5;
undefined4 *puVar6;
int *piVar7;
char *pcVar8;
stat name_stats;
stat dev_stats;
iVar1 = DAT_00013d28;
piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);
iVar5 = *piVar7;
if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {
pmVar2 = read_file_system_list(false);
*(mount_entry **)(iVar1 + 0x13c28) = pmVar2;
if (pmVar2 == (mount_entry *)0x0) {
piVar3 = __errno_location();
iVar1 = *piVar3;
uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);
error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);
}
*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;
}
iVar1 = __xstat64(3,name,(stat64 *)&name_stats);
if ((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)
) {
do {
if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&
(iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&
(((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&
(name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&
(int)name_stats.st_ino == (int)dev_stats.st_ino)) &&
(name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&
(int)name_stats.st_dev == (int)dev_stats.st_dev)))) {
pcVar8 = (char *)*puVar6;
goto LAB_00013ca4;
}
puVar6 = (undefined4 *)puVar6[7];
} while (puVar6 != (undefined4 *)0x0);
}
pcVar8 = (char *)0x0;
LAB_00013ca4:
if (iVar5 == *piVar7) {
return pcVar8;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
void FUN_00013bb0(char *param_1)
{
int iVar1;
undefined4 uVar2;
int iVar3;
int *piVar4;
undefined4 *puVar5;
int *piVar6;
char *__filename;
stat64 local_f0;
stat64 local_88;
int local_1c;
iVar1 = DAT_00013d28;
piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);
local_1c = *piVar6;
if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {
iVar3 = FUN_0001bd40(0);
*(int *)(iVar1 + 0x13c28) = iVar3;
if (iVar3 == 0) {
piVar4 = __errno_location();
iVar1 = *piVar4;
uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);
error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);
}
*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;
}
iVar1 = __xstat64(3,param_1,&local_f0);
if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)
) {
do {
if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')
) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&
(((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&
(local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&
(int)local_f0.st_ino == (int)local_88.st_ino)) &&
(local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&
(int)local_f0.st_dev == (int)local_88.st_dev)))) {
uVar2 = *puVar5;
goto LAB_00013ca4;
}
puVar5 = (undefined4 *)puVar5[7];
} while (puVar5 != (undefined4 *)0x0);
}
uVar2 = 0;
LAB_00013ca4:
if (local_1c == *piVar6) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(uVar2);
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
ldr r3,[0x13d24]
ldr r4,[0x13d28]
ldr r2,[0x13d2c]
add r3,pc,r3
add r4,pc,r4
ldr r7,[r3,r2]
ldrb r2,[r4,#0x59]
sub sp,sp,#0xd8
ldr r1,[r7,#0x0]
cmp r2,#0x0
cpy r5,r0
str r1,[sp,#0xd4]
beq 0x00013cbc
cpy r2,sp
cpy r1,r5
mov r0,#0x3
bl 0x00011874
cmp r0,#0x0
bne 0x00013ca0
ldr r3,[0x13d30]
add r3,pc,r3
ldr r4,[r3,#0x5c]
cmp r4,#0x0
beq 0x00013ca0
add r6,sp,#0x68
b 0x00013c28
ldr r4,[r4,#0x1c]
cmp r4,#0x0
beq 0x00013ca0
ldrb r3,[r4,#0x18]
tst r3,#0x1
beq 0x00013c1c
ldr r8,[r4,#0x0]
ldrb r3,[r8,#0x0]
cmp r3,#0x2f
bne 0x00013c1c
cpy r1,r5
ldr r0,[r4,#0x4]
bl 0x000114a8
cmp r0,#0x0
bne 0x00013c1c
cpy r1,r8
cpy r2,r6
mov r0,#0x3
bl 0x00011874
cmp r0,#0x0
bne 0x00013c1c
ldrd r0,r1,[sp,#0x60]
ldrd r2,r3,[sp,#0xc8]
cmp r1,r3
cmpeq r0,r2
bne 0x00013c1c
ldrd r0,r1,[sp,#0x0]
ldrd r2,r3,[sp,#0x68]
cmp r1,r3
cmpeq r0,r2
bne 0x00013c1c
ldr r0,[r4,#0x0]
b 0x00013ca4
mov r0,#0x0
ldr r2,[sp,#0xd4]
ldr r3,[r7,#0x0]
cmp r2,r3
bne 0x00013d20
add sp,sp,#0xd8
ldmia sp!,{r4,r5,r6,r7,r8,pc}
cpy r0,r2
bl 0x0001bd40
cmp r0,#0x0
cpy r6,r0
str r0,[r4,#0x5c]
beq 0x00013ce8
ldr r3,[0x13d34]
mov r2,#0x1
add r3,pc,r3
strb r2,[r3,#0x59]
b 0x00013be8
bl 0x00011718
ldr r1,[0x13d38]
mov r2,#0x5
add r1,pc,r1
ldr r4,[r0,#0x0]
cpy r0,r6
bl 0x00011538
ldr r2,[0x13d3c]
cpy r1,r4
add r2,pc,r2
cpy r3,r0
cpy r0,r6
bl 0x00011628
b 0x00013cd4
bl 0x00011544
| null | null | null | null |
[(u'STORE_-1205977491', u'INDIRECT_-1205976902'), ('const-0', u'INT_EQUAL_-1205978080'), (u'CALL_-1205977838', u'INDIRECT_-1205976861'), (u'MULTIEQUAL_-1205976775', u'MULTIEQUAL_-1205977010'), (u'INDIRECT_-1205977160', u'MULTIEQUAL_-1205976979'), (u'INDIRECT_-1205976803', u'COPY_-1205976861'), (u'CALL_-1205977838', u'INDIRECT_-1205976945'), (u'INDIRECT_-1205976850', u'INT_EQUAL_-1205977672'), (u'INDIRECT_-1205977106', u'INT_ADD_-1205977973'), (u'INDIRECT_-1205976906', u'MULTIEQUAL_-1205976977'), (u'CALL_-1205977432', u'INDIRECT_-1205976901'), (u'CALL_-1205977432', u'INDIRECT_-1205976865'), (u'INDIRECT_-1205976863', u'MULTIEQUAL_-1205977107'), ('tmp_1114', u'CBRANCH_-1205977484'), (u'INDIRECT_-1205976917', u'MULTIEQUAL_-1205977161'), (u'MULTIEQUAL_-1205976803', u'MULTIEQUAL_-1205977038'), (u'CALL_-1205977518', u'INDIRECT_-1205976960'), (u'INDIRECT_-1205976851', u'MULTIEQUAL_-1205976906'), (u'INT_EQUAL_-1205977063', u'BOOL_AND_-1205976678'), (u'CAST_-1205976837', u'LOAD_-1205978128'), (u'INDIRECT_-1205976673', u'MULTIEQUAL_-1205976733'), (u'MULTIEQUAL_-1205977077', u'MULTIEQUAL_-1205977062'), (u'CALL_-1205977432', u'INDIRECT_-1205976793'), (u'MULTIEQUAL_-1205976922', u'COPY_-1205976966'), (u'CALL_-1205978032', u'INDIRECT_-1205976964'), ('const-0', u'INT_NOTEQUAL_-1205977963'), (u'INDIRECT_-1205976899', u'MULTIEQUAL_-1205977143'), (u'INDIRECT_-1205976999', u'MULTIEQUAL_-1205977041'), (u'PTRADD_-1205976764', u'LOAD_-1205977719'), (u'INT_AND_-1205977158', u'INT_NOTEQUAL_-1205977898'), (u'MULTIEQUAL_-1205977380', u'PTRADD_-1205976764'), ('const-0', u'INT_EQUAL_-1205977498'), (u'LOAD_-1205978134', u'LOAD_-1205977628'), (u'INT_EQUAL_-1205977861', u'CBRANCH_-1205977857'), (u'INDIRECT_-1205977028', u'MULTIEQUAL_-1205977095'), ('const-1', u'STORE_-1205977447'), (u'MULTIEQUAL_-1205977023', u'MULTIEQUAL_-1205977008'), ('const-0', u'RETURN_-1205977561'), (u'MULTIEQUAL_-1205976705', u'MULTIEQUAL_-1205976940'), (u'MULTIEQUAL_-1205977026', u'MULTIEQUAL_-1205977041'), (u'INT_NOTEQUAL_-1205977898', u'CBRANCH_-1205977896'), (u'CALL_-1205977780', u'INDIRECT_-1205976992'), ('const-0', u'INT_NOTEQUAL_-1205977898'), (u'MULTIEQUAL_-1205976979', u'MULTIEQUAL_-1205976976'), ('const-6', u'PTRADD_-1205976751'), (u'INDIRECT_-1205976920', u'MULTIEQUAL_-1205976906'), (u'CALL_-1205977432', u'INDIRECT_-1205976737'), ('tmp_3995', u'MULTIEQUAL_-1205977143'), (u'INDIRECT_-1205976938', u'MULTIEQUAL_-1205977005'), (u'INDIRECT_-1205976950', u'MULTIEQUAL_-1205976892'), (u'MULTIEQUAL_-1205976907', u'MULTIEQUAL_-1205976904'), (u'MULTIEQUAL_-1205977041', u'MULTIEQUAL_-1205977026'), (u'MULTIEQUAL_-1205977380', u'LOAD_-1205977893'), ('tmp_875', u'CBRANCH_-1205977605'), (u'INDIRECT_-1205977142', u'MULTIEQUAL_-1205976961'), (u'MULTIEQUAL_-1205977005', u'MULTIEQUAL_-1205976871'), (u'CALL_-1205977780', u'INDIRECT_-1205976956'), (u'MULTIEQUAL_-1205976961', u'MULTIEQUAL_-1205976958'), (u'CALL_-1205977346', u'INDIRECT_-1205976659'), (u'INDIRECT_-1205976833', u'MULTIEQUAL_-1205976888'), (u'INDIRECT_-1205976938', u'MULTIEQUAL_-1205976868'), (u'INDIRECT_-1205977028', u'MULTIEQUAL_-1205976958'), ('const-0', u'INT_EQUAL_-1205977818'), (u'CALL_-1205977383', u'INDIRECT_-1205976858'), (u'MULTIEQUAL_-1205976733', u'MULTIEQUAL_-1205976968'), (u'INDIRECT_-1205976864', u'INT_EQUAL_-1205977063'), (u'MULTIEQUAL_-1205976948', u'MULTIEQUAL_-1205976963'), (u'MULTIEQUAL_-1205977059', u'MULTIEQUAL_-1205977044'), ('const-417', u'STORE_-1205977491'), (u'INDIRECT_-1205976992', u'MULTIEQUAL_-1205976922'), (u'CAST_-1205976558', u'INT_ADD_-1205977433'), (u'STORE_-1205977447', u'INDIRECT_-1205976917'), (u'INDIRECT_-1205976715', u'MULTIEQUAL_-1205976775'), (u'INT_ADD_-1205978112', u'CAST_-1205976837'), (u'CALL_-1205977383', u'INDIRECT_-1205976684'), (u'CALL_-1205977838', u'INDIRECT_-1205976889'), (u'MULTIEQUAL_-1205976934', u'MULTIEQUAL_-1205976949'), (u'LOAD_-1205977989', u'MULTIEQUAL_-1205977380'), (u'INDIRECT_-1205976827', u'MULTIEQUAL_-1205977071'), ('const-4294967160', u'PTRSUB_-1205976772'), (u'MULTIEQUAL_-1205976893', u'MULTIEQUAL_-1205976878'), (u'MULTIEQUAL_-1205976761', u'MULTIEQUAL_-1205976996'), (u'INDIRECT_-1205977106', u'MULTIEQUAL_-1205977044'), ('const-4', u'PTRADD_-1205976751'), (u'CALL_-1205977518', u'INDIRECT_-1205976750'), (u'CALL_-1205977383', u'INDIRECT_-1205976698'), (u'INDIRECT_-1205976903', u'MULTIEQUAL_-1205976949'), (u'CALL_-1205977780', u'INDIRECT_-1205976938'), (u'INDIRECT_-1205976920', u'INT_EQUAL_-1205977063'), (u'CALL_-1205977432', u'INDIRECT_-1205976829'), (u'CALL_-1205977780', u'INDIRECT_-1205976822'), (u'INDIRECT_-1205976761', u'MULTIEQUAL_-1205976816'), (u'CALL_-1205977838', u'INDIRECT_-1205976931'), (u'INDIRECT_-1205976850', u'MULTIEQUAL_-1205976921'), ('const-1', u'PTRADD_-1205976718'), (u'CALL_-1205977458', u'INDIRECT_-1205976785'), (u'MULTIEQUAL_-1205977080', u'MULTIEQUAL_-1205977095'), (u'MULTIEQUAL_-1205976852', u'INT_ADD_-1205976611'), ('tmp_4000', u'MULTIEQUAL_-1205976982'), (u'INDIRECT_-1205976767', u'COPY_-1205976825'), (u'CALL_-1205977432', u'INDIRECT_-1205976779'), (u'CALL_-1205977838', u'INDIRECT_-1205976917'), (u'INDIRECT_-1205976920', u'MULTIEQUAL_-1205976991'), (u'MULTIEQUAL_-1205976949', u'MULTIEQUAL_-1205976934'), (u'INDIRECT_-1205977035', u'MULTIEQUAL_-1205977077'), ('const-417', u'LOAD_-1205977719'), (u'CALL_-1205977518', u'INDIRECT_-1205976806'), (u'MULTIEQUAL_-1205976977', u'MULTIEQUAL_-1205976962'), (u'INDIRECT_-1205976786', u'INT_ADD_-1205977352'), (u'CAST_-1205976623', u'MULTIEQUAL_-1205977305'), (u'CALL_-1205977780', u'INDIRECT_-1205976878'), (u'CALL_-1205977432', u'INDIRECT_-1205976883'), (u'CALL_-1205977346', u'INDIRECT_-1205976673'), (u'INDIRECT_-1205976836', u'INT_EQUAL_-1205977084'), (u'CALL_-1205977432', u'INDIRECT_-1205976723'), (u'LOAD_-1205977628', u'INT_EQUAL_-1205977609'), (u'CALL_-1205977383', u'INDIRECT_-1205976740'), (u'LOAD_-1205977925', u'INT_AND_-1205977158'), ('tmp_4001', u'MULTIEQUAL_-1205976996'), (u'CALL_-1205977432', u'INDIRECT_-1205976765'), (u'MULTIEQUAL_-1205976940', u'COPY_-1205976984'), ('tmp_3997', u'MULTIEQUAL_-1205976940'), (u'MULTIEQUAL_-1205977380', u'PTRADD_-1205976718'), (u'INDIRECT_-1205976978', u'MULTIEQUAL_-1205976920'), (u'INDIRECT_-1205976938', u'MULTIEQUAL_-1205976924'), (u'MULTIEQUAL_-1205977008', u'MULTIEQUAL_-1205977023'), (u'INDIRECT_-1205976981', u'MULTIEQUAL_-1205977023'), ('tmp_3998', u'MULTIEQUAL_-1205976954'), (u'INDIRECT_-1205977088', u'MULTIEQUAL_-1205976907'), (u'CALL_-1205977432', u'INDIRECT_-1205976695'), (u'CALL_-1205977383', u'INDIRECT_-1205976754'), (u'INDIRECT_-1205976829', u'INT_ADD_-1205977390'), (u'CALL_-1205977780', u'INDIRECT_-1205976864'), ('tmp_663', u'CBRANCH_-1205977756'), ('const-417', u'LOAD_-1205977649'), (u'INT_EQUAL_-1205977724', u'BOOL_AND_-1205976702'), ('const-0', u'CALL_-1205977346'), ('tmp_1292', u'CALL_-1205978032'), (u'CALL_-1205977458', u'INDIRECT_-1205976839'), (u'CALL_-1205978032', u'INDIRECT_-1205976950'), (u'INT_ADD_-1205977433', u'CAST_-1205976557'), ('const-417', u'LOAD_-1205977989'), ('tmp_401', u'BRANCH_-1205977941'), (u'CALL_-1205977346', u'INDIRECT_-1205976701'), (u'CALL_-1205977346', u'INDIRECT_-1205976779'), ('const-417', u'LOAD_-1205978128'), ('const-417', u'LOAD_-1205977399'), (u'INDIRECT_-1205976936', u'MULTIEQUAL_-1205976878'), (u'INDIRECT_-1205976809', u'MULTIEQUAL_-1205977053'), (u'MULTIEQUAL_-1205976925', u'MULTIEQUAL_-1205976922'), (u'INDIRECT_-1205976884', u'MULTIEQUAL_-1205976870'), (u'CALL_-1205977518', u'INDIRECT_-1205976852'), (u'INT_EQUAL_-1205978012', u'CBRANCH_-1205978008'), (u'LOAD_-1205977399', u'CALL_-1205977346'), (u'INT_EQUAL_-1205977498', u'CBRANCH_-1205977484'), ('tmp_3995', u'COPY_-1205976930'), (u'INDIRECT_-1205976822', u'INT_EQUAL_-1205977724'), (u'CAST_-1205976725', u'CALL_-1205977780'), (u'STORE_-1205977491', u'INDIRECT_-1205976938'), ('tmp_3994', u'INT_ADD_-1205978136'), (u'CALL_-1205977838', u'INDIRECT_-1205977071'), (u'INDIRECT_-1205977053', u'MULTIEQUAL_-1205977095'), (u'CALL_-1205977346', u'INDIRECT_-1205976687'), (u'MULTIEQUAL_-1205976868', u'COPY_-1205976912'), (u'INDIRECT_-1205976963', u'MULTIEQUAL_-1205977005'), ('tmp_4004', u'MULTIEQUAL_-1205977038'), (u'MULTIEQUAL_-1205977023', u'MULTIEQUAL_-1205976889'), (u'INDIRECT_-1205976785', u'COPY_-1205976843'), (u'STORE_-1205977491', u'INDIRECT_-1205976920'), (u'INDIRECT_-1205976743', u'MULTIEQUAL_-1205976803'), (u'INDIRECT_-1205976889', u'MULTIEQUAL_-1205976935'), (u'CALL_-1205977518', u'INDIRECT_-1205976736'), ('const-81172', u'INT_ADD_-1205977352'), (u'CAST_-1205976725', u'LOAD_-1205977887'), (u'INDIRECT_-1205976974', u'MULTIEQUAL_-1205976904'), (u'INDIRECT_-1205976821', u'COPY_-1205976879'), (u'PTRSUB_-1205976841', u'CAST_-1205976832'), (u'INDIRECT_-1205976845', u'MULTIEQUAL_-1205977089'), (u'INDIRECT_-1205977034', u'MULTIEQUAL_-1205976976'), (u'INDIRECT_-1205976839', u'COPY_-1205976897'), (u'STORE_-1205977447', u'INDIRECT_-1205976845'), ('const-81212', u'PTRSUB_-1205976571'), (u'CALL_-1205978032', u'INDIRECT_-1205977106'), ('const-0', u'INT_NOTEQUAL_-1205977693'), (u'LOAD_-1205977887', u'INT_EQUAL_-1205977861'), (u'CALL_-1205977838', u'INDIRECT_-1205976963'), (u'STORE_-1205977491', u'INDIRECT_-1205976884'), (u'INDIRECT_-1205976806', u'MULTIEQUAL_-1205976775'), (u'CALL_-1205978032', u'INT_EQUAL_-1205978012'), (u'INDIRECT_-1205977124', u'MULTIEQUAL_-1205977062'), ('tmp_3996', u'MULTIEQUAL_-1205977125'), (u'LOAD_-1205977719', u'CAST_-1205976746'), ('tmp_1292', u'CALL_-1205977838'), ('tmp_835', u'BRANCH_-1205977642'), (u'INDIRECT_-1205976861', u'MULTIEQUAL_-1205976907'), (u'INDIRECT_-1205976797', u'MULTIEQUAL_-1205976852'), (u'LOAD_-1205978105', u'INT_EQUAL_-1205977609'), (u'CALL_-1205977346', u'INDIRECT_-1205976833'), (u'CALL_-1205977780', u'INDIRECT_-1205977046'), (u'CAST_-1205976832', u'CALL_-1205978032'), (u'CALL_-1205977838', u'INDIRECT_-1205976875'), ('const-1', u'INT_ADD_-1205976611'), (u'CAST_-1205976842', u'LOAD_-1205978134'), (u'CALL_-1205977458', u'INDIRECT_-1205976803'), ('const-0', u'INT_EQUAL_-1205978012'), (u'MULTIEQUAL_-1205976889', u'MULTIEQUAL_-1205976886'), (u'CALL_-1205977383', u'INDIRECT_-1205976768'), (u'INDIRECT_-1205977088', u'MULTIEQUAL_-1205977026'), ('const-0', u'COPY_-1205977563'), ('const-80933', u'INT_ADD_-1205978112'), ('tmp_3994', u'MULTIEQUAL_-1205977161'), (u'MULTIEQUAL_-1205976963', u'MULTIEQUAL_-1205976948'), (u'INDIRECT_-1205976906', u'INT_EQUAL_-1205977672'), (u'CALL_-1205978032', u'INDIRECT_-1205977124'), (u'CALL_-1205977346', u'INDIRECT_-1205976645'), (u'CALL_-1205977518', u'INDIRECT_-1205976820'), ('tmp_4007', u'MULTIEQUAL_-1205977089'), (u'COPY_-1205976930', u'INT_ADD_-1205977476'), ('tmp_4005', u'MULTIEQUAL_-1205977053'), ('tmp_4002', u'MULTIEQUAL_-1205977010'), (u'MULTIEQUAL_-1205977059', u'MULTIEQUAL_-1205976925'), ('const-417', u'LOAD_-1205977893'), (u'CALL_-1205977780', u'INDIRECT_-1205976920'), ('const-4294967056', u'PTRSUB_-1205976841'), (u'CALL_-1205977838', u'INDIRECT_-1205976999'), (u'CALL_-1205977383', u'INDIRECT_-1205976670'), (u'CALL_-1205978032', u'INDIRECT_-1205977160'), (u'CALL_-1205978032', u'INDIRECT_-1205977070'), ('tmp_4003', u'MULTIEQUAL_-1205977024'), (u'MULTIEQUAL_-1205976747', u'MULTIEQUAL_-1205976982'), ('const-80840', u'INT_ADD_-1205978136'), (u'PTRSUB_-1205976772', u'CAST_-1205976759'), ('tmp_3995', u'INT_ADD_-1205978112'), (u'CALL_-1205977458', u'INDIRECT_-1205976857'), (u'INT_ADD_-1205977973', u'CAST_-1205976772'), (u'CALL_-1205978032', u'INDIRECT_-1205977034'), (u'CALL_-1205977346', u'INDIRECT_-1205976815'), (u'MULTIEQUAL_-1205976991', u'MULTIEQUAL_-1205976976'), (u'INDIRECT_-1205976820', u'MULTIEQUAL_-1205976789'), (u'MULTIEQUAL_-1205976920', u'MULTIEQUAL_-1205976935'), (u'CALL_-1205977383', u'CALL_-1205977346'), (u'LOAD_-1205978134', u'LOAD_-1205978105'), (u'CALL_-1205977780', u'INDIRECT_-1205976892'), (u'INDIRECT_-1205976701', u'MULTIEQUAL_-1205976761'), (u'MULTIEQUAL_-1205977095', u'MULTIEQUAL_-1205977080'), ('const-417', u'STORE_-1205977447'), (u'INT_ADD_-1205977476', u'CAST_-1205976579'), (u'INDIRECT_-1205976778', u'MULTIEQUAL_-1205976747'), (u'BOOL_AND_-1205976678', u'CBRANCH_-1205977652'), (u'CALL_-1205977838', u'INDIRECT_-1205976847'), (u'INDIRECT_-1205977071', u'MULTIEQUAL_-1205977113'), (u'CALL_-1205977838', u'INDIRECT_-1205976981'), ('const-417', u'LOAD_-1205977925'), ('tmp_514', u'CBRANCH_-1205977857'), (u'MULTIEQUAL_-1205976871', u'MULTIEQUAL_-1205976868'), (u'CAST_-1205976738', u'LOAD_-1205977925'), (u'CALL_-1205977518', u'INT_EQUAL_-1205977498'), ('tmp_827', u'CBRANCH_-1205977652'), (u'MULTIEQUAL_-1205977113', u'MULTIEQUAL_-1205976979'), (u'INT_ADD_-1205977390', u'CALL_-1205977383'), (u'CALL_-1205977518', u'INDIRECT_-1205976792'), (u'INT_EQUAL_-1205977084', u'BOOL_AND_-1205976702'), (u'INT_NOTEQUAL_-1205977693', u'CBRANCH_-1205977691'), (u'STORE_-1205977447', u'INDIRECT_-1205976881'), (u'INDIRECT_-1205977052', u'MULTIEQUAL_-1205976871'), (u'STORE_-1205977447', u'INDIRECT_-1205976863'), ('const-5', u'CALL_-1205977383'), (u'MULTIEQUAL_-1205976976', u'MULTIEQUAL_-1205976991'), ('const-81000', u'INT_ADD_-1205977973'), (u'INDIRECT_-1205976892', u'MULTIEQUAL_-1205976963'), (u'CALL_-1205977838', u'INDIRECT_-1205977053'), (u'CALL_-1205977383', u'INDIRECT_-1205976726'), (u'INT_EQUAL_-1205977818', u'CBRANCH_-1205977814'), (u'INDIRECT_-1205977020', u'MULTIEQUAL_-1205976962'), ('const-417', u'LOAD_-1205977849'), (u'INDIRECT_-1205976881', u'MULTIEQUAL_-1205977125'), (u'CALL_-1205977346', u'INDIRECT_-1205976761'), (u'CALL_-1205978032', u'INDIRECT_-1205977088'), (u'MULTIEQUAL_-1205977062', u'MULTIEQUAL_-1205977077'), ('tmp_2651', u'PTRSUB_-1205976772'), (u'MULTIEQUAL_-1205976904', u'COPY_-1205976948'), (u'CAST_-1205976704', u'CALL_-1205977838'), (u'MULTIEQUAL_-1205977380', u'LOAD_-1205977649'), (u'INDIRECT_-1205976964', u'MULTIEQUAL_-1205976906'), (u'CALL_-1205977780', u'INDIRECT_-1205977028'), (u'INDIRECT_-1205976779', u'MULTIEQUAL_-1205976834'), (u'STORE_-1205977491', u'INDIRECT_-1205976866'), (u'CALL_-1205977383', u'INDIRECT_-1205976822'), (u'INT_EQUAL_-1205977609', u'CBRANCH_-1205977605'), ('const-80936', u'INT_ADD_-1205977476'), (u'INDIRECT_-1205976750', u'MULTIEQUAL_-1205976719'), (u'PTRSUB_-1205976571', u'CAST_-1205976558'), (u'MULTIEQUAL_-1205976976', u'COPY_-1205977020'), (u'INDIRECT_-1205976836', u'MULTIEQUAL_-1205976907'), (u'BOOL_AND_-1205976702', u'CBRANCH_-1205977704'), (u'CALL_-1205977383', u'INDIRECT_-1205976840'), (u'MULTIEQUAL_-1205976990', u'MULTIEQUAL_-1205977005'), (u'CALL_-1205977838', u'INDIRECT_-1205977017'), (u'MULTIEQUAL_-1205976892', u'MULTIEQUAL_-1205976907'), (u'CAST_-1205976759', u'CALL_-1205977780'), (u'MULTIEQUAL_-1205977044', u'MULTIEQUAL_-1205977059'), ('tmp_1181', u'BRANCH_-1205977441'), (u'MULTIEQUAL_-1205977380', u'PTRADD_-1205976751'), (u'CALL_-1205977518', u'INDIRECT_-1205976942'), (u'CALL_-1205977346', u'INDIRECT_-1205976729'), (u'INT_EQUAL_-1205978080', u'CBRANCH_-1205978066'), (u'INDIRECT_-1205976830', u'MULTIEQUAL_-1205976816'), (u'CALL_-1205977458', u'INDIRECT_-1205976749'), (u'MULTIEQUAL_-1205977305', u'RETURN_-1205977561'), (u'INT_ADD_-1205978118', u'CAST_-1205976842'), ('tmp_4006', u'MULTIEQUAL_-1205977071'), (u'INDIRECT_-1205976864', u'MULTIEQUAL_-1205976935'), (u'MULTIEQUAL_-1205977113', u'MULTIEQUAL_-1205977098'), (u'INDIRECT_-1205977046', u'MULTIEQUAL_-1205977113'), (u'INDIRECT_-1205976869', u'MULTIEQUAL_-1205976924'), (u'LOAD_-1205977893', u'CAST_-1205976725'), (u'INT_EQUAL_-1205977760', u'CBRANCH_-1205977756'), (u'INDIRECT_-1205977124', u'MULTIEQUAL_-1205976943'), (u'CALL_-1205977432', u'INDIRECT_-1205976709'), (u'CALL_-1205977346', u'INDIRECT_-1205976869'), ('tmp_3999', u'MULTIEQUAL_-1205976968'), (u'INDIRECT_-1205976902', u'MULTIEQUAL_-1205976888'), (u'STORE_-1205977491', u'INDIRECT_-1205976848'), (u'INDIRECT_-1205976992', u'MULTIEQUAL_-1205976934'), (u'INDIRECT_-1205977160', u'MULTIEQUAL_-1205977098'), (u'CALL_-1205977518', u'INDIRECT_-1205976906'), ('const-4', u'PTRADD_-1205976718'), (u'CALL_-1205977432', u'INDIRECT_-1205976847'), (u'COPY_-1205977563', u'MULTIEQUAL_-1205977305'), (u'INT_EQUAL_-1205977672', u'BOOL_AND_-1205976678'), (u'INDIRECT_-1205976878', u'INT_EQUAL_-1205977724'), (u'CALL_-1205978032', u'INDIRECT_-1205976978'), (u'CALL_-1205977780', u'INDIRECT_-1205977010'), (u'INDIRECT_-1205977142', u'MULTIEQUAL_-1205977080'), ('tmp_288', u'CBRANCH_-1205978008'), (u'INDIRECT_-1205977006', u'MULTIEQUAL_-1205976948'), (u'PTRADD_-1205976751', u'CAST_-1205976738'), (u'CALL_-1205977780', u'INDIRECT_-1205976850'), ('const-1', u'RETURN_-1205977453'), ('const-3', u'CALL_-1205977780'), ('const-417', u'LOAD_-1205977887'), (u'CALL_-1205977458', u'INDIRECT_-1205976821'), (u'CALL_-1205978032', u'INDIRECT_-1205977006'), (u'CAST_-1205976579', u'STORE_-1205977491'), (u'INDIRECT_-1205976857', u'COPY_-1205976915'), ('tmp_574', u'CBRANCH_-1205977814'), (u'INDIRECT_-1205976956', u'MULTIEQUAL_-1205976886'), (u'CALL_-1205977518', u'INDIRECT_-1205976888'), (u'CALL_-1205977518', u'INDIRECT_-1205976924'), (u'INDIRECT_-1205976792', u'MULTIEQUAL_-1205976761'), (u'INT_ADD_-1205976611', u'INT_ADD_-1205977433'), ('tmp_745', u'CBRANCH_-1205977704'), (u'INDIRECT_-1205976917', u'MULTIEQUAL_-1205976963'), (u'CALL_-1205977518', u'INDIRECT_-1205976834'), (u'INDIRECT_-1205977046', u'MULTIEQUAL_-1205976976'), (u'CAST_-1205976746', u'INT_NOTEQUAL_-1205977693'), (u'INT_NOTEQUAL_-1205977963', u'CBRANCH_-1205977961'), (u'INT_ADD_-1205977352', u'CALL_-1205977346'), (u'MULTIEQUAL_-1205976906', u'MULTIEQUAL_-1205976921'), ('const-417', u'LOAD_-1205978134'), (u'CALL_-1205977838', u'INDIRECT_-1205977035'), (u'LOAD_-1205977989', u'INT_NOTEQUAL_-1205977963'), (u'CALL_-1205977383', u'INDIRECT_-1205976894'), (u'CALL_-1205977518', u'INDIRECT_-1205976764'), (u'INDIRECT_-1205976992', u'MULTIEQUAL_-1205977059'), ('const-3', u'CALL_-1205978032'), (u'CALL_-1205977780', u'INT_EQUAL_-1205977760'), (u'CALL_-1205977432', u'LOAD_-1205977399'), ('tmp_2651', u'PTRSUB_-1205976841'), (u'CALL_-1205977383', u'INDIRECT_-1205976786'), (u'INDIRECT_-1205977070', u'MULTIEQUAL_-1205977008'), (u'CALL_-1205977346', u'INDIRECT_-1205976743'), (u'CALL_-1205977518', u'INDIRECT_-1205976778'), (u'CALL_-1205977346', u'INDIRECT_-1205976851'), (u'CAST_-1205976557', u'STORE_-1205977447'), (u'INDIRECT_-1205976931', u'MULTIEQUAL_-1205976977'), (u'CAST_-1205976746', u'MULTIEQUAL_-1205977380'), (u'CALL_-1205977838', u'INT_EQUAL_-1205977818'), (u'MULTIEQUAL_-1205977077', u'MULTIEQUAL_-1205976943'), (u'MULTIEQUAL_-1205976935', u'MULTIEQUAL_-1205976920'), (u'INDIRECT_-1205976834', u'MULTIEQUAL_-1205976803'), ('const-47', u'INT_EQUAL_-1205977861'), (u'CAST_-1205976772', u'LOAD_-1205977989'), (u'INDIRECT_-1205977017', u'MULTIEQUAL_-1205977059'), (u'MULTIEQUAL_-1205977005', u'MULTIEQUAL_-1205976990'), ('const-81148', u'INT_ADD_-1205977390'), (u'MULTIEQUAL_-1205976962', u'MULTIEQUAL_-1205976977'), (u'CALL_-1205977780', u'INDIRECT_-1205976974'), (u'CALL_-1205978032', u'INDIRECT_-1205976992'), (u'CALL_-1205977383', u'INDIRECT_-1205976712'), ('tmp_3996', u'INT_ADD_-1205978118'), (u'INDIRECT_-1205976866', u'MULTIEQUAL_-1205976852'), (u'INDIRECT_-1205976956', u'MULTIEQUAL_-1205977023'), (u'INDIRECT_-1205976687', u'MULTIEQUAL_-1205976747'), (u'CALL_-1205977780', u'INDIRECT_-1205976836'), (u'CALL_-1205977383', u'INDIRECT_-1205976876'), (u'CALL_-1205977518', u'INDIRECT_-1205976870'), ('const-0', u'CALL_-1205977518'), ('tmp_452', u'CBRANCH_-1205977896'), (u'CALL_-1205977518', u'STORE_-1205977491'), (u'INDIRECT_-1205977052', u'MULTIEQUAL_-1205976990'), (u'MULTIEQUAL_-1205977098', u'MULTIEQUAL_-1205977113'), (u'CALL_-1205977838', u'INDIRECT_-1205976903'), ('const-4', u'PTRADD_-1205976764'), (u'CALL_-1205977432', u'INDIRECT_-1205976811'), (u'INDIRECT_-1205976974', u'MULTIEQUAL_-1205977041'), (u'INDIRECT_-1205976729', u'MULTIEQUAL_-1205976789'), ('tmp_1287', u'BRANCH_-1205977344'), (u'INDIRECT_-1205976749', u'COPY_-1205976807'), ('const-7', u'PTRADD_-1205976764'), (u'CALL_-1205977346', u'INDIRECT_-1205976715'), (u'LOAD_-1205978128', u'INT_EQUAL_-1205978080'), (u'MULTIEQUAL_-1205976886', u'COPY_-1205976930'), ('const-417', u'LOAD_-1205978105'), (u'CALL_-1205978032', u'INDIRECT_-1205977020'), ('tmp_363', u'CBRANCH_-1205977961'), (u'STORE_-1205977447', u'INDIRECT_-1205976827'), (u'MULTIEQUAL_-1205977095', u'MULTIEQUAL_-1205976961'), (u'INDIRECT_-1205976659', u'MULTIEQUAL_-1205976719'), (u'INDIRECT_-1205976847', u'MULTIEQUAL_-1205976893'), ('tmp_1021', u'CBRANCH_-1205977691'), (u'INDIRECT_-1205976764', u'MULTIEQUAL_-1205976733'), (u'INDIRECT_-1205976736', u'MULTIEQUAL_-1205976705'), (u'INDIRECT_-1205977010', u'MULTIEQUAL_-1205977077'), (u'CALL_-1205978032', u'INDIRECT_-1205977052'), (u'LOAD_-1205977849', u'CAST_-1205976704'), (u'PTRADD_-1205976718', u'LOAD_-1205977849'), ('const-0', u'INT_EQUAL_-1205977760'), (u'INDIRECT_-1205977106', u'MULTIEQUAL_-1205976925'), (u'CALL_-1205977346', u'INDIRECT_-1205976797'), (u'STORE_-1205977447', u'INDIRECT_-1205976809'), (u'INDIRECT_-1205976645', u'MULTIEQUAL_-1205976705'), (u'INT_ADD_-1205978136', u'INT_ADD_-1205978118'), (u'INDIRECT_-1205976848', u'MULTIEQUAL_-1205976834'), (u'CALL_-1205977780', u'INDIRECT_-1205976906'), (u'CALL_-1205977458', u'INDIRECT_-1205976767'), (u'INDIRECT_-1205976815', u'MULTIEQUAL_-1205976870'), (u'STORE_-1205977447', u'INDIRECT_-1205976899'), (u'MULTIEQUAL_-1205976943', u'MULTIEQUAL_-1205976940'), (u'INDIRECT_-1205976875', u'MULTIEQUAL_-1205976921'), ('tmp_199', u'CBRANCH_-1205978066'), ('const-417', u'LOAD_-1205977628'), (u'STORE_-1205977491', u'INDIRECT_-1205976830'), ('const-0', u'PTRSUB_-1205976571'), (u'CALL_-1205978032', u'INDIRECT_-1205976936'), (u'MULTIEQUAL_-1205976719', u'MULTIEQUAL_-1205976954'), (u'MULTIEQUAL_-1205976878', u'MULTIEQUAL_-1205976893'), (u'INDIRECT_-1205976945', u'MULTIEQUAL_-1205976991'), (u'CALL_-1205977383', u'INDIRECT_-1205976804'), ('const-0', u'CALL_-1205977383'), (u'LOAD_-1205977649', u'CAST_-1205976623'), (u'INDIRECT_-1205977010', u'MULTIEQUAL_-1205976940'), (u'INDIRECT_-1205977070', u'MULTIEQUAL_-1205976889'), ('const-1', u'INT_AND_-1205977158'), (u'MULTIEQUAL_-1205976789', u'MULTIEQUAL_-1205977024'), (u'CALL_-1205977432', u'INDIRECT_-1205976751'), (u'CALL_-1205978032', u'INDIRECT_-1205977142'), (u'MULTIEQUAL_-1205976958', u'COPY_-1205977002'), (u'CALL_-1205977432', u'INDIRECT_-1205976919'), (u'MULTIEQUAL_-1205976921', u'MULTIEQUAL_-1205976906'), (u'MULTIEQUAL_-1205976907', u'MULTIEQUAL_-1205976892'), (u'INDIRECT_-1205976892', u'INT_EQUAL_-1205977084'), (u'INDIRECT_-1205976878', u'MULTIEQUAL_-1205976949'), (u'MULTIEQUAL_-1205977041', u'MULTIEQUAL_-1205976907'), ('tmp_4008', u'MULTIEQUAL_-1205977107'), (u'INDIRECT_-1205976822', u'MULTIEQUAL_-1205976893')]
|
[(u'STORE_-1205977491', u'INDIRECT_-1205976902'), (u'CALL_-1205977838', u'INDIRECT_-1205976861'), (u'MULTIEQUAL_-1205976775', u'MULTIEQUAL_-1205977010'), (u'INDIRECT_-1205977160', u'MULTIEQUAL_-1205976979'), ('const-3', u'CALL_-1205978032'), (u'INDIRECT_-1205976803', u'COPY_-1205976861'), (u'CALL_-1205977838', u'INDIRECT_-1205976945'), (u'INDIRECT_-1205976850', u'INT_EQUAL_-1205977672'), (u'INDIRECT_-1205977106', u'INT_ADD_-1205977973'), (u'INDIRECT_-1205976906', u'MULTIEQUAL_-1205976977'), (u'CALL_-1205977432', u'INDIRECT_-1205976901'), (u'CALL_-1205977432', u'INDIRECT_-1205976865'), (u'INDIRECT_-1205976863', u'MULTIEQUAL_-1205977107'), ('tmp_1114', u'CBRANCH_-1205977484'), (u'INDIRECT_-1205976917', u'MULTIEQUAL_-1205977161'), ('const-4', u'PTRADD_-1205976717'), (u'MULTIEQUAL_-1205976803', u'MULTIEQUAL_-1205977038'), (u'CALL_-1205977518', u'INDIRECT_-1205976960'), (u'INDIRECT_-1205976851', u'MULTIEQUAL_-1205976906'), (u'INDIRECT_-1205976673', u'MULTIEQUAL_-1205976733'), (u'MULTIEQUAL_-1205977077', u'MULTIEQUAL_-1205977062'), (u'CALL_-1205977432', u'INDIRECT_-1205976793'), ('tmp_2654', u'PTRSUB_-1205976771'), (u'MULTIEQUAL_-1205976879', u'MULTIEQUAL_-1205976864'), (u'MULTIEQUAL_-1205976922', u'COPY_-1205976966'), (u'CALL_-1205978032', u'INDIRECT_-1205976964'), (u'INDIRECT_-1205976899', u'MULTIEQUAL_-1205977143'), (u'INDIRECT_-1205976999', u'MULTIEQUAL_-1205977041'), (u'CAST_-1205976748', u'INT_NOTEQUAL_-1205977693'), ('tmp_2654', u'PTRSUB_-1205976840'), (u'INT_AND_-1205977158', u'INT_NOTEQUAL_-1205977898'), (u'LOAD_-1205978134', u'LOAD_-1205977628'), (u'INT_EQUAL_-1205977861', u'CBRANCH_-1205977857'), (u'MULTIEQUAL_-1205977380', u'PTRADD_-1205976750'), (u'INDIRECT_-1205977028', u'MULTIEQUAL_-1205977095'), (u'MULTIEQUAL_-1205977023', u'MULTIEQUAL_-1205977008'), ('const-0', u'RETURN_-1205977561'), (u'MULTIEQUAL_-1205976705', u'MULTIEQUAL_-1205976940'), (u'MULTIEQUAL_-1205977026', u'MULTIEQUAL_-1205977041'), (u'INT_NOTEQUAL_-1205977898', u'CBRANCH_-1205977896'), (u'CALL_-1205977780', u'INDIRECT_-1205976992'), (u'CALL_-1205977518', u'INDIRECT_-1205976722'), (u'CAST_-1205976739', u'LOAD_-1205977925'), ('const-0', u'INT_EQUAL_-1205977498'), (u'MULTIEQUAL_-1205976979', u'MULTIEQUAL_-1205976976'), (u'INDIRECT_-1205976920', u'MULTIEQUAL_-1205976906'), (u'CALL_-1205977432', u'INDIRECT_-1205976737'), (u'INDIRECT_-1205976938', u'MULTIEQUAL_-1205977005'), (u'INDIRECT_-1205976950', u'MULTIEQUAL_-1205976892'), (u'MULTIEQUAL_-1205976907', u'MULTIEQUAL_-1205976904'), (u'MULTIEQUAL_-1205977041', u'MULTIEQUAL_-1205977026'), (u'PTRADD_-1205976717', u'LOAD_-1205977849'), (u'MULTIEQUAL_-1205976742', u'INT_EQUAL_-1205977609'), (u'MULTIEQUAL_-1205977380', u'LOAD_-1205977893'), ('tmp_875', u'CBRANCH_-1205977605'), (u'INDIRECT_-1205977142', u'MULTIEQUAL_-1205976961'), (u'MULTIEQUAL_-1205977005', u'MULTIEQUAL_-1205976871'), (u'CALL_-1205977780', u'INDIRECT_-1205976956'), (u'MULTIEQUAL_-1205976961', u'MULTIEQUAL_-1205976958'), (u'CALL_-1205977346', u'INDIRECT_-1205976659'), (u'INDIRECT_-1205976833', u'MULTIEQUAL_-1205976888'), (u'INDIRECT_-1205976938', u'MULTIEQUAL_-1205976868'), (u'INDIRECT_-1205977028', u'MULTIEQUAL_-1205976958'), ('tmp_4017', u'MULTIEQUAL_-1205976968'), (u'CALL_-1205977383', u'INDIRECT_-1205976858'), (u'MULTIEQUAL_-1205976733', u'MULTIEQUAL_-1205976968'), (u'INDIRECT_-1205976864', u'INT_EQUAL_-1205977063'), ('const-0', u'CALL_-1205977346'), (u'PTRSUB_-1205976570', u'CAST_-1205976558'), (u'MULTIEQUAL_-1205976948', u'MULTIEQUAL_-1205976963'), ('tmp_4013', u'COPY_-1205976929'), (u'MULTIEQUAL_-1205977059', u'MULTIEQUAL_-1205977044'), ('const-81172', u'INT_ADD_-1205977352'), (u'INDIRECT_-1205976992', u'MULTIEQUAL_-1205976922'), (u'CAST_-1205976558', u'INT_ADD_-1205977433'), ('const-4', u'PTRADD_-1205976750'), (u'STORE_-1205977447', u'INDIRECT_-1205976917'), ('const-81212', u'PTRSUB_-1205976570'), (u'INDIRECT_-1205976715', u'MULTIEQUAL_-1205976775'), (u'CALL_-1205977383', u'INDIRECT_-1205976684'), (u'CALL_-1205977838', u'INDIRECT_-1205976889'), (u'MULTIEQUAL_-1205976934', u'MULTIEQUAL_-1205976949'), (u'LOAD_-1205977989', u'MULTIEQUAL_-1205977380'), (u'INDIRECT_-1205976827', u'MULTIEQUAL_-1205977071'), (u'MULTIEQUAL_-1205976893', u'MULTIEQUAL_-1205976878'), (u'MULTIEQUAL_-1205976761', u'MULTIEQUAL_-1205976996'), (u'INDIRECT_-1205977106', u'MULTIEQUAL_-1205977044'), (u'CALL_-1205977518', u'INDIRECT_-1205976750'), (u'CALL_-1205977383', u'INDIRECT_-1205976698'), (u'INDIRECT_-1205976903', u'MULTIEQUAL_-1205976949'), (u'CALL_-1205977780', u'INDIRECT_-1205976938'), ('const-1', u'PTRADD_-1205976717'), (u'INDIRECT_-1205976920', u'INT_EQUAL_-1205977063'), (u'CALL_-1205977432', u'INDIRECT_-1205976829'), (u'CALL_-1205977780', u'INDIRECT_-1205976822'), ('const-0', u'INT_EQUAL_-1205978012'), (u'INDIRECT_-1205976761', u'MULTIEQUAL_-1205976816'), (u'CALL_-1205977838', u'INDIRECT_-1205976931'), (u'INDIRECT_-1205976850', u'MULTIEQUAL_-1205976921'), ('tmp_2662', u'CALL_-1205977838'), (u'CALL_-1205977432', u'INDIRECT_-1205976681'), ('const-0', u'CALL_-1205977383'), (u'CAST_-1205976726', u'LOAD_-1205977887'), (u'CALL_-1205977458', u'INDIRECT_-1205976785'), (u'MULTIEQUAL_-1205977080', u'MULTIEQUAL_-1205977095'), (u'INDIRECT_-1205976767', u'COPY_-1205976825'), (u'CALL_-1205977432', u'INDIRECT_-1205976779'), ('const-0', u'INT_EQUAL_-1205977818'), (u'CALL_-1205977838', u'INDIRECT_-1205976917'), (u'INDIRECT_-1205976920', u'MULTIEQUAL_-1205976991'), ('const-417', u'LOAD_-1205977989'), (u'MULTIEQUAL_-1205976949', u'MULTIEQUAL_-1205976934'), (u'INDIRECT_-1205977035', u'MULTIEQUAL_-1205977077'), (u'CALL_-1205977518', u'INDIRECT_-1205976806'), (u'LOAD_-1205978105', u'MULTIEQUAL_-1205976926'), (u'MULTIEQUAL_-1205976977', u'MULTIEQUAL_-1205976962'), (u'MULTIEQUAL_-1205976852', u'INT_ADD_-1205976610'), (u'INDIRECT_-1205976786', u'INT_ADD_-1205977352'), (u'CAST_-1205976726', u'CALL_-1205977780'), (u'INDIRECT_-1205976722', u'MULTIEQUAL_-1205976691'), 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u'INT_ADD_-1205978112'), (u'CALL_-1205977458', u'INDIRECT_-1205976767'), (u'INDIRECT_-1205976815', u'MULTIEQUAL_-1205976870'), ('const-1', u'STORE_-1205977447'), (u'STORE_-1205977447', u'INDIRECT_-1205976899'), (u'MULTIEQUAL_-1205976943', u'MULTIEQUAL_-1205976940'), (u'CALL_-1205977780', u'INDIRECT_-1205976808'), (u'INDIRECT_-1205976875', u'MULTIEQUAL_-1205976921'), (u'CALL_-1205977383', u'INDIRECT_-1205976656'), ('tmp_199', u'CBRANCH_-1205978066'), (u'INDIRECT_-1205976808', u'MULTIEQUAL_-1205976742'), (u'STORE_-1205977491', u'INDIRECT_-1205976830'), (u'CALL_-1205978032', u'INDIRECT_-1205976936'), ('tmp_4026', u'MULTIEQUAL_-1205977107'), (u'MULTIEQUAL_-1205976864', u'MULTIEQUAL_-1205976879'), (u'MULTIEQUAL_-1205976719', u'MULTIEQUAL_-1205976954'), (u'MULTIEQUAL_-1205976878', u'MULTIEQUAL_-1205976893'), (u'CALL_-1205977838', u'INDIRECT_-1205976833'), (u'INDIRECT_-1205976945', u'MULTIEQUAL_-1205976991'), ('const-80840', u'INT_ADD_-1205978136'), (u'CALL_-1205977383', u'INDIRECT_-1205976804'), (u'INDIRECT_-1205977010', u'MULTIEQUAL_-1205976940'), (u'INDIRECT_-1205977070', u'MULTIEQUAL_-1205976889'), (u'MULTIEQUAL_-1205976789', u'MULTIEQUAL_-1205977024'), (u'CALL_-1205977432', u'INDIRECT_-1205976751'), (u'CALL_-1205978032', u'INDIRECT_-1205977142'), (u'MULTIEQUAL_-1205976958', u'COPY_-1205977002'), (u'MULTIEQUAL_-1205977380', u'PTRADD_-1205976763'), (u'CALL_-1205977432', u'INDIRECT_-1205976919'), ('const-1', u'INT_ADD_-1205976610'), (u'MULTIEQUAL_-1205976921', u'MULTIEQUAL_-1205976906'), (u'CAST_-1205976836', u'LOAD_-1205978128'), (u'MULTIEQUAL_-1205976907', u'MULTIEQUAL_-1205976892'), (u'INDIRECT_-1205976892', u'INT_EQUAL_-1205977084'), (u'INDIRECT_-1205976878', u'MULTIEQUAL_-1205976949'), (u'MULTIEQUAL_-1205977041', u'MULTIEQUAL_-1205976907'), (u'INDIRECT_-1205976822', u'MULTIEQUAL_-1205976893')]
| null | null |
00013bb0
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arm
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O2
|
(translation_unit "void FUN_00013bb0(char *param_1)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}\n\n" (function_definition "void FUN_00013bb0(char *param_1)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" primitive_type (function_declarator "FUN_00013bb0(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int *piVar4;" primitive_type (pointer_declarator "*piVar4" * identifier) ;) (declaration "undefined4 *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (declaration "int *piVar6;" primitive_type (pointer_declarator "*piVar6" * identifier) ;) (declaration "char *__filename;" primitive_type (pointer_declarator "*__filename" * identifier) ;) (declaration "stat64 local_f0;" type_identifier identifier ;) (declaration "stat64 local_88;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "iVar1 = DAT_00013d28;" (assignment_expression "iVar1 = DAT_00013d28" identifier = identifier) ;) (expression_statement "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);" (assignment_expression "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" identifier = (pointer_expression "*(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" * (cast_expression "(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (binary_expression "DAT_00013d24 + 0x13bc8 + DAT_00013d2c" (binary_expression "DAT_00013d24 + 0x13bc8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar6;" (assignment_expression "local_1c = *piVar6" identifier = (pointer_expression "*piVar6" * identifier)) ;) (if_statement "if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" if (parenthesized_expression "(*(char *)(DAT_00013d28 + 0x13c25) == '\0')" ( (binary_expression "*(char *)(DAT_00013d28 + 0x13c25) == '\0'" (pointer_expression "*(char *)(DAT_00013d28 + 0x13c25)" * (cast_expression "(char *)(DAT_00013d28 + 0x13c25)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00013d28 + 0x13c25)" ( (binary_expression "DAT_00013d28 + 0x13c25" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" { (expression_statement "iVar3 = FUN_0001bd40(0);" (assignment_expression "iVar3 = FUN_0001bd40(0)" identifier = (call_expression "FUN_0001bd40(0)" identifier (argument_list "(0)" ( number_literal )))) ;) (expression_statement "*(int *)(iVar1 + 0x13c28) = iVar3;" (assignment_expression "*(int *)(iVar1 + 0x13c28) = iVar3" (pointer_expression "*(int *)(iVar1 + 0x13c28)" * (cast_expression "(int *)(iVar1 + 0x13c28)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x13c28)" ( (binary_expression "iVar1 + 0x13c28" identifier + number_literal) )))) = identifier) ;) (if_statement "if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" if (parenthesized_expression "(iVar3 == 0)" ( (binary_expression "iVar3 == 0" identifier == number_literal) )) (compound_statement "{\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" { (expression_statement "piVar4 = __errno_location();" (assignment_expression "piVar4 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar1 = *piVar4;" (assignment_expression "iVar1 = *piVar4" identifier = (pointer_expression "*piVar4" * identifier)) ;) (expression_statement "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);" (assignment_expression "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier = (call_expression "dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier (argument_list "(0,DAT_00013d38 + 0x13cfc,5)" ( number_literal , (binary_expression "DAT_00013d38 + 0x13cfc" identifier + number_literal) , number_literal )))) ;) (expression_statement "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);" (call_expression "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" identifier (argument_list "(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" ( number_literal , identifier , (binary_expression "DAT_00013d3c + 0x13d14" identifier + number_literal) , identifier ))) ;) })) (expression_statement "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;" (assignment_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1" (pointer_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" * (cast_expression "(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (binary_expression "(int)&DAT_00013d3c + DAT_00013d34 + 1" (binary_expression "(int)&DAT_00013d3c + DAT_00013d34" (cast_expression "(int)&DAT_00013d3c" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_00013d3c" & identifier)) + identifier) + number_literal) )))) = number_literal) ;) })) (expression_statement "iVar1 = __xstat64(3,param_1,&local_f0);" (assignment_expression "iVar1 = __xstat64(3,param_1,&local_f0)" identifier = (call_expression "__xstat64(3,param_1,&local_f0)" identifier (argument_list "(3,param_1,&local_f0)" ( number_literal , identifier , (pointer_expression "&local_f0" & identifier) )))) ;) (if_statement "if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" if (parenthesized_expression "((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n )" ( (binary_expression "(iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) && (parenthesized_expression "(puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" ( (comma_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0" (assignment_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000)" identifier = (pointer_expression "*(undefined4 **)(DAT_00013d30 + 81000)" * (cast_expression "(undefined4 **)(DAT_00013d30 + 81000)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d30 + 81000)" ( (binary_expression "DAT_00013d30 + 81000" identifier + number_literal) ))))) , (binary_expression "puVar5 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (compound_statement "{\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" { (do_statement "do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);" do (compound_statement "{\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n }" { (if_statement "if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" if (parenthesized_expression "(((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))))" ( (binary_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" (parenthesized_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0))" ( (binary_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" (parenthesized_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n )" ( (binary_expression "((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')" (parenthesized_expression "((*(byte *)(puVar5 + 6) & 1) != 0)" ( (binary_expression "(*(byte *)(puVar5 + 6) & 1) != 0" (parenthesized_expression "(*(byte *)(puVar5 + 6) & 1)" ( (binary_expression "*(byte *)(puVar5 + 6) & 1" (pointer_expression "*(byte *)(puVar5 + 6)" * (cast_expression "(byte *)(puVar5 + 6)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar5 + 6)" ( (binary_expression "puVar5 + 6" identifier + number_literal) )))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(__filename = (char *)*puVar5, *__filename == '/')" ( (comma_expression "__filename = (char *)*puVar5, *__filename == '/'" (assignment_expression "__filename = (char *)*puVar5" identifier = (cast_expression "(char *)*puVar5" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*puVar5" * identifier))) , (binary_expression "*__filename == '/'" (pointer_expression "*__filename" * identifier) == (char_literal "'/'" ' character '))) ))) )) && (parenthesized_expression "(iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" ( (comma_expression "iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0" (assignment_expression "iVar1 = strcmp((char *)puVar5[1],param_1)" identifier = (call_expression "strcmp((char *)puVar5[1],param_1)" identifier (argument_list "((char *)puVar5[1],param_1)" ( (cast_expression "(char *)puVar5[1]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar5[1]" identifier [ number_literal ])) , identifier )))) , (binary_expression "iVar1 == 0" identifier == number_literal)) ))) )) && (parenthesized_expression "(((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" ( (parenthesized_expression "((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))" ( (binary_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" (parenthesized_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino))" ( (comma_expression "iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (assignment_expression "iVar1 = __xstat64(3,__filename,&local_88)" identifier = (call_expression "__xstat64(3,__filename,&local_88)" identifier (argument_list "(3,__filename,&local_88)" ( number_literal , identifier , (pointer_expression "&local_88" & identifier) )))) , (binary_expression "iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (binary_expression "iVar1 == 0" identifier == number_literal) && (parenthesized_expression "(local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" ( (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino" (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_" (field_expression "local_f0.st_ino._4_4_" (field_expression "local_f0.st_ino" identifier . field_identifier) . field_identifier) == (field_expression "local_88.st_ino._4_4_" (field_expression "local_88.st_ino" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)local_f0.st_ino == (int)local_88.st_ino" (cast_expression "(int)local_f0.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "local_f0.st_ino" identifier . field_identifier)) == (cast_expression "(int)local_88.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "local_88.st_ino" identifier . field_identifier)))) )))) )) && (parenthesized_expression "(local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" ( (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev" (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_" (field_expression "local_f0.st_dev._4_4_" (field_expression "local_f0.st_dev" identifier . field_identifier) . field_identifier) == (field_expression "local_88.st_dev._4_4_" (field_expression "local_88.st_dev" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)local_f0.st_dev == (int)local_88.st_dev" (cast_expression "(int)local_f0.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "local_f0.st_dev" identifier . field_identifier)) == (cast_expression "(int)local_88.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "local_88.st_dev" identifier . field_identifier)))) ))) )) ))) )) (compound_statement "{\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" { (expression_statement "uVar2 = *puVar5;" (assignment_expression "uVar2 = *puVar5" identifier = (pointer_expression "*puVar5" * identifier)) ;) (goto_statement "goto LAB_00013ca4;" goto statement_identifier ;) })) (expression_statement "puVar5 = (undefined4 *)puVar5[7];" (assignment_expression "puVar5 = (undefined4 *)puVar5[7]" identifier = (cast_expression "(undefined4 *)puVar5[7]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar5[7]" identifier [ number_literal ]))) ;) }) while (parenthesized_expression "(puVar5 != (undefined4 *)0x0)" ( (binary_expression "puVar5 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) })) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }" statement_identifier : (if_statement "if (local_1c == *piVar6) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar6)" ( (binary_expression "local_1c == *piVar6" identifier == (pointer_expression "*piVar6" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) }))) comment (expression_statement "__stack_chk_fail(uVar2);" (call_expression "__stack_chk_fail(uVar2)" identifier (argument_list "(uVar2)" ( identifier ))) ;) })))
|
(translation_unit "char * find_bind_mount(char *name)\n\n{\n int iVar1;\n mount_entry *pmVar2;\n int *piVar3;\n undefined4 uVar4;\n int iVar5;\n undefined4 *puVar6;\n int *piVar7;\n char *pcVar8;\n stat name_stats;\n stat dev_stats;\n \n iVar1 = DAT_00013d28;\n piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n iVar5 = *piVar7;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n pmVar2 = read_file_system_list(false);\n *(mount_entry **)(iVar1 + 0x13c28) = pmVar2;\n if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,name,(stat64 *)&name_stats);\n if ((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);\n }\n pcVar8 = (char *)0x0;\nLAB_00013ca4:\n if (iVar5 == *piVar7) {\n return pcVar8;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "char * find_bind_mount(char *name)\n\n{\n int iVar1;\n mount_entry *pmVar2;\n int *piVar3;\n undefined4 uVar4;\n int iVar5;\n undefined4 *puVar6;\n int *piVar7;\n char *pcVar8;\n stat name_stats;\n stat dev_stats;\n \n iVar1 = DAT_00013d28;\n piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n iVar5 = *piVar7;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n pmVar2 = read_file_system_list(false);\n *(mount_entry **)(iVar1 + 0x13c28) = pmVar2;\n if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,name,(stat64 *)&name_stats);\n if ((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);\n }\n pcVar8 = (char *)0x0;\nLAB_00013ca4:\n if (iVar5 == *piVar7) {\n return pcVar8;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (pointer_declarator "* find_bind_mount(char *name)" * (function_declarator "find_bind_mount(char *name)" identifier (parameter_list "(char *name)" ( (parameter_declaration "char *name" primitive_type (pointer_declarator "*name" * identifier)) )))) (compound_statement "{\n int iVar1;\n mount_entry *pmVar2;\n int *piVar3;\n undefined4 uVar4;\n int iVar5;\n undefined4 *puVar6;\n int *piVar7;\n char *pcVar8;\n stat name_stats;\n stat dev_stats;\n \n iVar1 = DAT_00013d28;\n piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n iVar5 = *piVar7;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n pmVar2 = read_file_system_list(false);\n *(mount_entry **)(iVar1 + 0x13c28) = pmVar2;\n if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,name,(stat64 *)&name_stats);\n if ((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);\n }\n pcVar8 = (char *)0x0;\nLAB_00013ca4:\n if (iVar5 == *piVar7) {\n return pcVar8;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "mount_entry *pmVar2;" type_identifier (pointer_declarator "*pmVar2" * identifier) ;) (declaration "int *piVar3;" primitive_type (pointer_declarator "*piVar3" * identifier) ;) (declaration "undefined4 uVar4;" type_identifier identifier ;) (declaration "int iVar5;" primitive_type identifier ;) (declaration "undefined4 *puVar6;" type_identifier (pointer_declarator "*puVar6" * identifier) ;) (declaration "int *piVar7;" primitive_type (pointer_declarator "*piVar7" * identifier) ;) (declaration "char *pcVar8;" primitive_type (pointer_declarator "*pcVar8" * identifier) ;) (declaration "stat name_stats;" type_identifier identifier ;) (declaration "stat dev_stats;" type_identifier identifier ;) (expression_statement "iVar1 = DAT_00013d28;" (assignment_expression "iVar1 = DAT_00013d28" identifier = identifier) ;) (expression_statement "piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);" (assignment_expression "piVar7 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" identifier = (pointer_expression "*(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" * (cast_expression "(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (binary_expression "DAT_00013d24 + 0x13bc8 + DAT_00013d2c" (binary_expression "DAT_00013d24 + 0x13bc8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar5 = *piVar7;" (assignment_expression "iVar5 = *piVar7" identifier = (pointer_expression "*piVar7" * identifier)) ;) (if_statement "if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n pmVar2 = read_file_system_list(false);\n *(mount_entry **)(iVar1 + 0x13c28) = pmVar2;\n if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" if (parenthesized_expression "(*(char *)(DAT_00013d28 + 0x13c25) == '\0')" ( (binary_expression "*(char *)(DAT_00013d28 + 0x13c25) == '\0'" (pointer_expression "*(char *)(DAT_00013d28 + 0x13c25)" * (cast_expression "(char *)(DAT_00013d28 + 0x13c25)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00013d28 + 0x13c25)" ( (binary_expression "DAT_00013d28 + 0x13c25" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n pmVar2 = read_file_system_list(false);\n *(mount_entry **)(iVar1 + 0x13c28) = pmVar2;\n if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" { (expression_statement "pmVar2 = read_file_system_list(false);" (assignment_expression "pmVar2 = read_file_system_list(false)" identifier = (call_expression "read_file_system_list(false)" identifier (argument_list "(false)" ( false )))) ;) (expression_statement "*(mount_entry **)(iVar1 + 0x13c28) = pmVar2;" (assignment_expression "*(mount_entry **)(iVar1 + 0x13c28) = pmVar2" (pointer_expression "*(mount_entry **)(iVar1 + 0x13c28)" * (cast_expression "(mount_entry **)(iVar1 + 0x13c28)" ( (type_descriptor "mount_entry **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(iVar1 + 0x13c28)" ( (binary_expression "iVar1 + 0x13c28" identifier + number_literal) )))) = identifier) ;) (if_statement "if (pmVar2 == (mount_entry *)0x0) {\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }" if (parenthesized_expression "(pmVar2 == (mount_entry *)0x0)" ( (binary_expression "pmVar2 == (mount_entry *)0x0" identifier == (cast_expression "(mount_entry *)0x0" ( (type_descriptor "mount_entry *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n piVar3 = __errno_location();\n iVar1 = *piVar3;\n uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);\n }" { (expression_statement "piVar3 = __errno_location();" (assignment_expression "piVar3 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar1 = *piVar3;" (assignment_expression "iVar1 = *piVar3" identifier = (pointer_expression "*piVar3" * identifier)) ;) (expression_statement "uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);" (assignment_expression "uVar4 = dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier = (call_expression "dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier (argument_list "(0,DAT_00013d38 + 0x13cfc,5)" ( number_literal , (binary_expression "DAT_00013d38 + 0x13cfc" identifier + number_literal) , number_literal )))) ;) (expression_statement "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4);" (call_expression "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar4)" identifier (argument_list "(0,iVar1,DAT_00013d3c + 0x13d14,uVar4)" ( number_literal , identifier , (binary_expression "DAT_00013d3c + 0x13d14" identifier + number_literal) , identifier ))) ;) })) (expression_statement "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;" (assignment_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1" (pointer_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" * (cast_expression "(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (binary_expression "(int)&DAT_00013d3c + DAT_00013d34 + 1" (binary_expression "(int)&DAT_00013d3c + DAT_00013d34" (cast_expression "(int)&DAT_00013d3c" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_00013d3c" & identifier)) + identifier) + number_literal) )))) = number_literal) ;) })) (expression_statement "iVar1 = __xstat64(3,name,(stat64 *)&name_stats);" (assignment_expression "iVar1 = __xstat64(3,name,(stat64 *)&name_stats)" identifier = (call_expression "__xstat64(3,name,(stat64 *)&name_stats)" identifier (argument_list "(3,name,(stat64 *)&name_stats)" ( number_literal , identifier , (cast_expression "(stat64 *)&name_stats" ( (type_descriptor "stat64 *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&name_stats" & identifier)) )))) ;) (if_statement "if ((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);\n }" if (parenthesized_expression "((iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)\n )" ( (binary_expression "(iVar1 == 0) && (puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)" (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) && (parenthesized_expression "(puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0)" ( (comma_expression "puVar6 = *(undefined4 **)(DAT_00013d30 + 81000), puVar6 != (undefined4 *)0x0" (assignment_expression "puVar6 = *(undefined4 **)(DAT_00013d30 + 81000)" identifier = (pointer_expression "*(undefined4 **)(DAT_00013d30 + 81000)" * (cast_expression "(undefined4 **)(DAT_00013d30 + 81000)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d30 + 81000)" ( (binary_expression "DAT_00013d30 + 81000" identifier + number_literal) ))))) , (binary_expression "puVar6 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (compound_statement "{\n do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);\n }" { (do_statement "do {\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n } while (puVar6 != (undefined4 *)0x0);" do (compound_statement "{\n if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }\n puVar6 = (undefined4 *)puVar6[7];\n }" { (if_statement "if (((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))) {\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }" if (parenthesized_expression "(((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev))))" ( (binary_expression "((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))" (parenthesized_expression "((((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0))" ( (binary_expression "(((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')) &&\n (iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)" (parenthesized_expression "(((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/'))" ( (binary_expression "((*(byte *)(puVar6 + 6) & 1) != 0) && (pcVar8 = (char *)*puVar6, *pcVar8 == '/')" (parenthesized_expression "((*(byte *)(puVar6 + 6) & 1) != 0)" ( (binary_expression "(*(byte *)(puVar6 + 6) & 1) != 0" (parenthesized_expression "(*(byte *)(puVar6 + 6) & 1)" ( (binary_expression "*(byte *)(puVar6 + 6) & 1" (pointer_expression "*(byte *)(puVar6 + 6)" * (cast_expression "(byte *)(puVar6 + 6)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar6 + 6)" ( (binary_expression "puVar6 + 6" identifier + number_literal) )))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(pcVar8 = (char *)*puVar6, *pcVar8 == '/')" ( (comma_expression "pcVar8 = (char *)*puVar6, *pcVar8 == '/'" (assignment_expression "pcVar8 = (char *)*puVar6" identifier = (cast_expression "(char *)*puVar6" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*puVar6" * identifier))) , (binary_expression "*pcVar8 == '/'" (pointer_expression "*pcVar8" * identifier) == (char_literal "'/'" ' character '))) ))) )) && (parenthesized_expression "(iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0)" ( (comma_expression "iVar1 = strcmp((char *)puVar6[1],name), iVar1 == 0" (assignment_expression "iVar1 = strcmp((char *)puVar6[1],name)" identifier = (call_expression "strcmp((char *)puVar6[1],name)" identifier (argument_list "((char *)puVar6[1],name)" ( (cast_expression "(char *)puVar6[1]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar6[1]" identifier [ number_literal ])) , identifier )))) , (binary_expression "iVar1 == 0" identifier == number_literal)) ))) )) && (parenthesized_expression "(((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)))" ( (parenthesized_expression "((iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev))" ( (binary_expression "(iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)) &&\n (name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)" (parenthesized_expression "(iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino))" ( (comma_expression "iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats), iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)" (assignment_expression "iVar1 = __xstat64(3,pcVar8,(stat64 *)&dev_stats)" identifier = (call_expression "__xstat64(3,pcVar8,(stat64 *)&dev_stats)" identifier (argument_list "(3,pcVar8,(stat64 *)&dev_stats)" ( number_literal , identifier , (cast_expression "(stat64 *)&dev_stats" ( (type_descriptor "stat64 *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&dev_stats" & identifier)) )))) , (binary_expression "iVar1 == 0 &&\n (name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)" (binary_expression "iVar1 == 0" identifier == number_literal) && (parenthesized_expression "(name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino)" ( (binary_expression "name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&\n (int)name_stats.st_ino == (int)dev_stats.st_ino" (binary_expression "name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_" (field_expression "name_stats.st_ino._4_4_" (field_expression "name_stats.st_ino" identifier . field_identifier) . field_identifier) == (field_expression "dev_stats.st_ino._4_4_" (field_expression "dev_stats.st_ino" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)name_stats.st_ino == (int)dev_stats.st_ino" (cast_expression "(int)name_stats.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "name_stats.st_ino" identifier . field_identifier)) == (cast_expression "(int)dev_stats.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "dev_stats.st_ino" identifier . field_identifier)))) )))) )) && (parenthesized_expression "(name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev)" ( (binary_expression "name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&\n (int)name_stats.st_dev == (int)dev_stats.st_dev" (binary_expression "name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_" (field_expression "name_stats.st_dev._4_4_" (field_expression "name_stats.st_dev" identifier . field_identifier) . field_identifier) == (field_expression "dev_stats.st_dev._4_4_" (field_expression "dev_stats.st_dev" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)name_stats.st_dev == (int)dev_stats.st_dev" (cast_expression "(int)name_stats.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "name_stats.st_dev" identifier . field_identifier)) == (cast_expression "(int)dev_stats.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "dev_stats.st_dev" identifier . field_identifier)))) ))) )) ))) )) (compound_statement "{\n pcVar8 = (char *)*puVar6;\n goto LAB_00013ca4;\n }" { (expression_statement "pcVar8 = (char *)*puVar6;" (assignment_expression "pcVar8 = (char *)*puVar6" identifier = (cast_expression "(char *)*puVar6" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*puVar6" * identifier))) ;) (goto_statement "goto LAB_00013ca4;" goto statement_identifier ;) })) (expression_statement "puVar6 = (undefined4 *)puVar6[7];" (assignment_expression "puVar6 = (undefined4 *)puVar6[7]" identifier = (cast_expression "(undefined4 *)puVar6[7]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar6[7]" identifier [ number_literal ]))) ;) }) while (parenthesized_expression "(puVar6 != (undefined4 *)0x0)" ( (binary_expression "puVar6 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) })) (expression_statement "pcVar8 = (char *)0x0;" (assignment_expression "pcVar8 = (char *)0x0" identifier = (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) ;) (labeled_statement "LAB_00013ca4:\n if (iVar5 == *piVar7) {\n return pcVar8;\n }" statement_identifier : (if_statement "if (iVar5 == *piVar7) {\n return pcVar8;\n }" if (parenthesized_expression "(iVar5 == *piVar7)" ( (binary_expression "iVar5 == *piVar7" identifier == (pointer_expression "*piVar7" * identifier)) )) (compound_statement "{\n return pcVar8;\n }" { (return_statement "return pcVar8;" return identifier ;) }))) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "void FUN_00013bb0(char *param_1)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}\n\n" (function_definition "void FUN_00013bb0(char *param_1)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" primitive_type (function_declarator "FUN_00013bb0(char *param_1)" identifier (parameter_list "(char *param_1)" ( (parameter_declaration "char *param_1" primitive_type (pointer_declarator "*param_1" * identifier)) ))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "undefined4 uVar2;" type_identifier identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int *piVar4;" primitive_type (pointer_declarator "*piVar4" * identifier) ;) (declaration "undefined4 *puVar5;" type_identifier (pointer_declarator "*puVar5" * identifier) ;) (declaration "int *piVar6;" primitive_type (pointer_declarator "*piVar6" * identifier) ;) (declaration "char *__filename;" primitive_type (pointer_declarator "*__filename" * identifier) ;) (declaration "stat64 local_f0;" type_identifier identifier ;) (declaration "stat64 local_88;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "iVar1 = DAT_00013d28;" (assignment_expression "iVar1 = DAT_00013d28" identifier = identifier) ;) (expression_statement "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);" (assignment_expression "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" identifier = (pointer_expression "*(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" * (cast_expression "(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" ( (binary_expression "DAT_00013d24 + 0x13bc8 + DAT_00013d2c" (binary_expression "DAT_00013d24 + 0x13bc8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar6;" (assignment_expression "local_1c = *piVar6" identifier = (pointer_expression "*piVar6" * identifier)) ;) (if_statement "if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" if (parenthesized_expression "(*(char *)(DAT_00013d28 + 0x13c25) == '\0')" ( (binary_expression "*(char *)(DAT_00013d28 + 0x13c25) == '\0'" (pointer_expression "*(char *)(DAT_00013d28 + 0x13c25)" * (cast_expression "(char *)(DAT_00013d28 + 0x13c25)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_00013d28 + 0x13c25)" ( (binary_expression "DAT_00013d28 + 0x13c25" identifier + number_literal) )))) == (char_literal "'\0'" ' escape_sequence ')) )) (compound_statement "{\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" { (expression_statement "iVar3 = FUN_0001bd40(0);" (assignment_expression "iVar3 = FUN_0001bd40(0)" identifier = (call_expression "FUN_0001bd40(0)" identifier (argument_list "(0)" ( number_literal )))) ;) (expression_statement "*(int *)(iVar1 + 0x13c28) = iVar3;" (assignment_expression "*(int *)(iVar1 + 0x13c28) = iVar3" (pointer_expression "*(int *)(iVar1 + 0x13c28)" * (cast_expression "(int *)(iVar1 + 0x13c28)" ( (type_descriptor "int *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(iVar1 + 0x13c28)" ( (binary_expression "iVar1 + 0x13c28" identifier + number_literal) )))) = identifier) ;) (if_statement "if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" if (parenthesized_expression "(iVar3 == 0)" ( (binary_expression "iVar3 == 0" identifier == number_literal) )) (compound_statement "{\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" { (expression_statement "piVar4 = __errno_location();" (assignment_expression "piVar4 = __errno_location()" identifier = (call_expression "__errno_location()" identifier (argument_list "()" ( )))) ;) (expression_statement "iVar1 = *piVar4;" (assignment_expression "iVar1 = *piVar4" identifier = (pointer_expression "*piVar4" * identifier)) ;) (expression_statement "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);" (assignment_expression "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier = (call_expression "dcgettext(0,DAT_00013d38 + 0x13cfc,5)" identifier (argument_list "(0,DAT_00013d38 + 0x13cfc,5)" ( number_literal , (binary_expression "DAT_00013d38 + 0x13cfc" identifier + number_literal) , number_literal )))) ;) (expression_statement "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);" (call_expression "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" identifier (argument_list "(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" ( number_literal , identifier , (binary_expression "DAT_00013d3c + 0x13d14" identifier + number_literal) , identifier ))) ;) })) (expression_statement "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;" (assignment_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1" (pointer_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" * (cast_expression "(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (type_descriptor "undefined1 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_00013d3c + DAT_00013d34 + 1)" ( (binary_expression "(int)&DAT_00013d3c + DAT_00013d34 + 1" (binary_expression "(int)&DAT_00013d3c + DAT_00013d34" (cast_expression "(int)&DAT_00013d3c" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_00013d3c" & identifier)) + identifier) + number_literal) )))) = number_literal) ;) })) (expression_statement "iVar1 = __xstat64(3,param_1,&local_f0);" (assignment_expression "iVar1 = __xstat64(3,param_1,&local_f0)" identifier = (call_expression "__xstat64(3,param_1,&local_f0)" identifier (argument_list "(3,param_1,&local_f0)" ( number_literal , identifier , (pointer_expression "&local_f0" & identifier) )))) ;) (if_statement "if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" if (parenthesized_expression "((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n )" ( (binary_expression "(iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" (parenthesized_expression "(iVar1 == 0)" ( (binary_expression "iVar1 == 0" identifier == number_literal) )) && (parenthesized_expression "(puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" ( (comma_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0" (assignment_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000)" identifier = (pointer_expression "*(undefined4 **)(DAT_00013d30 + 81000)" * (cast_expression "(undefined4 **)(DAT_00013d30 + 81000)" ( (type_descriptor "undefined4 **" type_identifier (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00013d30 + 81000)" ( (binary_expression "DAT_00013d30 + 81000" identifier + number_literal) ))))) , (binary_expression "puVar5 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal))) ))) )) (compound_statement "{\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" { (do_statement "do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);" do (compound_statement "{\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n }" { (if_statement "if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" if (parenthesized_expression "(((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))))" ( (binary_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" (parenthesized_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0))" ( (binary_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" (parenthesized_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n )" ( (binary_expression "((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')" (parenthesized_expression "((*(byte *)(puVar5 + 6) & 1) != 0)" ( (binary_expression "(*(byte *)(puVar5 + 6) & 1) != 0" (parenthesized_expression "(*(byte *)(puVar5 + 6) & 1)" ( (binary_expression "*(byte *)(puVar5 + 6) & 1" (pointer_expression "*(byte *)(puVar5 + 6)" * (cast_expression "(byte *)(puVar5 + 6)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(puVar5 + 6)" ( (binary_expression "puVar5 + 6" identifier + number_literal) )))) & number_literal) )) != number_literal) )) && (parenthesized_expression "(__filename = (char *)*puVar5, *__filename == '/')" ( (comma_expression "__filename = (char *)*puVar5, *__filename == '/'" (assignment_expression "__filename = (char *)*puVar5" identifier = (cast_expression "(char *)*puVar5" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (pointer_expression "*puVar5" * identifier))) , (binary_expression "*__filename == '/'" (pointer_expression "*__filename" * identifier) == (char_literal "'/'" ' character '))) ))) )) && (parenthesized_expression "(iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" ( (comma_expression "iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0" (assignment_expression "iVar1 = strcmp((char *)puVar5[1],param_1)" identifier = (call_expression "strcmp((char *)puVar5[1],param_1)" identifier (argument_list "((char *)puVar5[1],param_1)" ( (cast_expression "(char *)puVar5[1]" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar5[1]" identifier [ number_literal ])) , identifier )))) , (binary_expression "iVar1 == 0" identifier == number_literal)) ))) )) && (parenthesized_expression "(((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" ( (parenthesized_expression "((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))" ( (binary_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" (parenthesized_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino))" ( (comma_expression "iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (assignment_expression "iVar1 = __xstat64(3,__filename,&local_88)" identifier = (call_expression "__xstat64(3,__filename,&local_88)" identifier (argument_list "(3,__filename,&local_88)" ( number_literal , identifier , (pointer_expression "&local_88" & identifier) )))) , (binary_expression "iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (binary_expression "iVar1 == 0" identifier == number_literal) && (parenthesized_expression "(local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" ( (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino" (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_" (field_expression "local_f0.st_ino._4_4_" (field_expression "local_f0.st_ino" identifier . field_identifier) . field_identifier) == (field_expression "local_88.st_ino._4_4_" (field_expression "local_88.st_ino" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)local_f0.st_ino == (int)local_88.st_ino" (cast_expression "(int)local_f0.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "local_f0.st_ino" identifier . field_identifier)) == (cast_expression "(int)local_88.st_ino" ( (type_descriptor "int" primitive_type) ) (field_expression "local_88.st_ino" identifier . field_identifier)))) )))) )) && (parenthesized_expression "(local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" ( (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev" (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_" (field_expression "local_f0.st_dev._4_4_" (field_expression "local_f0.st_dev" identifier . field_identifier) . field_identifier) == (field_expression "local_88.st_dev._4_4_" (field_expression "local_88.st_dev" identifier . field_identifier) . field_identifier)) && (binary_expression "(int)local_f0.st_dev == (int)local_88.st_dev" (cast_expression "(int)local_f0.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "local_f0.st_dev" identifier . field_identifier)) == (cast_expression "(int)local_88.st_dev" ( (type_descriptor "int" primitive_type) ) (field_expression "local_88.st_dev" identifier . field_identifier)))) ))) )) ))) )) (compound_statement "{\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" { (expression_statement "uVar2 = *puVar5;" (assignment_expression "uVar2 = *puVar5" identifier = (pointer_expression "*puVar5" * identifier)) ;) (goto_statement "goto LAB_00013ca4;" goto statement_identifier ;) })) (expression_statement "puVar5 = (undefined4 *)puVar5[7];" (assignment_expression "puVar5 = (undefined4 *)puVar5[7]" identifier = (cast_expression "(undefined4 *)puVar5[7]" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (subscript_expression "puVar5[7]" identifier [ number_literal ]))) ;) }) while (parenthesized_expression "(puVar5 != (undefined4 *)0x0)" ( (binary_expression "puVar5 != (undefined4 *)0x0" identifier != (cast_expression "(undefined4 *)0x0" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) ;) })) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" identifier = number_literal) ;) (labeled_statement "LAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }" statement_identifier : (if_statement "if (local_1c == *piVar6) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar6)" ( (binary_expression "local_1c == *piVar6" identifier == (pointer_expression "*piVar6" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) }))) comment (expression_statement "__stack_chk_fail(uVar2);" (call_expression "__stack_chk_fail(uVar2)" identifier (argument_list "(uVar2)" ( identifier ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) == (char_literal ' escape_sequence ')) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT )))) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( )))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , (binary_expression IDENT + LIT) , LIT )))) ;) (expression_statement (call_expression IDENT (argument_list ( LIT , IDENT , (binary_expression IDENT + LIT) , IDENT ))) ;) })) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (binary_expression (cast_expression ( (type_descriptor TYPE) ) (pointer_expression & IDENT)) + IDENT) + LIT) )))) = LIT) ;) })) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , (pointer_expression & IDENT) )))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression IDENT == LIT) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression IDENT + LIT) ))))) , (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT))) ))) )) (compound_statement { (do_statement do (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) & LIT) )) != LIT) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (pointer_expression * IDENT))) , (binary_expression (pointer_expression * IDENT) == (char_literal ' character '))) ))) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ])) , IDENT )))) , (binary_expression IDENT == LIT)) ))) )) && (parenthesized_expression ( (parenthesized_expression ( (binary_expression (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT , IDENT , (pointer_expression & IDENT) )))) , (binary_expression (binary_expression IDENT == LIT) && (parenthesized_expression ( (binary_expression (binary_expression (field_expression (field_expression IDENT . field_identifier) . field_identifier) == (field_expression (field_expression IDENT . field_identifier) . field_identifier)) && (binary_expression (cast_expression ( (type_descriptor TYPE) ) (field_expression IDENT . field_identifier)) == (cast_expression ( (type_descriptor TYPE) ) (field_expression IDENT . field_identifier)))) )))) )) && (parenthesized_expression ( (binary_expression (binary_expression (field_expression (field_expression IDENT . field_identifier) . field_identifier) == (field_expression (field_expression IDENT . field_identifier) . field_identifier)) && (binary_expression (cast_expression ( (type_descriptor TYPE) ) (field_expression IDENT . field_identifier)) == (cast_expression ( (type_descriptor TYPE) ) (field_expression IDENT . field_identifier)))) ))) )) ))) )) (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (goto_statement goto statement_identifier ;) })) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (subscript_expression IDENT [ LIT ]))) ;) }) while (parenthesized_expression ( (binary_expression IDENT != (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) ;) })) (expression_statement (assignment_expression IDENT = LIT) ;) (labeled_statement statement_identifier : (if_statement if (parenthesized_expression ( (binary_expression IDENT == (pointer_expression * IDENT)) )) (compound_statement { (return_statement return ;) }))) comment (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })))
|
(function_definition "void FUN_00013bb0(char *param_1)\n\n{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" (primitive_type "void") (function_declarator "FUN_00013bb0(char *param_1)" (identifier "FUN_00013bb0") (parameter_list "(char *param_1)" (( "(") (parameter_declaration "char *param_1" (primitive_type "char") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) () ")"))) (compound_statement "{\n int iVar1;\n undefined4 uVar2;\n int iVar3;\n int *piVar4;\n undefined4 *puVar5;\n int *piVar6;\n char *__filename;\n stat64 local_f0;\n stat64 local_88;\n int local_1c;\n \n iVar1 = DAT_00013d28;\n piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);\n local_1c = *piVar6;\n if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }\n iVar1 = __xstat64(3,param_1,&local_f0);\n if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }\n uVar2 = 0;\nLAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(uVar2);\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "undefined4 uVar2;" (type_identifier "undefined4") (identifier "uVar2") (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (declaration "int *piVar4;" (primitive_type "int") (pointer_declarator "*piVar4" (* "*") (identifier "piVar4")) (; ";")) (declaration "undefined4 *puVar5;" (type_identifier "undefined4") (pointer_declarator "*puVar5" (* "*") (identifier "puVar5")) (; ";")) (declaration "int *piVar6;" (primitive_type "int") (pointer_declarator "*piVar6" (* "*") (identifier "piVar6")) (; ";")) (declaration "char *__filename;" (primitive_type "char") (pointer_declarator "*__filename" (* "*") (identifier "__filename")) (; ";")) (declaration "stat64 local_f0;" (type_identifier "stat64") (identifier "local_f0") (; ";")) (declaration "stat64 local_88;" (type_identifier "stat64") (identifier "local_88") (; ";")) (declaration "int local_1c;" (primitive_type "int") (identifier "local_1c") (; ";")) (expression_statement "iVar1 = DAT_00013d28;" (assignment_expression "iVar1 = DAT_00013d28" (identifier "iVar1") (= "=") (identifier "DAT_00013d28")) (; ";")) (expression_statement "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);" (assignment_expression "piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" (identifier "piVar6") (= "=") (pointer_expression "*(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" (* "*") (cast_expression "(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00013d24 + 0x13bc8 + DAT_00013d2c)" (( "(") (binary_expression "DAT_00013d24 + 0x13bc8 + DAT_00013d2c" (binary_expression "DAT_00013d24 + 0x13bc8" (identifier "DAT_00013d24") (+ "+") (number_literal "0x13bc8")) (+ "+") (identifier "DAT_00013d2c")) () ")"))))) (; ";")) (expression_statement "local_1c = *piVar6;" (assignment_expression "local_1c = *piVar6" (identifier "local_1c") (= "=") (pointer_expression "*piVar6" (* "*") (identifier "piVar6"))) (; ";")) (if_statement "if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" (if "if") (parenthesized_expression "(*(char *)(DAT_00013d28 + 0x13c25) == '\0')" (( "(") (binary_expression "*(char *)(DAT_00013d28 + 0x13c25) == '\0'" (pointer_expression "*(char *)(DAT_00013d28 + 0x13c25)" (* "*") (cast_expression "(char *)(DAT_00013d28 + 0x13c25)" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_00013d28 + 0x13c25)" (( "(") (binary_expression "DAT_00013d28 + 0x13c25" (identifier "DAT_00013d28") (+ "+") (number_literal "0x13c25")) () ")")))) (== "==") (char_literal "'\0'" (' "'") (escape_sequence "\0") (' "'"))) () ")")) (compound_statement "{\n iVar3 = FUN_0001bd40(0);\n *(int *)(iVar1 + 0x13c28) = iVar3;\n if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }\n *(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;\n }" ({ "{") (expression_statement "iVar3 = FUN_0001bd40(0);" (assignment_expression "iVar3 = FUN_0001bd40(0)" (identifier "iVar3") (= "=") (call_expression "FUN_0001bd40(0)" (identifier "FUN_0001bd40") (argument_list "(0)" (( "(") (number_literal "0") () ")")))) (; ";")) (expression_statement "*(int *)(iVar1 + 0x13c28) = iVar3;" (assignment_expression "*(int *)(iVar1 + 0x13c28) = iVar3" (pointer_expression "*(int *)(iVar1 + 0x13c28)" (* "*") (cast_expression "(int *)(iVar1 + 0x13c28)" (( "(") (type_descriptor "int *" (primitive_type "int") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(iVar1 + 0x13c28)" (( "(") (binary_expression "iVar1 + 0x13c28" (identifier "iVar1") (+ "+") (number_literal "0x13c28")) () ")")))) (= "=") (identifier "iVar3")) (; ";")) (if_statement "if (iVar3 == 0) {\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" (if "if") (parenthesized_expression "(iVar3 == 0)" (( "(") (binary_expression "iVar3 == 0" (identifier "iVar3") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n piVar4 = __errno_location();\n iVar1 = *piVar4;\n uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);\n error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);\n }" ({ "{") (expression_statement "piVar4 = __errno_location();" (assignment_expression "piVar4 = __errno_location()" (identifier "piVar4") (= "=") (call_expression "__errno_location()" (identifier "__errno_location") (argument_list "()" (( "(") () ")")))) (; ";")) (expression_statement "iVar1 = *piVar4;" (assignment_expression "iVar1 = *piVar4" (identifier "iVar1") (= "=") (pointer_expression "*piVar4" (* "*") (identifier "piVar4"))) (; ";")) (expression_statement "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);" (assignment_expression "uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5)" (identifier "uVar2") (= "=") (call_expression "dcgettext(0,DAT_00013d38 + 0x13cfc,5)" (identifier "dcgettext") (argument_list "(0,DAT_00013d38 + 0x13cfc,5)" (( "(") (number_literal "0") (, ",") (binary_expression "DAT_00013d38 + 0x13cfc" (identifier "DAT_00013d38") (+ "+") (number_literal "0x13cfc")) (, ",") (number_literal "5") () ")")))) (; ";")) (expression_statement "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);" (call_expression "error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" (identifier "error") (argument_list "(0,iVar1,DAT_00013d3c + 0x13d14,uVar2)" (( "(") (number_literal "0") (, ",") (identifier "iVar1") (, ",") (binary_expression "DAT_00013d3c + 0x13d14" (identifier "DAT_00013d3c") (+ "+") (number_literal "0x13d14")) (, ",") (identifier "uVar2") () ")"))) (; ";")) (} "}"))) (expression_statement "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;" (assignment_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1" (pointer_expression "*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" (* "*") (cast_expression "(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1)" (( "(") (type_descriptor "undefined1 *" (type_identifier "undefined1") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)&DAT_00013d3c + DAT_00013d34 + 1)" (( "(") (binary_expression "(int)&DAT_00013d3c + DAT_00013d34 + 1" (binary_expression "(int)&DAT_00013d3c + DAT_00013d34" (cast_expression "(int)&DAT_00013d3c" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (pointer_expression "&DAT_00013d3c" (& "&") (identifier "DAT_00013d3c"))) (+ "+") (identifier "DAT_00013d34")) (+ "+") (number_literal "1")) () ")")))) (= "=") (number_literal "1")) (; ";")) (} "}"))) (expression_statement "iVar1 = __xstat64(3,param_1,&local_f0);" (assignment_expression "iVar1 = __xstat64(3,param_1,&local_f0)" (identifier "iVar1") (= "=") (call_expression "__xstat64(3,param_1,&local_f0)" (identifier "__xstat64") (argument_list "(3,param_1,&local_f0)" (( "(") (number_literal "3") (, ",") (identifier "param_1") (, ",") (pointer_expression "&local_f0" (& "&") (identifier "local_f0")) () ")")))) (; ";")) (if_statement "if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n ) {\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" (if "if") (parenthesized_expression "((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)\n )" (( "(") (binary_expression "(iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" (parenthesized_expression "(iVar1 == 0)" (( "(") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)" (( "(") (comma_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0" (assignment_expression "puVar5 = *(undefined4 **)(DAT_00013d30 + 81000)" (identifier "puVar5") (= "=") (pointer_expression "*(undefined4 **)(DAT_00013d30 + 81000)" (* "*") (cast_expression "(undefined4 **)(DAT_00013d30 + 81000)" (( "(") (type_descriptor "undefined4 **" (type_identifier "undefined4") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00013d30 + 81000)" (( "(") (binary_expression "DAT_00013d30 + 81000" (identifier "DAT_00013d30") (+ "+") (number_literal "81000")) () ")"))))) (, ",") (binary_expression "puVar5 != (undefined4 *)0x0" (identifier "puVar5") (!= "!=") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0")))) () ")"))) () ")")) (compound_statement "{\n do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);\n }" ({ "{") (do_statement "do {\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n } while (puVar5 != (undefined4 *)0x0);" (do "do") (compound_statement "{\n if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }\n puVar5 = (undefined4 *)puVar5[7];\n }" ({ "{") (if_statement "if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))) {\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" (if "if") (parenthesized_expression "(((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))))" (( "(") (binary_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&\n (((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" (parenthesized_expression "((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0))" (( "(") (binary_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n ) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" (parenthesized_expression "(((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')\n )" (( "(") (binary_expression "((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')" (parenthesized_expression "((*(byte *)(puVar5 + 6) & 1) != 0)" (( "(") (binary_expression "(*(byte *)(puVar5 + 6) & 1) != 0" (parenthesized_expression "(*(byte *)(puVar5 + 6) & 1)" (( "(") (binary_expression "*(byte *)(puVar5 + 6) & 1" (pointer_expression "*(byte *)(puVar5 + 6)" (* "*") (cast_expression "(byte *)(puVar5 + 6)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(puVar5 + 6)" (( "(") (binary_expression "puVar5 + 6" (identifier "puVar5") (+ "+") (number_literal "6")) () ")")))) (& "&") (number_literal "1")) () ")")) (!= "!=") (number_literal "0")) () ")")) (&& "&&") (parenthesized_expression "(__filename = (char *)*puVar5, *__filename == '/')" (( "(") (comma_expression "__filename = (char *)*puVar5, *__filename == '/'" (assignment_expression "__filename = (char *)*puVar5" (identifier "__filename") (= "=") (cast_expression "(char *)*puVar5" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (pointer_expression "*puVar5" (* "*") (identifier "puVar5")))) (, ",") (binary_expression "*__filename == '/'" (pointer_expression "*__filename" (* "*") (identifier "__filename")) (== "==") (char_literal "'/'" (' "'") (character "/") (' "'")))) () ")"))) () ")")) (&& "&&") (parenthesized_expression "(iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)" (( "(") (comma_expression "iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0" (assignment_expression "iVar1 = strcmp((char *)puVar5[1],param_1)" (identifier "iVar1") (= "=") (call_expression "strcmp((char *)puVar5[1],param_1)" (identifier "strcmp") (argument_list "((char *)puVar5[1],param_1)" (( "(") (cast_expression "(char *)puVar5[1]" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "puVar5[1]" (identifier "puVar5") ([ "[") (number_literal "1") (] "]"))) (, ",") (identifier "param_1") () ")")))) (, ",") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0"))) () ")"))) () ")")) (&& "&&") (parenthesized_expression "(((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)))" (( "(") (parenthesized_expression "((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev))" (( "(") (binary_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)) &&\n (local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" (parenthesized_expression "(iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino))" (( "(") (comma_expression "iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (assignment_expression "iVar1 = __xstat64(3,__filename,&local_88)" (identifier "iVar1") (= "=") (call_expression "__xstat64(3,__filename,&local_88)" (identifier "__xstat64") (argument_list "(3,__filename,&local_88)" (( "(") (number_literal "3") (, ",") (identifier "__filename") (, ",") (pointer_expression "&local_88" (& "&") (identifier "local_88")) () ")")))) (, ",") (binary_expression "iVar1 == 0 &&\n (local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0")) (&& "&&") (parenthesized_expression "(local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino)" (( "(") (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&\n (int)local_f0.st_ino == (int)local_88.st_ino" (binary_expression "local_f0.st_ino._4_4_ == local_88.st_ino._4_4_" (field_expression "local_f0.st_ino._4_4_" (field_expression "local_f0.st_ino" (identifier "local_f0") (. ".") (field_identifier "st_ino")) (. ".") (field_identifier "_4_4_")) (== "==") (field_expression "local_88.st_ino._4_4_" (field_expression "local_88.st_ino" (identifier "local_88") (. ".") (field_identifier "st_ino")) (. ".") (field_identifier "_4_4_"))) (&& "&&") (binary_expression "(int)local_f0.st_ino == (int)local_88.st_ino" (cast_expression "(int)local_f0.st_ino" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (field_expression "local_f0.st_ino" (identifier "local_f0") (. ".") (field_identifier "st_ino"))) (== "==") (cast_expression "(int)local_88.st_ino" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (field_expression "local_88.st_ino" (identifier "local_88") (. ".") (field_identifier "st_ino"))))) () ")")))) () ")")) (&& "&&") (parenthesized_expression "(local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev)" (( "(") (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&\n (int)local_f0.st_dev == (int)local_88.st_dev" (binary_expression "local_f0.st_dev._4_4_ == local_88.st_dev._4_4_" (field_expression "local_f0.st_dev._4_4_" (field_expression "local_f0.st_dev" (identifier "local_f0") (. ".") (field_identifier "st_dev")) (. ".") (field_identifier "_4_4_")) (== "==") (field_expression "local_88.st_dev._4_4_" (field_expression "local_88.st_dev" (identifier "local_88") (. ".") (field_identifier "st_dev")) (. ".") (field_identifier "_4_4_"))) (&& "&&") (binary_expression "(int)local_f0.st_dev == (int)local_88.st_dev" (cast_expression "(int)local_f0.st_dev" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (field_expression "local_f0.st_dev" (identifier "local_f0") (. ".") (field_identifier "st_dev"))) (== "==") (cast_expression "(int)local_88.st_dev" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (field_expression "local_88.st_dev" (identifier "local_88") (. ".") (field_identifier "st_dev"))))) () ")"))) () ")")) () ")"))) () ")")) (compound_statement "{\n uVar2 = *puVar5;\n goto LAB_00013ca4;\n }" ({ "{") (expression_statement "uVar2 = *puVar5;" (assignment_expression "uVar2 = *puVar5" (identifier "uVar2") (= "=") (pointer_expression "*puVar5" (* "*") (identifier "puVar5"))) (; ";")) (goto_statement "goto LAB_00013ca4;" (goto "goto") (statement_identifier "LAB_00013ca4") (; ";")) (} "}"))) (expression_statement "puVar5 = (undefined4 *)puVar5[7];" (assignment_expression "puVar5 = (undefined4 *)puVar5[7]" (identifier "puVar5") (= "=") (cast_expression "(undefined4 *)puVar5[7]" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (subscript_expression "puVar5[7]" (identifier "puVar5") ([ "[") (number_literal "7") (] "]")))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(puVar5 != (undefined4 *)0x0)" (( "(") (binary_expression "puVar5 != (undefined4 *)0x0" (identifier "puVar5") (!= "!=") (cast_expression "(undefined4 *)0x0" (( "(") (type_descriptor "undefined4 *" (type_identifier "undefined4") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (; ";")) (} "}"))) (expression_statement "uVar2 = 0;" (assignment_expression "uVar2 = 0" (identifier "uVar2") (= "=") (number_literal "0")) (; ";")) (labeled_statement "LAB_00013ca4:\n if (local_1c == *piVar6) {\n return;\n }" (statement_identifier "LAB_00013ca4") (: ":") (if_statement "if (local_1c == *piVar6) {\n return;\n }" (if "if") (parenthesized_expression "(local_1c == *piVar6)" (( "(") (binary_expression "local_1c == *piVar6" (identifier "local_1c") (== "==") (pointer_expression "*piVar6" (* "*") (identifier "piVar6"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}")))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail(uVar2);" (call_expression "__stack_chk_fail(uVar2)" (identifier "__stack_chk_fail") (argument_list "(uVar2)" (( "(") (identifier "uVar2") () ")"))) (; ";")) (} "}")))
|
char * function_1(char *name)
{
int var_5;
type_1 *var_6;
int *piVar3;
type_2 uVar4;
int var_17;
type_2 *var_15;
int *piVar7;
char *pcVar8;
type_3 name_stats;
type_3 dev_stats;
var_5 = var_3;
piVar7 = *(int **)(var_1 + 0x13bc8 + var_2);
var_17 = *piVar7;
if (*(char *)(var_3 + 0x13c25) == '\0') {
var_6 = var_4(false);
*(type_1 **)(var_5 + 0x13c28) = var_6;
if (var_6 == (type_1 *)0x0) {
piVar3 = var_7();
var_5 = *piVar3;
uVar4 = var_8(0,var_9 + 0x13cfc,5);
var_10(0,var_5,var_11 + 0x13d14,uVar4);
}
*(type_4 *)((int)&var_11 + var_12 + 1) = 1;
}
var_5 = var_13(3,name,(type_5 *)&name_stats);
if ((var_5 == 0) && (var_15 = *(type_2 **)(var_14 + 81000), var_15 != (type_2 *)0x0)
) {
do {
if (((((*(type_6 *)(var_15 + 6) & 1) != 0) && (pcVar8 = (char *)*var_15, *pcVar8 == '/')) &&
(var_5 = var_16((char *)var_15[1],name), var_5 == 0)) &&
(((var_5 = var_13(3,pcVar8,(type_5 *)&dev_stats), var_5 == 0 &&
(name_stats.st_ino._4_4_ == dev_stats.st_ino._4_4_ &&
(int)name_stats.st_ino == (int)dev_stats.st_ino)) &&
(name_stats.st_dev._4_4_ == dev_stats.st_dev._4_4_ &&
(int)name_stats.st_dev == (int)dev_stats.st_dev)))) {
pcVar8 = (char *)*var_15;
goto LAB_00013ca4;
}
var_15 = (type_2 *)var_15[7];
} while (var_15 != (type_2 *)0x0);
}
pcVar8 = (char *)0x0;
LAB_00013ca4:
if (var_17 == *piVar7) {
return pcVar8;
}
/* WARNING: Subroutine does not return */
var_18();
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (char_literal (escape_sequence)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list)))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (binary_expression left: (identifier) right: (number_literal)) (number_literal))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (binary_expression left: (identifier) right: (number_literal)) (identifier)))))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (pointer_expression argument: (identifier))) right: (identifier)) right: (number_literal))))) right: (number_literal))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (pointer_expression argument: (identifier)))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) right: (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal))))))) consequence: (compound_statement (do_statement body: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) right: (number_literal))) right: (number_literal))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (pointer_expression argument: (identifier)))) right: (binary_expression left: (pointer_expression argument: (identifier)) right: (char_literal (character))))))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal))) (identifier)))) right: (binary_expression left: (identifier) right: (number_literal)))))) right: (parenthesized_expression (parenthesized_expression (binary_expression left: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal) (identifier) (pointer_expression argument: (identifier))))) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (parenthesized_expression (binary_expression left: (binary_expression left: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier)) right: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier))) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (field_expression argument: (identifier) field: (field_identifier))) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (field_expression argument: (identifier) field: (field_identifier))))))))) right: (parenthesized_expression (binary_expression left: (binary_expression left: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier)) right: (field_expression argument: (field_expression argument: (identifier) field: (field_identifier)) field: (field_identifier))) right: (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (field_expression argument: (identifier) field: (field_identifier))) right: (cast_expression type: (type_descriptor type: (primitive_type)) value: (field_expression argument: (identifier) field: (field_identifier))))))))))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (goto_statement label: (statement_identifier)))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (subscript_expression argument: (identifier) index: (number_literal)))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal))))))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (labeled_statement label: (statement_identifier) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (return_statement)))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))))))
|
void MASKED(char *param_1)
{
int iVar1;
undefined4 uVar2;
int iVar3;
int *piVar4;
undefined4 *puVar5;
int *piVar6;
char *__filename;
stat64 local_f0;
stat64 local_88;
int local_1c;
iVar1 = DAT_00013d28;
piVar6 = *(int **)(DAT_00013d24 + 0x13bc8 + DAT_00013d2c);
local_1c = *piVar6;
if (*(char *)(DAT_00013d28 + 0x13c25) == '\0') {
iVar3 = FUN_0001bd40(0);
*(int *)(iVar1 + 0x13c28) = iVar3;
if (iVar3 == 0) {
piVar4 = __errno_location();
iVar1 = *piVar4;
uVar2 = dcgettext(0,DAT_00013d38 + 0x13cfc,5);
error(0,iVar1,DAT_00013d3c + 0x13d14,uVar2);
}
*(undefined1 *)((int)&DAT_00013d3c + DAT_00013d34 + 1) = 1;
}
iVar1 = __xstat64(3,param_1,&local_f0);
if ((iVar1 == 0) && (puVar5 = *(undefined4 **)(DAT_00013d30 + 81000), puVar5 != (undefined4 *)0x0)
) {
do {
if (((((*(byte *)(puVar5 + 6) & 1) != 0) && (__filename = (char *)*puVar5, *__filename == '/')
) && (iVar1 = strcmp((char *)puVar5[1],param_1), iVar1 == 0)) &&
(((iVar1 = __xstat64(3,__filename,&local_88), iVar1 == 0 &&
(local_f0.st_ino._4_4_ == local_88.st_ino._4_4_ &&
(int)local_f0.st_ino == (int)local_88.st_ino)) &&
(local_f0.st_dev._4_4_ == local_88.st_dev._4_4_ &&
(int)local_f0.st_dev == (int)local_88.st_dev)))) {
uVar2 = *puVar5;
goto LAB_00013ca4;
}
puVar5 = (undefined4 *)puVar5[7];
} while (puVar5 != (undefined4 *)0x0);
}
uVar2 = 0;
LAB_00013ca4:
if (local_1c == *piVar6) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(uVar2);
}
| 16,023 |
||
445_puttytel_and_puttytel_strip.c
|
gdk_rgba_to_string
|
gdk_rgba_to_string
|
void gdk_rgba_to_string(void)
{
(*(code *)PTR_gdk_rgba_to_string_00098e48)();
return;
}
|
void gdk_rgba_to_string(void)
{
(*(code *)PTR_gdk_rgba_to_string_00098e48)();
return;
}
|
adr r12,0x1992c
add r12,r12,#0x7f000
ldr pc,[r12,#0x51c]!
| null | null | null | null |
[(u'CALLIND_-1205954233', u'INDIRECT_-1205954164'), ('const-0', u'RETURN_-1205954230'), (u'CAST_-1205954159', u'CALLIND_-1205954233'), ('tmp_113', u'CAST_-1205954159'), (u'INDIRECT_-1205954164', u'COPY_-1205954223')]
|
[(u'CALLIND_-1205954233', u'INDIRECT_-1205954164'), ('const-0', u'RETURN_-1205954230'), (u'CAST_-1205954159', u'CALLIND_-1205954233'), ('tmp_113', u'CAST_-1205954159'), (u'INDIRECT_-1205954164', u'COPY_-1205954223')]
| null | null |
00019924
|
arm
|
O2
|
(translation_unit "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}\n\n" (function_definition "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" primitive_type (function_declarator "gdk_rgba_to_string(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" { (expression_statement "(*(code *)PTR_gdk_rgba_to_string_00098e48)();" (call_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)()" (parenthesized_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)" ( (pointer_expression "*(code *)PTR_gdk_rgba_to_string_00098e48" * (cast_expression "(code *)PTR_gdk_rgba_to_string_00098e48" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}\n\n" (function_definition "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" primitive_type (function_declarator "gdk_rgba_to_string(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" { (expression_statement "(*(code *)PTR_gdk_rgba_to_string_00098e48)();" (call_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)()" (parenthesized_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)" ( (pointer_expression "*(code *)PTR_gdk_rgba_to_string_00098e48" * (cast_expression "(code *)PTR_gdk_rgba_to_string_00098e48" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}\n\n" (function_definition "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" primitive_type (function_declarator "gdk_rgba_to_string(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" { (expression_statement "(*(code *)PTR_gdk_rgba_to_string_00098e48)();" (call_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)()" (parenthesized_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)" ( (pointer_expression "*(code *)PTR_gdk_rgba_to_string_00098e48" * (cast_expression "(code *)PTR_gdk_rgba_to_string_00098e48" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void gdk_rgba_to_string(void)\n\n{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" (primitive_type "void") (function_declarator "gdk_rgba_to_string(void)" (identifier "gdk_rgba_to_string") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_gdk_rgba_to_string_00098e48)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_gdk_rgba_to_string_00098e48)();" (call_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)()" (parenthesized_expression "(*(code *)PTR_gdk_rgba_to_string_00098e48)" (( "(") (pointer_expression "*(code *)PTR_gdk_rgba_to_string_00098e48" (* "*") (cast_expression "(code *)PTR_gdk_rgba_to_string_00098e48" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_gdk_rgba_to_string_00098e48"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_gdk_rgba_to_string_00098e48)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_00098e48)();
return;
}
| 60,263 |
||
327_libmicrohttpd.so.12.49_and_libmicrohttpd.so.12.49_strip.c
|
gnutls_record_recv
|
gnutls_record_recv
|
/* WARNING: Control flow encountered bad instruction data */
void gnutls_record_recv(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* gnutls_record_recv@@GNUTLS_3_4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void gnutls_record_recv(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206075270')]
|
[('const-1', u'RETURN_-1206075270')]
| null | null |
0003c070
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "gnutls_record_recv(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* gnutls_record_recv@@GNUTLS_3_4 */\n halt_baddata();\n}\n\n" comment (function_definition "void gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* gnutls_record_recv@@GNUTLS_3_4 */\n halt_baddata();\n}" primitive_type (function_declarator "gnutls_record_recv(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* gnutls_record_recv@@GNUTLS_3_4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "gnutls_record_recv(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void gnutls_record_recv(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "gnutls_record_recv(void)" (identifier "gnutls_record_recv") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* gnutls_record_recv@@GNUTLS_3_4 */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 44,131 |
||
28_arm-linux-gnueabi-nm_and_arm-linux-gnueabi-nm_strip.c
|
bfd_get_error
|
bfd_get_error
|
void bfd_get_error(void)
{
(*(code *)PTR_bfd_get_error_00028074)();
return;
}
|
void bfd_get_error(void)
{
(*(code *)PTR_bfd_get_error_00028074)();
return;
}
|
adr r12,0x11400
add r12,r12,#0x16000
ldr pc,[r12,#0xc74]!
| null | null | null | null |
[('tmp_113', u'CAST_-1205988251'), ('const-0', u'RETURN_-1205988322'), (u'INDIRECT_-1205988256', u'COPY_-1205988315'), (u'CAST_-1205988251', u'CALLIND_-1205988325'), (u'CALLIND_-1205988325', u'INDIRECT_-1205988256')]
|
[('tmp_113', u'CAST_-1205988251'), ('const-0', u'RETURN_-1205988322'), (u'INDIRECT_-1205988256', u'COPY_-1205988315'), (u'CAST_-1205988251', u'CALLIND_-1205988325'), (u'CALLIND_-1205988325', u'INDIRECT_-1205988256')]
| null | null |
000113f8
|
arm
|
O2
|
(translation_unit "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}\n\n" (function_definition "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" primitive_type (function_declarator "bfd_get_error(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_error_00028074)();" (call_expression "(*(code *)PTR_bfd_get_error_00028074)()" (parenthesized_expression "(*(code *)PTR_bfd_get_error_00028074)" ( (pointer_expression "*(code *)PTR_bfd_get_error_00028074" * (cast_expression "(code *)PTR_bfd_get_error_00028074" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}\n\n" (function_definition "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" primitive_type (function_declarator "bfd_get_error(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_error_00028074)();" (call_expression "(*(code *)PTR_bfd_get_error_00028074)()" (parenthesized_expression "(*(code *)PTR_bfd_get_error_00028074)" ( (pointer_expression "*(code *)PTR_bfd_get_error_00028074" * (cast_expression "(code *)PTR_bfd_get_error_00028074" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}\n\n" (function_definition "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" primitive_type (function_declarator "bfd_get_error(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" { (expression_statement "(*(code *)PTR_bfd_get_error_00028074)();" (call_expression "(*(code *)PTR_bfd_get_error_00028074)()" (parenthesized_expression "(*(code *)PTR_bfd_get_error_00028074)" ( (pointer_expression "*(code *)PTR_bfd_get_error_00028074" * (cast_expression "(code *)PTR_bfd_get_error_00028074" ( (type_descriptor "code *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier)) )) (argument_list "()" ( ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (expression_statement (call_expression (parenthesized_expression ( (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT)) )) (argument_list ( ))) ;) (return_statement return ;) })))
|
(function_definition "void bfd_get_error(void)\n\n{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" (primitive_type "void") (function_declarator "bfd_get_error(void)" (identifier "bfd_get_error") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n (*(code *)PTR_bfd_get_error_00028074)();\n return;\n}" ({ "{") (expression_statement "(*(code *)PTR_bfd_get_error_00028074)();" (call_expression "(*(code *)PTR_bfd_get_error_00028074)()" (parenthesized_expression "(*(code *)PTR_bfd_get_error_00028074)" (( "(") (pointer_expression "*(code *)PTR_bfd_get_error_00028074" (* "*") (cast_expression "(code *)PTR_bfd_get_error_00028074" (( "(") (type_descriptor "code *" (type_identifier "code") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "PTR_bfd_get_error_00028074"))) () ")")) (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(void)
{
(*(type_1 *)PTR_bfd_get_error_00028074)();
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (expression_statement (call_expression function: (parenthesized_expression (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (identifier)))) arguments: (argument_list))) (return_statement))))
|
void MASKED(void)
{
(*(code *)PTR_MASKED_00028074)();
return;
}
| 37,194 |
||
1674_arm-linux-gnueabi-dwp_and_arm-linux-gnueabi-dwp_strip.c
|
Output_reloc
|
FUN_000f8e48
|
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* DWARF original prototype: Output_reloc<9,_true,_64,_true> *
Output_reloc(Output_reloc<9,_true,_64,_true> * this, Sized_relobj<64,_true> * relobj, uint
local_sym_index, uint type, uint shndx, Address address, bool is_relative, bool is_symbolless,
bool is_section_symbol, bool use_plt_offset) */
Output_reloc<9,_true,_64,_true> * __thiscall
gold::Output_reloc<9,_true,_64,_true>::Output_reloc
(Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,
uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,
bool is_section_symbol,bool use_plt_offset)
{
uint uVar1;
uVar1 = type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000;
this->local_sym_index_ = param_2;
this->address_ = address;
*(uint *)&this->field_0x14 = uVar1;
this->shndx_ = shndx;
this->field_0x17 =
(byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |
(byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |
(byte)((use_plt_offset & 1) << 7);
if (param_2 == 0xffffffff || param_2 == 0xfffffffc) {
/* WARNING: Subroutine does not return */
do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,
(char *)(FUN_000f9ca4 + DAT_000f8f48));
}
if (shndx != 0xfffffffc) {
if (type == (type & 0xfffffff)) {
(this->u1_).relobj = relobj;
(this->u2_).relobj = relobj;
set_needs_dynsym_index(this);
return this;
}
/* WARNING: Subroutine does not return */
do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));
}
/* WARNING: Subroutine does not return */
do_gold_unreachable((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,
(char *)(DAT_000f8f5c + 0xf9cdc));
}
|
undefined4 *
FUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,
undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,
byte param_11,byte param_12)
{
uint uVar1;
uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;
param_1[4] = param_3;
param_1[2] = param_7;
param_1[3] = param_8;
param_1[5] = uVar1;
param_1[6] = param_5;
*(byte *)((int)param_1 + 0x17) =
(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |
(byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);
if (param_3 == -1 || param_3 == -4) {
/* WARNING: Subroutine does not return */
FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);
}
if (param_5 != -4) {
if (param_4 == (param_4 & 0xfffffff)) {
*param_1 = param_2;
param_1[1] = param_2;
FUN_000f89fc();
return param_1;
}
/* WARNING: Subroutine does not return */
FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);
}
/* WARNING: Subroutine does not return */
FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);
}
|
stmdb sp!,{r4,r5,r6,r7,r8,lr}
ldr lr,[r0,#0x14]
ldrb r12,[sp,#0x28]
bic r5,r3,#0xf0000000
and lr,lr,#0xf0000000
orr lr,r5,lr
cpy r6,r3
and r3,r12,#0x1
mov r12,lr, lsr #0x18
bic r12,r12,#0x10
orr r12,r12,r3, lsl #0x4
ldrb r3,[sp,#0x2c]
bic r12,r12,#0x20
and r3,r3,#0x1
orr r12,r12,r3, lsl #0x5
ldrb r3,[sp,#0x30]
ldrb r7,[sp,#0x34]
and r3,r3,#0x1
bic r12,r12,#0x40
orr r12,r12,r3, lsl #0x6
cmn r2,#0x1
cmnne r2,#0x4
str r2,[r0,#0x10]
ldrd r2,r3,[sp,#0x20]
bic r12,r12,#0x80
and r7,r7,#0x1
orr r12,r12,r7, lsl #0x7
strd r2,r3,[r0,#0x8]
ldr r3,[sp,#0x18]
str lr,[r0,#0x14]
str r3,[r0,#0x18]
strb r12,[r0,#0x17]
beq 0x000f8ef4
cmn r3,#0x4
beq 0x000f8f2c
cmp r6,r5
bne 0x000f8f10
cpy r4,r0
str r1,[r0,#0x0]
str r1,[r0,#0x4]
bl 0x000f89fc
cpy r0,r4
ldmia sp!,{r4,r5,r6,r7,r8,pc}
ldr r2,[0xf8f48]
ldr r0,[0xf8f4c]
add r2,pc,r2
ldr r1,[0xf8f50]
add r2,r2,#0xda0
add r0,pc,r0
bl 0x0005f640
ldr r2,[0xf8f54]
ldr r0,[0xf8f58]
add r2,pc,r2
mov r1,#0x32c
add r2,r2,#0xda0
add r0,pc,r0
bl 0x0005f640
ldr r2,[0xf8f5c]
ldr r0,[0xf8f60]
add r2,pc,r2
ldr r1,[0xf8f64]
add r2,r2,#0xda0
add r0,pc,r0
bl 0x0005f640
| null | null | null | null |
[(u'CAST_-1206873520', u'CALL_-1206873920'), (u'STORE_-1206874174', u'INDIRECT_-1206873786'), (u'CALL_-1206873897', u'INDIRECT_-1206873596'), (u'INDIRECT_-1206873655', u'COPY_-1206873712'), ('tmp_1195', u'PTRSUB_-1206873561'), ('const-1', u'INT_AND_-1206874310'), (u'PTRSUB_-1206873546', u'STORE_-1206874094'), (u'STORE_-1206874161', u'INDIRECT_-1206873728'), (u'CALL_-1206873897', u'INDIRECT_-1206873660'), ('tmp_1203', u'INT_ZEXT_-1206874339'), (u'CALL_-1206873958', u'INDIRECT_-1206873591'), ('const-6', u'INT_LEFT_-1206874278'), ('tmp_1195', u'COPY_-1206874085'), (u'STORE_-1206874161', u'INDIRECT_-1206873760'), (u'INDIRECT_-1206873639', u'COPY_-1206873696'), (u'INDIRECT_-1206873680', u'CALL_-1206873897'), (u'INDIRECT_-1206873792', u'PTRADD_-1206873881'), (u'CAST_-1206873597', u'STORE_-1206874174'), (u'PTRSUB_-1206873551', u'STORE_-1206874100'), ('const-1', u'INT_AND_-1206874354'), (u'CAST_-1206873710', u'LOAD_-1206874531'), ('const-1019720', u'PTRSUB_-1206873478'), (u'INDIRECT_-1206873621', u'COPY_-1206873674'), (u'STORE_-1206874161', u'INDIRECT_-1206873776'), ('const-1', u'RETURN_-1206873953'), (u'CALL_-1206874084', u'INDIRECT_-1206873686'), ('tmp_1198', u'INT_EQUAL_-1206874113'), (u'CALL_-1206873958', u'INDIRECT_-1206873687'), (u'PTRSUB_-1206873635', u'STORE_-1206874250'), ('const-0', u'RETURN_-1206874053'), (u'STORE_-1206874168', u'INDIRECT_-1206873749'), (u'INDIRECT_-1206873685', u'COPY_-1206873738'), ('tmp_1195', u'PTRSUB_-1206873635'), (u'CAST_-1206873491', u'CALL_-1206873958'), ('const-1', u'PTRADD_-1206873881'), (u'CALL_-1206873897', u'INDIRECT_-1206873628'), ('const-15', u'INT_AND_-1206873671'), (u'INDIRECT_-1206873596', u'COPY_-1206873651'), (u'STORE_-1206874094', u'INDIRECT_-1206873742'), ('tmp_1195', u'PTRSUB_-1206873720'), ('const-417', u'STORE_-1206874094'), (u'STORE_-1206874168', u'INDIRECT_-1206873781'), ('const-417', u'STORE_-1206874161'), ('const-7', u'INT_LEFT_-1206874174'), (u'CALL_-1206874084', u'INDIRECT_-1206873670'), ('const-0', u'SUBPIECE_-1206873820'), (u'STORE_-1206873684', u'INDIRECT_-1206873699'), ('const-24', u'PTRSUB_-1206873600'), (u'CALL_-1206873958', u'INDIRECT_-1206873703'), ('const-0', u'SUBPIECE_-1206873807'), ('tmp_814', u'CBRANCH_-1206874109'), (u'STORE_-1206874161', u'INDIRECT_-1206873712'), (u'PTRSUB_-1206873600', u'STORE_-1206874168'), (u'STORE_-1206873684', u'INDIRECT_-1206873731'), (u'STORE_-1206874174', u'INDIRECT_-1206873802'), (u'INDIRECT_-1206873653', u'COPY_-1206873706'), (u'INDIRECT_-1206873671', u'COPY_-1206873728'), ('const-1023196', u'INT_ADD_-1206873904'), (u'STORE_-1206874100', u'INDIRECT_-1206873731'), ('tmp_739', u'CBRANCH_-1206874154'), ('const-417', u'STORE_-1206874174'), (u'CAST_-1206873461', u'INT_ADD_-1206873893'), (u'CALL_-1206873897', u'INDIRECT_-1206873676'), (u'STORE_-1206874174', u'INDIRECT_-1206873690'), (u'STORE_-1206874168', u'INDIRECT_-1206873797'), ('tmp_1201', u'INT_ZEXT_-1206874509'), (u'CALL_-1206873958', u'INDIRECT_-1206873671'), (u'STORE_-1206874250', u'INDIRECT_-1206873721'), ('const-0', u'PTRSUB_-1206873537'), (u'INDIRECT_-1206873733', u'COPY_-1206873786'), (u'INT_ADD_-1206873954', u'CAST_-1206873486'), ('tmp_785', u'CBRANCH_-1206874129'), (u'INT_EQUAL_-1206874275', u'BOOL_OR_-1206873939'), (u'STORE_-1206874250', u'INDIRECT_-1206873785'), (u'STORE_-1206874250', u'INDIRECT_-1206873817'), (u'SUBPIECE_-1206873808', u'INT_OR_-1206873673'), (u'STORE_-1206874250', u'INDIRECT_-1206873737'), (u'INDIRECT_-1206873670', u'COPY_-1206873721'), (u'STORE_-1206874168', u'INDIRECT_-1206873765'), (u'INT_NOTEQUAL_-1206874131', u'CBRANCH_-1206874129'), (u'CALL_-1206873897', u'INDIRECT_-1206873612'), (u'STORE_-1206874161', u'INDIRECT_-1206873744'), ('const-24', u'INT_RIGHT_-1206873625'), (u'INDIRECT_-1206873744', u'INT_ADD_-1206873965'), ('const-0', u'PTRSUB_-1206873566'), (u'CAST_-1206873460', u'CALL_-1206873897'), (u'CALL_-1206873897', u'INDIRECT_-1206873644'), (u'INDIRECT_-1206873734', u'COPY_-1206873785'), (u'INT_ADD_-1206873904', u'CAST_-1206873466'), (u'INDIRECT_-1206873701', u'COPY_-1206873754'), ('const-417', u'LOAD_-1206874531'), (u'STORE_-1206874174', u'INDIRECT_-1206873754'), (u'PTRADD_-1206873881', u'CAST_-1206873515'), (u'CALL_-1206874084', u'INDIRECT_-1206873654'), (u'INDIRECT_-1206873637', u'COPY_-1206873690'), (u'CALL_-1206873920', u'INDIRECT_-1206873701'), (u'INT_LEFT_-1206874393', u'SUBPIECE_-1206873808'), (u'CALL_-1206874084', u'INDIRECT_-1206873718'), ('const-1', u'RETURN_-1206873892'), (u'STORE_-1206873684', u'INDIRECT_-1206873795'), (u'STORE_-1206874100', u'INDIRECT_-1206873763'), (u'INT_AND_-1206874486', u'INT_OR_-1206874459'), (u'INDIRECT_-1206873696', u'INT_ADD_-1206873893'), (u'INDIRECT_-1206873687', u'COPY_-1206873744'), (u'INDIRECT_-1206873644', u'COPY_-1206873699'), (u'INDIRECT_-1206873702', u'COPY_-1206873753'), ('const-4026531840', u'INT_AND_-1206874470'), (u'STORE_-1206873684', u'INDIRECT_-1206873779'), ('const-417', u'STORE_-1206873684'), (u'INT_AND_-1206874486', u'INT_EQUAL_-1206874113'), (u'CALL_-1206874084', u'INDIRECT_-1206873766'), ('const-1', u'RETURN_-1206873915'), (u'COPY_-1206874085', u'RETURN_-1206874053'), (u'STORE_-1206873684', u'INDIRECT_-1206873715'), ('tmp_1195', u'PTRSUB_-1206873566'), ('const-1', u'INT_AND_-1206874189'), (u'BOOL_OR_-1206873939', u'CBRANCH_-1206874154'), (u'INDIRECT_-1206873728', u'INT_ADD_-1206873954'), ('tmp_1199', u'STORE_-1206874168'), (u'INT_OR_-1206873673', u'INT_OR_-1206873678'), (u'INDIRECT_-1206873718', u'COPY_-1206873769'), ('const-16', u'PTRSUB_-1206873635'), (u'STORE_-1206873684', u'INDIRECT_-1206873747'), (u'INDIRECT_-1206873580', u'COPY_-1206873635'), (u'PTRSUB_-1206873614', u'STORE_-1206873684'), ('const-1', u'INT_AND_-1206874439'), (u'INDIRECT_-1206873717', u'COPY_-1206873770'), (u'INT_LEFT_-1206874339', u'SUBPIECE_-1206873812'), (u'STORE_-1206874100', u'INDIRECT_-1206873651'), (u'STORE_-1206874250', u'INDIRECT_-1206873769'), (u'STORE_-1206874250', u'INDIRECT_-1206873753'), (u'STORE_-1206874174', u'INDIRECT_-1206873722'), (u'STORE_-1206874094', u'INDIRECT_-1206873710'), (u'INT_AND_-1206874310', u'INT_LEFT_-1206874278'), ('const-417', u'STORE_-1206874168'), (u'INT_EQUAL_-1206874113', u'CBRANCH_-1206874109'), ('const-268435455', u'INT_AND_-1206874486'), (u'INDIRECT_-1206873750', u'COPY_-1206873801'), (u'STORE_-1206874174', u'INDIRECT_-1206873770'), (u'STORE_-1206874161', u'INDIRECT_-1206873680'), ('tmp_1195', u'PTRSUB_-1206873595'), (u'INT_ZEXT_-1206874339', u'INT_AND_-1206874310'), (u'STORE_-1206874100', u'INDIRECT_-1206873699'), (u'INT_EQUAL_-1206873896', u'BOOL_OR_-1206873939'), (u'INDIRECT_-1206873712', u'INT_ADD_-1206873904'), ('const-4294967292', u'INT_EQUAL_-1206873896'), ('tmp_1196', u'STORE_-1206874094'), (u'LOAD_-1206874531', u'INT_AND_-1206874470'), (u'INDIRECT_-1206873669', u'COPY_-1206873722'), ('const-417', u'STORE_-1206874100'), ('const-20', u'PTRSUB_-1206873720'), ('const-0', u'SUBPIECE_-1206873812'), (u'INT_ADD_-1206873893', u'CAST_-1206873460'), (u'PTRSUB_-1206873605', u'CAST_-1206873597'), (u'INT_AND_-1206874189', u'INT_LEFT_-1206874174'), ('const-0', u'PTRSUB_-1206873551'), (u'CALL_-1206874084', u'INDIRECT_-1206873750'), (u'INDIRECT_-1206873760', u'CALL_-1206873920'), (u'INDIRECT_-1206873676', u'COPY_-1206873731'), ('tmp_1197', u'INT_EQUAL_-1206873896'), (u'INDIRECT_-1206873564', u'COPY_-1206873619'), ('const-417', u'STORE_-1206874250'), (u'CALL_-1206873897', u'INDIRECT_-1206873580'), (u'CAST_-1206873486', u'CALL_-1206873958'), (u'CALL_-1206873920', u'INDIRECT_-1206873685'), (u'SUBPIECE_-1206873816', u'INT_OR_-1206874204'), (u'CALL_-1206873920', u'INDIRECT_-1206873621'), (u'INDIRECT_-1206873703', u'COPY_-1206873760'), ('tmp_1195', u'PTRSUB_-1206873600'), (u'PTRSUB_-1206873537', u'PTRADD_-1206873881'), ('const-0', u'SUBPIECE_-1206873808'), ('const-1023168', u'INT_ADD_-1206873965'), (u'STORE_-1206874174', u'INDIRECT_-1206873706'), ('const-1019664', u'INT_ADD_-1206873916'), (u'INT_OR_-1206874459', u'INT_RIGHT_-1206873625'), (u'SUBPIECE_-1206873807', u'INT_AND_-1206873671'), ('tmp_1202', u'INT_ZEXT_-1206874393'), ('const-0', u'PTRSUB_-1206873478'), (u'STORE_-1206874250', u'INDIRECT_-1206873801'), (u'INT_AND_-1206874354', u'INT_LEFT_-1206874339'), ('tmp_1195', u'PTRSUB_-1206873614'), (u'CAST_-1206873515', u'CALL_-1206873920'), ('tmp_1195', u'PTRSUB_-1206873605'), (u'STORE_-1206874100', u'INDIRECT_-1206873667'), (u'INDIRECT_-1206873766', u'COPY_-1206873817'), (u'INDIRECT_-1206873607', u'COPY_-1206873664'), (u'STORE_-1206874100', u'INDIRECT_-1206873747'), (u'CALL_-1206873920', u'INDIRECT_-1206873717'), ('const-4', u'PTRSUB_-1206873561'), (u'STORE_-1206873684', u'INDIRECT_-1206873811'), ('const-8', u'PTRSUB_-1206873614'), (u'STORE_-1206874250', u'INDIRECT_-1206873833'), (u'INDIRECT_-1206873591', u'COPY_-1206873648'), ('const-1019692', u'INT_ADD_-1206873954'), ('tmp_1195', u'CALL_-1206874084'), (u'STORE_-1206874174', u'INDIRECT_-1206873738'), (u'INDIRECT_-1206873686', u'COPY_-1206873737'), (u'CALL_-1206873897', u'INDIRECT_-1206873564'), (u'INDIRECT_-1206873612', u'COPY_-1206873667'), ('tmp_1197', u'INT_EQUAL_-1206874275'), (u'INT_ZEXT_-1206874393', u'INT_AND_-1206874354'), ('const-812', u'CALL_-1206873958'), (u'INDIRECT_-1206873623', u'COPY_-1206873680'), ('const-0', u'PTRSUB_-1206873546'), (u'CALL_-1206873920', u'INDIRECT_-1206873637'), (u'INT_ZEXT_-1206874509', u'INT_AND_-1206874439'), ('const-5', u'INT_LEFT_-1206874339'), (u'STORE_-1206874094', u'INDIRECT_-1206873694'), (u'INT_AND_-1206874470', u'INT_OR_-1206874459'), (u'STORE_-1206874161', u'INDIRECT_-1206873792'), (u'INT_RIGHT_-1206873625', u'SUBPIECE_-1206873807'), ('const-1023140', u'PTRSUB_-1206873537'), (u'STORE_-1206874094', u'INDIRECT_-1206873758'), (u'CALL_-1206873920', u'INDIRECT_-1206873669'), ('const-23', u'PTRSUB_-1206873595'), (u'INDIRECT_-1206873776', u'INT_ADD_-1206873916'), (u'CALL_-1206873958', u'INDIRECT_-1206873607'), (u'CALL_-1206873958', u'INDIRECT_-1206873639'), (u'INDIRECT_-1206873628', u'COPY_-1206873683'), (u'INDIRECT_-1206873654', u'COPY_-1206873705'), (u'INT_AND_-1206874439', u'INT_LEFT_-1206874393'), ('tmp_1204', u'INT_ZEXT_-1206874332'), (u'CALL_-1206874084', u'INDIRECT_-1206873702'), ('tmp_1198', u'INT_AND_-1206874486'), (u'STORE_-1206874168', u'INDIRECT_-1206873717'), (u'INT_AND_-1206873671', u'INT_OR_-1206873673'), (u'INT_LEFT_-1206874278', u'SUBPIECE_-1206873816'), (u'STORE_-1206874161', u'INDIRECT_-1206873696'), (u'CALL_-1206874084', u'INDIRECT_-1206873734'), (u'CALL_-1206873920', u'INDIRECT_-1206873733'), (u'INT_OR_-1206874204', u'INT_OR_-1206874174'), (u'STORE_-1206873684', u'INDIRECT_-1206873763'), (u'STORE_-1206874094', u'INDIRECT_-1206873678'), (u'STORE_-1206874094', u'INDIRECT_-1206873662'), (u'INT_ADD_-1206873916', u'CAST_-1206873520'), (u'PTRSUB_-1206873595', u'STORE_-1206874161'), (u'STORE_-1206874100', u'INDIRECT_-1206873683'), (u'STORE_-1206874168', u'INDIRECT_-1206873701'), ('const-4294967295', u'INT_EQUAL_-1206874275'), ('const-4294967292', u'INT_NOTEQUAL_-1206874131'), (u'INT_ADD_-1206873965', u'CAST_-1206873491'), ('const-20', u'PTRSUB_-1206873605'), (u'STORE_-1206874168', u'INDIRECT_-1206873733'), ('const-4', u'INT_LEFT_-1206874393'), ('const-0', u'SUBPIECE_-1206873816'), (u'INT_ZEXT_-1206874332', u'INT_AND_-1206874189'), (u'STORE_-1206874094', u'INDIRECT_-1206873726'), (u'INT_LEFT_-1206874174', u'SUBPIECE_-1206873820'), (u'CALL_-1206873958', u'INDIRECT_-1206873655'), ('tmp_1200', u'STORE_-1206873684'), (u'CALL_-1206873958', u'INDIRECT_-1206873623'), (u'STORE_-1206874168', u'INDIRECT_-1206873685'), (u'STORE_-1206874100', u'INDIRECT_-1206873715'), (u'SUBPIECE_-1206873820', u'INT_OR_-1206874174'), (u'STORE_-1206874094', u'INDIRECT_-1206873646'), ('tmp_1197', u'STORE_-1206874250'), (u'PTRSUB_-1206873478', u'CAST_-1206873461'), (u'INDIRECT_-1206873660', u'COPY_-1206873715'), (u'CALL_-1206873920', u'INDIRECT_-1206873653'), (u'INT_OR_-1206873678', u'INT_OR_-1206874204'), ('tmp_1199', u'INT_NOTEQUAL_-1206874131'), (u'PTRSUB_-1206873720', u'CAST_-1206873710'), (u'CAST_-1206873466', u'CALL_-1206873897'), (u'SUBPIECE_-1206873812', u'INT_OR_-1206873678'), (u'INT_OR_-1206874459', u'STORE_-1206874174'), (u'PTRSUB_-1206873561', u'PTRSUB_-1206873546'), (u'PTRSUB_-1206873566', u'PTRSUB_-1206873551'), (u'INT_OR_-1206874174', u'STORE_-1206874161'), ('tmp_1196', u'STORE_-1206874100')]
|
[(u'STORE_-1206874174', u'INDIRECT_-1206873786'), (u'STORE_-1206874188', u'INDIRECT_-1206873764'), (u'CALL_-1206873897', u'INDIRECT_-1206873596'), (u'INDIRECT_-1206873655', u'COPY_-1206873712'), ('const-1', u'INT_AND_-1206874310'), (u'STORE_-1206874161', u'INDIRECT_-1206873728'), (u'STORE_-1206874188', u'INDIRECT_-1206873716'), (u'CALL_-1206873897', u'INDIRECT_-1206873660'), (u'CALL_-1206873958', u'INDIRECT_-1206873591'), ('const-6', u'INT_LEFT_-1206874278'), (u'STORE_-1206874161', u'INDIRECT_-1206873760'), (u'INDIRECT_-1206873639', u'COPY_-1206873696'), (u'INDIRECT_-1206873680', u'CALL_-1206873897'), ('const-0', u'SUBPIECE_-1206873816'), ('const-1', u'INT_AND_-1206874354'), ('tmp_2260', u'INT_ZEXT_-1206874332'), (u'INDIRECT_-1206873621', u'COPY_-1206873674'), (u'STORE_-1206874161', u'INDIRECT_-1206873776'), ('const-1', u'RETURN_-1206873953'), (u'CALL_-1206874084', u'INDIRECT_-1206873686'), (u'STORE_-1206874186', u'INDIRECT_-1206873811'), ('tmp_1529', u'INT_AND_-1206874486'), ('tmp_2271', u'INT_NOTEQUAL_-1206874131'), (u'CALL_-1206873958', u'INDIRECT_-1206873687'), ('tmp_1527', u'PTRADD_-1206873568'), (u'PTRADD_-1206873568', u'STORE_-1206874094'), ('const-0', u'RETURN_-1206874053'), (u'STORE_-1206874168', u'INDIRECT_-1206873749'), ('const-0', u'SUBPIECE_-1206873812'), (u'INDIRECT_-1206873685', u'COPY_-1206873738'), (u'INT_OR_-1206873681', u'INT_OR_-1206874204'), ('const-6', u'PTRADD_-1206873605'), (u'CALL_-1206873897', u'INDIRECT_-1206873628'), (u'STORE_-1206874186', u'INDIRECT_-1206873779'), ('tmp_1535', u'STORE_-1206874094'), (u'INDIRECT_-1206873596', u'COPY_-1206873651'), (u'STORE_-1206874188', u'INDIRECT_-1206873748'), (u'STORE_-1206874094', u'INDIRECT_-1206873742'), (u'STORE_-1206874168', u'INDIRECT_-1206873781'), ('const-7', u'INT_LEFT_-1206874174'), (u'CALL_-1206874084', u'INDIRECT_-1206873670'), ('const-4', u'PTRADD_-1206873610'), ('tmp_1531', u'STORE_-1206874250'), (u'SUBPIECE_-1206873812', u'INT_OR_-1206873681'), ('const-417', u'STORE_-1206874100'), (u'STORE_-1206874188', u'INDIRECT_-1206873796'), (u'CALL_-1206873958', u'INDIRECT_-1206873703'), ('const-2', u'PTRADD_-1206873620'), ('tmp_814', u'CBRANCH_-1206874109'), (u'STORE_-1206874161', u'INDIRECT_-1206873712'), ('tmp_1531', u'INT_EQUAL_-1206874275'), (u'STORE_-1206874174', u'INDIRECT_-1206873802'), (u'INDIRECT_-1206873653', u'COPY_-1206873706'), (u'INDIRECT_-1206873671', u'COPY_-1206873728'), ('tmp_2271', u'STORE_-1206874168'), (u'STORE_-1206874100', u'INDIRECT_-1206873731'), ('tmp_739', u'CBRANCH_-1206874154'), (u'CALL_-1206873897', u'INDIRECT_-1206873676'), ('tmp_1527', u'PTRADD_-1206873605'), (u'STORE_-1206874174', u'INDIRECT_-1206873690'), (u'STORE_-1206874168', u'INDIRECT_-1206873797'), ('tmp_1535', u'STORE_-1206874100'), ('const-1023196', u'INT_ADD_-1206873904'), (u'CALL_-1206873958', u'INDIRECT_-1206873671'), (u'STORE_-1206874188', u'INDIRECT_-1206873700'), (u'STORE_-1206874250', u'INDIRECT_-1206873721'), (u'INT_AND_-1206873675', u'INT_OR_-1206873676'), (u'INDIRECT_-1206873733', u'COPY_-1206873786'), (u'STORE_-1206874186', u'INDIRECT_-1206873699'), ('const-4', u'PTRADD_-1206873641'), ('tmp_785', u'CBRANCH_-1206874129'), (u'INT_EQUAL_-1206874275', u'BOOL_OR_-1206873939'), (u'STORE_-1206874250', u'INDIRECT_-1206873785'), (u'STORE_-1206874250', u'INDIRECT_-1206873817'), ('tmp_1527', u'CAST_-1206873596'), (u'INT_ADD_-1206873916', u'CALL_-1206873920'), (u'STORE_-1206874250', u'INDIRECT_-1206873737'), (u'INDIRECT_-1206873670', u'COPY_-1206873721'), (u'STORE_-1206874168', u'INDIRECT_-1206873765'), ('const-4', u'PTRADD_-1206873620'), (u'INT_NOTEQUAL_-1206874131', u'CBRANCH_-1206874129'), (u'CALL_-1206873897', u'INDIRECT_-1206873612'), (u'STORE_-1206874161', u'INDIRECT_-1206873744'), (u'INDIRECT_-1206873744', u'INT_ADD_-1206873965'), (u'CALL_-1206873897', u'INDIRECT_-1206873644'), (u'INDIRECT_-1206873734', u'COPY_-1206873785'), (u'INDIRECT_-1206873701', u'COPY_-1206873754'), (u'STORE_-1206874174', u'INDIRECT_-1206873754'), (u'CALL_-1206874084', u'INDIRECT_-1206873654'), (u'INDIRECT_-1206873637', u'COPY_-1206873690'), ('const-417', u'STORE_-1206874250'), (u'CALL_-1206873920', u'INDIRECT_-1206873701'), (u'CAST_-1206873470', u'INT_ADD_-1206873893'), (u'INT_LEFT_-1206874393', u'SUBPIECE_-1206873808'), (u'CALL_-1206874084', u'INDIRECT_-1206873718'), ('const-1', u'RETURN_-1206873892'), (u'STORE_-1206874100', u'INDIRECT_-1206873763'), (u'INT_AND_-1206874486', u'INT_OR_-1206874459'), ('const-417', u'STORE_-1206874161'), (u'INDIRECT_-1206873696', u'INT_ADD_-1206873893'), (u'INDIRECT_-1206873687', u'COPY_-1206873744'), (u'INDIRECT_-1206873644', u'COPY_-1206873699'), ('const-1023140', u'INT_ADD_-1206873927'), ('const-417', u'STORE_-1206874188'), (u'INDIRECT_-1206873702', u'COPY_-1206873753'), ('const-4026531840', u'INT_AND_-1206874470'), ('const-15', u'INT_AND_-1206873675'), (u'STORE_-1206874188', u'INDIRECT_-1206873780'), (u'INT_AND_-1206874486', u'INT_EQUAL_-1206874113'), (u'CALL_-1206874084', u'INDIRECT_-1206873766'), (u'INT_OR_-1206873676', u'INT_OR_-1206873681'), (u'INT_OR_-1206874459', u'INT_RIGHT_-1206873631'), ('const-1', u'RETURN_-1206873915'), ('tmp_1527', u'PTRADD_-1206873726'), (u'COPY_-1206874085', u'RETURN_-1206874053'), ('const-1', u'INT_AND_-1206874189'), (u'STORE_-1206874186', u'INDIRECT_-1206873715'), (u'BOOL_OR_-1206873939', u'CBRANCH_-1206874154'), (u'INDIRECT_-1206873728', u'INT_ADD_-1206873954'), (u'INDIRECT_-1206873718', u'COPY_-1206873769'), ('const-1', u'PTRADD_-1206873568'), (u'INT_ADD_-1206873927', u'CALL_-1206873920'), (u'INT_ADD_-1206873893', u'CALL_-1206873897'), (u'INDIRECT_-1206873580', u'COPY_-1206873635'), ('tmp_2257', u'INT_ZEXT_-1206874509'), ('const-1', u'INT_AND_-1206874439'), (u'INDIRECT_-1206873717', u'COPY_-1206873770'), (u'INT_LEFT_-1206874339', u'SUBPIECE_-1206873812'), (u'STORE_-1206874100', u'INDIRECT_-1206873651'), (u'STORE_-1206874250', u'INDIRECT_-1206873769'), (u'STORE_-1206874186', u'INDIRECT_-1206873747'), ('tmp_1527', u'COPY_-1206874085'), (u'STORE_-1206874250', u'INDIRECT_-1206873753'), (u'STORE_-1206874174', u'INDIRECT_-1206873722'), ('const-0', u'SUBPIECE_-1206873807'), (u'STORE_-1206874094', u'INDIRECT_-1206873710'), (u'INT_AND_-1206874310', u'INT_LEFT_-1206874278'), ('const-0', u'SUBPIECE_-1206873820'), ('tmp_2270', u'STORE_-1206874186'), (u'INT_EQUAL_-1206874113', u'CBRANCH_-1206874109'), (u'INDIRECT_-1206873750', u'COPY_-1206873801'), (u'STORE_-1206874174', u'INDIRECT_-1206873770'), ('const-268435455', u'INT_AND_-1206874486'), (u'STORE_-1206874161', u'INDIRECT_-1206873680'), (u'INT_ZEXT_-1206874339', u'INT_AND_-1206874310'), (u'STORE_-1206874100', u'INDIRECT_-1206873699'), (u'INT_EQUAL_-1206873896', u'BOOL_OR_-1206873939'), (u'INDIRECT_-1206873712', u'INT_ADD_-1206873904'), (u'STORE_-1206874186', u'INDIRECT_-1206873731'), (u'STORE_-1206874188', u'INDIRECT_-1206873812'), (u'LOAD_-1206874531', u'INT_AND_-1206874470'), (u'INDIRECT_-1206873669', u'COPY_-1206873722'), ('const-417', u'LOAD_-1206874531'), ('const-1019692', u'INT_ADD_-1206873954'), ('const-4', u'PTRADD_-1206873726'), (u'INT_AND_-1206874189', u'INT_LEFT_-1206874174'), (u'PTRADD_-1206873605', u'STORE_-1206874168'), (u'CALL_-1206874084', u'INDIRECT_-1206873750'), (u'INDIRECT_-1206873760', u'CALL_-1206873920'), (u'INDIRECT_-1206873676', u'COPY_-1206873731'), (u'INDIRECT_-1206873564', u'COPY_-1206873619'), (u'CALL_-1206873897', u'INDIRECT_-1206873580'), (u'STORE_-1206874186', u'INDIRECT_-1206873763'), (u'CALL_-1206873920', u'INDIRECT_-1206873685'), (u'SUBPIECE_-1206873816', u'INT_OR_-1206874204'), (u'CALL_-1206873920', u'INDIRECT_-1206873621'), (u'INDIRECT_-1206873703', u'COPY_-1206873760'), ('const-24', u'INT_RIGHT_-1206873631'), (u'STORE_-1206874174', u'INDIRECT_-1206873706'), ('tmp_1527', u'STORE_-1206874100'), ('tmp_1529', u'INT_EQUAL_-1206874113'), ('const-23', u'INT_ADD_-1206874147'), (u'STORE_-1206874250', u'INDIRECT_-1206873801'), (u'INT_AND_-1206874354', u'INT_LEFT_-1206874339'), ('const-417', u'STORE_-1206874168'), (u'INT_ADD_-1206874147', u'CAST_-1206873595'), (u'STORE_-1206874100', u'INDIRECT_-1206873667'), (u'INDIRECT_-1206873766', u'COPY_-1206873817'), ('const-5', u'PTRADD_-1206873610'), (u'INDIRECT_-1206873607', u'COPY_-1206873664'), (u'STORE_-1206874100', u'INDIRECT_-1206873747'), (u'CALL_-1206873920', u'INDIRECT_-1206873717'), ('const-4', u'PTRADD_-1206873568'), (u'STORE_-1206874186', u'INDIRECT_-1206873795'), (u'STORE_-1206874250', u'INDIRECT_-1206873833'), (u'INDIRECT_-1206873591', u'COPY_-1206873648'), ('tmp_1527', u'PTRADD_-1206873610'), ('const-417', u'STORE_-1206874186'), ('const-3', u'PTRADD_-1206873619'), (u'SUBPIECE_-1206873807', u'INT_AND_-1206873675'), (u'INT_ADD_-1206873954', u'CALL_-1206873958'), (u'STORE_-1206874174', u'INDIRECT_-1206873738'), (u'INDIRECT_-1206873686', u'COPY_-1206873737'), (u'INT_ADD_-1206873965', u'CALL_-1206873958'), (u'CALL_-1206873897', u'INDIRECT_-1206873564'), (u'INDIRECT_-1206873612', u'COPY_-1206873667'), (u'INT_ZEXT_-1206874393', u'INT_AND_-1206874354'), (u'INDIRECT_-1206873623', u'COPY_-1206873680'), (u'CAST_-1206873596', u'INT_ADD_-1206874147'), ('const-4', u'PTRADD_-1206873605'), (u'CALL_-1206873920', u'INDIRECT_-1206873637'), (u'INT_ZEXT_-1206874509', u'INT_AND_-1206874439'), (u'PTRADD_-1206873641', u'STORE_-1206874250'), ('const-5', u'INT_LEFT_-1206874339'), (u'STORE_-1206874094', u'INDIRECT_-1206873694'), ('const-1019664', u'INT_ADD_-1206873916'), (u'INT_AND_-1206874470', u'INT_OR_-1206874459'), (u'STORE_-1206874161', u'INDIRECT_-1206873792'), (u'STORE_-1206874094', u'INDIRECT_-1206873758'), (u'CALL_-1206873920', u'INDIRECT_-1206873669'), ('const-4294967292', u'INT_NOTEQUAL_-1206874131'), (u'PTRADD_-1206873619', u'STORE_-1206874186'), (u'INDIRECT_-1206873776', u'INT_ADD_-1206873916'), ('const-812', u'CALL_-1206873958'), (u'CALL_-1206873958', u'INDIRECT_-1206873607'), ('tmp_1527', u'PTRADD_-1206873620'), (u'CALL_-1206873958', u'INDIRECT_-1206873639'), (u'INDIRECT_-1206873628', u'COPY_-1206873683'), ('const-1023168', u'INT_ADD_-1206873965'), (u'INDIRECT_-1206873654', u'COPY_-1206873705'), ('tmp_2258', u'INT_ZEXT_-1206874393'), ('tmp_2259', u'INT_ZEXT_-1206874339'), (u'INT_AND_-1206874439', u'INT_LEFT_-1206874393'), ('const-4294967292', u'INT_EQUAL_-1206873896'), (u'CALL_-1206874084', u'INDIRECT_-1206873702'), (u'STORE_-1206874168', u'INDIRECT_-1206873717'), (u'INT_RIGHT_-1206873631', u'SUBPIECE_-1206873807'), (u'PTRADD_-1206873620', u'STORE_-1206874188'), (u'PTRSUB_-1206873482', u'CAST_-1206873470'), ('const-0', u'PTRSUB_-1206873482'), (u'INT_LEFT_-1206874278', u'SUBPIECE_-1206873816'), (u'STORE_-1206874161', u'INDIRECT_-1206873696'), (u'CALL_-1206874084', u'INDIRECT_-1206873734'), (u'PTRADD_-1206873726', u'LOAD_-1206874531'), (u'CALL_-1206873920', u'INDIRECT_-1206873733'), ('const-1019720', u'PTRSUB_-1206873482'), (u'INT_OR_-1206874204', u'INT_OR_-1206874174'), ('const-417', u'STORE_-1206874174'), (u'PTRADD_-1206873610', u'STORE_-1206874174'), (u'STORE_-1206874094', u'INDIRECT_-1206873678'), (u'STORE_-1206874094', u'INDIRECT_-1206873662'), ('tmp_1527', u'PTRADD_-1206873619'), (u'CAST_-1206873595', u'STORE_-1206874161'), ('const-417', u'STORE_-1206874094'), ('const-0', u'SUBPIECE_-1206873808'), ('const-4', u'PTRADD_-1206873641'), (u'STORE_-1206874100', u'INDIRECT_-1206873683'), (u'STORE_-1206874168', u'INDIRECT_-1206873701'), (u'INT_ADD_-1206873904', u'CALL_-1206873897'), (u'STORE_-1206874168', u'INDIRECT_-1206873733'), ('const-4', u'INT_LEFT_-1206874393'), (u'INT_ZEXT_-1206874332', u'INT_AND_-1206874189'), (u'SUBPIECE_-1206873808', u'INT_OR_-1206873676'), (u'STORE_-1206874094', u'INDIRECT_-1206873726'), ('tmp_1531', u'INT_EQUAL_-1206873896'), (u'INT_LEFT_-1206874174', u'SUBPIECE_-1206873820'), (u'CALL_-1206873958', u'INDIRECT_-1206873655'), ('const-4', u'PTRADD_-1206873619'), (u'CALL_-1206873958', u'INDIRECT_-1206873623'), ('tmp_2269', u'STORE_-1206874188'), (u'STORE_-1206874168', u'INDIRECT_-1206873685'), (u'INDIRECT_-1206873792', u'INT_ADD_-1206873927'), (u'STORE_-1206874100', u'INDIRECT_-1206873715'), (u'SUBPIECE_-1206873820', u'INT_OR_-1206874174'), (u'STORE_-1206874094', u'INDIRECT_-1206873646'), (u'INDIRECT_-1206873660', u'COPY_-1206873715'), ('tmp_1527', u'PTRADD_-1206873641'), (u'CALL_-1206873920', u'INDIRECT_-1206873653'), (u'INT_OR_-1206874459', u'STORE_-1206874174'), ('const-5', u'PTRADD_-1206873726'), (u'INT_OR_-1206874174', u'STORE_-1206874161'), ('const-4294967295', u'INT_EQUAL_-1206874275'), (u'STORE_-1206874188', u'INDIRECT_-1206873732')]
| null | null |
000f8e48
|
arm
|
O2
|
(translation_unit "undefined4 *\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)\n\n{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}\n\n" (function_definition "undefined4 *\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)\n\n{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" type_identifier (pointer_declarator "*\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" * (function_declarator "FUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" identifier (parameter_list "(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "int param_3" primitive_type identifier) , (parameter_declaration "uint param_4" type_identifier identifier) , (parameter_declaration "int param_5" primitive_type identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined4 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "byte param_9" type_identifier identifier) , (parameter_declaration "byte param_10" type_identifier identifier) , (parameter_declaration "byte param_11" type_identifier identifier) , (parameter_declaration "byte param_12" type_identifier identifier) )))) (compound_statement "{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (expression_statement "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;" (assignment_expression "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000" identifier = (binary_expression "param_4 & 0xfffffff | param_1[5] & 0xf0000000" (binary_expression "param_4 & 0xfffffff" identifier & number_literal) | (binary_expression "param_1[5] & 0xf0000000" (subscript_expression "param_1[5]" identifier [ number_literal ]) & number_literal))) ;) (expression_statement "param_1[4] = param_3;" (assignment_expression "param_1[4] = param_3" (subscript_expression "param_1[4]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[2] = param_7;" (assignment_expression "param_1[2] = param_7" (subscript_expression "param_1[2]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[3] = param_8;" (assignment_expression "param_1[3] = param_8" (subscript_expression "param_1[3]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[5] = uVar1;" (assignment_expression "param_1[5] = uVar1" (subscript_expression "param_1[5]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[6] = param_5;" (assignment_expression "param_1[6] = param_5" (subscript_expression "param_1[6]" identifier [ number_literal ]) = identifier) ;) (expression_statement "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);" (assignment_expression "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (pointer_expression "*(byte *)((int)param_1 + 0x17)" * (cast_expression "(byte *)((int)param_1 + 0x17)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x17)" ( (binary_expression "(int)param_1 + 0x17" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf" (call_expression "(byte)(uVar1 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(uVar1 >> 0x18)" ( (binary_expression "uVar1 >> 0x18" identifier >> number_literal) ))) & number_literal) | (call_expression "(byte)((param_9 & 1) << 4)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_9 & 1) << 4)" ( (binary_expression "(param_9 & 1) << 4" (parenthesized_expression "(param_9 & 1)" ( (binary_expression "param_9 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_10 & 1) << 5)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_10 & 1) << 5)" ( (binary_expression "(param_10 & 1) << 5" (parenthesized_expression "(param_10 & 1)" ( (binary_expression "param_10 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_11 & 1) << 6)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_11 & 1) << 6)" ( (binary_expression "(param_11 & 1) << 6" (parenthesized_expression "(param_11 & 1)" ( (binary_expression "param_11 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_12 & 1) << 7)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_12 & 1) << 7)" ( (binary_expression "(param_12 & 1) << 7" (parenthesized_expression "(param_12 & 1)" ( (binary_expression "param_12 & 1" identifier & number_literal) )) << number_literal) ))))) ;) (if_statement "if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" if (parenthesized_expression "(param_3 == -1 || param_3 == -4)" ( (binary_expression "param_3 == -1 || param_3 == -4" (binary_expression "param_3 == -1" identifier == number_literal) || (binary_expression "param_3 == -4" identifier == number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" { comment (expression_statement "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);" (call_expression "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" identifier (argument_list "(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" ( (binary_expression "DAT_000f8f4c + 0xf8f10" identifier + number_literal) , identifier , (binary_expression "DAT_000f8f48 + 0xf9ca4" identifier + number_literal) ))) ;) })) (if_statement "if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" if (parenthesized_expression "(param_5 != -4)" ( (binary_expression "param_5 != -4" identifier != number_literal) )) (compound_statement "{\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" { (if_statement "if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" if (parenthesized_expression "(param_4 == (param_4 & 0xfffffff))" ( (binary_expression "param_4 == (param_4 & 0xfffffff)" identifier == (parenthesized_expression "(param_4 & 0xfffffff)" ( (binary_expression "param_4 & 0xfffffff" identifier & number_literal) ))) )) (compound_statement "{\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" { (expression_statement "*param_1 = param_2;" (assignment_expression "*param_1 = param_2" (pointer_expression "*param_1" * identifier) = identifier) ;) (expression_statement "param_1[1] = param_2;" (assignment_expression "param_1[1] = param_2" (subscript_expression "param_1[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "FUN_000f89fc();" (call_expression "FUN_000f89fc()" identifier (argument_list "()" ( ))) ;) (return_statement "return param_1;" return identifier ;) })) comment (expression_statement "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);" (call_expression "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" identifier (argument_list "(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" ( (binary_expression "DAT_000f8f58 + 0xf8f2c" identifier + number_literal) , number_literal , (binary_expression "DAT_000f8f54 + 0xf9cc0" identifier + number_literal) ))) ;) })) comment (expression_statement "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);" (call_expression "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" identifier (argument_list "((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" ( (binary_expression "(int)&DAT_000f8f48 + DAT_000f8f60" (cast_expression "(int)&DAT_000f8f48" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_000f8f48" & identifier)) + identifier) , identifier , (binary_expression "DAT_000f8f5c + 0xf9cdc" identifier + number_literal) ))) ;) })))
|
(translation_unit "/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */\n/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */\n/* DWARF original prototype: Output_reloc<9,_true,_64,_true> *\n Output_reloc(Output_reloc<9,_true,_64,_true> * this, Sized_relobj<64,_true> * relobj, uint\n local_sym_index, uint type, uint shndx, Address address, bool is_relative, bool is_symbolless,\n bool is_section_symbol, bool use_plt_offset) */\n\nOutput_reloc<9,_true,_64,_true> * __thiscall\ngold::Output_reloc<9,_true,_64,_true>::Output_reloc\n (Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,\n uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,\n bool is_section_symbol,bool use_plt_offset)\n\n{\n uint uVar1;\n \n uVar1 = type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000;\n this->local_sym_index_ = param_2;\n this->address_ = address;\n *(uint *)&this->field_0x14 = uVar1;\n this->shndx_ = shndx;\n this->field_0x17 =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |\n (byte)((use_plt_offset & 1) << 7);\n if (param_2 == 0xffffffff || param_2 == 0xfffffffc) {\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48));\n }\n if (shndx != 0xfffffffc) {\n if (type == (type & 0xfffffff)) {\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,\n (char *)(DAT_000f8f5c + 0xf9cdc));\n}\n\n" comment comment comment (ERROR "Output_reloc<9,_true,_64,_true> * __thiscall\ngold::Output_reloc<9,_true,_64,_true>::Output_reloc\n (Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,\n uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,\n bool is_section_symbol,bool use_plt_offset)" (binary_expression "Output_reloc<9,_true,_64,_true> * __thiscall\ngold::Output_reloc<9,_true,_64,_true>::Output_reloc\n (Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,\n uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,\n bool is_section_symbol,bool use_plt_offset)" (binary_expression "Output_reloc<9,_true,_64,_true> * __thiscall\ngold::Output_reloc<9" (binary_expression "Output_reloc<9,_true,_64,_true> * __thiscall" (binary_expression "Output_reloc<9" identifier < number_literal) (ERROR ",_true,_64,_true" , identifier , identifier , identifier) > (pointer_expression "* __thiscall" * identifier)) (ERROR "gold::Output_reloc" identifier : : identifier) < number_literal) (ERROR ",_true,_64,_true" , identifier , identifier , identifier) > (ERROR "::" : :) (call_expression "Output_reloc\n (Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,\n uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,\n bool is_section_symbol,bool use_plt_offset)" identifier (argument_list "(Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,uint param_2,\n uint type,uint shndx,Address address,bool is_relative,bool is_symbolless,\n bool is_section_symbol,bool use_plt_offset)" ( (binary_expression "Output_reloc<9" identifier < number_literal) , identifier , identifier , (binary_expression "_true> *this" identifier > (pointer_expression "*this" * identifier)) , (binary_expression "Sized_relobj<64" identifier < number_literal) , (binary_expression "_true> *relobj" identifier > (pointer_expression "*relobj" * identifier)) , (ERROR "uint" identifier) identifier , identifier (ERROR "type" identifier) , (ERROR "uint" identifier) identifier , identifier (ERROR "address" identifier) , (ERROR "bool" identifier) identifier , (ERROR "bool" identifier) identifier , (ERROR "bool" identifier) identifier , (ERROR "bool" identifier) identifier ))))) (compound_statement "{\n uint uVar1;\n \n uVar1 = type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000;\n this->local_sym_index_ = param_2;\n this->address_ = address;\n *(uint *)&this->field_0x14 = uVar1;\n this->shndx_ = shndx;\n this->field_0x17 =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |\n (byte)((use_plt_offset & 1) << 7);\n if (param_2 == 0xffffffff || param_2 == 0xfffffffc) {\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48));\n }\n if (shndx != 0xfffffffc) {\n if (type == (type & 0xfffffff)) {\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,\n (char *)(DAT_000f8f5c + 0xf9cdc));\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (expression_statement "uVar1 = type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000;" (assignment_expression "uVar1 = type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000" identifier = (binary_expression "type & 0xfffffff | *(uint *)&this->field_0x14 & 0xf0000000" (binary_expression "type & 0xfffffff" identifier & number_literal) | (binary_expression "*(uint *)&this->field_0x14 & 0xf0000000" (pointer_expression "*(uint *)&this->field_0x14" * (cast_expression "(uint *)&this->field_0x14" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&this->field_0x14" & (field_expression "this->field_0x14" identifier -> field_identifier)))) & number_literal))) ;) (expression_statement "this->local_sym_index_ = param_2;" (assignment_expression "this->local_sym_index_ = param_2" (field_expression "this->local_sym_index_" identifier -> field_identifier) = identifier) ;) (expression_statement "this->address_ = address;" (assignment_expression "this->address_ = address" (field_expression "this->address_" identifier -> field_identifier) = identifier) ;) (expression_statement "*(uint *)&this->field_0x14 = uVar1;" (assignment_expression "*(uint *)&this->field_0x14 = uVar1" (pointer_expression "*(uint *)&this->field_0x14" * (cast_expression "(uint *)&this->field_0x14" ( (type_descriptor "uint *" type_identifier (abstract_pointer_declarator "*" *)) ) (pointer_expression "&this->field_0x14" & (field_expression "this->field_0x14" identifier -> field_identifier)))) = identifier) ;) (expression_statement "this->shndx_ = shndx;" (assignment_expression "this->shndx_ = shndx" (field_expression "this->shndx_" identifier -> field_identifier) = identifier) ;) (expression_statement "this->field_0x17 =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |\n (byte)((use_plt_offset & 1) << 7);" (assignment_expression "this->field_0x17 =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |\n (byte)((use_plt_offset & 1) << 7)" (field_expression "this->field_0x17" identifier -> field_identifier) = (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6) |\n (byte)((use_plt_offset & 1) << 7)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5) | (byte)((is_section_symbol & 1) << 6)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4) |\n (byte)((is_symbolless & 1) << 5)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((is_relative & 1) << 4)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf" (call_expression "(byte)(uVar1 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(uVar1 >> 0x18)" ( (binary_expression "uVar1 >> 0x18" identifier >> number_literal) ))) & number_literal) | (call_expression "(byte)((is_relative & 1) << 4)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((is_relative & 1) << 4)" ( (binary_expression "(is_relative & 1) << 4" (parenthesized_expression "(is_relative & 1)" ( (binary_expression "is_relative & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((is_symbolless & 1) << 5)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((is_symbolless & 1) << 5)" ( (binary_expression "(is_symbolless & 1) << 5" (parenthesized_expression "(is_symbolless & 1)" ( (binary_expression "is_symbolless & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((is_section_symbol & 1) << 6)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((is_section_symbol & 1) << 6)" ( (binary_expression "(is_section_symbol & 1) << 6" (parenthesized_expression "(is_section_symbol & 1)" ( (binary_expression "is_section_symbol & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((use_plt_offset & 1) << 7)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((use_plt_offset & 1) << 7)" ( (binary_expression "(use_plt_offset & 1) << 7" (parenthesized_expression "(use_plt_offset & 1)" ( (binary_expression "use_plt_offset & 1" identifier & number_literal) )) << number_literal) ))))) ;) (if_statement "if (param_2 == 0xffffffff || param_2 == 0xfffffffc) {\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48));\n }" if (parenthesized_expression "(param_2 == 0xffffffff || param_2 == 0xfffffffc)" ( (binary_expression "param_2 == 0xffffffff || param_2 == 0xfffffffc" (binary_expression "param_2 == 0xffffffff" identifier == number_literal) || (binary_expression "param_2 == 0xfffffffc" identifier == number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48));\n }" { comment (expression_statement "do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48));" (call_expression "do_gold_unreachable((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48))" identifier (argument_list "((char *)(DAT_000f8f4c + 0xf8f10),DAT_000f8f50,\n (char *)(FUN_000f9ca4 + DAT_000f8f48))" ( (cast_expression "(char *)(DAT_000f8f4c + 0xf8f10)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000f8f4c + 0xf8f10)" ( (binary_expression "DAT_000f8f4c + 0xf8f10" identifier + number_literal) ))) , identifier , (cast_expression "(char *)(FUN_000f9ca4 + DAT_000f8f48)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(FUN_000f9ca4 + DAT_000f8f48)" ( (binary_expression "FUN_000f9ca4 + DAT_000f8f48" identifier + identifier) ))) ))) ;) })) (if_statement "if (shndx != 0xfffffffc) {\n if (type == (type & 0xfffffff)) {\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));\n }" if (parenthesized_expression "(shndx != 0xfffffffc)" ( (binary_expression "shndx != 0xfffffffc" identifier != number_literal) )) (compound_statement "{\n if (type == (type & 0xfffffff)) {\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }\n /* WARNING: Subroutine does not return */\n do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));\n }" { (if_statement "if (type == (type & 0xfffffff)) {\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }" if (parenthesized_expression "(type == (type & 0xfffffff))" ( (binary_expression "type == (type & 0xfffffff)" identifier == (parenthesized_expression "(type & 0xfffffff)" ( (binary_expression "type & 0xfffffff" identifier & number_literal) ))) )) (compound_statement "{\n (this->u1_).relobj = relobj;\n (this->u2_).relobj = relobj;\n set_needs_dynsym_index(this);\n return this;\n }" { (expression_statement "(this->u1_).relobj = relobj;" (assignment_expression "(this->u1_).relobj = relobj" (field_expression "(this->u1_).relobj" (parenthesized_expression "(this->u1_)" ( (field_expression "this->u1_" identifier -> field_identifier) )) . field_identifier) = identifier) ;) (expression_statement "(this->u2_).relobj = relobj;" (assignment_expression "(this->u2_).relobj = relobj" (field_expression "(this->u2_).relobj" (parenthesized_expression "(this->u2_)" ( (field_expression "this->u2_" identifier -> field_identifier) )) . field_identifier) = identifier) ;) (expression_statement "set_needs_dynsym_index(this);" (call_expression "set_needs_dynsym_index(this)" identifier (argument_list "(this)" ( identifier ))) ;) (return_statement "return this;" return identifier ;) })) comment (expression_statement "do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0));" (call_expression "do_gold_unreachable((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0))" identifier (argument_list "((char *)(DAT_000f8f58 + 0xf8f2c),0x32c,(char *)(DAT_000f8f54 + 0xf9cc0))" ( (cast_expression "(char *)(DAT_000f8f58 + 0xf8f2c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000f8f58 + 0xf8f2c)" ( (binary_expression "DAT_000f8f58 + 0xf8f2c" identifier + number_literal) ))) , number_literal , (cast_expression "(char *)(DAT_000f8f54 + 0xf9cc0)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000f8f54 + 0xf9cc0)" ( (binary_expression "DAT_000f8f54 + 0xf9cc0" identifier + number_literal) ))) ))) ;) })) comment (expression_statement "do_gold_unreachable((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,\n (char *)(DAT_000f8f5c + 0xf9cdc));" (call_expression "do_gold_unreachable((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,\n (char *)(DAT_000f8f5c + 0xf9cdc))" identifier (argument_list "((char *)((int)&DAT_000f8f48 + DAT_000f8f60),DAT_000f8f64,\n (char *)(DAT_000f8f5c + 0xf9cdc))" ( (cast_expression "(char *)((int)&DAT_000f8f48 + DAT_000f8f60)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)&DAT_000f8f48 + DAT_000f8f60)" ( (binary_expression "(int)&DAT_000f8f48 + DAT_000f8f60" (cast_expression "(int)&DAT_000f8f48" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_000f8f48" & identifier)) + identifier) ))) , identifier , (cast_expression "(char *)(DAT_000f8f5c + 0xf9cdc)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_000f8f5c + 0xf9cdc)" ( (binary_expression "DAT_000f8f5c + 0xf9cdc" identifier + number_literal) ))) ))) ;) }))
|
(translation_unit "undefined4 *\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)\n\n{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}\n\n" (function_definition "undefined4 *\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)\n\n{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" type_identifier (pointer_declarator "*\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" * (function_declarator "FUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" identifier (parameter_list "(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" ( (parameter_declaration "undefined4 *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "int param_3" primitive_type identifier) , (parameter_declaration "uint param_4" type_identifier identifier) , (parameter_declaration "int param_5" primitive_type identifier) , (parameter_declaration "undefined4 param_6" type_identifier identifier) , (parameter_declaration "undefined4 param_7" type_identifier identifier) , (parameter_declaration "undefined4 param_8" type_identifier identifier) , (parameter_declaration "byte param_9" type_identifier identifier) , (parameter_declaration "byte param_10" type_identifier identifier) , (parameter_declaration "byte param_11" type_identifier identifier) , (parameter_declaration "byte param_12" type_identifier identifier) )))) (compound_statement "{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" { (declaration "uint uVar1;" type_identifier identifier ;) (expression_statement "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;" (assignment_expression "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000" identifier = (binary_expression "param_4 & 0xfffffff | param_1[5] & 0xf0000000" (binary_expression "param_4 & 0xfffffff" identifier & number_literal) | (binary_expression "param_1[5] & 0xf0000000" (subscript_expression "param_1[5]" identifier [ number_literal ]) & number_literal))) ;) (expression_statement "param_1[4] = param_3;" (assignment_expression "param_1[4] = param_3" (subscript_expression "param_1[4]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[2] = param_7;" (assignment_expression "param_1[2] = param_7" (subscript_expression "param_1[2]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[3] = param_8;" (assignment_expression "param_1[3] = param_8" (subscript_expression "param_1[3]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[5] = uVar1;" (assignment_expression "param_1[5] = uVar1" (subscript_expression "param_1[5]" identifier [ number_literal ]) = identifier) ;) (expression_statement "param_1[6] = param_5;" (assignment_expression "param_1[6] = param_5" (subscript_expression "param_1[6]" identifier [ number_literal ]) = identifier) ;) (expression_statement "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);" (assignment_expression "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (pointer_expression "*(byte *)((int)param_1 + 0x17)" * (cast_expression "(byte *)((int)param_1 + 0x17)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)param_1 + 0x17)" ( (binary_expression "(int)param_1 + 0x17" (cast_expression "(int)param_1" ( (type_descriptor "int" primitive_type) ) identifier) + number_literal) )))) = (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf" (call_expression "(byte)(uVar1 >> 0x18)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "(uVar1 >> 0x18)" ( (binary_expression "uVar1 >> 0x18" identifier >> number_literal) ))) & number_literal) | (call_expression "(byte)((param_9 & 1) << 4)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_9 & 1) << 4)" ( (binary_expression "(param_9 & 1) << 4" (parenthesized_expression "(param_9 & 1)" ( (binary_expression "param_9 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_10 & 1) << 5)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_10 & 1) << 5)" ( (binary_expression "(param_10 & 1) << 5" (parenthesized_expression "(param_10 & 1)" ( (binary_expression "param_10 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_11 & 1) << 6)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_11 & 1) << 6)" ( (binary_expression "(param_11 & 1) << 6" (parenthesized_expression "(param_11 & 1)" ( (binary_expression "param_11 & 1" identifier & number_literal) )) << number_literal) )))) | (call_expression "(byte)((param_12 & 1) << 7)" (parenthesized_expression "(byte)" ( identifier )) (argument_list "((param_12 & 1) << 7)" ( (binary_expression "(param_12 & 1) << 7" (parenthesized_expression "(param_12 & 1)" ( (binary_expression "param_12 & 1" identifier & number_literal) )) << number_literal) ))))) ;) (if_statement "if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" if (parenthesized_expression "(param_3 == -1 || param_3 == -4)" ( (binary_expression "param_3 == -1 || param_3 == -4" (binary_expression "param_3 == -1" identifier == number_literal) || (binary_expression "param_3 == -4" identifier == number_literal)) )) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" { comment (expression_statement "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);" (call_expression "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" identifier (argument_list "(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" ( (binary_expression "DAT_000f8f4c + 0xf8f10" identifier + number_literal) , identifier , (binary_expression "DAT_000f8f48 + 0xf9ca4" identifier + number_literal) ))) ;) })) (if_statement "if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" if (parenthesized_expression "(param_5 != -4)" ( (binary_expression "param_5 != -4" identifier != number_literal) )) (compound_statement "{\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" { (if_statement "if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" if (parenthesized_expression "(param_4 == (param_4 & 0xfffffff))" ( (binary_expression "param_4 == (param_4 & 0xfffffff)" identifier == (parenthesized_expression "(param_4 & 0xfffffff)" ( (binary_expression "param_4 & 0xfffffff" identifier & number_literal) ))) )) (compound_statement "{\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" { (expression_statement "*param_1 = param_2;" (assignment_expression "*param_1 = param_2" (pointer_expression "*param_1" * identifier) = identifier) ;) (expression_statement "param_1[1] = param_2;" (assignment_expression "param_1[1] = param_2" (subscript_expression "param_1[1]" identifier [ number_literal ]) = identifier) ;) (expression_statement "FUN_000f89fc();" (call_expression "FUN_000f89fc()" identifier (argument_list "()" ( ))) ;) (return_statement "return param_1;" return identifier ;) })) comment (expression_statement "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);" (call_expression "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" identifier (argument_list "(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" ( (binary_expression "DAT_000f8f58 + 0xf8f2c" identifier + number_literal) , number_literal , (binary_expression "DAT_000f8f54 + 0xf9cc0" identifier + number_literal) ))) ;) })) comment (expression_statement "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);" (call_expression "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" identifier (argument_list "((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" ( (binary_expression "(int)&DAT_000f8f48 + DAT_000f8f60" (cast_expression "(int)&DAT_000f8f48" ( (type_descriptor "int" primitive_type) ) (pointer_expression "&DAT_000f8f48" & identifier)) + identifier) , identifier , (binary_expression "DAT_000f8f5c + 0xf9cdc" identifier + number_literal) ))) ;) })))
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(translation_unit (function_definition TYPE (pointer_declarator * (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) )))) (compound_statement { (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (binary_expression (binary_expression IDENT & LIT) | (binary_expression (subscript_expression IDENT [ LIT ]) & LIT))) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (assignment_expression (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) IDENT) + LIT) )))) = (binary_expression (binary_expression (binary_expression (binary_expression (binary_expression (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression IDENT >> LIT) ))) & LIT) | (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) << LIT) )))) | (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) << LIT) )))) | (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) << LIT) )))) | (call_expression (parenthesized_expression ( IDENT )) (argument_list ( (binary_expression (parenthesized_expression ( (binary_expression IDENT & LIT) )) << LIT) ))))) ;) (if_statement if (parenthesized_expression ( (binary_expression (binary_expression IDENT == LIT) || (binary_expression IDENT == LIT)) )) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , IDENT , (binary_expression IDENT + LIT) ))) ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT != LIT) )) (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == (parenthesized_expression ( (binary_expression IDENT & LIT) ))) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (expression_statement (assignment_expression (subscript_expression IDENT [ LIT ]) = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (return_statement return IDENT ;) })) comment (expression_statement (call_expression IDENT (argument_list ( (binary_expression IDENT + LIT) , LIT , (binary_expression IDENT + LIT) ))) ;) })) comment (expression_statement (call_expression IDENT (argument_list ( (binary_expression (cast_expression ( (type_descriptor TYPE) ) (pointer_expression & IDENT)) + IDENT) , IDENT , (binary_expression IDENT + LIT) ))) ;) })))
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(function_definition "undefined4 *\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)\n\n{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" (type_identifier "undefined4") (pointer_declarator "*\nFUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" (* "*") (function_declarator "FUN_000f8e48(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" (identifier "FUN_000f8e48") (parameter_list "(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,\n undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,\n byte param_11,byte param_12)" (( "(") (parameter_declaration "undefined4 *param_1" (type_identifier "undefined4") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "int param_3" (primitive_type "int") (identifier "param_3")) (, ",") (parameter_declaration "uint param_4" (type_identifier "uint") (identifier "param_4")) (, ",") (parameter_declaration "int param_5" (primitive_type "int") (identifier "param_5")) (, ",") (parameter_declaration "undefined4 param_6" (type_identifier "undefined4") (identifier "param_6")) (, ",") (parameter_declaration "undefined4 param_7" (type_identifier "undefined4") (identifier "param_7")) (, ",") (parameter_declaration "undefined4 param_8" (type_identifier "undefined4") (identifier "param_8")) (, ",") (parameter_declaration "byte param_9" (type_identifier "byte") (identifier "param_9")) (, ",") (parameter_declaration "byte param_10" (type_identifier "byte") (identifier "param_10")) (, ",") (parameter_declaration "byte param_11" (type_identifier "byte") (identifier "param_11")) (, ",") (parameter_declaration "byte param_12" (type_identifier "byte") (identifier "param_12")) () ")")))) (compound_statement "{\n uint uVar1;\n \n uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;\n param_1[4] = param_3;\n param_1[2] = param_7;\n param_1[3] = param_8;\n param_1[5] = uVar1;\n param_1[6] = param_5;\n *(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);\n if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }\n if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);\n}" ({ "{") (declaration "uint uVar1;" (type_identifier "uint") (identifier "uVar1") (; ";")) (expression_statement "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;" (assignment_expression "uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000" (identifier "uVar1") (= "=") (binary_expression "param_4 & 0xfffffff | param_1[5] & 0xf0000000" (binary_expression "param_4 & 0xfffffff" (identifier "param_4") (& "&") (number_literal "0xfffffff")) (| "|") (binary_expression "param_1[5] & 0xf0000000" (subscript_expression "param_1[5]" (identifier "param_1") ([ "[") (number_literal "5") (] "]")) (& "&") (number_literal "0xf0000000")))) (; ";")) (expression_statement "param_1[4] = param_3;" (assignment_expression "param_1[4] = param_3" (subscript_expression "param_1[4]" (identifier "param_1") ([ "[") (number_literal "4") (] "]")) (= "=") (identifier "param_3")) (; ";")) (expression_statement "param_1[2] = param_7;" (assignment_expression "param_1[2] = param_7" (subscript_expression "param_1[2]" (identifier "param_1") ([ "[") (number_literal "2") (] "]")) (= "=") (identifier "param_7")) (; ";")) (expression_statement "param_1[3] = param_8;" (assignment_expression "param_1[3] = param_8" (subscript_expression "param_1[3]" (identifier "param_1") ([ "[") (number_literal "3") (] "]")) (= "=") (identifier "param_8")) (; ";")) (expression_statement "param_1[5] = uVar1;" (assignment_expression "param_1[5] = uVar1" (subscript_expression "param_1[5]" (identifier "param_1") ([ "[") (number_literal "5") (] "]")) (= "=") (identifier "uVar1")) (; ";")) (expression_statement "param_1[6] = param_5;" (assignment_expression "param_1[6] = param_5" (subscript_expression "param_1[6]" (identifier "param_1") ([ "[") (number_literal "6") (] "]")) (= "=") (identifier "param_5")) (; ";")) (expression_statement "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);" (assignment_expression "*(byte *)((int)param_1 + 0x17) =\n (byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (pointer_expression "*(byte *)((int)param_1 + 0x17)" (* "*") (cast_expression "(byte *)((int)param_1 + 0x17)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "((int)param_1 + 0x17)" (( "(") (binary_expression "(int)param_1 + 0x17" (cast_expression "(int)param_1" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (identifier "param_1")) (+ "+") (number_literal "0x17")) () ")")))) (= "=") (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |\n (byte)((param_11 & 1) << 6)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4)" (binary_expression "(byte)(uVar1 >> 0x18) & 0xf" (call_expression "(byte)(uVar1 >> 0x18)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "(uVar1 >> 0x18)" (( "(") (binary_expression "uVar1 >> 0x18" (identifier "uVar1") (>> ">>") (number_literal "0x18")) () ")"))) (& "&") (number_literal "0xf")) (| "|") (call_expression "(byte)((param_9 & 1) << 4)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "((param_9 & 1) << 4)" (( "(") (binary_expression "(param_9 & 1) << 4" (parenthesized_expression "(param_9 & 1)" (( "(") (binary_expression "param_9 & 1" (identifier "param_9") (& "&") (number_literal "1")) () ")")) (<< "<<") (number_literal "4")) () ")")))) (| "|") (call_expression "(byte)((param_10 & 1) << 5)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "((param_10 & 1) << 5)" (( "(") (binary_expression "(param_10 & 1) << 5" (parenthesized_expression "(param_10 & 1)" (( "(") (binary_expression "param_10 & 1" (identifier "param_10") (& "&") (number_literal "1")) () ")")) (<< "<<") (number_literal "5")) () ")")))) (| "|") (call_expression "(byte)((param_11 & 1) << 6)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "((param_11 & 1) << 6)" (( "(") (binary_expression "(param_11 & 1) << 6" (parenthesized_expression "(param_11 & 1)" (( "(") (binary_expression "param_11 & 1" (identifier "param_11") (& "&") (number_literal "1")) () ")")) (<< "<<") (number_literal "6")) () ")")))) (| "|") (call_expression "(byte)((param_12 & 1) << 7)" (parenthesized_expression "(byte)" (( "(") (identifier "byte") () ")")) (argument_list "((param_12 & 1) << 7)" (( "(") (binary_expression "(param_12 & 1) << 7" (parenthesized_expression "(param_12 & 1)" (( "(") (binary_expression "param_12 & 1" (identifier "param_12") (& "&") (number_literal "1")) () ")")) (<< "<<") (number_literal "7")) () ")"))))) (; ";")) (if_statement "if (param_3 == -1 || param_3 == -4) {\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" (if "if") (parenthesized_expression "(param_3 == -1 || param_3 == -4)" (( "(") (binary_expression "param_3 == -1 || param_3 == -4" (binary_expression "param_3 == -1" (identifier "param_3") (== "==") (number_literal "-1")) (|| "||") (binary_expression "param_3 == -4" (identifier "param_3") (== "==") (number_literal "-4"))) () ")")) (compound_statement "{\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);\n }" ({ "{") (comment "/* WARNING: Subroutine does not return */") (expression_statement "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);" (call_expression "FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" (identifier "FUN_0005f640") (argument_list "(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4)" (( "(") (binary_expression "DAT_000f8f4c + 0xf8f10" (identifier "DAT_000f8f4c") (+ "+") (number_literal "0xf8f10")) (, ",") (identifier "DAT_000f8f50") (, ",") (binary_expression "DAT_000f8f48 + 0xf9ca4" (identifier "DAT_000f8f48") (+ "+") (number_literal "0xf9ca4")) () ")"))) (; ";")) (} "}"))) (if_statement "if (param_5 != -4) {\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" (if "if") (parenthesized_expression "(param_5 != -4)" (( "(") (binary_expression "param_5 != -4" (identifier "param_5") (!= "!=") (number_literal "-4")) () ")")) (compound_statement "{\n if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }\n /* WARNING: Subroutine does not return */\n FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);\n }" ({ "{") (if_statement "if (param_4 == (param_4 & 0xfffffff)) {\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" (if "if") (parenthesized_expression "(param_4 == (param_4 & 0xfffffff))" (( "(") (binary_expression "param_4 == (param_4 & 0xfffffff)" (identifier "param_4") (== "==") (parenthesized_expression "(param_4 & 0xfffffff)" (( "(") (binary_expression "param_4 & 0xfffffff" (identifier "param_4") (& "&") (number_literal "0xfffffff")) () ")"))) () ")")) (compound_statement "{\n *param_1 = param_2;\n param_1[1] = param_2;\n FUN_000f89fc();\n return param_1;\n }" ({ "{") (expression_statement "*param_1 = param_2;" (assignment_expression "*param_1 = param_2" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (= "=") (identifier "param_2")) (; ";")) (expression_statement "param_1[1] = param_2;" (assignment_expression "param_1[1] = param_2" (subscript_expression "param_1[1]" (identifier "param_1") ([ "[") (number_literal "1") (] "]")) (= "=") (identifier "param_2")) (; ";")) (expression_statement "FUN_000f89fc();" (call_expression "FUN_000f89fc()" (identifier "FUN_000f89fc") (argument_list "()" (( "(") () ")"))) (; ";")) (return_statement "return param_1;" (return "return") (identifier "param_1") (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);" (call_expression "FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" (identifier "FUN_0005f640") (argument_list "(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0)" (( "(") (binary_expression "DAT_000f8f58 + 0xf8f2c" (identifier "DAT_000f8f58") (+ "+") (number_literal "0xf8f2c")) (, ",") (number_literal "0x32c") (, ",") (binary_expression "DAT_000f8f54 + 0xf9cc0" (identifier "DAT_000f8f54") (+ "+") (number_literal "0xf9cc0")) () ")"))) (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);" (call_expression "FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" (identifier "FUN_0005f640") (argument_list "((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc)" (( "(") (binary_expression "(int)&DAT_000f8f48 + DAT_000f8f60" (cast_expression "(int)&DAT_000f8f48" (( "(") (type_descriptor "int" (primitive_type "int")) () ")") (pointer_expression "&DAT_000f8f48" (& "&") (identifier "DAT_000f8f48"))) (+ "+") (identifier "DAT_000f8f60")) (, ",") (identifier "DAT_000f8f64") (, ",") (binary_expression "DAT_000f8f5c + 0xf9cdc" (identifier "DAT_000f8f5c") (+ "+") (number_literal "0xf9cdc")) () ")"))) (; ";")) (} "}")))
|
/* WARNING: Struct "Output_section_data": ignoring overlapping field "output_section_" */
/* WARNING: Struct "Output_section": ignoring overlapping field "name_" */
/* DWARF original prototype: Output_reloc<9,_true,_64,_true> *
Output_reloc(Output_reloc<9,_true,_64,_true> * this, Sized_relobj<64,_true> * relobj, uint
local_sym_index, uint type, uint shndx, Address address, bool is_relative, bool is_symbolless,
bool is_section_symbol, bool use_plt_offset) */
Output_reloc<9,_true,_64,_true> * __thiscall
gold::Output_reloc<9,_true,_64,_true>::Output_reloc
(Output_reloc<9,_true,_64,_true> *this,Sized_relobj<64,_true> *relobj,type_1 var_7,
type_1 var_1,type_1 var_12,Address address,bool var_3,bool var_4,
bool var_5,bool var_6)
{
type_1 var_2;
var_2 = var_1 & 0xfffffff | *(type_1 *)&this->field_0x14 & 0xf0000000;
this->local_sym_index_ = var_7;
this->address_ = address;
*(type_1 *)&this->field_0x14 = var_2;
this->shndx_ = var_12;
this->field_0x17 =
(byte)(var_2 >> 0x18) & 0xf | (byte)((var_3 & 1) << 4) |
(byte)((var_4 & 1) << 5) | (byte)((var_5 & 1) << 6) |
(byte)((var_6 & 1) << 7);
if (var_7 == 0xffffffff || var_7 == 0xfffffffc) {
/* WARNING: Subroutine does not return */
var_8((char *)(var_9 + 0xf8f10),DAT_000f8f50,
(char *)(var_10 + var_11));
}
if (var_12 != 0xfffffffc) {
if (var_1 == (var_1 & 0xfffffff)) {
(this->u1_).relobj = relobj;
(this->u2_).relobj = relobj;
var_13(this);
return this;
}
/* WARNING: Subroutine does not return */
var_8((char *)(var_14 + 0xf8f2c),0x32c,(char *)(var_15 + 0xf9cc0));
}
/* WARNING: Subroutine does not return */
var_8((char *)((int)&var_11 + var_16),DAT_000f8f64,
(char *)(var_17 + 0xf9cdc));
}
|
(translation_unit (function_definition type: (type_identifier) declarator: (pointer_declarator declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier))))) body: (compound_statement (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (number_literal))))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (assignment_expression left: (pointer_expression argument: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (identifier)) right: (number_literal))))) right: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (binary_expression left: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)))) right: (number_literal)) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))) right: (call_expression function: (parenthesized_expression (identifier)) arguments: (argument_list (binary_expression left: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (binary_expression left: (identifier) right: (number_literal)))) consequence: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (identifier) (binary_expression left: (identifier) right: (number_literal))))))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (expression_statement (assignment_expression left: (subscript_expression argument: (identifier) index: (number_literal)) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (return_statement (identifier)))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (identifier) right: (number_literal)) (number_literal) (binary_expression left: (identifier) right: (number_literal))))))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (binary_expression left: (cast_expression type: (type_descriptor type: (primitive_type)) value: (pointer_expression argument: (identifier))) right: (identifier)) (identifier) (binary_expression left: (identifier) right: (number_literal))))))))
|
undefined4 *
MASKED(undefined4 *param_1,undefined4 param_2,int param_3,uint param_4,int param_5,
undefined4 param_6,undefined4 param_7,undefined4 param_8,byte param_9,byte param_10,
byte param_11,byte param_12)
{
uint uVar1;
uVar1 = param_4 & 0xfffffff | param_1[5] & 0xf0000000;
param_1[4] = param_3;
param_1[2] = param_7;
param_1[3] = param_8;
param_1[5] = uVar1;
param_1[6] = param_5;
*(byte *)((int)param_1 + 0x17) =
(byte)(uVar1 >> 0x18) & 0xf | (byte)((param_9 & 1) << 4) | (byte)((param_10 & 1) << 5) |
(byte)((param_11 & 1) << 6) | (byte)((param_12 & 1) << 7);
if (param_3 == -1 || param_3 == -4) {
/* WARNING: Subroutine does not return */
FUN_0005f640(DAT_000f8f4c + 0xf8f10,DAT_000f8f50,DAT_000f8f48 + 0xf9ca4);
}
if (param_5 != -4) {
if (param_4 == (param_4 & 0xfffffff)) {
*param_1 = param_2;
param_1[1] = param_2;
FUN_000f89fc();
return param_1;
}
/* WARNING: Subroutine does not return */
FUN_0005f640(DAT_000f8f58 + 0xf8f2c,0x32c,DAT_000f8f54 + 0xf9cc0);
}
/* WARNING: Subroutine does not return */
FUN_0005f640((int)&DAT_000f8f48 + DAT_000f8f60,DAT_000f8f64,DAT_000f8f5c + 0xf9cdc);
}
| 82,386 |
||
74_logname_and_logname_strip.c
|
version_etc_va
|
FUN_00014020
|
void version_etc_va(FILE *stream,char *command_name,char *package,char *version,va_list authors)
{
char **ppcVar1;
int *piVar2;
size_t n_authors;
int iVar3;
char *pcVar4;
char *authtab [10];
piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);
iVar3 = *piVar2;
n_authors = 0;
ppcVar1 = authtab;
do {
/* WARNING: Load size is inaccurate */
pcVar4 = *authors.__ap;
*ppcVar1 = pcVar4;
if (pcVar4 == (char *)0x0) break;
n_authors = n_authors + 1;
authors.__ap = (undefined4 *)((int)authors.__ap + 4);
ppcVar1 = ppcVar1 + 1;
} while (n_authors != 10);
version_etc_arn(stream,command_name,package,version,authtab,n_authors);
if (iVar3 == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
void FUN_00014020(void)
{
int *piVar1;
int *piVar2;
int iVar3;
int iVar4;
int *in_stack_00000000;
int aiStack_44 [10];
int local_1c;
piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);
local_1c = *piVar2;
iVar3 = 0;
piVar1 = aiStack_44;
do {
iVar4 = *in_stack_00000000;
*piVar1 = iVar4;
if (iVar4 == 0) break;
iVar3 = iVar3 + 1;
in_stack_00000000 = in_stack_00000000 + 1;
piVar1 = piVar1 + 1;
} while (iVar3 != 10);
FUN_00013bf0();
if (local_1c == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
ldr r12,[0x14090]
stmdb sp!,{r4,r5,r6,r7,lr}
ldr lr,[0x14094]
add r12,pc,r12
sub sp,sp,#0x3c
ldr r6,[r12,lr]
add r7,sp,#0xc
ldr r4,[sp,#0x50]
ldr lr,[r6,#0x0]
cpy r5,r7
mov r12,#0x0
str lr,[sp,#0x34]
ldr lr,[r4],#0x4
str lr,[r5],#0x4
cmp lr,#0x0
beq 0x0001406c
add r12,r12,#0x1
cmp r12,#0xa
bne 0x00014050
stmia sp,{r7,r12}
bl 0x00013bf0
ldr r2,[sp,#0x34]
ldr r3,[r6,#0x0]
cmp r2,r3
bne 0x0001408c
add sp,sp,#0x3c
ldmia sp!,{r4,r5,r6,r7,pc}
bl 0x00010cf8
| null | null | null | null |
[('const-417', u'STORE_-1205976930'), ('tmp_1002', u'INT_ADD_-1205976984'), (u'INT_ADD_-1205976667', u'CAST_-1205976614'), ('const-417', u'LOAD_-1205977000'), (u'CAST_-1205976615', u'INT_ADD_-1205976667'), (u'INDIRECT_-1205976637', u'COPY_-1205976671'), (u'CALL_-1205976769', u'INDIRECT_-1205976608'), ('const-417', u'LOAD_-1205976837'), ('const-4', u'PTRADD_-1205976616'), ('tmp_491', u'CALL_-1205976844'), (u'CALL_-1205976844', u'INDIRECT_-1205976637'), (u'MULTIEQUAL_-1205976741', u'LOAD_-1205976938'), ('tmp_337', u'CBRANCH_-1205976861'), (u'MULTIEQUAL_-1205976737', u'INT_ADD_-1205976875'), ('tmp_253', u'CBRANCH_-1205976903'), ('const-0', u'RETURN_-1205976772'), (u'INDIRECT_-1205976614', u'COPY_-1205976672'), (u'INT_ADD_-1205976984', u'CAST_-1205976644'), ('tmp_492', u'CALL_-1205976844'), (u'INT_ADD_-1205976875', u'MULTIEQUAL_-1205976737'), (u'MULTIEQUAL_-1205976740', u'PTRADD_-1205976616'), ('const-1', u'PTRADD_-1205976616'), (u'CALL_-1205976769', u'INDIRECT_-1205976614'), (u'CAST_-1205976614', u'COPY_-1205976658'), (u'INT_EQUAL_-1205976818', u'CBRANCH_-1205976814'), (u'COPY_-1205976687', u'MULTIEQUAL_-1205976741'), (u'PTRADD_-1205976616', u'COPY_-1205976656'), (u'INDIRECT_-1205976643', u'COPY_-1205976677'), (u'MULTIEQUAL_-1205976737', u'MULTIEQUAL_-1205976708'), (u'INDIRECT_-1205976608', u'COPY_-1205976666'), (u'PTRSUB_-1205976645', u'CALL_-1205976844'), (u'COPY_-1205976685', u'MULTIEQUAL_-1205976740'), (u'LOAD_-1205976938', u'STORE_-1205976930'), ('const-81972', u'INT_ADD_-1205977007'), ('tmp_490', u'CALL_-1205976844'), (u'CALL_-1205976844', u'INDIRECT_-1205976643'), ('const-0', u'INT_EQUAL_-1205976906'), (u'MULTIEQUAL_-1205976708', u'CALL_-1205976844'), (u'COPY_-1205976656', u'MULTIEQUAL_-1205976740'), (u'MULTIEQUAL_-1205976741', u'CAST_-1205976615'), (u'LOAD_-1205976972', u'INT_EQUAL_-1205976818'), ('const-417', u'LOAD_-1205976972'), ('const-10', u'INT_NOTEQUAL_-1205976864'), ('tmp_396', u'CBRANCH_-1205976814'), (u'MULTIEQUAL_-1205976740', u'STORE_-1205976930'), (u'INT_NOTEQUAL_-1205976864', u'CBRANCH_-1205976861'), (u'INT_ADD_-1205977007', u'INT_ADD_-1205976984'), ('const-4', u'INT_ADD_-1205976667'), (u'PTRSUB_-1205976645', u'COPY_-1205976685'), (u'LOAD_-1205977000', u'LOAD_-1205976837'), (u'CAST_-1205976644', u'LOAD_-1205977000'), ('const-0', u'COPY_-1205976956'), (u'COPY_-1205976956', u'MULTIEQUAL_-1205976737'), (u'LOAD_-1205976938', u'INT_EQUAL_-1205976906'), (u'INT_ADD_-1205976875', u'MULTIEQUAL_-1205976708'), ('tmp_489', u'CALL_-1205976844'), (u'LOAD_-1205977000', u'LOAD_-1205976972'), ('const-417', u'LOAD_-1205976938'), ('tmp_757', u'PTRSUB_-1205976645'), (u'INT_EQUAL_-1205976906', u'CBRANCH_-1205976903'), ('tmp_493', u'COPY_-1205976687'), ('tmp_1001', u'INT_ADD_-1205977007'), (u'COPY_-1205976658', u'MULTIEQUAL_-1205976741'), (u'INT_ADD_-1205976875', u'INT_NOTEQUAL_-1205976864'), ('const-4294967228', u'PTRSUB_-1205976645'), ('const-1', u'INT_ADD_-1205976875'), (u'LOAD_-1205976837', u'INT_EQUAL_-1205976818'), ('const-1', u'RETURN_-1205976764')]
|
[(u'INT_ADD_-1205976984', u'CAST_-1205976650'), (u'CALL_-1205976844', u'INDIRECT_-1205976625'), (u'INT_ADD_-1205976875', u'MULTIEQUAL_-1205976743'), ('tmp_979', u'COPY_-1205976693'), ('tmp_337', u'CBRANCH_-1205976861'), (u'MULTIEQUAL_-1205976747', u'LOAD_-1205976938'), ('const-4294967228', u'PTRSUB_-1205976651'), (u'COPY_-1205976691', u'MULTIEQUAL_-1205976746'), ('tmp_253', u'CBRANCH_-1205976903'), ('const-0', u'RETURN_-1205976772'), ('const-417', u'LOAD_-1205976837'), (u'INDIRECT_-1205976614', u'COPY_-1205976672'), ('const-4', u'PTRADD_-1205976622'), (u'MULTIEQUAL_-1205976747', u'PTRADD_-1205976627'), (u'CALL_-1205976769', u'INDIRECT_-1205976596'), (u'PTRADD_-1205976622', u'COPY_-1205976662'), (u'INDIRECT_-1205976620', u'COPY_-1205976678'), ('tmp_731', u'PTRSUB_-1205976651'), (u'CALL_-1205976769', u'INDIRECT_-1205976614'), (u'INT_EQUAL_-1205976818', u'CBRANCH_-1205976814'), (u'INDIRECT_-1205976643', u'COPY_-1205976677'), ('const-0', u'INT_EQUAL_-1205976906'), (u'CALL_-1205976844', u'INDIRECT_-1205976649'), ('const-417', u'LOAD_-1205976972'), ('tmp_978', u'INT_ADD_-1205976984'), (u'LOAD_-1205976938', u'STORE_-1205976930'), ('const-417', u'LOAD_-1205976938'), (u'COPY_-1205976693', u'MULTIEQUAL_-1205976747'), (u'CALL_-1205976844', u'INDIRECT_-1205976643'), ('tmp_977', u'INT_ADD_-1205977007'), (u'LOAD_-1205976972', u'MULTIEQUAL_-1205976655'), ('const-417', u'STORE_-1205976930'), ('const-417', u'LOAD_-1205977000'), ('tmp_396', u'CBRANCH_-1205976814'), ('const-4', u'PTRADD_-1205976627'), (u'INT_NOTEQUAL_-1205976864', u'CBRANCH_-1205976861'), (u'INT_ADD_-1205977007', u'INT_ADD_-1205976984'), ('const-1', u'PTRADD_-1205976622'), (u'INDIRECT_-1205976649', u'COPY_-1205976683'), ('const-10', u'INT_NOTEQUAL_-1205976864'), ('const-81972', u'INT_ADD_-1205977007'), ('const-1', u'PTRADD_-1205976627'), (u'MULTIEQUAL_-1205976746', u'STORE_-1205976930'), (u'LOAD_-1205977000', u'LOAD_-1205976837'), (u'PTRADD_-1205976627', u'COPY_-1205976664'), (u'COPY_-1205976956', u'MULTIEQUAL_-1205976743'), (u'CALL_-1205976769', u'INDIRECT_-1205976620'), (u'CAST_-1205976650', u'LOAD_-1205977000'), ('const-0', u'COPY_-1205976956'), (u'COPY_-1205976662', u'MULTIEQUAL_-1205976746'), (u'LOAD_-1205976938', u'INT_EQUAL_-1205976906'), (u'COPY_-1205976664', u'MULTIEQUAL_-1205976747'), (u'INDIRECT_-1205976651', u'MULTIEQUAL_-1205976655'), (u'STORE_-1205976930', u'INDIRECT_-1205976651'), (u'INDIRECT_-1205976625', u'INT_EQUAL_-1205976818'), (u'MULTIEQUAL_-1205976743', u'INT_ADD_-1205976875'), (u'LOAD_-1205977000', u'LOAD_-1205976972'), (u'PTRSUB_-1205976651', u'COPY_-1205976691'), (u'INT_EQUAL_-1205976906', u'CBRANCH_-1205976903'), (u'MULTIEQUAL_-1205976746', u'PTRADD_-1205976622'), (u'INT_ADD_-1205976875', u'INT_NOTEQUAL_-1205976864'), ('const-1', u'INT_ADD_-1205976875'), (u'LOAD_-1205976837', u'INT_EQUAL_-1205976818'), ('const-1', u'RETURN_-1205976764')]
| null | null |
00014020
|
arm
|
O2
|
(translation_unit "void FUN_00014020(void)\n\n{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "void FUN_00014020(void)\n\n{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "FUN_00014020(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int *in_stack_00000000;" primitive_type (pointer_declarator "*in_stack_00000000" * identifier) ;) (declaration "int aiStack_44 [10];" primitive_type (array_declarator "aiStack_44 [10]" identifier [ number_literal ]) ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);" (assignment_expression "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" identifier = (pointer_expression "*(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" * (cast_expression "(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00014090 + 0x14034 + DAT_00014094)" ( (binary_expression "DAT_00014090 + 0x14034 + DAT_00014094" (binary_expression "DAT_00014090 + 0x14034" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (expression_statement "piVar1 = aiStack_44;" (assignment_expression "piVar1 = aiStack_44" identifier = identifier) ;) (do_statement "do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);" do (compound_statement "{\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n }" { (expression_statement "iVar4 = *in_stack_00000000;" (assignment_expression "iVar4 = *in_stack_00000000" identifier = (pointer_expression "*in_stack_00000000" * identifier)) ;) (expression_statement "*piVar1 = iVar4;" (assignment_expression "*piVar1 = iVar4" (pointer_expression "*piVar1" * identifier) = identifier) ;) (if_statement "if (iVar4 == 0) break;" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (expression_statement "in_stack_00000000 = in_stack_00000000 + 1;" (assignment_expression "in_stack_00000000 = in_stack_00000000 + 1" identifier = (binary_expression "in_stack_00000000 + 1" identifier + number_literal)) ;) (expression_statement "piVar1 = piVar1 + 1;" (assignment_expression "piVar1 = piVar1 + 1" identifier = (binary_expression "piVar1 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 != 10)" ( (binary_expression "iVar3 != 10" identifier != number_literal) )) ;) (expression_statement "FUN_00013bf0();" (call_expression "FUN_00013bf0()" identifier (argument_list "()" ( ))) ;) (if_statement "if (local_1c == *piVar2) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar2)" ( (binary_expression "local_1c == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "void version_etc_va(FILE *stream,char *command_name,char *package,char *version,va_list authors)\n\n{\n char **ppcVar1;\n int *piVar2;\n size_t n_authors;\n int iVar3;\n char *pcVar4;\n char *authtab [10];\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n iVar3 = *piVar2;\n n_authors = 0;\n ppcVar1 = authtab;\n do {\n /* WARNING: Load size is inaccurate */\n pcVar4 = *authors.__ap;\n *ppcVar1 = pcVar4;\n if (pcVar4 == (char *)0x0) break;\n n_authors = n_authors + 1;\n authors.__ap = (undefined4 *)((int)authors.__ap + 4);\n ppcVar1 = ppcVar1 + 1;\n } while (n_authors != 10);\n version_etc_arn(stream,command_name,package,version,authtab,n_authors);\n if (iVar3 == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "void version_etc_va(FILE *stream,char *command_name,char *package,char *version,va_list authors)\n\n{\n char **ppcVar1;\n int *piVar2;\n size_t n_authors;\n int iVar3;\n char *pcVar4;\n char *authtab [10];\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n iVar3 = *piVar2;\n n_authors = 0;\n ppcVar1 = authtab;\n do {\n /* WARNING: Load size is inaccurate */\n pcVar4 = *authors.__ap;\n *ppcVar1 = pcVar4;\n if (pcVar4 == (char *)0x0) break;\n n_authors = n_authors + 1;\n authors.__ap = (undefined4 *)((int)authors.__ap + 4);\n ppcVar1 = ppcVar1 + 1;\n } while (n_authors != 10);\n version_etc_arn(stream,command_name,package,version,authtab,n_authors);\n if (iVar3 == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "version_etc_va(FILE *stream,char *command_name,char *package,char *version,va_list authors)" identifier (parameter_list "(FILE *stream,char *command_name,char *package,char *version,va_list authors)" ( (parameter_declaration "FILE *stream" type_identifier (pointer_declarator "*stream" * identifier)) , (parameter_declaration "char *command_name" primitive_type (pointer_declarator "*command_name" * identifier)) , (parameter_declaration "char *package" primitive_type (pointer_declarator "*package" * identifier)) , (parameter_declaration "char *version" primitive_type (pointer_declarator "*version" * identifier)) , (parameter_declaration "va_list authors" type_identifier identifier) ))) (compound_statement "{\n char **ppcVar1;\n int *piVar2;\n size_t n_authors;\n int iVar3;\n char *pcVar4;\n char *authtab [10];\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n iVar3 = *piVar2;\n n_authors = 0;\n ppcVar1 = authtab;\n do {\n /* WARNING: Load size is inaccurate */\n pcVar4 = *authors.__ap;\n *ppcVar1 = pcVar4;\n if (pcVar4 == (char *)0x0) break;\n n_authors = n_authors + 1;\n authors.__ap = (undefined4 *)((int)authors.__ap + 4);\n ppcVar1 = ppcVar1 + 1;\n } while (n_authors != 10);\n version_etc_arn(stream,command_name,package,version,authtab,n_authors);\n if (iVar3 == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "char **ppcVar1;" primitive_type (pointer_declarator "**ppcVar1" * (pointer_declarator "*ppcVar1" * identifier)) ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "size_t n_authors;" primitive_type identifier ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "char *pcVar4;" primitive_type (pointer_declarator "*pcVar4" * identifier) ;) (declaration "char *authtab [10];" primitive_type (pointer_declarator "*authtab [10]" * (array_declarator "authtab [10]" identifier [ number_literal ])) ;) (expression_statement "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);" (assignment_expression "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" identifier = (pointer_expression "*(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" * (cast_expression "(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00014090 + 0x14034 + DAT_00014094)" ( (binary_expression "DAT_00014090 + 0x14034 + DAT_00014094" (binary_expression "DAT_00014090 + 0x14034" identifier + number_literal) + identifier) ))))) ;) (expression_statement "iVar3 = *piVar2;" (assignment_expression "iVar3 = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (expression_statement "n_authors = 0;" (assignment_expression "n_authors = 0" identifier = number_literal) ;) (expression_statement "ppcVar1 = authtab;" (assignment_expression "ppcVar1 = authtab" identifier = identifier) ;) (do_statement "do {\n /* WARNING: Load size is inaccurate */\n pcVar4 = *authors.__ap;\n *ppcVar1 = pcVar4;\n if (pcVar4 == (char *)0x0) break;\n n_authors = n_authors + 1;\n authors.__ap = (undefined4 *)((int)authors.__ap + 4);\n ppcVar1 = ppcVar1 + 1;\n } while (n_authors != 10);" do (compound_statement "{\n /* WARNING: Load size is inaccurate */\n pcVar4 = *authors.__ap;\n *ppcVar1 = pcVar4;\n if (pcVar4 == (char *)0x0) break;\n n_authors = n_authors + 1;\n authors.__ap = (undefined4 *)((int)authors.__ap + 4);\n ppcVar1 = ppcVar1 + 1;\n }" { comment (expression_statement "pcVar4 = *authors.__ap;" (assignment_expression "pcVar4 = *authors.__ap" identifier = (pointer_expression "*authors.__ap" * (field_expression "authors.__ap" identifier . field_identifier))) ;) (expression_statement "*ppcVar1 = pcVar4;" (assignment_expression "*ppcVar1 = pcVar4" (pointer_expression "*ppcVar1" * identifier) = identifier) ;) (if_statement "if (pcVar4 == (char *)0x0) break;" if (parenthesized_expression "(pcVar4 == (char *)0x0)" ( (binary_expression "pcVar4 == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (break_statement "break;" break ;)) (expression_statement "n_authors = n_authors + 1;" (assignment_expression "n_authors = n_authors + 1" identifier = (binary_expression "n_authors + 1" identifier + number_literal)) ;) (expression_statement "authors.__ap = (undefined4 *)((int)authors.__ap + 4);" (assignment_expression "authors.__ap = (undefined4 *)((int)authors.__ap + 4)" (field_expression "authors.__ap" identifier . field_identifier) = (cast_expression "(undefined4 *)((int)authors.__ap + 4)" ( (type_descriptor "undefined4 *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "((int)authors.__ap + 4)" ( (binary_expression "(int)authors.__ap + 4" (cast_expression "(int)authors.__ap" ( (type_descriptor "int" primitive_type) ) (field_expression "authors.__ap" identifier . field_identifier)) + number_literal) )))) ;) (expression_statement "ppcVar1 = ppcVar1 + 1;" (assignment_expression "ppcVar1 = ppcVar1 + 1" identifier = (binary_expression "ppcVar1 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(n_authors != 10)" ( (binary_expression "n_authors != 10" identifier != number_literal) )) ;) (expression_statement "version_etc_arn(stream,command_name,package,version,authtab,n_authors);" (call_expression "version_etc_arn(stream,command_name,package,version,authtab,n_authors)" identifier (argument_list "(stream,command_name,package,version,authtab,n_authors)" ( identifier , identifier , identifier , identifier , identifier , identifier ))) ;) (if_statement "if (iVar3 == *piVar2) {\n return;\n }" if (parenthesized_expression "(iVar3 == *piVar2)" ( (binary_expression "iVar3 == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "void FUN_00014020(void)\n\n{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "void FUN_00014020(void)\n\n{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "FUN_00014020(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "int *piVar1;" primitive_type (pointer_declarator "*piVar1" * identifier) ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "int iVar3;" primitive_type identifier ;) (declaration "int iVar4;" primitive_type identifier ;) (declaration "int *in_stack_00000000;" primitive_type (pointer_declarator "*in_stack_00000000" * identifier) ;) (declaration "int aiStack_44 [10];" primitive_type (array_declarator "aiStack_44 [10]" identifier [ number_literal ]) ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);" (assignment_expression "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" identifier = (pointer_expression "*(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" * (cast_expression "(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_00014090 + 0x14034 + DAT_00014094)" ( (binary_expression "DAT_00014090 + 0x14034 + DAT_00014094" (binary_expression "DAT_00014090 + 0x14034" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" identifier = number_literal) ;) (expression_statement "piVar1 = aiStack_44;" (assignment_expression "piVar1 = aiStack_44" identifier = identifier) ;) (do_statement "do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);" do (compound_statement "{\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n }" { (expression_statement "iVar4 = *in_stack_00000000;" (assignment_expression "iVar4 = *in_stack_00000000" identifier = (pointer_expression "*in_stack_00000000" * identifier)) ;) (expression_statement "*piVar1 = iVar4;" (assignment_expression "*piVar1 = iVar4" (pointer_expression "*piVar1" * identifier) = identifier) ;) (if_statement "if (iVar4 == 0) break;" if (parenthesized_expression "(iVar4 == 0)" ( (binary_expression "iVar4 == 0" identifier == number_literal) )) (break_statement "break;" break ;)) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" identifier = (binary_expression "iVar3 + 1" identifier + number_literal)) ;) (expression_statement "in_stack_00000000 = in_stack_00000000 + 1;" (assignment_expression "in_stack_00000000 = in_stack_00000000 + 1" identifier = (binary_expression "in_stack_00000000 + 1" identifier + number_literal)) ;) (expression_statement "piVar1 = piVar1 + 1;" (assignment_expression "piVar1 = piVar1 + 1" identifier = (binary_expression "piVar1 + 1" identifier + number_literal)) ;) }) while (parenthesized_expression "(iVar3 != 10)" ( (binary_expression "iVar3 != 10" identifier != number_literal) )) ;) (expression_statement "FUN_00013bf0();" (call_expression "FUN_00013bf0()" identifier (argument_list "()" ( ))) ;) (if_statement "if (local_1c == *piVar2) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar2)" ( (binary_expression "local_1c == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) })) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (do_statement do (compound_statement { (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (expression_statement (assignment_expression (pointer_expression * IDENT) = IDENT) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (break_statement break ;)) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) (expression_statement (assignment_expression IDENT = (binary_expression IDENT + LIT)) ;) }) while (parenthesized_expression ( (binary_expression IDENT != LIT) )) ;) (expression_statement (call_expression IDENT (argument_list ( ))) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (pointer_expression * IDENT)) )) (compound_statement { (return_statement return ;) })) comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(function_definition "void FUN_00014020(void)\n\n{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" (primitive_type "void") (function_declarator "FUN_00014020(void)" (identifier "FUN_00014020") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n int *piVar1;\n int *piVar2;\n int iVar3;\n int iVar4;\n int *in_stack_00000000;\n int aiStack_44 [10];\n int local_1c;\n \n piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);\n local_1c = *piVar2;\n iVar3 = 0;\n piVar1 = aiStack_44;\n do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);\n FUN_00013bf0();\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" ({ "{") (declaration "int *piVar1;" (primitive_type "int") (pointer_declarator "*piVar1" (* "*") (identifier "piVar1")) (; ";")) (declaration "int *piVar2;" (primitive_type "int") (pointer_declarator "*piVar2" (* "*") (identifier "piVar2")) (; ";")) (declaration "int iVar3;" (primitive_type "int") (identifier "iVar3") (; ";")) (declaration "int iVar4;" (primitive_type "int") (identifier "iVar4") (; ";")) (declaration "int *in_stack_00000000;" (primitive_type "int") (pointer_declarator "*in_stack_00000000" (* "*") (identifier "in_stack_00000000")) (; ";")) (declaration "int aiStack_44 [10];" (primitive_type "int") (array_declarator "aiStack_44 [10]" (identifier "aiStack_44") ([ "[") (number_literal "10") (] "]")) (; ";")) (declaration "int local_1c;" (primitive_type "int") (identifier "local_1c") (; ";")) (expression_statement "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);" (assignment_expression "piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" (identifier "piVar2") (= "=") (pointer_expression "*(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" (* "*") (cast_expression "(int **)(DAT_00014090 + 0x14034 + DAT_00014094)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_00014090 + 0x14034 + DAT_00014094)" (( "(") (binary_expression "DAT_00014090 + 0x14034 + DAT_00014094" (binary_expression "DAT_00014090 + 0x14034" (identifier "DAT_00014090") (+ "+") (number_literal "0x14034")) (+ "+") (identifier "DAT_00014094")) () ")"))))) (; ";")) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" (identifier "local_1c") (= "=") (pointer_expression "*piVar2" (* "*") (identifier "piVar2"))) (; ";")) (expression_statement "iVar3 = 0;" (assignment_expression "iVar3 = 0" (identifier "iVar3") (= "=") (number_literal "0")) (; ";")) (expression_statement "piVar1 = aiStack_44;" (assignment_expression "piVar1 = aiStack_44" (identifier "piVar1") (= "=") (identifier "aiStack_44")) (; ";")) (do_statement "do {\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n } while (iVar3 != 10);" (do "do") (compound_statement "{\n iVar4 = *in_stack_00000000;\n *piVar1 = iVar4;\n if (iVar4 == 0) break;\n iVar3 = iVar3 + 1;\n in_stack_00000000 = in_stack_00000000 + 1;\n piVar1 = piVar1 + 1;\n }" ({ "{") (expression_statement "iVar4 = *in_stack_00000000;" (assignment_expression "iVar4 = *in_stack_00000000" (identifier "iVar4") (= "=") (pointer_expression "*in_stack_00000000" (* "*") (identifier "in_stack_00000000"))) (; ";")) (expression_statement "*piVar1 = iVar4;" (assignment_expression "*piVar1 = iVar4" (pointer_expression "*piVar1" (* "*") (identifier "piVar1")) (= "=") (identifier "iVar4")) (; ";")) (if_statement "if (iVar4 == 0) break;" (if "if") (parenthesized_expression "(iVar4 == 0)" (( "(") (binary_expression "iVar4 == 0" (identifier "iVar4") (== "==") (number_literal "0")) () ")")) (break_statement "break;" (break "break") (; ";"))) (expression_statement "iVar3 = iVar3 + 1;" (assignment_expression "iVar3 = iVar3 + 1" (identifier "iVar3") (= "=") (binary_expression "iVar3 + 1" (identifier "iVar3") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "in_stack_00000000 = in_stack_00000000 + 1;" (assignment_expression "in_stack_00000000 = in_stack_00000000 + 1" (identifier "in_stack_00000000") (= "=") (binary_expression "in_stack_00000000 + 1" (identifier "in_stack_00000000") (+ "+") (number_literal "1"))) (; ";")) (expression_statement "piVar1 = piVar1 + 1;" (assignment_expression "piVar1 = piVar1 + 1" (identifier "piVar1") (= "=") (binary_expression "piVar1 + 1" (identifier "piVar1") (+ "+") (number_literal "1"))) (; ";")) (} "}")) (while "while") (parenthesized_expression "(iVar3 != 10)" (( "(") (binary_expression "iVar3 != 10" (identifier "iVar3") (!= "!=") (number_literal "10")) () ")")) (; ";")) (expression_statement "FUN_00013bf0();" (call_expression "FUN_00013bf0()" (identifier "FUN_00013bf0") (argument_list "()" (( "(") () ")"))) (; ";")) (if_statement "if (local_1c == *piVar2) {\n return;\n }" (if "if") (parenthesized_expression "(local_1c == *piVar2)" (( "(") (binary_expression "local_1c == *piVar2" (identifier "local_1c") (== "==") (pointer_expression "*piVar2" (* "*") (identifier "piVar2"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}"))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" (identifier "__stack_chk_fail") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
void function_1(type_1 *stream,char *command_name,char *package,char *version,type_2 authors)
{
char **var_5;
int *piVar2;
size_t var_4;
int var_7;
char *var_3;
char *authtab [10];
piVar2 = *(int **)(var_1 + 0x14034 + var_2);
var_7 = *piVar2;
var_4 = 0;
var_5 = authtab;
do {
/* WARNING: Load size is inaccurate */
var_3 = *authors.__ap;
*var_5 = var_3;
if (var_3 == (char *)0x0) break;
var_4 = var_4 + 1;
authors.__ap = (type_3 *)((int)authors.__ap + 4);
var_5 = var_5 + 1;
} while (var_4 != 10);
var_6(stream,command_name,package,version,authtab,var_4);
if (var_7 == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
var_8();
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (do_statement body: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (identifier))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (break_statement)) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (assignment_expression left: (identifier) right: (binary_expression left: (identifier) right: (number_literal))))) condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))) (expression_statement (call_expression function: (identifier) arguments: (argument_list))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (return_statement))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
void MASKED(void)
{
int *piVar1;
int *piVar2;
int iVar3;
int iVar4;
int *in_stack_00000000;
int aiStack_44 [10];
int local_1c;
piVar2 = *(int **)(DAT_00014090 + 0x14034 + DAT_00014094);
local_1c = *piVar2;
iVar3 = 0;
piVar1 = aiStack_44;
do {
iVar4 = *in_stack_00000000;
*piVar1 = iVar4;
if (iVar4 == 0) break;
iVar3 = iVar3 + 1;
in_stack_00000000 = in_stack_00000000 + 1;
piVar1 = piVar1 + 1;
} while (iVar3 != 10);
FUN_00013bf0();
if (local_1c == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
| 6,265 |
||
1677_libMagickWand-7.Q16HDRI.so.8.0_and_libMagickWand-7.Q16HDRI.so.8.0_strip.c
|
DrawImage
|
DrawImage
|
/* WARNING: Control flow encountered bad instruction data */
void DrawImage(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
void DrawImage(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1207052502')]
|
[('const-1', u'RETURN_-1207052502')]
| null | null |
0012d720
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "DrawImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "DrawImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n\nvoid DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment (function_definition "void DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "DrawImage(void)" identifier (parameter_list "(void)" ( (parameter_declaration "void" primitive_type) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (function_definition "void DrawImage(void)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "void") (function_declarator "DrawImage(void)" (identifier "DrawImage") (parameter_list "(void)" (( "(") (parameter_declaration "void" (primitive_type "void")) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
void function_1(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
var_1();
}
|
(translation_unit (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type)))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
void MASKED(void)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 54,886 |
||
323_arm-linux-gnueabi-as_and_arm-linux-gnueabi-as_strip.c
|
as_bad_where
|
FUN_0003bf2c
|
void as_bad_where(char *file,uint line,char *format,...)
{
undefined4 in_r3;
va_list args;
char buffer [2000];
char *format_local;
undefined4 uStack_4;
uStack_4 = in_r3;
vsnprintf(buffer,2000,format,&uStack_4);
as_bad_internal(file,line,buffer);
return;
}
|
void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)
{
char acStack_7e8 [2004];
undefined4 uStack_4;
uStack_4 = param_4;
vsnprintf(acStack_7e8,2000,param_3,&uStack_4);
FUN_0003bbd4(param_1,param_2,acStack_7e8);
return;
}
|
stmdb sp!,{r2,r3}
stmdb sp!,{r4,r5,lr}
sub sp,sp,#0x7e0
sub sp,sp,#0x4
add r12,sp,#0x7f0
add r12,r12,#0x4
add r3,sp,#0x10
cpy r4,r0
cpy r5,r1
str r3,[sp,#0x4]
ldr r2,[sp,#0x7f0]
cpy r0,r3
mov r1,#0x7d0
cpy r3,r12
str r12,[sp,#0xc]
bl 0x00024bec
ldr r2,[sp,#0x4]
cpy r1,r5
cpy r0,r4
bl 0x0003bbd4
add sp,sp,#0x7e0
add sp,sp,#0x4
ldmia sp!,{r4,r5,lr}
add sp,sp,#0x8
bx lr
| null | null | null | null |
[('tmp_445', u'CALL_-1206075418'), ('const-0', u'RETURN_-1206075346'), ('tmp_446', u'CALL_-1206075440'), ('const-2000', u'CALL_-1206075440'), ('const-4294967292', u'PTRSUB_-1206075302'), (u'PTRSUB_-1206075297', u'CALL_-1206075440'), (u'CALL_-1206075440', u'INDIRECT_-1206075269'), (u'PTRSUB_-1206075297', u'CALL_-1206075418'), (u'PTRSUB_-1206075302', u'CALL_-1206075440'), (u'CALL_-1206075418', u'INDIRECT_-1206075252'), ('tmp_570', u'PTRSUB_-1206075302'), ('const-4294965272', u'PTRSUB_-1206075297'), ('tmp_444', u'CALL_-1206075418'), ('tmp_570', u'PTRSUB_-1206075297'), ('tmp_571', u'COPY_-1206075325')]
|
[('const-0', u'RETURN_-1206075346'), (u'PTRSUB_-1206075297', u'CALL_-1206075440'), (u'CALL_-1206075440', u'INDIRECT_-1206075269'), (u'PTRSUB_-1206075297', u'CALL_-1206075418'), (u'PTRSUB_-1206075302', u'CALL_-1206075440'), ('tmp_572', u'CALL_-1206075440'), (u'CALL_-1206075418', u'INDIRECT_-1206075252'), ('tmp_570', u'PTRSUB_-1206075302'), ('const-2000', u'CALL_-1206075440'), ('tmp_577', u'CALL_-1206075418'), ('tmp_570', u'PTRSUB_-1206075297'), ('const-4294965272', u'PTRSUB_-1206075297'), ('tmp_571', u'COPY_-1206075325'), ('tmp_578', u'CALL_-1206075418'), ('const-4294967292', u'PTRSUB_-1206075302')]
| null | null |
0003bf2c
|
arm
|
O2
|
(translation_unit "void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)\n\n{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}\n\n" (function_definition "void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)\n\n{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" primitive_type (function_declarator "FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "char *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "undefined4 param_4" type_identifier identifier) ))) (compound_statement "{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" { (declaration "char acStack_7e8 [2004];" primitive_type (array_declarator "acStack_7e8 [2004]" identifier [ number_literal ]) ;) (declaration "undefined4 uStack_4;" type_identifier identifier ;) (expression_statement "uStack_4 = param_4;" (assignment_expression "uStack_4 = param_4" identifier = identifier) ;) (expression_statement "vsnprintf(acStack_7e8,2000,param_3,&uStack_4);" (call_expression "vsnprintf(acStack_7e8,2000,param_3,&uStack_4)" identifier (argument_list "(acStack_7e8,2000,param_3,&uStack_4)" ( identifier , number_literal , identifier , (pointer_expression "&uStack_4" & identifier) ))) ;) (expression_statement "FUN_0003bbd4(param_1,param_2,acStack_7e8);" (call_expression "FUN_0003bbd4(param_1,param_2,acStack_7e8)" identifier (argument_list "(param_1,param_2,acStack_7e8)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void as_bad_where(char *file,uint line,char *format,...)\n\n{\n undefined4 in_r3;\n va_list args;\n char buffer [2000];\n char *format_local;\n undefined4 uStack_4;\n \n uStack_4 = in_r3;\n vsnprintf(buffer,2000,format,&uStack_4);\n as_bad_internal(file,line,buffer);\n return;\n}\n\n" (function_definition "void as_bad_where(char *file,uint line,char *format,...)\n\n{\n undefined4 in_r3;\n va_list args;\n char buffer [2000];\n char *format_local;\n undefined4 uStack_4;\n \n uStack_4 = in_r3;\n vsnprintf(buffer,2000,format,&uStack_4);\n as_bad_internal(file,line,buffer);\n return;\n}" primitive_type (function_declarator "as_bad_where(char *file,uint line,char *format,...)" identifier (parameter_list "(char *file,uint line,char *format,...)" ( (parameter_declaration "char *file" primitive_type (pointer_declarator "*file" * identifier)) , (parameter_declaration "uint line" type_identifier identifier) , (parameter_declaration "char *format" primitive_type (pointer_declarator "*format" * identifier)) , (variadic_parameter "..." ...) ))) (compound_statement "{\n undefined4 in_r3;\n va_list args;\n char buffer [2000];\n char *format_local;\n undefined4 uStack_4;\n \n uStack_4 = in_r3;\n vsnprintf(buffer,2000,format,&uStack_4);\n as_bad_internal(file,line,buffer);\n return;\n}" { (declaration "undefined4 in_r3;" type_identifier identifier ;) (declaration "va_list args;" type_identifier identifier ;) (declaration "char buffer [2000];" primitive_type (array_declarator "buffer [2000]" identifier [ number_literal ]) ;) (declaration "char *format_local;" primitive_type (pointer_declarator "*format_local" * identifier) ;) (declaration "undefined4 uStack_4;" type_identifier identifier ;) (expression_statement "uStack_4 = in_r3;" (assignment_expression "uStack_4 = in_r3" identifier = identifier) ;) (expression_statement "vsnprintf(buffer,2000,format,&uStack_4);" (call_expression "vsnprintf(buffer,2000,format,&uStack_4)" identifier (argument_list "(buffer,2000,format,&uStack_4)" ( identifier , number_literal , identifier , (pointer_expression "&uStack_4" & identifier) ))) ;) (expression_statement "as_bad_internal(file,line,buffer);" (call_expression "as_bad_internal(file,line,buffer)" identifier (argument_list "(file,line,buffer)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit "void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)\n\n{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}\n\n" (function_definition "void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)\n\n{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" primitive_type (function_declarator "FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" identifier (parameter_list "(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" ( (parameter_declaration "undefined4 param_1" type_identifier identifier) , (parameter_declaration "undefined4 param_2" type_identifier identifier) , (parameter_declaration "char *param_3" primitive_type (pointer_declarator "*param_3" * identifier)) , (parameter_declaration "undefined4 param_4" type_identifier identifier) ))) (compound_statement "{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" { (declaration "char acStack_7e8 [2004];" primitive_type (array_declarator "acStack_7e8 [2004]" identifier [ number_literal ]) ;) (declaration "undefined4 uStack_4;" type_identifier identifier ;) (expression_statement "uStack_4 = param_4;" (assignment_expression "uStack_4 = param_4" identifier = identifier) ;) (expression_statement "vsnprintf(acStack_7e8,2000,param_3,&uStack_4);" (call_expression "vsnprintf(acStack_7e8,2000,param_3,&uStack_4)" identifier (argument_list "(acStack_7e8,2000,param_3,&uStack_4)" ( identifier , number_literal , identifier , (pointer_expression "&uStack_4" & identifier) ))) ;) (expression_statement "FUN_0003bbd4(param_1,param_2,acStack_7e8);" (call_expression "FUN_0003bbd4(param_1,param_2,acStack_7e8)" identifier (argument_list "(param_1,param_2,acStack_7e8)" ( identifier , identifier , identifier ))) ;) (return_statement "return;" return ;) })))
|
(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) ))) (compound_statement { (declaration TYPE (array_declarator IDENT [ LIT ]) ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = IDENT) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , LIT , IDENT , (pointer_expression & IDENT) ))) ;) (expression_statement (call_expression IDENT (argument_list ( IDENT , IDENT , IDENT ))) ;) (return_statement return ;) })))
|
(function_definition "void FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)\n\n{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" (primitive_type "void") (function_declarator "FUN_0003bf2c(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" (identifier "FUN_0003bf2c") (parameter_list "(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)" (( "(") (parameter_declaration "undefined4 param_1" (type_identifier "undefined4") (identifier "param_1")) (, ",") (parameter_declaration "undefined4 param_2" (type_identifier "undefined4") (identifier "param_2")) (, ",") (parameter_declaration "char *param_3" (primitive_type "char") (pointer_declarator "*param_3" (* "*") (identifier "param_3"))) (, ",") (parameter_declaration "undefined4 param_4" (type_identifier "undefined4") (identifier "param_4")) () ")"))) (compound_statement "{\n char acStack_7e8 [2004];\n undefined4 uStack_4;\n \n uStack_4 = param_4;\n vsnprintf(acStack_7e8,2000,param_3,&uStack_4);\n FUN_0003bbd4(param_1,param_2,acStack_7e8);\n return;\n}" ({ "{") (declaration "char acStack_7e8 [2004];" (primitive_type "char") (array_declarator "acStack_7e8 [2004]" (identifier "acStack_7e8") ([ "[") (number_literal "2004") (] "]")) (; ";")) (declaration "undefined4 uStack_4;" (type_identifier "undefined4") (identifier "uStack_4") (; ";")) (expression_statement "uStack_4 = param_4;" (assignment_expression "uStack_4 = param_4" (identifier "uStack_4") (= "=") (identifier "param_4")) (; ";")) (expression_statement "vsnprintf(acStack_7e8,2000,param_3,&uStack_4);" (call_expression "vsnprintf(acStack_7e8,2000,param_3,&uStack_4)" (identifier "vsnprintf") (argument_list "(acStack_7e8,2000,param_3,&uStack_4)" (( "(") (identifier "acStack_7e8") (, ",") (number_literal "2000") (, ",") (identifier "param_3") (, ",") (pointer_expression "&uStack_4" (& "&") (identifier "uStack_4")) () ")"))) (; ";")) (expression_statement "FUN_0003bbd4(param_1,param_2,acStack_7e8);" (call_expression "FUN_0003bbd4(param_1,param_2,acStack_7e8)" (identifier "FUN_0003bbd4") (argument_list "(param_1,param_2,acStack_7e8)" (( "(") (identifier "param_1") (, ",") (identifier "param_2") (, ",") (identifier "acStack_7e8") () ")"))) (; ";")) (return_statement "return;" (return "return") (; ";")) (} "}")))
|
void function_1(char *file,type_1 line,char *format,...)
{
type_2 in_r3;
type_3 args;
char buffer [2000];
char *format_local;
type_2 uStack_4;
uStack_4 = in_r3;
var_1(buffer,2000,format,&uStack_4);
var_2(file,line,buffer);
return;
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (identifier)) (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (identifier)))) body: (compound_statement (declaration type: (primitive_type) declarator: (array_declarator declarator: (identifier) size: (number_literal))) (declaration type: (type_identifier) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (identifier))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (number_literal) (identifier) (pointer_expression argument: (identifier))))) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier) (identifier) (identifier)))) (return_statement))))
|
void MASKED(undefined4 param_1,undefined4 param_2,char *param_3,undefined4 param_4)
{
char acStack_7e8 [2004];
undefined4 uStack_4;
uStack_4 = param_4;
vsnprintf(acStack_7e8,2000,param_3,&uStack_4);
FUN_0003bbd4(param_1,param_2,acStack_7e8);
return;
}
| 76,820 |
||
151_cat_and_cat_strip.c
|
strlen
|
strlen
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t strlen(char *__s)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strlen@@GLIBC_2.4 */
halt_baddata();
}
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t strlen(char *__s)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| null | null | null | null | null |
[('const-1', u'RETURN_-1206021966')]
|
[('const-1', u'RETURN_-1206021966')]
| null | null |
000290a8
|
arm
|
O2
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "size_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "strlen(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strlen@@GLIBC_2.4 */\n halt_baddata();\n}\n\n" comment comment (function_definition "size_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strlen@@GLIBC_2.4 */\n halt_baddata();\n}" primitive_type (function_declarator "strlen(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n /* strlen@@GLIBC_2.4 */\n halt_baddata();\n}" { comment comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit "/* WARNING: Control flow encountered bad instruction data */\n/* WARNING: Unknown calling convention -- yet parameter storage is locked */\n\nsize_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}\n\n" comment comment (function_definition "size_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" primitive_type (function_declarator "strlen(char *__s)" identifier (parameter_list "(char *__s)" ( (parameter_declaration "char *__s" primitive_type (pointer_declarator "*__s" * identifier)) ))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" { comment (expression_statement "halt_baddata();" (call_expression "halt_baddata()" identifier (argument_list "()" ( ))) ;) })))
|
(translation_unit comment comment (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { comment (expression_statement (call_expression IDENT (argument_list ( ))) ;) })))
|
(comment "/* WARNING: Control flow encountered bad instruction data */") (comment "/* WARNING: Unknown calling convention -- yet parameter storage is locked */") (function_definition "size_t strlen(char *__s)\n\n{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" (primitive_type "size_t") (function_declarator "strlen(char *__s)" (identifier "strlen") (parameter_list "(char *__s)" (( "(") (parameter_declaration "char *__s" (primitive_type "char") (pointer_declarator "*__s" (* "*") (identifier "__s"))) () ")"))) (compound_statement "{\n /* WARNING: Bad instruction - Truncating control flow here */\n halt_baddata();\n}" ({ "{") (comment "/* WARNING: Bad instruction - Truncating control flow here */") (expression_statement "halt_baddata();" (call_expression "halt_baddata()" (identifier "halt_baddata") (argument_list "()" (( "(") () ")"))) (; ";")) (} "}")))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t function_1(char *__s)
{
/* WARNING: Bad instruction - Truncating control flow here */
/* strlen@@GLIBC_2.4 */
var_1();
}
|
(translation_unit (comment) (comment) (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list))))))
|
/* WARNING: Control flow encountered bad instruction data */
/* WARNING: Unknown calling convention -- yet parameter storage is locked */
size_t MASKED(char *__s)
{
/* WARNING: Bad instruction - Truncating control flow here */
halt_baddata();
}
| 860 |
||
168_tail_and_tail_strip.c
|
rpl_mbrtowc
|
FUN_0001cae4
|
size_t rpl_mbrtowc(wchar_t *pwc,char *s,size_t n,mbstate_t *ps)
{
_Bool _Var1;
int *piVar2;
size_t sVar3;
wchar_t wc;
int local_1c;
piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);
local_1c = *piVar2;
if (s == (char *)0x0) {
n = 1;
s = (char *)(DAT_0001cb98 + 0x1cb6c);
LAB_0001cb68:
pwc = &wc;
}
else {
if (n == 0) {
sVar3 = 0xfffffffe;
goto LAB_0001cb40;
}
if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;
}
sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps);
if ((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)) {
*pwc = (uint)(byte)*s;
sVar3 = 1;
}
LAB_0001cb40:
if (local_1c == *piVar2) {
return sVar3;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
|
void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)
{
int iVar1;
int *piVar2;
size_t sVar3;
wchar_t wStack_20;
int local_1c;
piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);
local_1c = *piVar2;
if (param_2 == (byte *)0x0) {
param_3 = 1;
param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);
LAB_0001cb68:
param_1 = &wStack_20;
}
else {
if (param_3 == 0) {
sVar3 = 0xfffffffe;
goto LAB_0001cb40;
}
if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;
}
sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);
if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {
*param_1 = (uint)*param_2;
sVar3 = 1;
}
LAB_0001cb40:
if (local_1c == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(sVar3);
}
|
ldr r12,[0x1cb90]
stmdb sp!,{r4,r5,r6,r7,lr}
ldr lr,[0x1cb94]
add r12,pc,r12
ldr r4,[r12,lr]
sub sp,sp,#0xc
subs r6,r1,#0x0
cpy r7,r0
ldr r0,[r4,#0x0]
cpy r1,r12
str r0,[sp,#0x4]
beq 0x0001cb5c
cmp r2,#0x0
mvneq r5,#0x1
beq 0x0001cb40
cmp r7,#0x0
beq 0x0001cb68
cpy r1,r6
cpy r0,r7
bl 0x0001122c
cmn r0,#0x3
cpy r5,r0
bhi 0x0001cb70
ldr r2,[sp,#0x4]
ldr r3,[r4,#0x0]
cpy r0,r5
cmp r2,r3
bne 0x0001cb8c
add sp,sp,#0xc
ldmia sp!,{r4,r5,r6,r7,pc}
ldr r6,[0x1cb98]
mov r2,#0x1
add r6,pc,r6
cpy r7,sp
b 0x0001cb28
mov r0,#0x0
bl 0x0001cf28
cmp r0,#0x0
ldrbeq r3,[r6,#0x0]
streq r3,[r7,#0x0]
moveq r5,#0x1
b 0x0001cb40
bl 0x0001119c
| null | null | null | null |
[('tmp_692', u'MULTIEQUAL_-1205941066'), (u'COPY_-1205941396', u'MULTIEQUAL_-1205941047'), (u'INDIRECT_-1205940864', u'MULTIEQUAL_-1205940911'), (u'CAST_-1205940938', u'LOAD_-1205941492'), (u'CALL_-1205941340', u'MULTIEQUAL_-1205941047'), (u'INT_ADD_-1205941483', u'INT_ADD_-1205941476'), ('tmp_692', u'MULTIEQUAL_-1205941003'), (u'MULTIEQUAL_-1205941066', u'CALL_-1205941340'), (u'LOAD_-1205941301', u'INT_EQUAL_-1205941277'), (u'INDIRECT_-1205940941', u'MULTIEQUAL_-1205940919'), (u'CAST_-1205940799', u'INT_ZEXT_-1205941149'), (u'INDIRECT_-1205940925', u'MULTIEQUAL_-1205940905'), ('const-417', u'STORE_-1205941155'), ('tmp_693', u'MULTIEQUAL_-1205941078'), ('const-1', u'COPY_-1205941143'), (u'CALL_-1205941188', u'INDIRECT_-1205940856'), (u'INDIRECT_-1205940847', u'COPY_-1205940905'), (u'COPY_-1205941143', u'MULTIEQUAL_-1205941047'), ('const-1', u'RETURN_-1205941175'), (u'CALL_-1205941188', u'INDIRECT_-1205940880'), (u'MULTIEQUAL_-1205941047', u'COPY_-1205941297'), (u'CALL_-1205941180', u'INDIRECT_-1205940847'), ('const-0', u'RETURN_-1205941231'), ('tmp_1561', u'INT_ADD_-1205941132'), (u'CALL_-1205941180', u'INDIRECT_-1205940839'), (u'INDIRECT_-1205940872', u'MULTIEQUAL_-1205940919'), (u'CALL_-1205941188', u'INDIRECT_-1205940864'), (u'COPY_-1205941163', u'MULTIEQUAL_-1205941015'), (u'INDIRECT_-1205940839', u'COPY_-1205940897'), (u'COPY_-1205940882', u'MULTIEQUAL_-1205941064'), ('tmp_691', u'INT_EQUAL_-1205941361'), ('tmp_691', u'COPY_-1205940955'), (u'LOAD_-1205941445', u'MULTIEQUAL_-1205940905'), ('const-117612', u'INT_ADD_-1205941132'), ('const-417', u'LOAD_-1205941445'), (u'INDIRECT_-1205940855', u'COPY_-1205940913'), (u'CALL_-1205941340', u'INDIRECT_-1205940941'), (u'BOOL_NEGATE_-1205940835', u'CBRANCH_-1205941164'), ('tmp_692', u'INT_EQUAL_-1205941451'), (u'INDIRECT_-1205940949', u'MULTIEQUAL_-1205940927'), (u'COPY_-1205941297', u'RETURN_-1205941231'), ('const-417', u'LOAD_-1205941165'), ('tmp_693', u'INT_EQUAL_-1205941404'), (u'MULTIEQUAL_-1205941003', u'MULTIEQUAL_-1205941066'), (u'INT_ZEXT_-1205941149', u'STORE_-1205941155'), (u'INT_EQUAL_-1205941277', u'CBRANCH_-1205941273'), (u'INT_EQUAL_-1205941451', u'CBRANCH_-1205941426'), (u'CALL_-1205941188', u'BOOL_NEGATE_-1205940835'), ('tmp_354', u'CBRANCH_-1205941310'), ('tmp_212', u'CBRANCH_-1205941400'), (u'STORE_-1205941155', u'INDIRECT_-1205940842'), (u'MULTIEQUAL_-1205940905', u'INT_EQUAL_-1205941277'), (u'PTRSUB_-1205940936', u'COPY_-1205940882'), (u'CALL_-1205941180', u'INDIRECT_-1205940831'), ('tmp_694', u'CAST_-1205940876'), (u'MULTIEQUAL_-1205941064', u'CALL_-1205941340'), (u'INDIRECT_-1205940880', u'MULTIEQUAL_-1205940927'), (u'LOAD_-1205941492', u'LOAD_-1205941301'), ('const-0', u'INT_EQUAL_-1205941451'), (u'INT_EQUAL_-1205941404', u'CBRANCH_-1205941400'), (u'CALL_-1205941188', u'INDIRECT_-1205940872'), ('tmp_1561', u'MULTIEQUAL_-1205940911'), ('tmp_1559', u'MULTIEQUAL_-1205940927'), ('const-1', u'COPY_-1205941163'), ('const-4294967264', u'PTRSUB_-1205940936'), ('const-417', u'LOAD_-1205941301'), (u'MULTIEQUAL_-1205941064', u'STORE_-1205941155'), ('tmp_1267', u'PTRSUB_-1205940936'), ('tmp_1559', u'INT_ADD_-1205941483'), (u'INT_LESS_-1205941301', u'CBRANCH_-1205941310'), (u'CALL_-1205941340', u'INT_LESS_-1205941301'), (u'INDIRECT_-1205940856', u'MULTIEQUAL_-1205940905'), (u'LOAD_-1205941492', u'LOAD_-1205941445'), ('const-4294967293', u'INT_LESS_-1205941301'), ('tmp_164', u'CBRANCH_-1205941426'), (u'INT_EQUAL_-1205941361', u'CBRANCH_-1205941358'), (u'CALL_-1205941340', u'INDIRECT_-1205940949'), (u'MULTIEQUAL_-1205941078', u'CALL_-1205941340'), (u'LOAD_-1205941165', u'CAST_-1205940799'), ('const-0', u'CALL_-1205941188'), ('tmp_1560', u'INT_ADD_-1205941476'), ('const-0', u'INT_EQUAL_-1205941404'), (u'CALL_-1205941180', u'INDIRECT_-1205940855'), ('tmp_570', u'CBRANCH_-1205941164'), ('tmp_630', u'BRANCH_-1205941157'), ('const-4294967294', u'COPY_-1205941396'), ('tmp_693', u'MULTIEQUAL_-1205941015'), ('const-0', u'INT_EQUAL_-1205941361'), (u'MULTIEQUAL_-1205940911', u'COPY_-1205940950'), (u'MULTIEQUAL_-1205940927', u'COPY_-1205940966'), ('const-417', u'LOAD_-1205941492'), (u'CAST_-1205940825', u'MULTIEQUAL_-1205941003'), (u'MULTIEQUAL_-1205940919', u'COPY_-1205940958'), (u'CALL_-1205941340', u'INDIRECT_-1205940925'), (u'INT_ADD_-1205941476', u'CAST_-1205940938'), (u'INT_ADD_-1205941132', u'CAST_-1205940825'), (u'INDIRECT_-1205940933', u'MULTIEQUAL_-1205940911'), ('const-117496', u'INT_ADD_-1205941483'), (u'CALL_-1205941340', u'INDIRECT_-1205940933'), (u'COPY_-1205940955', u'MULTIEQUAL_-1205941064'), (u'MULTIEQUAL_-1205941015', u'MULTIEQUAL_-1205941078'), ('tmp_397', u'CBRANCH_-1205941273'), ('tmp_1560', u'MULTIEQUAL_-1205940919'), (u'MULTIEQUAL_-1205941066', u'LOAD_-1205941165'), (u'INDIRECT_-1205940842', u'MULTIEQUAL_-1205940905'), ('tmp_293', u'CBRANCH_-1205941358'), (u'CAST_-1205940876', u'CALL_-1205941340')]
|
[('tmp_1266', u'INT_EQUAL_-1205941361'), (u'CALL_-1205941188', u'INDIRECT_-1205940860'), (u'MULTIEQUAL_-1205941019', u'MULTIEQUAL_-1205941082'), (u'INDIRECT_-1205940851', u'COPY_-1205940909'), (u'MULTIEQUAL_-1205940931', u'COPY_-1205940970'), (u'INT_ADD_-1205941483', u'INT_ADD_-1205941476'), ('tmp_1558', u'INT_ADD_-1205941132'), (u'CALL_-1205941188', u'INDIRECT_-1205940884'), (u'LOAD_-1205941301', u'INT_EQUAL_-1205941277'), ('tmp_1273', u'CALL_-1205941340'), ('const-1', u'COPY_-1205941143'), (u'COPY_-1205940886', u'MULTIEQUAL_-1205941068'), (u'MULTIEQUAL_-1205941068', u'CALL_-1205941340'), ('const-417', u'LOAD_-1205941445'), ('const-417', u'LOAD_-1205941492'), (u'CAST_-1205940880', u'CALL_-1205941340'), ('const-1', u'RETURN_-1205941175'), ('const-0', u'INT_EQUAL_-1205941168'), ('tmp_1557', u'INT_ADD_-1205941476'), (u'MULTIEQUAL_-1205941007', u'MULTIEQUAL_-1205941070'), (u'INDIRECT_-1205940876', u'MULTIEQUAL_-1205940923'), ('const-0', u'RETURN_-1205941231'), ('const-0', u'INT_EQUAL_-1205941404'), (u'MULTIEQUAL_-1205941070', u'LOAD_-1205941165'), (u'MULTIEQUAL_-1205940923', u'COPY_-1205940962'), (u'MULTIEQUAL_-1205941082', u'CALL_-1205941340'), (u'COPY_-1205941163', u'MULTIEQUAL_-1205941019'), (u'CAST_-1205940942', u'LOAD_-1205941492'), ('tmp_1269', u'MULTIEQUAL_-1205941082'), (u'CALL_-1205941180', u'INDIRECT_-1205940843'), (u'MULTIEQUAL_-1205940909', u'INT_EQUAL_-1205941277'), (u'COPY_-1205940959', u'MULTIEQUAL_-1205941068'), (u'MULTIEQUAL_-1205941068', u'STORE_-1205941155'), (u'INDIRECT_-1205940929', u'MULTIEQUAL_-1205940909'), (u'CALL_-1205941188', u'INDIRECT_-1205940868'), (u'INT_ZEXT_-1205941149', u'STORE_-1205941155'), (u'INT_EQUAL_-1205941277', u'CBRANCH_-1205941273'), (u'INT_EQUAL_-1205941451', u'CBRANCH_-1205941426'), (u'CAST_-1205940829', u'MULTIEQUAL_-1205941007'), ('const-4294967294', u'COPY_-1205941396'), (u'INT_ADD_-1205941132', u'CAST_-1205940829'), (u'PTRSUB_-1205940940', u'COPY_-1205940886'), (u'INT_EQUAL_-1205941168', u'CBRANCH_-1205941164'), ('tmp_354', u'CBRANCH_-1205941310'), ('tmp_212', u'CBRANCH_-1205941400'), (u'INDIRECT_-1205940860', u'MULTIEQUAL_-1205940909'), ('const-417', u'STORE_-1205941155'), (u'LOAD_-1205941445', u'MULTIEQUAL_-1205940909'), (u'LOAD_-1205941492', u'LOAD_-1205941301'), (u'MULTIEQUAL_-1205940915', u'COPY_-1205940954'), ('const-0', u'INT_EQUAL_-1205941451'), (u'INT_EQUAL_-1205941404', u'CBRANCH_-1205941400'), (u'INDIRECT_-1205940884', u'MULTIEQUAL_-1205940931'), ('const-117612', u'INT_ADD_-1205941132'), ('const-1', u'COPY_-1205941163'), (u'MULTIEQUAL_-1205941051', u'CALL_-1205941180'), (u'LOAD_-1205941165', u'INT_ZEXT_-1205941149'), (u'INT_ADD_-1205941476', u'CAST_-1205940942'), (u'INT_LESS_-1205941301', u'CBRANCH_-1205941310'), (u'COPY_-1205941396', u'MULTIEQUAL_-1205941051'), ('tmp_1269', u'MULTIEQUAL_-1205941019'), ('tmp_1265', u'INT_EQUAL_-1205941451'), (u'INDIRECT_-1205940945', u'MULTIEQUAL_-1205940923'), (u'CALL_-1205941340', u'MULTIEQUAL_-1205941051'), (u'CALL_-1205941340', u'INT_LESS_-1205941301'), (u'LOAD_-1205941492', u'LOAD_-1205941445'), ('tmp_164', u'CBRANCH_-1205941426'), (u'CALL_-1205941188', u'INT_EQUAL_-1205941168'), ('const-4294967264', u'PTRSUB_-1205940940'), (u'INT_EQUAL_-1205941361', u'CBRANCH_-1205941358'), ('tmp_1556', u'MULTIEQUAL_-1205940931'), (u'STORE_-1205941155', u'INDIRECT_-1205940846'), (u'CALL_-1205941180', u'INDIRECT_-1205940851'), ('tmp_1265', u'MULTIEQUAL_-1205941070'), (u'CALL_-1205941188', u'INDIRECT_-1205940876'), ('tmp_570', u'CBRANCH_-1205941164'), (u'CALL_-1205941180', u'INDIRECT_-1205940835'), ('const-417', u'LOAD_-1205941165'), ('const-417', u'LOAD_-1205941301'), ('tmp_630', u'BRANCH_-1205941157'), (u'CALL_-1205941340', u'INDIRECT_-1205940953'), (u'CALL_-1205941180', u'INDIRECT_-1205940859'), (u'COPY_-1205941143', u'MULTIEQUAL_-1205941051'), ('const-0', u'CALL_-1205941188'), ('tmp_1266', u'COPY_-1205940959'), ('tmp_1269', u'INT_EQUAL_-1205941404'), (u'INDIRECT_-1205940868', u'MULTIEQUAL_-1205940915'), (u'CALL_-1205941340', u'INDIRECT_-1205940937'), (u'INDIRECT_-1205940843', u'COPY_-1205940901'), (u'INDIRECT_-1205940859', u'COPY_-1205940917'), ('tmp_1556', u'INT_ADD_-1205941483'), ('const-117496', u'INT_ADD_-1205941483'), (u'MULTIEQUAL_-1205941070', u'CAST_-1205940880'), (u'INDIRECT_-1205940953', u'MULTIEQUAL_-1205940931'), ('const-4294967293', u'INT_LESS_-1205941301'), (u'INDIRECT_-1205940937', u'MULTIEQUAL_-1205940915'), ('tmp_1258', u'PTRSUB_-1205940940'), (u'INDIRECT_-1205940846', u'MULTIEQUAL_-1205940909'), ('tmp_397', u'CBRANCH_-1205941273'), ('const-0', u'INT_EQUAL_-1205941361'), ('tmp_1558', u'MULTIEQUAL_-1205940915'), (u'CALL_-1205941340', u'INDIRECT_-1205940929'), ('tmp_1557', u'MULTIEQUAL_-1205940923'), (u'CALL_-1205941340', u'INDIRECT_-1205940945'), ('tmp_293', u'CBRANCH_-1205941358'), ('tmp_1265', u'MULTIEQUAL_-1205941007')]
| null | null |
0001cae4
|
arm
|
O2
|
(translation_unit "void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)\n\n{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}\n\n" (function_definition "void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)\n\n{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" primitive_type (function_declarator "FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" identifier (parameter_list "(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" ( (parameter_declaration "wchar_t *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "byte *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "size_t param_3" primitive_type identifier) , (parameter_declaration "mbstate_t *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) ))) (compound_statement "{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "size_t sVar3;" primitive_type identifier ;) (declaration "wchar_t wStack_20;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);" (assignment_expression "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" identifier = (pointer_expression "*(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" * (cast_expression "(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (binary_expression "DAT_0001cb90 + 0x1caf8 + DAT_0001cb94" (binary_expression "DAT_0001cb90 + 0x1caf8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (if_statement "if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" if (parenthesized_expression "(param_2 == (byte *)0x0)" ( (binary_expression "param_2 == (byte *)0x0" identifier == (cast_expression "(byte *)0x0" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }" { (expression_statement "param_3 = 1;" (assignment_expression "param_3 = 1" identifier = number_literal) ;) (expression_statement "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);" (assignment_expression "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c)" identifier = (cast_expression "(byte *)(DAT_0001cb98 + 0x1cb6c)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001cb98 + 0x1cb6c)" ( (binary_expression "DAT_0001cb98 + 0x1cb6c" identifier + number_literal) )))) ;) (labeled_statement "LAB_0001cb68:\n param_1 = &wStack_20;" statement_identifier : (expression_statement "param_1 = &wStack_20;" (assignment_expression "param_1 = &wStack_20" identifier = (pointer_expression "&wStack_20" & identifier)) ;)) }) (else_clause "else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" else (compound_statement "{\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" { (if_statement "if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" if (parenthesized_expression "(param_3 == 0)" ( (binary_expression "param_3 == 0" identifier == number_literal) )) (compound_statement "{\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" { (expression_statement "sVar3 = 0xfffffffe;" (assignment_expression "sVar3 = 0xfffffffe" identifier = number_literal) ;) (goto_statement "goto LAB_0001cb40;" goto statement_identifier ;) })) (if_statement "if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;" if (parenthesized_expression "(param_1 == (wchar_t *)0x0)" ( (binary_expression "param_1 == (wchar_t *)0x0" identifier == (cast_expression "(wchar_t *)0x0" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001cb68;" goto statement_identifier ;)) }))) (expression_statement "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);" (assignment_expression "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4)" identifier = (call_expression "mbrtowc(param_1,(char *)param_2,param_3,param_4)" identifier (argument_list "(param_1,(char *)param_2,param_3,param_4)" ( identifier , (cast_expression "(char *)param_2" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier) , identifier , identifier )))) ;) (if_statement "if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" if (parenthesized_expression "((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0))" ( (binary_expression "(0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)" (parenthesized_expression "(0xfffffffd < sVar3)" ( (binary_expression "0xfffffffd < sVar3" number_literal < identifier) )) && (parenthesized_expression "(iVar1 = FUN_0001cf28(0), iVar1 == 0)" ( (comma_expression "iVar1 = FUN_0001cf28(0), iVar1 == 0" (assignment_expression "iVar1 = FUN_0001cf28(0)" identifier = (call_expression "FUN_0001cf28(0)" identifier (argument_list "(0)" ( number_literal )))) , (binary_expression "iVar1 == 0" identifier == number_literal)) ))) )) (compound_statement "{\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" { (expression_statement "*param_1 = (uint)*param_2;" (assignment_expression "*param_1 = (uint)*param_2" (pointer_expression "*param_1" * identifier) = (binary_expression "(uint)*param_2" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (expression_statement "sVar3 = 1;" (assignment_expression "sVar3 = 1" identifier = number_literal) ;) })) (labeled_statement "LAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }" statement_identifier : (if_statement "if (local_1c == *piVar2) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar2)" ( (binary_expression "local_1c == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) }))) comment (expression_statement "__stack_chk_fail(sVar3);" (call_expression "__stack_chk_fail(sVar3)" identifier (argument_list "(sVar3)" ( identifier ))) ;) })))
|
(translation_unit "size_t rpl_mbrtowc(wchar_t *pwc,char *s,size_t n,mbstate_t *ps)\n\n{\n _Bool _Var1;\n int *piVar2;\n size_t sVar3;\n wchar_t wc;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (s == (char *)0x0) {\n n = 1;\n s = (char *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n pwc = &wc;\n }\n else {\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps);\n if ((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)) {\n *pwc = (uint)(byte)*s;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return sVar3;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}\n\n" (function_definition "size_t rpl_mbrtowc(wchar_t *pwc,char *s,size_t n,mbstate_t *ps)\n\n{\n _Bool _Var1;\n int *piVar2;\n size_t sVar3;\n wchar_t wc;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (s == (char *)0x0) {\n n = 1;\n s = (char *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n pwc = &wc;\n }\n else {\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps);\n if ((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)) {\n *pwc = (uint)(byte)*s;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return sVar3;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" primitive_type (function_declarator "rpl_mbrtowc(wchar_t *pwc,char *s,size_t n,mbstate_t *ps)" identifier (parameter_list "(wchar_t *pwc,char *s,size_t n,mbstate_t *ps)" ( (parameter_declaration "wchar_t *pwc" type_identifier (pointer_declarator "*pwc" * identifier)) , (parameter_declaration "char *s" primitive_type (pointer_declarator "*s" * identifier)) , (parameter_declaration "size_t n" primitive_type identifier) , (parameter_declaration "mbstate_t *ps" type_identifier (pointer_declarator "*ps" * identifier)) ))) (compound_statement "{\n _Bool _Var1;\n int *piVar2;\n size_t sVar3;\n wchar_t wc;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (s == (char *)0x0) {\n n = 1;\n s = (char *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n pwc = &wc;\n }\n else {\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps);\n if ((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)) {\n *pwc = (uint)(byte)*s;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return sVar3;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail();\n}" { (declaration "_Bool _Var1;" type_identifier identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "size_t sVar3;" primitive_type identifier ;) (declaration "wchar_t wc;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);" (assignment_expression "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" identifier = (pointer_expression "*(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" * (cast_expression "(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (binary_expression "DAT_0001cb90 + 0x1caf8 + DAT_0001cb94" (binary_expression "DAT_0001cb90 + 0x1caf8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (if_statement "if (s == (char *)0x0) {\n n = 1;\n s = (char *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n pwc = &wc;\n }\n else {\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }" if (parenthesized_expression "(s == (char *)0x0)" ( (binary_expression "s == (char *)0x0" identifier == (cast_expression "(char *)0x0" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n n = 1;\n s = (char *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n pwc = &wc;\n }" { (expression_statement "n = 1;" (assignment_expression "n = 1" identifier = number_literal) ;) (expression_statement "s = (char *)(DAT_0001cb98 + 0x1cb6c);" (assignment_expression "s = (char *)(DAT_0001cb98 + 0x1cb6c)" identifier = (cast_expression "(char *)(DAT_0001cb98 + 0x1cb6c)" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001cb98 + 0x1cb6c)" ( (binary_expression "DAT_0001cb98 + 0x1cb6c" identifier + number_literal) )))) ;) (labeled_statement "LAB_0001cb68:\n pwc = &wc;" statement_identifier : (expression_statement "pwc = &wc;" (assignment_expression "pwc = &wc" identifier = (pointer_expression "&wc" & identifier)) ;)) }) (else_clause "else {\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }" else (compound_statement "{\n if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;\n }" { (if_statement "if (n == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" if (parenthesized_expression "(n == 0)" ( (binary_expression "n == 0" identifier == number_literal) )) (compound_statement "{\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" { (expression_statement "sVar3 = 0xfffffffe;" (assignment_expression "sVar3 = 0xfffffffe" identifier = number_literal) ;) (goto_statement "goto LAB_0001cb40;" goto statement_identifier ;) })) (if_statement "if (pwc == (wchar_t *)0x0) goto LAB_0001cb68;" if (parenthesized_expression "(pwc == (wchar_t *)0x0)" ( (binary_expression "pwc == (wchar_t *)0x0" identifier == (cast_expression "(wchar_t *)0x0" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001cb68;" goto statement_identifier ;)) }))) (expression_statement "sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps);" (assignment_expression "sVar3 = mbrtowc(pwc,s,n,(mbstate_t *)ps)" identifier = (call_expression "mbrtowc(pwc,s,n,(mbstate_t *)ps)" identifier (argument_list "(pwc,s,n,(mbstate_t *)ps)" ( identifier , identifier , identifier , (cast_expression "(mbstate_t *)ps" ( (type_descriptor "mbstate_t *" type_identifier (abstract_pointer_declarator "*" *)) ) identifier) )))) ;) (if_statement "if ((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)) {\n *pwc = (uint)(byte)*s;\n sVar3 = 1;\n }" if (parenthesized_expression "((0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1))" ( (binary_expression "(0xfffffffd < sVar3) && (_Var1 = hard_locale(0), !_Var1)" (parenthesized_expression "(0xfffffffd < sVar3)" ( (binary_expression "0xfffffffd < sVar3" number_literal < identifier) )) && (parenthesized_expression "(_Var1 = hard_locale(0), !_Var1)" ( (comma_expression "_Var1 = hard_locale(0), !_Var1" (assignment_expression "_Var1 = hard_locale(0)" identifier = (call_expression "hard_locale(0)" identifier (argument_list "(0)" ( number_literal )))) , (unary_expression "!_Var1" ! identifier)) ))) )) (compound_statement "{\n *pwc = (uint)(byte)*s;\n sVar3 = 1;\n }" { (expression_statement "*pwc = (uint)(byte)*s;" (assignment_expression "*pwc = (uint)(byte)*s" (pointer_expression "*pwc" * identifier) = (binary_expression "(uint)(byte)*s" (call_expression "(uint)(byte)" (parenthesized_expression "(uint)" ( identifier )) (argument_list "(byte)" ( identifier ))) * identifier)) ;) (expression_statement "sVar3 = 1;" (assignment_expression "sVar3 = 1" identifier = number_literal) ;) })) (labeled_statement "LAB_0001cb40:\n if (local_1c == *piVar2) {\n return sVar3;\n }" statement_identifier : (if_statement "if (local_1c == *piVar2) {\n return sVar3;\n }" if (parenthesized_expression "(local_1c == *piVar2)" ( (binary_expression "local_1c == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return sVar3;\n }" { (return_statement "return sVar3;" return identifier ;) }))) comment (expression_statement "__stack_chk_fail();" (call_expression "__stack_chk_fail()" identifier (argument_list "()" ( ))) ;) })))
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(translation_unit "void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)\n\n{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}\n\n" (function_definition "void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)\n\n{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" primitive_type (function_declarator "FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" identifier (parameter_list "(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" ( (parameter_declaration "wchar_t *param_1" type_identifier (pointer_declarator "*param_1" * identifier)) , (parameter_declaration "byte *param_2" type_identifier (pointer_declarator "*param_2" * identifier)) , (parameter_declaration "size_t param_3" primitive_type identifier) , (parameter_declaration "mbstate_t *param_4" type_identifier (pointer_declarator "*param_4" * identifier)) ))) (compound_statement "{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" { (declaration "int iVar1;" primitive_type identifier ;) (declaration "int *piVar2;" primitive_type (pointer_declarator "*piVar2" * identifier) ;) (declaration "size_t sVar3;" primitive_type identifier ;) (declaration "wchar_t wStack_20;" type_identifier identifier ;) (declaration "int local_1c;" primitive_type identifier ;) (expression_statement "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);" (assignment_expression "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" identifier = (pointer_expression "*(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" * (cast_expression "(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (type_descriptor "int **" primitive_type (abstract_pointer_declarator "**" * (abstract_pointer_declarator "*" *))) ) (parenthesized_expression "(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" ( (binary_expression "DAT_0001cb90 + 0x1caf8 + DAT_0001cb94" (binary_expression "DAT_0001cb90 + 0x1caf8" identifier + number_literal) + identifier) ))))) ;) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" identifier = (pointer_expression "*piVar2" * identifier)) ;) (if_statement "if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" if (parenthesized_expression "(param_2 == (byte *)0x0)" ( (binary_expression "param_2 == (byte *)0x0" identifier == (cast_expression "(byte *)0x0" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (compound_statement "{\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }" { (expression_statement "param_3 = 1;" (assignment_expression "param_3 = 1" identifier = number_literal) ;) (expression_statement "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);" (assignment_expression "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c)" identifier = (cast_expression "(byte *)(DAT_0001cb98 + 0x1cb6c)" ( (type_descriptor "byte *" type_identifier (abstract_pointer_declarator "*" *)) ) (parenthesized_expression "(DAT_0001cb98 + 0x1cb6c)" ( (binary_expression "DAT_0001cb98 + 0x1cb6c" identifier + number_literal) )))) ;) (labeled_statement "LAB_0001cb68:\n param_1 = &wStack_20;" statement_identifier : (expression_statement "param_1 = &wStack_20;" (assignment_expression "param_1 = &wStack_20" identifier = (pointer_expression "&wStack_20" & identifier)) ;)) }) (else_clause "else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" else (compound_statement "{\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" { (if_statement "if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" if (parenthesized_expression "(param_3 == 0)" ( (binary_expression "param_3 == 0" identifier == number_literal) )) (compound_statement "{\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" { (expression_statement "sVar3 = 0xfffffffe;" (assignment_expression "sVar3 = 0xfffffffe" identifier = number_literal) ;) (goto_statement "goto LAB_0001cb40;" goto statement_identifier ;) })) (if_statement "if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;" if (parenthesized_expression "(param_1 == (wchar_t *)0x0)" ( (binary_expression "param_1 == (wchar_t *)0x0" identifier == (cast_expression "(wchar_t *)0x0" ( (type_descriptor "wchar_t *" type_identifier (abstract_pointer_declarator "*" *)) ) number_literal)) )) (goto_statement "goto LAB_0001cb68;" goto statement_identifier ;)) }))) (expression_statement "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);" (assignment_expression "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4)" identifier = (call_expression "mbrtowc(param_1,(char *)param_2,param_3,param_4)" identifier (argument_list "(param_1,(char *)param_2,param_3,param_4)" ( identifier , (cast_expression "(char *)param_2" ( (type_descriptor "char *" primitive_type (abstract_pointer_declarator "*" *)) ) identifier) , identifier , identifier )))) ;) (if_statement "if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" if (parenthesized_expression "((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0))" ( (binary_expression "(0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)" (parenthesized_expression "(0xfffffffd < sVar3)" ( (binary_expression "0xfffffffd < sVar3" number_literal < identifier) )) && (parenthesized_expression "(iVar1 = FUN_0001cf28(0), iVar1 == 0)" ( (comma_expression "iVar1 = FUN_0001cf28(0), iVar1 == 0" (assignment_expression "iVar1 = FUN_0001cf28(0)" identifier = (call_expression "FUN_0001cf28(0)" identifier (argument_list "(0)" ( number_literal )))) , (binary_expression "iVar1 == 0" identifier == number_literal)) ))) )) (compound_statement "{\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" { (expression_statement "*param_1 = (uint)*param_2;" (assignment_expression "*param_1 = (uint)*param_2" (pointer_expression "*param_1" * identifier) = (binary_expression "(uint)*param_2" (parenthesized_expression "(uint)" ( identifier )) * identifier)) ;) (expression_statement "sVar3 = 1;" (assignment_expression "sVar3 = 1" identifier = number_literal) ;) })) (labeled_statement "LAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }" statement_identifier : (if_statement "if (local_1c == *piVar2) {\n return;\n }" if (parenthesized_expression "(local_1c == *piVar2)" ( (binary_expression "local_1c == *piVar2" identifier == (pointer_expression "*piVar2" * identifier)) )) (compound_statement "{\n return;\n }" { (return_statement "return;" return ;) }))) comment (expression_statement "__stack_chk_fail(sVar3);" (call_expression "__stack_chk_fail(sVar3)" identifier (argument_list "(sVar3)" ( identifier ))) ;) })))
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(translation_unit (function_definition TYPE (function_declarator IDENT (parameter_list ( (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE (pointer_declarator * IDENT)) , (parameter_declaration TYPE IDENT) , (parameter_declaration TYPE (pointer_declarator * IDENT)) ))) (compound_statement { (declaration TYPE IDENT ;) (declaration TYPE (pointer_declarator * IDENT) ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (declaration TYPE IDENT ;) (expression_statement (assignment_expression IDENT = (pointer_expression * (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator * (abstract_pointer_declarator *))) ) (parenthesized_expression ( (binary_expression (binary_expression IDENT + LIT) + IDENT) ))))) ;) (expression_statement (assignment_expression IDENT = (pointer_expression * IDENT)) ;) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (expression_statement (assignment_expression IDENT = (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) (parenthesized_expression ( (binary_expression IDENT + LIT) )))) ;) (labeled_statement statement_identifier : (expression_statement (assignment_expression IDENT = (pointer_expression & IDENT)) ;)) }) (else_clause else (compound_statement { (if_statement if (parenthesized_expression ( (binary_expression IDENT == LIT) )) (compound_statement { (expression_statement (assignment_expression IDENT = LIT) ;) (goto_statement goto statement_identifier ;) })) (if_statement if (parenthesized_expression ( (binary_expression IDENT == (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) LIT)) )) (goto_statement goto statement_identifier ;)) }))) (expression_statement (assignment_expression IDENT = (call_expression IDENT (argument_list ( IDENT , (cast_expression ( (type_descriptor TYPE (abstract_pointer_declarator *)) ) IDENT) , IDENT , IDENT )))) ;) (if_statement if (parenthesized_expression ( (binary_expression (parenthesized_expression ( (binary_expression LIT < IDENT) )) && (parenthesized_expression ( (comma_expression (assignment_expression IDENT = (call_expression IDENT (argument_list ( LIT )))) , (binary_expression IDENT == LIT)) ))) )) (compound_statement { (expression_statement (assignment_expression (pointer_expression * IDENT) = (binary_expression (parenthesized_expression ( IDENT )) * IDENT)) ;) (expression_statement (assignment_expression IDENT = LIT) ;) })) (labeled_statement statement_identifier : (if_statement if (parenthesized_expression ( (binary_expression IDENT == (pointer_expression * IDENT)) )) (compound_statement { (return_statement return ;) }))) comment (expression_statement (call_expression IDENT (argument_list ( IDENT ))) ;) })))
|
(function_definition "void FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)\n\n{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" (primitive_type "void") (function_declarator "FUN_0001cae4(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" (identifier "FUN_0001cae4") (parameter_list "(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)" (( "(") (parameter_declaration "wchar_t *param_1" (type_identifier "wchar_t") (pointer_declarator "*param_1" (* "*") (identifier "param_1"))) (, ",") (parameter_declaration "byte *param_2" (type_identifier "byte") (pointer_declarator "*param_2" (* "*") (identifier "param_2"))) (, ",") (parameter_declaration "size_t param_3" (primitive_type "size_t") (identifier "param_3")) (, ",") (parameter_declaration "mbstate_t *param_4" (type_identifier "mbstate_t") (pointer_declarator "*param_4" (* "*") (identifier "param_4"))) () ")"))) (compound_statement "{\n int iVar1;\n int *piVar2;\n size_t sVar3;\n wchar_t wStack_20;\n int local_1c;\n \n piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);\n local_1c = *piVar2;\n if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }\n sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);\n if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }\nLAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }\n /* WARNING: Subroutine does not return */\n __stack_chk_fail(sVar3);\n}" ({ "{") (declaration "int iVar1;" (primitive_type "int") (identifier "iVar1") (; ";")) (declaration "int *piVar2;" (primitive_type "int") (pointer_declarator "*piVar2" (* "*") (identifier "piVar2")) (; ";")) (declaration "size_t sVar3;" (primitive_type "size_t") (identifier "sVar3") (; ";")) (declaration "wchar_t wStack_20;" (type_identifier "wchar_t") (identifier "wStack_20") (; ";")) (declaration "int local_1c;" (primitive_type "int") (identifier "local_1c") (; ";")) (expression_statement "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);" (assignment_expression "piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" (identifier "piVar2") (= "=") (pointer_expression "*(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" (* "*") (cast_expression "(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" (( "(") (type_descriptor "int **" (primitive_type "int") (abstract_pointer_declarator "**" (* "*") (abstract_pointer_declarator "*" (* "*")))) () ")") (parenthesized_expression "(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94)" (( "(") (binary_expression "DAT_0001cb90 + 0x1caf8 + DAT_0001cb94" (binary_expression "DAT_0001cb90 + 0x1caf8" (identifier "DAT_0001cb90") (+ "+") (number_literal "0x1caf8")) (+ "+") (identifier "DAT_0001cb94")) () ")"))))) (; ";")) (expression_statement "local_1c = *piVar2;" (assignment_expression "local_1c = *piVar2" (identifier "local_1c") (= "=") (pointer_expression "*piVar2" (* "*") (identifier "piVar2"))) (; ";")) (if_statement "if (param_2 == (byte *)0x0) {\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }\n else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" (if "if") (parenthesized_expression "(param_2 == (byte *)0x0)" (( "(") (binary_expression "param_2 == (byte *)0x0" (identifier "param_2") (== "==") (cast_expression "(byte *)0x0" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (compound_statement "{\n param_3 = 1;\n param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);\nLAB_0001cb68:\n param_1 = &wStack_20;\n }" ({ "{") (expression_statement "param_3 = 1;" (assignment_expression "param_3 = 1" (identifier "param_3") (= "=") (number_literal "1")) (; ";")) (expression_statement "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);" (assignment_expression "param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c)" (identifier "param_2") (= "=") (cast_expression "(byte *)(DAT_0001cb98 + 0x1cb6c)" (( "(") (type_descriptor "byte *" (type_identifier "byte") (abstract_pointer_declarator "*" (* "*"))) () ")") (parenthesized_expression "(DAT_0001cb98 + 0x1cb6c)" (( "(") (binary_expression "DAT_0001cb98 + 0x1cb6c" (identifier "DAT_0001cb98") (+ "+") (number_literal "0x1cb6c")) () ")")))) (; ";")) (labeled_statement "LAB_0001cb68:\n param_1 = &wStack_20;" (statement_identifier "LAB_0001cb68") (: ":") (expression_statement "param_1 = &wStack_20;" (assignment_expression "param_1 = &wStack_20" (identifier "param_1") (= "=") (pointer_expression "&wStack_20" (& "&") (identifier "wStack_20"))) (; ";"))) (} "}")) (else_clause "else {\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" (else "else") (compound_statement "{\n if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }\n if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;\n }" ({ "{") (if_statement "if (param_3 == 0) {\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" (if "if") (parenthesized_expression "(param_3 == 0)" (( "(") (binary_expression "param_3 == 0" (identifier "param_3") (== "==") (number_literal "0")) () ")")) (compound_statement "{\n sVar3 = 0xfffffffe;\n goto LAB_0001cb40;\n }" ({ "{") (expression_statement "sVar3 = 0xfffffffe;" (assignment_expression "sVar3 = 0xfffffffe" (identifier "sVar3") (= "=") (number_literal "0xfffffffe")) (; ";")) (goto_statement "goto LAB_0001cb40;" (goto "goto") (statement_identifier "LAB_0001cb40") (; ";")) (} "}"))) (if_statement "if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;" (if "if") (parenthesized_expression "(param_1 == (wchar_t *)0x0)" (( "(") (binary_expression "param_1 == (wchar_t *)0x0" (identifier "param_1") (== "==") (cast_expression "(wchar_t *)0x0" (( "(") (type_descriptor "wchar_t *" (type_identifier "wchar_t") (abstract_pointer_declarator "*" (* "*"))) () ")") (number_literal "0x0"))) () ")")) (goto_statement "goto LAB_0001cb68;" (goto "goto") (statement_identifier "LAB_0001cb68") (; ";"))) (} "}")))) (expression_statement "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);" (assignment_expression "sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4)" (identifier "sVar3") (= "=") (call_expression "mbrtowc(param_1,(char *)param_2,param_3,param_4)" (identifier "mbrtowc") (argument_list "(param_1,(char *)param_2,param_3,param_4)" (( "(") (identifier "param_1") (, ",") (cast_expression "(char *)param_2" (( "(") (type_descriptor "char *" (primitive_type "char") (abstract_pointer_declarator "*" (* "*"))) () ")") (identifier "param_2")) (, ",") (identifier "param_3") (, ",") (identifier "param_4") () ")")))) (; ";")) (if_statement "if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" (if "if") (parenthesized_expression "((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0))" (( "(") (binary_expression "(0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)" (parenthesized_expression "(0xfffffffd < sVar3)" (( "(") (binary_expression "0xfffffffd < sVar3" (number_literal "0xfffffffd") (< "<") (identifier "sVar3")) () ")")) (&& "&&") (parenthesized_expression "(iVar1 = FUN_0001cf28(0), iVar1 == 0)" (( "(") (comma_expression "iVar1 = FUN_0001cf28(0), iVar1 == 0" (assignment_expression "iVar1 = FUN_0001cf28(0)" (identifier "iVar1") (= "=") (call_expression "FUN_0001cf28(0)" (identifier "FUN_0001cf28") (argument_list "(0)" (( "(") (number_literal "0") () ")")))) (, ",") (binary_expression "iVar1 == 0" (identifier "iVar1") (== "==") (number_literal "0"))) () ")"))) () ")")) (compound_statement "{\n *param_1 = (uint)*param_2;\n sVar3 = 1;\n }" ({ "{") (expression_statement "*param_1 = (uint)*param_2;" (assignment_expression "*param_1 = (uint)*param_2" (pointer_expression "*param_1" (* "*") (identifier "param_1")) (= "=") (binary_expression "(uint)*param_2" (parenthesized_expression "(uint)" (( "(") (identifier "uint") () ")")) (* "*") (identifier "param_2"))) (; ";")) (expression_statement "sVar3 = 1;" (assignment_expression "sVar3 = 1" (identifier "sVar3") (= "=") (number_literal "1")) (; ";")) (} "}"))) (labeled_statement "LAB_0001cb40:\n if (local_1c == *piVar2) {\n return;\n }" (statement_identifier "LAB_0001cb40") (: ":") (if_statement "if (local_1c == *piVar2) {\n return;\n }" (if "if") (parenthesized_expression "(local_1c == *piVar2)" (( "(") (binary_expression "local_1c == *piVar2" (identifier "local_1c") (== "==") (pointer_expression "*piVar2" (* "*") (identifier "piVar2"))) () ")")) (compound_statement "{\n return;\n }" ({ "{") (return_statement "return;" (return "return") (; ";")) (} "}")))) (comment "/* WARNING: Subroutine does not return */") (expression_statement "__stack_chk_fail(sVar3);" (call_expression "__stack_chk_fail(sVar3)" (identifier "__stack_chk_fail") (argument_list "(sVar3)" (( "(") (identifier "sVar3") () ")"))) (; ";")) (} "}")))
|
size_t function_1(type_1 *var_6,char *var_3,size_t var_5,type_2 *ps)
{
type_3 _Var1;
int *piVar2;
size_t var_8;
type_1 wc;
int var_10;
piVar2 = *(int **)(var_1 + 0x1caf8 + var_2);
var_10 = *piVar2;
if (var_3 == (char *)0x0) {
var_5 = 1;
var_3 = (char *)(var_4 + 0x1cb6c);
LAB_0001cb68:
var_6 = &wc;
}
else {
if (var_5 == 0) {
var_8 = 0xfffffffe;
goto LAB_0001cb40;
}
if (var_6 == (type_1 *)0x0) goto LAB_0001cb68;
}
var_8 = var_7(var_6,var_3,var_5,(type_2 *)ps);
if ((0xfffffffd < var_8) && (_Var1 = var_9(0), !_Var1)) {
*var_6 = (uint)(byte)*var_3;
var_8 = 1;
}
LAB_0001cb40:
if (var_10 == *piVar2) {
return var_8;
}
/* WARNING: Subroutine does not return */
var_11();
}
|
(translation_unit (function_definition type: (primitive_type) declarator: (function_declarator declarator: (identifier) parameters: (parameter_list (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))) (parameter_declaration type: (primitive_type) declarator: (identifier)) (parameter_declaration type: (type_identifier) declarator: (pointer_declarator declarator: (identifier))))) body: (compound_statement (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (primitive_type) declarator: (pointer_declarator declarator: (identifier))) (declaration type: (primitive_type) declarator: (identifier)) (declaration type: (type_identifier) declarator: (identifier)) (declaration type: (primitive_type) declarator: (identifier)) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator declarator: (abstract_pointer_declarator))) value: (parenthesized_expression (binary_expression left: (binary_expression left: (identifier) right: (number_literal)) right: (identifier))))))) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (expression_statement (assignment_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal)))))) (labeled_statement label: (statement_identifier) (expression_statement (assignment_expression left: (identifier) right: (pointer_expression argument: (identifier)))))) alternative: (else_clause (compound_statement (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (number_literal))) consequence: (compound_statement (expression_statement (assignment_expression left: (identifier) right: (number_literal))) (goto_statement label: (statement_identifier)))) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (cast_expression type: (type_descriptor type: (type_identifier) declarator: (abstract_pointer_declarator)) value: (number_literal)))) consequence: (goto_statement label: (statement_identifier)))))) (expression_statement (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (identifier) (cast_expression type: (type_descriptor type: (primitive_type) declarator: (abstract_pointer_declarator)) value: (identifier)) (identifier) (identifier))))) (if_statement condition: (parenthesized_expression (binary_expression left: (parenthesized_expression (binary_expression left: (number_literal) right: (identifier))) right: (parenthesized_expression (comma_expression left: (assignment_expression left: (identifier) right: (call_expression function: (identifier) arguments: (argument_list (number_literal)))) right: (binary_expression left: (identifier) right: (number_literal)))))) consequence: (compound_statement (expression_statement (assignment_expression left: (pointer_expression argument: (identifier)) right: (binary_expression left: (parenthesized_expression (identifier)) right: (identifier)))) (expression_statement (assignment_expression left: (identifier) right: (number_literal))))) (labeled_statement label: (statement_identifier) (if_statement condition: (parenthesized_expression (binary_expression left: (identifier) right: (pointer_expression argument: (identifier)))) consequence: (compound_statement (return_statement)))) (comment) (expression_statement (call_expression function: (identifier) arguments: (argument_list (identifier)))))))
|
void MASKED(wchar_t *param_1,byte *param_2,size_t param_3,mbstate_t *param_4)
{
int iVar1;
int *piVar2;
size_t sVar3;
wchar_t wStack_20;
int local_1c;
piVar2 = *(int **)(DAT_0001cb90 + 0x1caf8 + DAT_0001cb94);
local_1c = *piVar2;
if (param_2 == (byte *)0x0) {
param_3 = 1;
param_2 = (byte *)(DAT_0001cb98 + 0x1cb6c);
LAB_0001cb68:
param_1 = &wStack_20;
}
else {
if (param_3 == 0) {
sVar3 = 0xfffffffe;
goto LAB_0001cb40;
}
if (param_1 == (wchar_t *)0x0) goto LAB_0001cb68;
}
sVar3 = mbrtowc(param_1,(char *)param_2,param_3,param_4);
if ((0xfffffffd < sVar3) && (iVar1 = FUN_0001cf28(0), iVar1 == 0)) {
*param_1 = (uint)*param_2;
sVar3 = 1;
}
LAB_0001cb40:
if (local_1c == *piVar2) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail(sVar3);
}
| 15,795 |
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