ThomasTheMaker/arc-stack-c · Datasets at Hugging Face

03d4dca12d21d5a5e68fbe6d4a18ac96872e2c0f

1,569

c

C

sdi_pipeline/AIS/package/Bphot/background.c

andrewhstewart/SDI

19d52bd5e13c2128c083776712672becf8b6ab45

[ "MIT" ]

null

sdi_pipeline/AIS/package/Bphot/background.c

andrewhstewart/SDI

19d52bd5e13c2128c083776712672becf8b6ab45

[ "MIT" ]

null

sdi_pipeline/AIS/package/Bphot/background.c

andrewhstewart/SDI

19d52bd5e13c2128c083776712672becf8b6ab45

[ "MIT" ]

1

2020-06-02T15:33:34.000Z

#include<stdio.h> #include<math.h> #include<malloc.h> #include<stdlib.h> #include "types.h" void init_bg(double rad1,double rad2) { int i,j,k,rad,r1,r2; bg_edge=(int)ceil(rad2); r1=rad1*rad1; r2=rad2*rad2; k=0; if(!(bg_list=(int *)malloc((2*bg_edge+1)*(2*bg_edge+1)*sizeof(int)))) printf("Malloc error at init_bg\n"); for(i=-bg_edge;i<=bg_edge;i++) for(j=-bg_edge;j<=bg_edge;j++) { rad=i*i+j*j; if(rad>r1 && rad<r2) bg_list[k++]=i+width*j; } if(!(bg_temp=(DATA_TYPE *)malloc(k*sizeof(DATA_TYPE)))) printf("Malloc error at init_bg\n"); if(!(bg_index=(int *)malloc(k*sizeof(int)))) printf("Malloc error at init_bg\n"); nbg=k; printf("nbg: %i %i\n", nbg, bg_edge); return; } double background(int x,int y,DATA_TYPE *image,double *sigma) { double bg,moy,sig,moy2,sigma2; int i,j,n,offset,ix,iy,off,count,count0; offset=x+y*width; if(x>=bg_edge && x<width-bg_edge && y>=bg_edge && y<height-bg_edge) { for(i=0;i<nbg;i++) bg_temp[i]=image[bg_list[i]+offset]; n=nbg; quick_sort(bg_temp, bg_index, n); bg=bg_temp[bg_index[n/2]]; *sigma=0.0; for(i=0;i<nbg;i++) *sigma += bg_temp[i]/ADU_EL; *sigma=sqrt(*sigma/(double)nbg); } else { n=0; for(i=0;i<nbg;i++) { off=bg_list[i]+offset; iy=off/width; ix=off-iy*width; if(ix>=bg_edge && ix<width-bg_edge && iy>=bg_edge && iy<height-bg_edge) bg_temp[n++]=image[off]; } if(n>1) { quick_sort(bg_temp, bg_index, n); bg=bg_temp[bg_index[n/2]]; } else bg=0.0; *sigma=0.0; } return bg; }

17.241758

74

0.604844

03d54ecab28bed26a463c075b4955b4f8ffcc28a

884

h

C

src/history.h

fairhopeweb/glate

e0c6fd9253d565ea9f81c51e2026281bd5c73964

[ "MIT" ]

46

2020-03-31T19:13:59.000Z

2022-03-26T16:27:10.000Z

src/history.h

guyluz11/glate

f2c7182ba6d8e9f846de6aa519ef09afef64c454

[ "MIT" ]

9

2020-05-29T09:07:03.000Z

2021-07-07T06:15:16.000Z

src/history.h

guyluz11/glate

f2c7182ba6d8e9f846de6aa519ef09afef64c454

[ "MIT" ]

7

2020-05-02T00:54:34.000Z

2021-06-30T05:55:38.000Z

#ifndef HISTORY_H #define HISTORY_H #include <QWidget> #include <QJsonDocument> #include <QJsonObject> #include <QJsonArray> #include "ui_history_item.h" namespace Ui { class History; } class History : public QWidget { Q_OBJECT public: explicit History(QWidget *parent = nullptr); ~History(); signals: void historyItemMeta(QStringList historyItemMeta); void setTranslationId(QString transId); public slots: void loadHistory(); void save(QStringList meta, QString translationId); void insertItem(QStringList meta, bool fromHistory, QString translationId); void loadHistoryItem(QString itemPath); private slots: void on_clearall_clicked(); QJsonDocument loadJson(QString fileName); void saveJson(QJsonDocument document, QString fileName); private: Ui::History *ui; Ui::history_item history_item_ui; }; #endif // HISTORY_H

21.047619

79

0.745475

03d7824c27941f7f918a38064d341fc86a575faa

1,270

c

C

FlightController Project/Pixhawk4_mini/FlightControllerDrivers/Pixhawk4 mini Config/src/SensorsDrivers.c

UCSD-Quadcopter/TheoryAndPractice

6024a52be08f90c84d7ff41244715c612e250bd9

[ "MIT" ]

null

FlightController Project/Pixhawk4_mini/FlightControllerDrivers/Pixhawk4 mini Config/src/SensorsDrivers.c

UCSD-Quadcopter/TheoryAndPractice

6024a52be08f90c84d7ff41244715c612e250bd9

[ "MIT" ]

null

FlightController Project/Pixhawk4_mini/FlightControllerDrivers/Pixhawk4 mini Config/src/SensorsDrivers.c

UCSD-Quadcopter/TheoryAndPractice

6024a52be08f90c84d7ff41244715c612e250bd9

[ "MIT" ]

2

2019-04-11T18:34:40.000Z

2019-11-17T09:28:20.000Z

/* * SensorsDrivers.c * * Created on: Mar 4, 2019 * Author: zhang */ #include "SensorsDrivers.h" extern SPI_HandleTypeDef hspi1; SPI spi1_mem; SPI* spi1; ICM20689 IMU1_mem; ICM20689* IMU1; GPIO IMU1_CS_mem; GPIO* IMU1_CS; volatile uint8_t IMU1_INT_EN = False; /*==============================ICM20689===============================*/ /* volatile uint8_t isIMU1_DataReady(void) { return IMU1->isDataReady; }*/ ICM20689* getIMU1(void) { //spiBeginDevice(IMU1->CS); ICM20689_getAccel(IMU1); ICM20689_getGyro(IMU1); //IMU1->isDataReady = NotReady; //spiEndDevice(IMU1->CS); return IMU1; } /* void IMU1_ISR(void) { if(IMU1_INT_EN == False) return; if(ICM20689_clearINT_STATUS(IMU1)) { IMU1->timeStamp = micros(); IMU1->isDataReady = Ready; } }*/ /*=====================================================================*/ void initSensors() { uint8_t init_status; spi1 = newSPI(&spi1_mem, &hspi1); //init ICM20689 IMU1_CS = newGPIO(&IMU1_CS_mem, ICM20689_CS_GPIO_Port, ICM20689_CS_Pin); IMU1 = newICM20689(&IMU1_mem, spi1, IMU1_CS); init_status = initICM20689(IMU1, ICM20689_GYRO_2000dps, ICM20689_ACC_8g); printf_u("\rinit_status = %s\r\n", init_status == Succeeded ? "Succeeded" : "Failed"); //IMU1_INT_EN = True; }

17.39726

87

0.629134

03d8c4386877e9ec206b7510d228adab65e09d05

631,754

c

C

stage0/stdlib/Lean/Server/Completion.c

javra/lean4

4ac88d0eb8c2bf67e432fe0a5980661d0841c7f5

[ "Apache-2.0" ]

null

stage0/stdlib/Lean/Server/Completion.c

javra/lean4

4ac88d0eb8c2bf67e432fe0a5980661d0841c7f5

[ "Apache-2.0" ]

null

stage0/stdlib/Lean/Server/Completion.c

javra/lean4

4ac88d0eb8c2bf67e432fe0a5980661d0841c7f5

[ "Apache-2.0" ]

null

// Lean compiler output // Module: Lean.Server.Completion // Imports: Init Lean.Environment Lean.Parser.Term Lean.Data.FuzzyMatching Lean.Data.Lsp.LanguageFeatures Lean.Data.Lsp.Capabilities Lean.Data.Lsp.Utf16 Lean.Meta.Tactic.Apply Lean.Meta.Match.MatcherInfo Lean.Server.InfoUtils Lean.Parser.Extension #include <lean/lean.h> #if defined(__clang__) #pragma clang diagnostic ignored "-Wunused-parameter" #pragma clang diagnostic ignored "-Wunused-label" #elif defined(__GNUC__) && !defined(__CLANG__) #pragma GCC diagnostic ignored "-Wunused-parameter" #pragma GCC diagnostic ignored "-Wunused-label" #pragma GCC diagnostic ignored "-Wunused-but-set-variable" #endif #ifdef __cplusplus extern "C" { #endif LEAN_EXPORT uint8_t l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__16(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__4; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); size_t lean_usize_add(size_t, size_t); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__14(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix(lean_object*); LEAN_EXPORT lean_object* l_Lean_withoutModifyingState___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___spec__1___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___spec__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_erase_macro_scopes(lean_object*); lean_object* l_Lean_stringToMessageData(lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__1(uint8_t, lean_object*, lean_object*, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static double l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_mk_empty_array_with_capacity(lean_object*); lean_object* lean_nat_div(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Std_RBNode_insert___at_Lean_NameSet_insert___spec__1(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__8(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces_visitNamespaces(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_LocalDecl_userName(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__8(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__2; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_name_mk_string(lean_object*, lean_object*); uint8_t lean_usize_dec_eq(size_t, size_t); LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_array_uget(lean_object*, size_t); LEAN_EXPORT lean_object* l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__3(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___closed__1; LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Expr_isProp(lean_object*); LEAN_EXPORT lean_object* l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Array_append___rarg(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_noConfusionExt; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__5; lean_object* lean_nat_log2(lean_object*); extern lean_object* l_Std_Format_defWidth; lean_object* l_Lean_Elab_Info_occursBefore_x3f(lean_object*, lean_object*); uint8_t l_Lean_Elab_Info_isSmaller(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___boxed(lean_object*, lean_object*); double lean_float_of_nat(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion(lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__1; lean_object* lean_array_uset(lean_object*, size_t, lean_object*); lean_object* l_Lean_Meta_getExpectedNumArgs(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_forallTelescopeReducing___at_Lean_Meta_getParamNames___spec__2___rarg(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__5(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_saveState___rarg(lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_State_itemsOther___default; LEAN_EXPORT lean_object* l_Lean_throwError___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__4(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__10(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_ConstantInfo_isInductive(lean_object*); lean_object* lean_environment_find(lean_object*, lean_object*); lean_object* l_Lean_Meta_ppExpr(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_Parser_parserExtension; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__4(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17(lean_object*, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__27(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_st_ref_get(lean_object*, lean_object*); uint8_t lean_name_eq(lean_object*, lean_object*); lean_object* lean_private_to_user_name(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__4(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_instInhabitedNat; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_isProjectionFn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__7; lean_object* l_Lean_getOptionDecls(lean_object*); lean_object* lean_expr_instantiate1(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_float_beq(double, double); lean_object* lean_array_push(lean_object*, lean_object*); lean_object* lean_array_get_size(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__3; lean_object* lean_string_append(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem___closed__1; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__9; extern lean_object* l_Lean_Lsp_instInhabitedCompletionItem; uint8_t l_Lean_Name_isPrefixOf(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2___boxed(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__14(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_string_utf8_extract(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39(lean_object*, lean_object*, lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completionBlackListExt; lean_object* l_Lean_Meta_unfoldDefinition_x3f(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__4; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__6(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Array_qpartition_loop___rarg(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2___closed__1; static lean_object* l_Lean_Server_Completion_completeNamespaces___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__30(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__4(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_usize_dec_lt(size_t, size_t); uint8_t l_Lean_isPrivateName(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__8; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__11; LEAN_EXPORT lean_object* l_Std_AssocList_forM___at_Lean_Server_Completion_completeNamespaces___spec__3(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_nat_add(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__1; extern lean_object* l_Lean_Parser_instInhabitedParserCategory; static lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; lean_object* l_Lean_FileMap_utf8PosToLspPos(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40(lean_object*, lean_object*, lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); double l_Float_ofBinaryScientific(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM___boxed(lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_Server_Completion_matchNamespace___closed__1; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM___closed__1; LEAN_EXPORT lean_object* l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2(size_t, size_t, lean_object*); lean_object* l_Lean_Syntax_getSubstring_x3f(lean_object*, uint8_t, uint8_t); uint8_t l_Lean_Elab_Info_isCompletion(lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__2; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3(lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__2; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f_choose___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__1; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_array_fget(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18(lean_object*, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Parser_Trie_findPrefix___rarg(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f___boxed__const__1; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__5; lean_object* l___private_Lean_Meta_Basic_0__Lean_Meta_forallMetaTelescopeReducingAux(lean_object*, uint8_t, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_st_ref_take(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_int_mul(lean_object*, lean_object*); extern lean_object* l_instInhabitedFloat; lean_object* lean_nat_sub(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_float_decLt(double, double); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__4; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_array_swap(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_Parser_ParserExtension_instInhabitedState; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6(lean_object*, lean_object*, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_NameSSet_instInhabitedNameSSet; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__3; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__31(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__8; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__1; LEAN_EXPORT lean_object* l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1(lean_object*, lean_object*, uint8_t, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Name_toString(lean_object*, uint8_t); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_instInhabitedProjectionFunctionInfo; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__13(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_array_get(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Expr_fvarId_x21(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__15(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2___boxed__const__1; LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35(lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_isEnumType___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__2___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Name_isInternal(lean_object*); LEAN_EXPORT lean_object* l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__19(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__6; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem___closed__3; lean_object* l_Lean_ConstantInfo_name(lean_object*); LEAN_EXPORT lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__1; LEAN_EXPORT lean_object* l_Lean_Server_Completion_matchNamespace___boxed(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1(lean_object*, lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_st_mk_ref(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2___closed__4; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Syntax_getId(lean_object*); lean_object* l_Std_PersistentHashMap_find_x3f___at_Lean_Parser_getCategory___spec__1(lean_object*, lean_object*); uint8_t lean_is_matcher(lean_object*, lean_object*); lean_object* lean_format_pretty(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__9(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1(lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__11(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Std_PersistentHashMap_mkEmptyEntriesArray(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__2; lean_object* l_panic___at_String_toNat_x21___spec__1(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Name_isAtomic(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Environment_contains(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_matchNamespace___closed__1___boxed__const__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go(lean_object*, lean_object*); static lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__4; LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f_choose(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__6; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__3; LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint32_t lean_string_utf8_get(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(lean_object*, lean_object*, lean_object*, lean_object*, uint8_t, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__3; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__15(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_FileMap_toPosition(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__4; lean_object* l___private_Init_Util_0__mkPanicMessageWithDecl(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; LEAN_EXPORT lean_object* l_Lean_Server_Completion_matchNamespace(lean_object*, lean_object*, uint8_t); LEAN_EXPORT lean_object* l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__9; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Expr_isConstOf(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__7; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__8; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__2; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Expr_consumeMData(lean_object*); lean_object* l_Lean_Parser_getTokenTable(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__7(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Elab_Info_occursInside_x3f(lean_object*, lean_object*); uint8_t l_Lean_Expr_isForall(lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_whnf(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_Server_Completion_addToBlackList___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_isProjectionFn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__1___closed__1; static lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__2; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__5; uint8_t l_Lean_Expr_Data_binderInfo(uint64_t); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___boxed(lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_SavedState_restore(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); size_t lean_usize_of_nat(lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_isProjectionFn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_getExpectedNumArgsAux(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_NameSet_empty; lean_object* l_Lean_ConstantInfo_type(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__1; LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__32(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces_visitNamespaces___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__1(lean_object*); LEAN_EXPORT lean_object* l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__20(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_ScopedEnvExtension_getState___rarg(lean_object*, lean_object*, lean_object*); lean_object* l_Lean_PersistentEnvExtension_addEntry___rarg(lean_object*, lean_object*, lean_object*); extern lean_object* l_Lean_projectionFnInfoExt; lean_object* l_Lean_SimplePersistentEnvExtension_getState___rarg(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Elab_InfoTree_foldInfo___rarg(lean_object*, lean_object*, lean_object*); lean_object* lean_int_neg(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__22(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_getAllParentStructures(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__10(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_State_itemsMain___default; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__6; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_LocalDecl_type(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__1; LEAN_EXPORT lean_object* l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___boxed__const__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__3; uint8_t l_List_elem___at_Lean_NameHashSet_insert___spec__2(lean_object*, lean_object*); lean_object* l_Lean_isRec___at___private_Lean_Meta_DiscrTree_0__Lean_Meta_DiscrTree_getKeyArgs___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_withoutModifyingState___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5___boxed(lean_object*, lean_object*, lean_object*); uint8_t lean_uint32_dec_eq(uint32_t, uint32_t); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___closed__1; lean_object* l_Lean_Name_getString_x21(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__2; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1; lean_object* l_Lean_FuzzyMatching_fuzzyMatchScoreWithThreshold_x3f(lean_object*, lean_object*, double); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__5; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1___boxed(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem(lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1___rarg(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_getLocalDecl(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_ConstantInfo_isCtor(lean_object*); uint8_t lean_nat_dec_le(lean_object*, lean_object*); lean_object* l_Lean_mkPrivateName(lean_object*, lean_object*); lean_object* l_Lean_Elab_Info_tailPos_x3f(lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__3(lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Name_append(lean_object*, lean_object*); static double l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__2(lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Syntax_getRange_x3f(lean_object*, uint8_t); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Syntax_getKind(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__26(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(lean_object*); lean_object* l_Lean_findDocString_x3f(lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__7; uint8_t l_Lean_Name_isAnonymous(lean_object*); lean_object* lean_data_value_to_string(lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__6; uint8_t lean_is_aux_recursor(lean_object*, lean_object*); lean_object* l_Lean_Meta_withLocalDecl___at___private_Lean_Meta_SynthInstance_0__Lean_Meta_SynthInstance_removeUnusedArguments_x3f___spec__2___rarg(lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__3; static lean_object* l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2; static lean_object* l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__21(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_nat_shiftl(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_throwError___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__4___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Name_getPrefix(lean_object*); lean_object* lean_st_ref_set(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_nat_dec_eq(lean_object*, lean_object*); lean_object* l_Lean_addMessageContextFull___at_Lean_Meta_instAddMessageContextMetaM___spec__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion(lean_object*, lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*); extern lean_object* l_Lean_instInhabitedName; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_object* lean_infer_type(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_KVMap_findCore(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_mkTagDeclarationExtension(lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_isExprDefEq(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_searchAlias(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_panic_fn(lean_object*, lean_object*); static lean_object* l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1(lean_object*); uint8_t l_Lean_MapDeclarationExtension_contains___rarg(lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__23(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Meta_instantiateMVars(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_TagDeclarationExtension_isTagged(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l___private_Lean_Expr_0__Lean_beqBinderInfo____x40_Lean_Expr___hyg_362_(uint8_t, uint8_t); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* lean_completion_add_to_black_list(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___closed__2; static lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__2; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__6; LEAN_EXPORT lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_int_sub(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__3; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_string_length(lean_object*); static lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_List_lengthTRAux___rarg(lean_object*, lean_object*); static lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3; uint8_t l_Lean_NameSet_contains(lean_object*, lean_object*); extern lean_object* l_Lean_namespacesExt; LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_Syntax_getArg(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__7; LEAN_EXPORT lean_object* l_Lean_SMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__3___closed__1; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__5; lean_object* l_Lean_Elab_Info_pos_x3f(lean_object*); lean_object* l_Lean_Expr_getAppFn(lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem___closed__2; static lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_Lean_getAliasState(lean_object*); uint8_t l_List_isEmpty___rarg(lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__5(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__25(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__3; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_visitNamespaces(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___closed__1; lean_object* l_Lean_Elab_ContextInfo_runMetaM___rarg(lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore(lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__8___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__1; LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___lambda__1(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12(lean_object*, lean_object*, size_t, size_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__9(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_string_utf8_at_end(lean_object*, lean_object*); lean_object* l_Lean_mkConst(lean_object*, lean_object*); static lean_object* l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1___closed__1; lean_object* l_Lean_Name_replacePrefix(lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM(lean_object*, lean_object*, lean_object*, lean_object*); lean_object* lean_nat_to_int(lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8_(lean_object*); LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1(lean_object*, lean_object*, lean_object*, lean_object*); uint8_t lean_is_class(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem(lean_object*, lean_object*, lean_object*, uint8_t, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); static lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__10; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_isStructure(lean_object*, lean_object*); uint8_t lean_string_dec_lt(lean_object*, lean_object*); LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate(lean_object*, lean_object*); static lean_object* l_Lean_Server_Completion_State_itemsMain___default___closed__1; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl(lean_object*, lean_object*, lean_object*, double, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__3___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__2___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_Lean_isEnumType___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__2(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); lean_object* l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(lean_object*); uint8_t lean_nat_dec_lt(lean_object*, lean_object*); static lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__4; LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___lambda__1___boxed(lean_object*, lean_object*, lean_object*, lean_object*, lean_object*, lean_object*); uint8_t l_Lean_Syntax_isIdent(lean_object*); static lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__1; static lean_object* _init_l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1() { _start: { lean_object* x_1; x_1 = lean_mk_string("blackListCompletion"); return x_1; } } static lean_object* _init_l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = lean_box(0); x_2 = l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1; x_3 = lean_name_mk_string(x_1, x_2); return x_3; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8_(lean_object* x_1) { _start: { lean_object* x_2; lean_object* x_3; x_2 = l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2; x_3 = l_Lean_mkTagDeclarationExtension(x_2, x_1); return x_3; } } static lean_object* _init_l_Lean_Server_Completion_addToBlackList___closed__1() { _start: { lean_object* x_1; x_1 = l_Lean_Server_Completion_completionBlackListExt; return x_1; } } LEAN_EXPORT lean_object* lean_completion_add_to_black_list(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; lean_object* x_4; x_3 = l_Lean_Server_Completion_addToBlackList___closed__1; x_4 = l_Lean_PersistentEnvExtension_addEntry___rarg(x_3, x_1, x_2); return x_4; } } LEAN_EXPORT lean_object* l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; uint8_t x_8; x_7 = lean_st_ref_get(x_5, x_6); x_8 = !lean_is_exclusive(x_7); if (x_8 == 0) { lean_object* x_9; lean_object* x_10; uint8_t x_11; lean_object* x_12; x_9 = lean_ctor_get(x_7, 0); x_10 = lean_ctor_get(x_9, 0); lean_inc(x_10); lean_dec(x_9); x_11 = lean_is_matcher(x_10, x_1); x_12 = lean_box(x_11); lean_ctor_set(x_7, 0, x_12); return x_7; } else { lean_object* x_13; lean_object* x_14; lean_object* x_15; uint8_t x_16; lean_object* x_17; lean_object* x_18; x_13 = lean_ctor_get(x_7, 0); x_14 = lean_ctor_get(x_7, 1); lean_inc(x_14); lean_inc(x_13); lean_dec(x_7); x_15 = lean_ctor_get(x_13, 0); lean_inc(x_15); lean_dec(x_13); x_16 = lean_is_matcher(x_15, x_1); x_17 = lean_box(x_16); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_14); return x_18; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1() { _start: { lean_object* x_1; x_1 = l_Lean_noConfusionExt; return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_41; x_7 = lean_st_ref_get(x_5, x_6); x_8 = lean_ctor_get(x_7, 0); lean_inc(x_8); x_9 = lean_ctor_get(x_7, 1); lean_inc(x_9); if (lean_is_exclusive(x_7)) { lean_ctor_release(x_7, 0); lean_ctor_release(x_7, 1); x_10 = x_7; } else { lean_dec_ref(x_7); x_10 = lean_box(0); } x_11 = lean_ctor_get(x_8, 0); lean_inc(x_11); lean_dec(x_8); x_41 = l_Lean_Name_isInternal(x_1); if (x_41 == 0) { lean_object* x_42; x_42 = lean_box(0); x_12 = x_42; goto block_40; } else { uint8_t x_43; x_43 = l_Lean_isPrivateName(x_1); if (x_43 == 0) { uint8_t x_44; lean_object* x_45; lean_object* x_46; lean_dec(x_11); lean_dec(x_10); lean_dec(x_1); x_44 = 1; x_45 = lean_box(x_44); x_46 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_46, 0, x_45); lean_ctor_set(x_46, 1, x_9); return x_46; } else { lean_object* x_47; x_47 = lean_box(0); x_12 = x_47; goto block_40; } } block_40: { uint8_t x_13; lean_dec(x_12); lean_inc(x_1); lean_inc(x_11); x_13 = lean_is_aux_recursor(x_11, x_1); if (x_13 == 0) { lean_object* x_14; uint8_t x_15; x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1; lean_inc(x_1); lean_inc(x_11); x_15 = l_Lean_TagDeclarationExtension_isTagged(x_14, x_11, x_1); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; uint8_t x_18; lean_dec(x_10); lean_inc(x_1); x_16 = l_Lean_isRec___at___private_Lean_Meta_DiscrTree_0__Lean_Meta_DiscrTree_getKeyArgs___spec__1(x_1, x_2, x_3, x_4, x_5, x_9); x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); x_18 = lean_unbox(x_17); if (x_18 == 0) { uint8_t x_19; lean_dec(x_17); x_19 = !lean_is_exclusive(x_16); if (x_19 == 0) { lean_object* x_20; lean_object* x_21; lean_object* x_22; uint8_t x_23; x_20 = lean_ctor_get(x_16, 1); x_21 = lean_ctor_get(x_16, 0); lean_dec(x_21); x_22 = l_Lean_Server_Completion_addToBlackList___closed__1; lean_inc(x_1); x_23 = l_Lean_TagDeclarationExtension_isTagged(x_22, x_11, x_1); if (x_23 == 0) { lean_object* x_24; lean_free_object(x_16); x_24 = l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1(x_1, x_2, x_3, x_4, x_5, x_20); return x_24; } else { lean_object* x_25; lean_dec(x_1); x_25 = lean_box(x_23); lean_ctor_set(x_16, 0, x_25); return x_16; } } else { lean_object* x_26; lean_object* x_27; uint8_t x_28; x_26 = lean_ctor_get(x_16, 1); lean_inc(x_26); lean_dec(x_16); x_27 = l_Lean_Server_Completion_addToBlackList___closed__1; lean_inc(x_1); x_28 = l_Lean_TagDeclarationExtension_isTagged(x_27, x_11, x_1); if (x_28 == 0) { lean_object* x_29; x_29 = l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1(x_1, x_2, x_3, x_4, x_5, x_26); return x_29; } else { lean_object* x_30; lean_object* x_31; lean_dec(x_1); x_30 = lean_box(x_28); x_31 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_31, 0, x_30); lean_ctor_set(x_31, 1, x_26); return x_31; } } } else { uint8_t x_32; lean_dec(x_11); lean_dec(x_1); x_32 = !lean_is_exclusive(x_16); if (x_32 == 0) { lean_object* x_33; x_33 = lean_ctor_get(x_16, 0); lean_dec(x_33); return x_16; } else { lean_object* x_34; lean_object* x_35; x_34 = lean_ctor_get(x_16, 1); lean_inc(x_34); lean_dec(x_16); x_35 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_35, 0, x_17); lean_ctor_set(x_35, 1, x_34); return x_35; } } } else { lean_object* x_36; lean_object* x_37; lean_dec(x_11); lean_dec(x_1); x_36 = lean_box(x_15); if (lean_is_scalar(x_10)) { x_37 = lean_alloc_ctor(0, 2, 0); } else { x_37 = x_10; } lean_ctor_set(x_37, 0, x_36); lean_ctor_set(x_37, 1, x_9); return x_37; } } else { lean_object* x_38; lean_object* x_39; lean_dec(x_11); lean_dec(x_1); x_38 = lean_box(x_13); if (lean_is_scalar(x_10)) { x_39 = lean_alloc_ctor(0, 2, 0); } else { x_39 = x_10; } lean_ctor_set(x_39, 0, x_38); lean_ctor_set(x_39, 1, x_9); return x_39; } } } } LEAN_EXPORT lean_object* l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l_Lean_Meta_isMatcher___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___spec__1(x_1, x_2, x_3, x_4, x_5, x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); return x_7; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_1, x_2, x_3, x_4, x_5, x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); return x_7; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_expr_instantiate1(x_1, x_3); lean_dec(x_3); lean_dec(x_1); x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg(x_9, x_2, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { if (lean_obj_tag(x_1) == 7) { lean_object* x_8; lean_object* x_9; lean_object* x_10; uint64_t x_11; uint8_t x_12; uint8_t x_13; uint8_t x_14; x_8 = lean_ctor_get(x_1, 0); lean_inc(x_8); x_9 = lean_ctor_get(x_1, 1); lean_inc(x_9); x_10 = lean_ctor_get(x_1, 2); lean_inc(x_10); x_11 = lean_ctor_get_uint64(x_1, sizeof(void*)*3); x_12 = (uint8_t)((x_11 << 24) >> 61); x_13 = 1; x_14 = l___private_Lean_Expr_0__Lean_beqBinderInfo____x40_Lean_Expr___hyg_362_(x_12, x_13); if (x_14 == 0) { lean_object* x_15; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); x_15 = lean_apply_6(x_2, x_1, x_3, x_4, x_5, x_6, x_7); return x_15; } else { lean_object* x_16; lean_object* x_17; lean_dec(x_1); x_16 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg___lambda__1), 8, 2); 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} else { x_62 = x_61; } lean_ctor_set(x_62, 0, x_59); lean_ctor_set(x_62, 1, x_60); return x_62; } } } else { lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; uint8_t x_68; uint8_t x_69; uint8_t x_70; uint8_t x_71; uint8_t x_72; uint8_t x_73; uint8_t x_74; uint8_t x_75; uint8_t x_76; uint8_t x_77; uint8_t x_78; uint8_t x_79; uint8_t x_80; lean_object* x_81; uint8_t x_82; lean_object* x_83; lean_object* x_84; lean_object* x_85; x_63 = lean_ctor_get(x_5, 1); x_64 = lean_ctor_get(x_5, 2); x_65 = lean_ctor_get(x_5, 3); x_66 = lean_ctor_get(x_5, 4); x_67 = lean_ctor_get(x_5, 5); lean_inc(x_67); lean_inc(x_66); lean_inc(x_65); lean_inc(x_64); lean_inc(x_63); lean_dec(x_5); x_68 = lean_ctor_get_uint8(x_16, 0); x_69 = lean_ctor_get_uint8(x_16, 1); x_70 = lean_ctor_get_uint8(x_16, 2); x_71 = lean_ctor_get_uint8(x_16, 3); x_72 = lean_ctor_get_uint8(x_16, 4); x_73 = lean_ctor_get_uint8(x_16, 6); x_74 = lean_ctor_get_uint8(x_16, 7); x_75 = lean_ctor_get_uint8(x_16, 8); x_76 = lean_ctor_get_uint8(x_16, 9); x_77 = lean_ctor_get_uint8(x_16, 10); x_78 = lean_ctor_get_uint8(x_16, 11); x_79 = lean_ctor_get_uint8(x_16, 12); x_80 = lean_ctor_get_uint8(x_16, 13); if (lean_is_exclusive(x_16)) { x_81 = x_16; } else { lean_dec_ref(x_16); x_81 = lean_box(0); } x_82 = 2; if (lean_is_scalar(x_81)) { x_83 = lean_alloc_ctor(0, 0, 14); } else { x_83 = x_81; } lean_ctor_set_uint8(x_83, 0, x_68); lean_ctor_set_uint8(x_83, 1, x_69); lean_ctor_set_uint8(x_83, 2, x_70); lean_ctor_set_uint8(x_83, 3, x_71); lean_ctor_set_uint8(x_83, 4, x_72); lean_ctor_set_uint8(x_83, 5, x_82); lean_ctor_set_uint8(x_83, 6, x_73); lean_ctor_set_uint8(x_83, 7, x_74); lean_ctor_set_uint8(x_83, 8, x_75); lean_ctor_set_uint8(x_83, 9, x_76); lean_ctor_set_uint8(x_83, 10, x_77); lean_ctor_set_uint8(x_83, 11, x_78); lean_ctor_set_uint8(x_83, 12, x_79); lean_ctor_set_uint8(x_83, 13, x_80); x_84 = lean_alloc_ctor(0, 6, 0); lean_ctor_set(x_84, 0, x_83); lean_ctor_set(x_84, 1, x_63); lean_ctor_set(x_84, 2, x_64); lean_ctor_set(x_84, 3, x_65); lean_ctor_set(x_84, 4, x_66); lean_ctor_set(x_84, 5, x_67); x_85 = l_Lean_withoutModifyingState___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___spec__1___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___spec__2(x_2, x_18, x_84, x_6, x_7, x_8, x_17); if (lean_obj_tag(x_85) == 0) { lean_object* x_86; lean_object* x_87; lean_object* x_88; lean_object* x_89; lean_object* x_90; lean_object* x_91; x_86 = lean_ctor_get(x_85, 0); lean_inc(x_86); x_87 = lean_ctor_get(x_85, 1); lean_inc(x_87); if (lean_is_exclusive(x_85)) { lean_ctor_release(x_85, 0); lean_ctor_release(x_85, 1); x_88 = x_85; } else { lean_dec_ref(x_85); x_88 = lean_box(0); } x_89 = lean_box(0); x_90 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_90, 0, x_86); lean_ctor_set(x_90, 1, x_89); if (lean_is_scalar(x_88)) { x_91 = lean_alloc_ctor(0, 2, 0); } else { x_91 = x_88; } lean_ctor_set(x_91, 0, x_90); lean_ctor_set(x_91, 1, x_87); return x_91; } else { lean_object* x_92; lean_object* x_93; lean_object* x_94; lean_object* x_95; x_92 = lean_ctor_get(x_85, 0); lean_inc(x_92); x_93 = lean_ctor_get(x_85, 1); lean_inc(x_93); if (lean_is_exclusive(x_85)) { lean_ctor_release(x_85, 0); lean_ctor_release(x_85, 1); x_94 = x_85; } else { lean_dec_ref(x_85); x_94 = lean_box(0); } if (lean_is_scalar(x_94)) { x_95 = lean_alloc_ctor(1, 2, 0); } else { x_95 = x_94; } lean_ctor_set(x_95, 0, x_92); lean_ctor_set(x_95, 1, x_93); return x_95; } } } else { uint8_t x_96; lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_2); x_96 = !lean_is_exclusive(x_13); if (x_96 == 0) { return x_13; } else { lean_object* x_97; lean_object* x_98; lean_object* x_99; x_97 = lean_ctor_get(x_13, 0); x_98 = lean_ctor_get(x_13, 1); lean_inc(x_98); lean_inc(x_97); lean_dec(x_13); x_99 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_99, 0, x_97); lean_ctor_set(x_99, 1, x_98); return x_99; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { if (lean_obj_tag(x_2) == 0) { uint8_t x_8; lean_object* x_9; lean_object* x_10; lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_8 = 1; x_9 = lean_box(x_8); x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_7); return x_10; } else { lean_object* x_11; lean_object* x_12; x_11 = lean_ctor_get(x_2, 0); lean_inc(x_11); lean_dec(x_2); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); lean_inc(x_1); x_12 = l_Lean_Meta_getExpectedNumArgsAux(x_1, x_3, x_4, x_5, x_6, x_7); if (lean_obj_tag(x_12) == 0) { lean_object* x_13; lean_object* x_14; uint8_t x_15; x_13 = lean_ctor_get(x_12, 0); lean_inc(x_13); x_14 = lean_ctor_get(x_13, 1); lean_inc(x_14); x_15 = lean_unbox(x_14); lean_dec(x_14); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; lean_object* x_18; x_16 = lean_ctor_get(x_12, 1); lean_inc(x_16); lean_dec(x_12); x_17 = lean_ctor_get(x_13, 0); lean_inc(x_17); lean_dec(x_13); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); lean_inc(x_11); x_18 = l_Lean_Meta_getExpectedNumArgs(x_11, x_3, x_4, x_5, x_6, x_16); if (lean_obj_tag(x_18) == 0) { lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; x_19 = lean_ctor_get(x_18, 0); lean_inc(x_19); x_20 = lean_ctor_get(x_18, 1); lean_inc(x_20); lean_dec(x_18); x_21 = lean_nat_sub(x_17, x_19); lean_dec(x_19); lean_dec(x_17); x_22 = lean_box(0); x_23 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1(x_1, x_11, x_21, x_22, x_3, x_4, x_5, x_6, x_20); if (lean_obj_tag(x_23) == 0) { uint8_t x_24; x_24 = !lean_is_exclusive(x_23); if (x_24 == 0) { lean_object* x_25; lean_object* x_26; x_25 = lean_ctor_get(x_23, 0); x_26 = lean_ctor_get(x_25, 0); lean_inc(x_26); lean_dec(x_25); lean_ctor_set(x_23, 0, x_26); return x_23; } else { lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; x_27 = lean_ctor_get(x_23, 0); x_28 = lean_ctor_get(x_23, 1); lean_inc(x_28); lean_inc(x_27); lean_dec(x_23); x_29 = lean_ctor_get(x_27, 0); lean_inc(x_29); lean_dec(x_27); x_30 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_30, 0, x_29); lean_ctor_set(x_30, 1, x_28); return x_30; } } else { uint8_t x_31; x_31 = !lean_is_exclusive(x_23); if (x_31 == 0) { lean_object* x_32; uint8_t x_33; lean_object* x_34; x_32 = lean_ctor_get(x_23, 0); lean_dec(x_32); x_33 = 0; x_34 = lean_box(x_33); lean_ctor_set_tag(x_23, 0); lean_ctor_set(x_23, 0, x_34); return x_23; } else { lean_object* x_35; uint8_t x_36; lean_object* x_37; lean_object* x_38; x_35 = lean_ctor_get(x_23, 1); lean_inc(x_35); lean_dec(x_23); x_36 = 0; x_37 = lean_box(x_36); x_38 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_38, 0, x_37); lean_ctor_set(x_38, 1, x_35); return x_38; } } } else { uint8_t x_39; lean_dec(x_17); lean_dec(x_11); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_39 = !lean_is_exclusive(x_18); if (x_39 == 0) { lean_object* x_40; uint8_t x_41; lean_object* x_42; x_40 = lean_ctor_get(x_18, 0); lean_dec(x_40); x_41 = 0; x_42 = lean_box(x_41); lean_ctor_set_tag(x_18, 0); lean_ctor_set(x_18, 0, x_42); return x_18; } else { lean_object* x_43; uint8_t x_44; lean_object* x_45; lean_object* x_46; x_43 = lean_ctor_get(x_18, 1); lean_inc(x_43); lean_dec(x_18); x_44 = 0; x_45 = lean_box(x_44); x_46 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_46, 0, x_45); lean_ctor_set(x_46, 1, x_43); return x_46; } } } else { lean_object* x_47; lean_object* x_48; lean_object* x_49; lean_object* x_50; x_47 = lean_ctor_get(x_12, 1); lean_inc(x_47); lean_dec(x_12); x_48 = lean_ctor_get(x_13, 0); lean_inc(x_48); lean_dec(x_13); x_49 = lean_box(0); x_50 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1(x_1, x_11, x_48, x_49, x_3, x_4, x_5, x_6, x_47); if (lean_obj_tag(x_50) == 0) { uint8_t x_51; x_51 = !lean_is_exclusive(x_50); if (x_51 == 0) { lean_object* x_52; lean_object* x_53; x_52 = lean_ctor_get(x_50, 0); x_53 = lean_ctor_get(x_52, 0); lean_inc(x_53); lean_dec(x_52); lean_ctor_set(x_50, 0, x_53); return x_50; } else { lean_object* x_54; lean_object* x_55; lean_object* x_56; lean_object* x_57; x_54 = lean_ctor_get(x_50, 0); x_55 = lean_ctor_get(x_50, 1); lean_inc(x_55); lean_inc(x_54); lean_dec(x_50); x_56 = lean_ctor_get(x_54, 0); lean_inc(x_56); lean_dec(x_54); x_57 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_57, 0, x_56); lean_ctor_set(x_57, 1, x_55); return x_57; } } else { uint8_t x_58; x_58 = !lean_is_exclusive(x_50); if (x_58 == 0) { lean_object* x_59; uint8_t x_60; lean_object* x_61; x_59 = lean_ctor_get(x_50, 0); lean_dec(x_59); x_60 = 0; x_61 = lean_box(x_60); lean_ctor_set_tag(x_50, 0); lean_ctor_set(x_50, 0, x_61); return x_50; } else { lean_object* x_62; uint8_t x_63; lean_object* x_64; lean_object* x_65; x_62 = lean_ctor_get(x_50, 1); lean_inc(x_62); lean_dec(x_50); x_63 = 0; x_64 = lean_box(x_63); x_65 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_65, 0, x_64); lean_ctor_set(x_65, 1, x_62); return x_65; } } } } else { uint8_t x_66; lean_dec(x_11); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_66 = !lean_is_exclusive(x_12); if (x_66 == 0) { lean_object* x_67; uint8_t x_68; lean_object* x_69; x_67 = lean_ctor_get(x_12, 0); lean_dec(x_67); x_68 = 0; x_69 = lean_box(x_68); lean_ctor_set_tag(x_12, 0); lean_ctor_set(x_12, 0, x_69); return x_12; } else { lean_object* x_70; uint8_t x_71; lean_object* x_72; lean_object* x_73; x_70 = lean_ctor_get(x_12, 1); lean_inc(x_70); lean_dec(x_12); x_71 = 0; x_72 = lean_box(x_71); x_73 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_73, 0, x_72); lean_ctor_set(x_73, 1, x_70); return x_73; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isTypeApplicable___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_4); return x_10; } } LEAN_EXPORT uint8_t l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; lean_object* x_4; lean_object* x_5; lean_object* x_6; double x_7; double x_8; uint8_t x_9; x_3 = lean_ctor_get(x_1, 0); lean_inc(x_3); x_4 = lean_ctor_get(x_1, 1); lean_inc(x_4); lean_dec(x_1); x_5 = lean_ctor_get(x_2, 0); lean_inc(x_5); x_6 = lean_ctor_get(x_2, 1); lean_inc(x_6); lean_dec(x_2); x_7 = lean_unbox_float(x_4); x_8 = lean_unbox_float(x_6); x_9 = lean_float_beq(x_7, x_8); if (x_9 == 0) { double x_10; double x_11; uint8_t x_12; lean_dec(x_5); lean_dec(x_3); x_10 = lean_unbox_float(x_6); lean_dec(x_6); x_11 = lean_unbox_float(x_4); lean_dec(x_4); x_12 = lean_float_decLt(x_10, x_11); return x_12; } else { lean_object* x_13; lean_object* x_14; uint8_t x_15; lean_dec(x_6); lean_dec(x_4); x_13 = lean_ctor_get(x_3, 0); lean_inc(x_13); lean_dec(x_3); x_14 = lean_ctor_get(x_5, 0); lean_inc(x_14); lean_dec(x_5); x_15 = lean_string_dec_lt(x_13, x_14); lean_dec(x_14); lean_dec(x_13); return x_15; } } } static lean_object* _init_l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1() { _start: { lean_object* x_1; x_1 = lean_alloc_closure((void*)(l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1___boxed), 2, 0); return x_1; } } LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) { _start: { lean_object* x_5; uint8_t x_14; x_14 = lean_nat_dec_lt(x_3, x_4); if (x_14 == 0) { lean_dec(x_3); lean_dec(x_1); return x_2; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_97; lean_object* x_98; lean_object* x_99; lean_object* x_100; lean_object* x_101; lean_object* x_102; double x_103; double x_104; uint8_t x_105; x_15 = lean_nat_add(x_3, x_4); x_16 = lean_unsigned_to_nat(2u); x_17 = lean_nat_div(x_15, x_16); lean_dec(x_15); lean_inc(x_1); x_97 = lean_array_get(x_1, x_2, x_17); lean_inc(x_1); x_98 = lean_array_get(x_1, x_2, x_3); x_99 = lean_ctor_get(x_97, 0); lean_inc(x_99); x_100 = lean_ctor_get(x_97, 1); lean_inc(x_100); lean_dec(x_97); x_101 = lean_ctor_get(x_98, 0); lean_inc(x_101); x_102 = lean_ctor_get(x_98, 1); lean_inc(x_102); lean_dec(x_98); x_103 = lean_unbox_float(x_100); x_104 = lean_unbox_float(x_102); x_105 = lean_float_beq(x_103, x_104); if (x_105 == 0) { double x_106; double x_107; uint8_t x_108; lean_dec(x_101); lean_dec(x_99); x_106 = lean_unbox_float(x_102); lean_dec(x_102); x_107 = lean_unbox_float(x_100); lean_dec(x_100); x_108 = lean_float_decLt(x_106, x_107); if (x_108 == 0) { x_18 = x_2; goto block_96; } else { lean_object* x_109; x_109 = lean_array_swap(x_2, x_3, x_17); x_18 = x_109; goto block_96; } } else { lean_object* x_110; lean_object* x_111; uint8_t x_112; lean_dec(x_102); lean_dec(x_100); x_110 = lean_ctor_get(x_99, 0); lean_inc(x_110); lean_dec(x_99); x_111 = lean_ctor_get(x_101, 0); lean_inc(x_111); lean_dec(x_101); x_112 = lean_string_dec_lt(x_110, x_111); lean_dec(x_111); lean_dec(x_110); if (x_112 == 0) { x_18 = x_2; goto block_96; } else { lean_object* x_113; x_113 = lean_array_swap(x_2, x_3, x_17); x_18 = x_113; goto block_96; } } block_96: { lean_object* x_19; lean_object* x_49; lean_object* x_50; lean_object* x_78; lean_object* x_79; lean_object* x_80; lean_object* x_81; lean_object* x_82; double x_83; double x_84; uint8_t x_85; lean_inc(x_1); x_49 = lean_array_get(x_1, x_18, x_4); lean_inc(x_1); x_78 = lean_array_get(x_1, x_18, x_3); x_79 = lean_ctor_get(x_49, 0); lean_inc(x_79); x_80 = lean_ctor_get(x_49, 1); lean_inc(x_80); x_81 = lean_ctor_get(x_78, 0); lean_inc(x_81); x_82 = lean_ctor_get(x_78, 1); lean_inc(x_82); lean_dec(x_78); x_83 = lean_unbox_float(x_80); x_84 = lean_unbox_float(x_82); x_85 = lean_float_beq(x_83, x_84); if (x_85 == 0) { double x_86; double x_87; uint8_t x_88; lean_dec(x_81); lean_dec(x_79); x_86 = lean_unbox_float(x_82); lean_dec(x_82); x_87 = lean_unbox_float(x_80); lean_dec(x_80); x_88 = lean_float_decLt(x_86, x_87); if (x_88 == 0) { lean_object* x_89; x_89 = lean_box(0); x_50 = x_89; goto block_77; } else { lean_object* x_90; lean_dec(x_49); x_90 = lean_box(0); x_19 = x_90; goto block_48; } } else { lean_object* x_91; lean_object* x_92; uint8_t x_93; lean_dec(x_82); lean_dec(x_80); x_91 = lean_ctor_get(x_79, 0); lean_inc(x_91); lean_dec(x_79); x_92 = lean_ctor_get(x_81, 0); lean_inc(x_92); lean_dec(x_81); x_93 = lean_string_dec_lt(x_91, x_92); lean_dec(x_92); lean_dec(x_91); if (x_93 == 0) { lean_object* x_94; x_94 = lean_box(0); x_50 = x_94; goto block_77; } else { lean_object* x_95; lean_dec(x_49); x_95 = lean_box(0); x_19 = x_95; goto block_48; } } block_48: { lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; double x_27; double x_28; uint8_t x_29; lean_dec(x_19); x_20 = lean_array_swap(x_18, x_3, x_4); lean_inc(x_1); x_21 = lean_array_get(x_1, x_20, x_17); lean_inc(x_1); x_22 = lean_array_get(x_1, x_20, x_4); x_23 = lean_ctor_get(x_21, 0); lean_inc(x_23); x_24 = lean_ctor_get(x_21, 1); lean_inc(x_24); lean_dec(x_21); x_25 = lean_ctor_get(x_22, 0); lean_inc(x_25); x_26 = lean_ctor_get(x_22, 1); lean_inc(x_26); x_27 = lean_unbox_float(x_24); x_28 = lean_unbox_float(x_26); x_29 = lean_float_beq(x_27, x_28); if (x_29 == 0) { double x_30; double x_31; uint8_t x_32; lean_dec(x_25); lean_dec(x_23); x_30 = lean_unbox_float(x_26); lean_dec(x_26); x_31 = lean_unbox_float(x_24); lean_dec(x_24); x_32 = lean_float_decLt(x_30, x_31); if (x_32 == 0) { lean_object* x_33; lean_object* x_34; lean_dec(x_17); x_33 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_34 = l_Array_qpartition_loop___rarg(x_1, x_33, x_4, x_22, x_20, x_3, x_3); x_5 = x_34; goto block_13; } else { lean_object* x_35; lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_dec(x_22); x_35 = lean_array_swap(x_20, x_17, x_4); lean_dec(x_17); lean_inc(x_1); x_36 = lean_array_get(x_1, x_35, x_4); x_37 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_38 = l_Array_qpartition_loop___rarg(x_1, x_37, x_4, x_36, x_35, x_3, x_3); x_5 = x_38; goto block_13; } } else { lean_object* x_39; lean_object* x_40; uint8_t x_41; lean_dec(x_26); lean_dec(x_24); x_39 = lean_ctor_get(x_23, 0); lean_inc(x_39); lean_dec(x_23); x_40 = lean_ctor_get(x_25, 0); lean_inc(x_40); lean_dec(x_25); x_41 = lean_string_dec_lt(x_39, x_40); lean_dec(x_40); lean_dec(x_39); if (x_41 == 0) { lean_object* x_42; lean_object* x_43; lean_dec(x_17); x_42 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_43 = l_Array_qpartition_loop___rarg(x_1, x_42, x_4, x_22, x_20, x_3, x_3); x_5 = x_43; goto block_13; } else { lean_object* x_44; lean_object* x_45; lean_object* x_46; lean_object* x_47; lean_dec(x_22); x_44 = lean_array_swap(x_20, x_17, x_4); lean_dec(x_17); lean_inc(x_1); x_45 = lean_array_get(x_1, x_44, x_4); x_46 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_47 = l_Array_qpartition_loop___rarg(x_1, x_46, x_4, x_45, x_44, x_3, x_3); x_5 = x_47; goto block_13; } } } block_77: { lean_object* x_51; lean_object* x_52; lean_object* x_53; lean_object* x_54; lean_object* x_55; double x_56; double x_57; uint8_t x_58; lean_dec(x_50); lean_inc(x_1); x_51 = lean_array_get(x_1, x_18, x_17); x_52 = lean_ctor_get(x_51, 0); lean_inc(x_52); x_53 = lean_ctor_get(x_51, 1); lean_inc(x_53); lean_dec(x_51); x_54 = lean_ctor_get(x_49, 0); lean_inc(x_54); x_55 = lean_ctor_get(x_49, 1); lean_inc(x_55); x_56 = lean_unbox_float(x_53); x_57 = lean_unbox_float(x_55); x_58 = lean_float_beq(x_56, x_57); if (x_58 == 0) { double x_59; double x_60; uint8_t x_61; lean_dec(x_54); lean_dec(x_52); x_59 = lean_unbox_float(x_55); lean_dec(x_55); x_60 = lean_unbox_float(x_53); lean_dec(x_53); x_61 = lean_float_decLt(x_59, x_60); if (x_61 == 0) { lean_object* x_62; lean_object* x_63; lean_dec(x_17); x_62 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_63 = l_Array_qpartition_loop___rarg(x_1, x_62, x_4, x_49, x_18, x_3, x_3); x_5 = x_63; goto block_13; } else { lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; lean_dec(x_49); x_64 = lean_array_swap(x_18, x_17, x_4); lean_dec(x_17); lean_inc(x_1); x_65 = lean_array_get(x_1, x_64, x_4); x_66 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_67 = l_Array_qpartition_loop___rarg(x_1, x_66, x_4, x_65, x_64, x_3, x_3); x_5 = x_67; goto block_13; } } else { lean_object* x_68; lean_object* x_69; uint8_t x_70; lean_dec(x_55); lean_dec(x_53); x_68 = lean_ctor_get(x_52, 0); lean_inc(x_68); lean_dec(x_52); x_69 = lean_ctor_get(x_54, 0); lean_inc(x_69); lean_dec(x_54); x_70 = lean_string_dec_lt(x_68, x_69); lean_dec(x_69); lean_dec(x_68); if (x_70 == 0) { lean_object* x_71; lean_object* x_72; lean_dec(x_17); x_71 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_72 = l_Array_qpartition_loop___rarg(x_1, x_71, x_4, x_49, x_18, x_3, x_3); x_5 = x_72; goto block_13; } else { lean_object* x_73; lean_object* x_74; lean_object* x_75; lean_object* x_76; lean_dec(x_49); x_73 = lean_array_swap(x_18, x_17, x_4); lean_dec(x_17); lean_inc(x_1); x_74 = lean_array_get(x_1, x_73, x_4); x_75 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___closed__1; lean_inc_n(x_3, 2); lean_inc(x_1); x_76 = l_Array_qpartition_loop___rarg(x_1, x_75, x_4, x_74, x_73, x_3, x_3); x_5 = x_76; goto block_13; } } } } } block_13: { lean_object* x_6; lean_object* x_7; uint8_t x_8; x_6 = lean_ctor_get(x_5, 0); lean_inc(x_6); x_7 = lean_ctor_get(x_5, 1); lean_inc(x_7); lean_dec(x_5); x_8 = lean_nat_dec_le(x_4, x_6); if (x_8 == 0) { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_inc(x_1); x_9 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1(x_1, x_7, x_3, x_6); x_10 = lean_unsigned_to_nat(1u); x_11 = lean_nat_add(x_6, x_10); lean_dec(x_6); x_2 = x_9; x_3 = x_11; goto _start; } else { lean_dec(x_6); lean_dec(x_3); lean_dec(x_1); return x_7; } } } } LEAN_EXPORT lean_object* l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2(size_t x_1, size_t x_2, lean_object* x_3) { _start: { uint8_t x_4; x_4 = lean_usize_dec_lt(x_2, x_1); if (x_4 == 0) { return x_3; } else { lean_object* x_5; lean_object* x_6; lean_object* x_7; lean_object* x_8; size_t x_9; size_t x_10; lean_object* x_11; x_5 = lean_array_uget(x_3, x_2); x_6 = lean_unsigned_to_nat(0u); x_7 = lean_array_uset(x_3, x_2, x_6); x_8 = lean_ctor_get(x_5, 0); lean_inc(x_8); lean_dec(x_5); x_9 = 1; x_10 = lean_usize_add(x_2, x_9); x_11 = lean_array_uset(x_7, x_2, x_8); x_2 = x_10; x_3 = x_11; goto _start; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___closed__1() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l_Lean_Lsp_instInhabitedCompletionItem; x_2 = l_instInhabitedFloat; x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(lean_object* x_1) { _start: { lean_object* x_2; lean_object* x_3; lean_object* x_4; lean_object* x_5; lean_object* x_6; lean_object* x_7; lean_object* x_8; size_t x_9; size_t x_10; lean_object* x_11; x_2 = lean_array_get_size(x_1); x_3 = lean_unsigned_to_nat(1u); x_4 = lean_nat_sub(x_2, x_3); lean_dec(x_2); x_5 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___closed__1; x_6 = lean_unsigned_to_nat(0u); x_7 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1(x_5, x_1, x_6, x_4); lean_dec(x_4); x_8 = lean_array_get_size(x_7); x_9 = lean_usize_of_nat(x_8); lean_dec(x_8); x_10 = 0; x_11 = l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2(x_9, x_10, x_7); return x_11; } } LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1___boxed(lean_object* x_1, lean_object* x_2) { _start: { uint8_t x_3; lean_object* x_4; x_3 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___lambda__1(x_1, x_2); x_4 = lean_box(x_3); return x_4; } } LEAN_EXPORT lean_object* l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) { _start: { lean_object* x_5; x_5 = l_Array_qsort_sort___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__1(x_1, x_2, x_3, x_4); lean_dec(x_4); return x_5; } } LEAN_EXPORT lean_object* l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3) { _start: { size_t x_4; size_t x_5; lean_object* x_6; x_4 = lean_unbox_usize(x_1); lean_dec(x_1); x_5 = lean_unbox_usize(x_2); lean_dec(x_2); x_6 = l_Array_mapMUnsafe_map___at___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems___spec__2(x_4, x_5, x_3); return x_6; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l_Lean_Meta_ppExpr(x_1, x_2, x_3, x_4, x_5, x_6); if (lean_obj_tag(x_7) == 0) { uint8_t x_8; x_8 = !lean_is_exclusive(x_7); if (x_8 == 0) { lean_object* x_9; lean_object* x_10; lean_object* x_11; x_9 = lean_ctor_get(x_7, 0); x_10 = l_Std_Format_defWidth; x_11 = lean_format_pretty(x_9, x_10); lean_ctor_set(x_7, 0, x_11); return x_7; } else { lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; x_12 = lean_ctor_get(x_7, 0); x_13 = lean_ctor_get(x_7, 1); lean_inc(x_13); lean_inc(x_12); lean_dec(x_7); x_14 = l_Std_Format_defWidth; x_15 = lean_format_pretty(x_12, x_14); x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_13); return x_16; } } else { uint8_t x_17; x_17 = !lean_is_exclusive(x_7); if (x_17 == 0) { return x_7; } else { lean_object* x_18; lean_object* x_19; lean_object* x_20; x_18 = lean_ctor_get(x_7, 0); x_19 = lean_ctor_get(x_7, 1); lean_inc(x_19); lean_inc(x_18); lean_dec(x_7); x_20 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_20, 0, x_18); lean_ctor_set(x_20, 1, x_19); return x_20; } } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___closed__1() { _start: { lean_object* x_1; x_1 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___lambda__1___boxed), 6, 0); return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem(lean_object* x_1, lean_object* x_2, lean_object* x_3, uint8_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_mkCompletionItem___closed__1; x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_consumeImplicitPrefix___rarg(x_2, x_10, x_5, x_6, x_7, x_8, x_9); if (lean_obj_tag(x_3) == 0) { if (lean_obj_tag(x_11) == 0) { uint8_t x_12; x_12 = !lean_is_exclusive(x_11); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; x_13 = lean_ctor_get(x_11, 0); x_14 = lean_box(0); x_15 = l_Lean_Name_getString_x21(x_1); x_16 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_16, 0, x_13); x_17 = lean_box(x_4); x_18 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_18, 0, x_17); x_19 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_19, 0, x_15); lean_ctor_set(x_19, 1, x_16); lean_ctor_set(x_19, 2, x_14); lean_ctor_set(x_19, 3, x_18); lean_ctor_set(x_19, 4, x_14); lean_ctor_set(x_11, 0, x_19); return x_11; } else { lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_object* x_28; x_20 = lean_ctor_get(x_11, 0); x_21 = lean_ctor_get(x_11, 1); lean_inc(x_21); lean_inc(x_20); lean_dec(x_11); x_22 = lean_box(0); x_23 = l_Lean_Name_getString_x21(x_1); x_24 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_24, 0, x_20); x_25 = lean_box(x_4); x_26 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_26, 0, x_25); x_27 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_27, 0, x_23); lean_ctor_set(x_27, 1, x_24); lean_ctor_set(x_27, 2, x_22); lean_ctor_set(x_27, 3, x_26); lean_ctor_set(x_27, 4, x_22); x_28 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_28, 0, x_27); lean_ctor_set(x_28, 1, x_21); return x_28; } } else { uint8_t x_29; lean_dec(x_1); x_29 = !lean_is_exclusive(x_11); if (x_29 == 0) { return x_11; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_11, 0); x_31 = lean_ctor_get(x_11, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_11); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } else { if (lean_obj_tag(x_11) == 0) { uint8_t x_33; x_33 = !lean_is_exclusive(x_3); if (x_33 == 0) { uint8_t x_34; x_34 = !lean_is_exclusive(x_11); if (x_34 == 0) { lean_object* x_35; lean_object* x_36; uint8_t x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; x_35 = lean_ctor_get(x_3, 0); x_36 = lean_ctor_get(x_11, 0); x_37 = 1; x_38 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_38, 0, x_35); lean_ctor_set_uint8(x_38, sizeof(void*)*1, x_37); lean_ctor_set(x_3, 0, x_38); x_39 = l_Lean_Name_getString_x21(x_1); x_40 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_40, 0, x_36); x_41 = lean_box(x_4); x_42 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_42, 0, x_41); x_43 = lean_box(0); x_44 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_44, 0, x_39); lean_ctor_set(x_44, 1, x_40); lean_ctor_set(x_44, 2, x_3); lean_ctor_set(x_44, 3, x_42); lean_ctor_set(x_44, 4, x_43); lean_ctor_set(x_11, 0, x_44); return x_11; } else { lean_object* x_45; lean_object* x_46; lean_object* x_47; uint8_t x_48; lean_object* x_49; lean_object* x_50; lean_object* x_51; lean_object* x_52; lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_object* x_56; x_45 = lean_ctor_get(x_3, 0); x_46 = lean_ctor_get(x_11, 0); x_47 = lean_ctor_get(x_11, 1); lean_inc(x_47); lean_inc(x_46); lean_dec(x_11); x_48 = 1; x_49 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_49, 0, x_45); lean_ctor_set_uint8(x_49, sizeof(void*)*1, x_48); lean_ctor_set(x_3, 0, x_49); x_50 = l_Lean_Name_getString_x21(x_1); x_51 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_51, 0, x_46); x_52 = lean_box(x_4); x_53 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_53, 0, x_52); x_54 = lean_box(0); x_55 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_55, 0, x_50); lean_ctor_set(x_55, 1, x_51); lean_ctor_set(x_55, 2, x_3); lean_ctor_set(x_55, 3, x_53); lean_ctor_set(x_55, 4, x_54); x_56 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_56, 0, x_55); lean_ctor_set(x_56, 1, x_47); return x_56; } } else { lean_object* x_57; lean_object* x_58; lean_object* x_59; lean_object* x_60; uint8_t x_61; lean_object* x_62; lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; lean_object* x_68; lean_object* x_69; lean_object* x_70; x_57 = lean_ctor_get(x_3, 0); lean_inc(x_57); lean_dec(x_3); x_58 = lean_ctor_get(x_11, 0); lean_inc(x_58); x_59 = lean_ctor_get(x_11, 1); lean_inc(x_59); if (lean_is_exclusive(x_11)) { lean_ctor_release(x_11, 0); lean_ctor_release(x_11, 1); x_60 = x_11; } else { lean_dec_ref(x_11); x_60 = lean_box(0); } x_61 = 1; x_62 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_62, 0, x_57); lean_ctor_set_uint8(x_62, sizeof(void*)*1, x_61); x_63 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_63, 0, x_62); x_64 = l_Lean_Name_getString_x21(x_1); x_65 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_65, 0, x_58); x_66 = lean_box(x_4); x_67 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_67, 0, x_66); x_68 = lean_box(0); x_69 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_69, 0, x_64); lean_ctor_set(x_69, 1, x_65); lean_ctor_set(x_69, 2, x_63); lean_ctor_set(x_69, 3, x_67); lean_ctor_set(x_69, 4, x_68); if (lean_is_scalar(x_60)) { x_70 = lean_alloc_ctor(0, 2, 0); 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return x_25; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; double x_14; lean_object* x_15; x_13 = lean_unbox(x_3); lean_dec(x_3); x_14 = lean_unbox_float(x_5); lean_dec(x_5); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1(x_1, x_2, x_13, x_4, x_14, x_6, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_7); return x_15; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; double x_14; lean_object* x_15; x_13 = lean_unbox(x_5); lean_dec(x_5); x_14 = lean_unbox_float(x_6); lean_dec(x_6); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_1, x_2, x_3, x_4, x_13, x_14, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_7); return x_15; } } static lean_object* _init_l_Lean_isProjectionFn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__1___closed__1() { _start: { lean_object* x_1; x_1 = l_Lean_projectionFnInfoExt; return x_1; } } LEAN_EXPORT lean_object* l_Lean_isProjectionFn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; uint8_t x_9; x_8 = lean_st_ref_get(x_6, x_7); x_9 = !lean_is_exclusive(x_8); if (x_9 == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; 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x_22 = l_Lean_MapDeclarationExtension_contains___rarg(x_20, x_21, x_19, x_1); x_23 = lean_box(x_22); x_24 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_24, 0, x_23); x_25 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_25, 0, x_24); lean_ctor_set(x_25, 1, x_18); return x_25; } } } LEAN_EXPORT lean_object* l_Lean_throwError___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__4(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; lean_object* x_9; uint8_t x_10; x_8 = lean_ctor_get(x_5, 3); x_9 = l_Lean_addMessageContextFull___at_Lean_Meta_instAddMessageContextMetaM___spec__1(x_1, x_3, x_4, x_5, x_6, x_7); x_10 = !lean_is_exclusive(x_9); if (x_10 == 0) { lean_object* x_11; lean_object* x_12; x_11 = lean_ctor_get(x_9, 0); lean_inc(x_8); x_12 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_12, 0, x_8); lean_ctor_set(x_12, 1, x_11); lean_ctor_set_tag(x_9, 1); lean_ctor_set(x_9, 0, x_12); return x_9; } else { lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; x_13 = lean_ctor_get(x_9, 0); x_14 = lean_ctor_get(x_9, 1); lean_inc(x_14); lean_inc(x_13); lean_dec(x_9); lean_inc(x_8); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_8); lean_ctor_set(x_15, 1, x_13); x_16 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_14); return x_16; } } } static lean_object* _init_l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__1() { _start: { lean_object* x_1; x_1 = lean_mk_string("unknown constant '"); return x_1; } } static lean_object* _init_l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__2() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__1; x_2 = l_Lean_stringToMessageData(x_1); return x_2; } } static lean_object* _init_l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__3() { _start: { lean_object* x_1; x_1 = lean_mk_string("'"); return x_1; } } static lean_object* _init_l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__4() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__3; x_2 = l_Lean_stringToMessageData(x_1); return x_2; } } LEAN_EXPORT lean_object* l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; uint8_t x_9; x_8 = lean_st_ref_get(x_6, x_7); x_9 = !lean_is_exclusive(x_8); if (x_9 == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; x_10 = lean_ctor_get(x_8, 0); x_11 = lean_ctor_get(x_8, 1); x_12 = lean_ctor_get(x_10, 0); lean_inc(x_12); lean_dec(x_10); lean_inc(x_1); x_13 = lean_environment_find(x_12, x_1); if (lean_obj_tag(x_13) == 0) { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_free_object(x_8); x_14 = lean_box(0); x_15 = l_Lean_mkConst(x_1, x_14); x_16 = lean_alloc_ctor(2, 1, 0); lean_ctor_set(x_16, 0, x_15); x_17 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__2; x_18 = lean_alloc_ctor(10, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_16); x_19 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__4; x_20 = lean_alloc_ctor(10, 2, 0); lean_ctor_set(x_20, 0, x_18); lean_ctor_set(x_20, 1, x_19); x_21 = l_Lean_throwError___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__4(x_20, x_2, x_3, x_4, x_5, x_6, x_11); return x_21; } else { uint8_t x_22; lean_dec(x_1); x_22 = !lean_is_exclusive(x_13); if (x_22 == 0) { lean_ctor_set(x_8, 0, x_13); return x_8; } else { lean_object* x_23; lean_object* x_24; x_23 = lean_ctor_get(x_13, 0); lean_inc(x_23); lean_dec(x_13); x_24 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_24, 0, x_23); lean_ctor_set(x_8, 0, x_24); return x_8; } } } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_object* x_28; x_25 = lean_ctor_get(x_8, 0); x_26 = lean_ctor_get(x_8, 1); lean_inc(x_26); lean_inc(x_25); lean_dec(x_8); x_27 = lean_ctor_get(x_25, 0); lean_inc(x_27); lean_dec(x_25); lean_inc(x_1); x_28 = lean_environment_find(x_27, x_1); if (lean_obj_tag(x_28) == 0) { lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_object* x_35; lean_object* x_36; x_29 = lean_box(0); x_30 = l_Lean_mkConst(x_1, x_29); x_31 = lean_alloc_ctor(2, 1, 0); lean_ctor_set(x_31, 0, x_30); x_32 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__2; x_33 = lean_alloc_ctor(10, 2, 0); lean_ctor_set(x_33, 0, x_32); lean_ctor_set(x_33, 1, x_31); x_34 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3___closed__4; x_35 = lean_alloc_ctor(10, 2, 0); lean_ctor_set(x_35, 0, x_33); lean_ctor_set(x_35, 1, x_34); x_36 = l_Lean_throwError___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__4(x_35, x_2, x_3, x_4, x_5, x_6, x_26); return x_36; } else { lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; lean_dec(x_1); x_37 = lean_ctor_get(x_28, 0); lean_inc(x_37); if (lean_is_exclusive(x_28)) { lean_ctor_release(x_28, 0); x_38 = x_28; } else { lean_dec_ref(x_28); x_38 = lean_box(0); } if (lean_is_scalar(x_38)) { x_39 = lean_alloc_ctor(1, 1, 0); } else { x_39 = x_38; } lean_ctor_set(x_39, 0, x_37); x_40 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_40, 0, x_39); lean_ctor_set(x_40, 1, x_26); return x_40; } } } } static lean_object* _init_l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1() { _start: { uint8_t x_1; lean_object* x_2; lean_object* x_3; x_1 = 1; x_2 = lean_box(x_1); x_3 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_3, 0, x_2); return x_3; } } static lean_object* _init_l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2() { _start: { uint8_t x_1; lean_object* x_2; lean_object* x_3; x_1 = 0; x_2 = lean_box(x_1); x_3 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_3, 0, x_2); return x_3; } } LEAN_EXPORT lean_object* l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { if (lean_obj_tag(x_1) == 0) { lean_object* x_8; lean_object* x_9; x_8 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_9 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_9, 0, x_8); lean_ctor_set(x_9, 1, x_7); return x_9; } else { lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_20; x_10 = lean_ctor_get(x_1, 0); lean_inc(x_10); x_11 = lean_ctor_get(x_1, 1); lean_inc(x_11); lean_dec(x_1); x_20 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3(x_10, x_2, x_3, x_4, x_5, x_6, x_7); if (lean_obj_tag(x_20) == 0) { lean_object* x_21; uint8_t x_22; x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); x_22 = !lean_is_exclusive(x_21); if (x_22 == 0) { lean_object* x_23; x_23 = lean_ctor_get(x_21, 0); if (lean_obj_tag(x_23) == 6) { lean_object* x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; uint8_t x_28; lean_object* x_29; x_24 = lean_ctor_get(x_20, 1); lean_inc(x_24); lean_dec(x_20); x_25 = lean_ctor_get(x_23, 0); lean_inc(x_25); lean_dec(x_23); x_26 = lean_ctor_get(x_25, 4); lean_inc(x_26); lean_dec(x_25); x_27 = lean_unsigned_to_nat(0u); x_28 = lean_nat_dec_eq(x_26, x_27); lean_dec(x_26); x_29 = lean_box(x_28); lean_ctor_set(x_21, 0, x_29); x_12 = x_21; x_13 = x_24; goto block_19; } else { lean_object* x_30; lean_object* x_31; lean_free_object(x_21); lean_dec(x_23); x_30 = lean_ctor_get(x_20, 1); lean_inc(x_30); lean_dec(x_20); x_31 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_12 = x_31; x_13 = x_30; goto block_19; } } else { lean_object* x_32; x_32 = lean_ctor_get(x_21, 0); lean_inc(x_32); lean_dec(x_21); if (lean_obj_tag(x_32) == 6) { lean_object* x_33; lean_object* x_34; lean_object* x_35; lean_object* x_36; uint8_t x_37; lean_object* x_38; lean_object* x_39; x_33 = lean_ctor_get(x_20, 1); lean_inc(x_33); lean_dec(x_20); x_34 = lean_ctor_get(x_32, 0); lean_inc(x_34); lean_dec(x_32); x_35 = lean_ctor_get(x_34, 4); lean_inc(x_35); lean_dec(x_34); x_36 = lean_unsigned_to_nat(0u); x_37 = lean_nat_dec_eq(x_35, x_36); lean_dec(x_35); x_38 = lean_box(x_37); x_39 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_39, 0, x_38); x_12 = x_39; x_13 = x_33; goto block_19; } else { lean_object* x_40; lean_object* x_41; lean_dec(x_32); x_40 = lean_ctor_get(x_20, 1); lean_inc(x_40); lean_dec(x_20); x_41 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_12 = x_41; x_13 = x_40; goto block_19; } } } else { uint8_t x_42; lean_dec(x_11); x_42 = !lean_is_exclusive(x_20); if (x_42 == 0) { return x_20; } else { lean_object* x_43; lean_object* x_44; lean_object* x_45; x_43 = lean_ctor_get(x_20, 0); x_44 = lean_ctor_get(x_20, 1); lean_inc(x_44); lean_inc(x_43); lean_dec(x_20); x_45 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_45, 0, x_43); lean_ctor_set(x_45, 1, x_44); return x_45; } } block_19: { lean_object* x_14; uint8_t x_15; x_14 = lean_ctor_get(x_12, 0); lean_inc(x_14); lean_dec(x_12); x_15 = lean_unbox(x_14); lean_dec(x_14); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; lean_dec(x_11); x_16 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_17 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_17, 0, x_16); lean_ctor_set(x_17, 1, x_13); return x_17; } else { x_1 = x_11; x_7 = x_13; goto _start; } } } } } LEAN_EXPORT lean_object* l_Lean_isEnumType___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__2(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; x_8 = l_Lean_getConstInfo___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__3(x_1, x_2, x_3, x_4, x_5, x_6, x_7); if (lean_obj_tag(x_8) == 0) { lean_object* x_9; lean_object* x_10; x_9 = lean_ctor_get(x_8, 0); lean_inc(x_9); x_10 = lean_ctor_get(x_9, 0); lean_inc(x_10); lean_dec(x_9); if (lean_obj_tag(x_10) == 5) { uint8_t x_11; x_11 = !lean_is_exclusive(x_8); if (x_11 == 0) { lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; uint8_t x_17; x_12 = lean_ctor_get(x_8, 1); x_13 = lean_ctor_get(x_8, 0); lean_dec(x_13); x_14 = lean_ctor_get(x_10, 0); lean_inc(x_14); lean_dec(x_10); x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); x_16 = lean_ctor_get(x_15, 2); lean_inc(x_16); lean_dec(x_15); x_17 = l_Lean_Expr_isProp(x_16); lean_dec(x_16); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; uint8_t x_22; x_18 = lean_ctor_get(x_14, 3); lean_inc(x_18); x_19 = lean_unsigned_to_nat(0u); x_20 = l_List_lengthTRAux___rarg(x_18, x_19); lean_dec(x_18); x_21 = lean_unsigned_to_nat(1u); x_22 = lean_nat_dec_eq(x_20, x_21); lean_dec(x_20); if (x_22 == 0) { lean_object* x_23; lean_dec(x_14); x_23 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_23); return x_8; } else { lean_object* x_24; uint8_t x_25; x_24 = lean_ctor_get(x_14, 2); lean_inc(x_24); x_25 = lean_nat_dec_eq(x_24, x_19); lean_dec(x_24); if (x_25 == 0) { lean_object* x_26; lean_dec(x_14); x_26 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_26); return x_8; } else { lean_object* x_27; uint8_t x_28; x_27 = lean_ctor_get(x_14, 1); lean_inc(x_27); x_28 = lean_nat_dec_eq(x_27, x_19); lean_dec(x_27); if (x_28 == 0) { lean_object* x_29; lean_dec(x_14); x_29 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_29); return x_8; } else { lean_object* x_30; uint8_t x_31; x_30 = lean_ctor_get(x_14, 4); lean_inc(x_30); x_31 = l_List_isEmpty___rarg(x_30); if (x_31 == 0) { uint8_t x_32; x_32 = lean_ctor_get_uint8(x_14, sizeof(void*)*5); if (x_32 == 0) { uint8_t x_33; x_33 = lean_ctor_get_uint8(x_14, sizeof(void*)*5 + 3); if (x_33 == 0) { uint8_t x_34; x_34 = lean_ctor_get_uint8(x_14, sizeof(void*)*5 + 1); lean_dec(x_14); if (x_34 == 0) { lean_object* x_35; lean_free_object(x_8); x_35 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5(x_30, x_2, x_3, x_4, x_5, x_6, x_12); return x_35; } else { lean_object* x_36; lean_dec(x_30); x_36 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_36); return x_8; } } else { lean_object* x_37; lean_dec(x_30); lean_dec(x_14); x_37 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_37); return x_8; } } else { lean_object* x_38; lean_dec(x_30); lean_dec(x_14); x_38 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_38); return x_8; } } else { lean_object* x_39; lean_dec(x_30); lean_dec(x_14); x_39 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_39); return x_8; } } } } } else { lean_object* x_40; lean_dec(x_14); x_40 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_8, 0, x_40); return x_8; } } else { lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; uint8_t x_45; x_41 = lean_ctor_get(x_8, 1); lean_inc(x_41); lean_dec(x_8); x_42 = lean_ctor_get(x_10, 0); lean_inc(x_42); lean_dec(x_10); x_43 = lean_ctor_get(x_42, 0); lean_inc(x_43); x_44 = lean_ctor_get(x_43, 2); lean_inc(x_44); lean_dec(x_43); x_45 = l_Lean_Expr_isProp(x_44); lean_dec(x_44); if (x_45 == 0) { lean_object* x_46; lean_object* x_47; lean_object* x_48; lean_object* x_49; uint8_t x_50; x_46 = lean_ctor_get(x_42, 3); 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x_64 = lean_box(0); } if (lean_is_scalar(x_64)) { x_65 = lean_alloc_ctor(1, 2, 0); } else { x_65 = x_64; } lean_ctor_set(x_65, 0, x_62); lean_ctor_set(x_65, 1, x_63); return x_65; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { double x_11; lean_object* x_12; x_11 = lean_unbox_float(x_4); lean_dec(x_4); x_12 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl(x_1, x_2, x_3, x_11, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_5); return x_12; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__1() { _start: { lean_object* x_1; x_1 = lean_mk_string("keyword"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__2() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__1; x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__3() { _start: { uint8_t x_1; lean_object* x_2; lean_object* x_3; x_1 = 13; x_2 = lean_box(x_1); x_3 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_3, 0, x_2); return x_3; } } static double _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4() { _start: { lean_object* x_1; double x_2; x_1 = lean_unsigned_to_nat(1u); x_2 = lean_float_of_nat(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___boxed__const__1() { _start: { double x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4; 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lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__4; x_2 = lean_unsigned_to_nat(5u); x_3 = lean_nat_div(x_1, x_2); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__6() { _start: { lean_object* x_1; lean_object* x_2; x_1 = lean_unsigned_to_nat(4u); x_2 = lean_nat_to_int(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__7() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__6; x_2 = lean_int_neg(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__8() { _start: { lean_object* x_1; lean_object* x_2; x_1 = lean_unsigned_to_nat(1u); x_2 = lean_nat_to_int(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__9() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__7; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__8; x_3 = lean_int_mul(x_1, x_2); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__10() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__2; x_2 = lean_nat_to_int(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__11() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__9; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__10; x_3 = lean_int_sub(x_1, x_2); return x_3; } } static double _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12() { _start: { lean_object* x_1; lean_object* x_2; double x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__5; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__11; x_3 = l_Float_ofBinaryScientific(x_1, x_2); return x_3; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(lean_object* x_1, lean_object* x_2) { _start: { if (lean_obj_tag(x_1) == 1) { lean_object* x_3; x_3 = lean_ctor_get(x_1, 0); lean_inc(x_3); if (lean_obj_tag(x_3) == 0) { if (lean_obj_tag(x_2) == 1) { lean_object* x_4; x_4 = lean_ctor_get(x_2, 0); lean_inc(x_4); if (lean_obj_tag(x_4) == 0) { lean_object* x_5; lean_object* x_6; double x_7; lean_object* x_8; x_5 = lean_ctor_get(x_1, 1); lean_inc(x_5); lean_dec(x_1); x_6 = lean_ctor_get(x_2, 1); lean_inc(x_6); lean_dec(x_2); x_7 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12; x_8 = l_Lean_FuzzyMatching_fuzzyMatchScoreWithThreshold_x3f(x_5, x_6, x_7); return x_8; } else { lean_object* x_9; lean_dec(x_4); lean_dec(x_2); lean_dec(x_1); x_9 = lean_box(0); return x_9; } } else { lean_object* x_10; lean_dec(x_2); lean_dec(x_1); x_10 = lean_box(0); return x_10; } } else { lean_object* x_11; lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_11 = lean_box(0); return x_11; } } else { lean_object* x_12; lean_dec(x_2); lean_dec(x_1); x_12 = lean_box(0); return x_12; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; lean_inc(x_1); x_7 = lean_private_to_user_name(x_1); if (lean_obj_tag(x_7) == 0) { lean_object* x_8; x_8 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_8, 0, x_1); lean_ctor_set(x_8, 1, x_6); return x_8; } else { lean_object* x_9; lean_object* x_10; uint8_t x_11; x_9 = lean_ctor_get(x_7, 0); lean_inc(x_9); lean_dec(x_7); x_10 = lean_st_ref_get(x_5, x_6); x_11 = !lean_is_exclusive(x_10); if (x_11 == 0) { lean_object* x_12; lean_object* x_13; lean_object* x_14; uint8_t x_15; x_12 = lean_ctor_get(x_10, 0); x_13 = lean_ctor_get(x_12, 0); lean_inc(x_13); lean_dec(x_12); lean_inc(x_9); x_14 = l_Lean_mkPrivateName(x_13, x_9); x_15 = lean_name_eq(x_14, x_1); lean_dec(x_14); if (x_15 == 0) { lean_dec(x_9); lean_ctor_set(x_10, 0, x_1); return x_10; } else { lean_dec(x_1); lean_ctor_set(x_10, 0, x_9); return x_10; } } else { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; uint8_t x_20; x_16 = lean_ctor_get(x_10, 0); x_17 = lean_ctor_get(x_10, 1); lean_inc(x_17); lean_inc(x_16); lean_dec(x_10); x_18 = lean_ctor_get(x_16, 0); lean_inc(x_18); lean_dec(x_16); lean_inc(x_9); x_19 = l_Lean_mkPrivateName(x_18, x_9); x_20 = lean_name_eq(x_19, x_1); lean_dec(x_19); if (x_20 == 0) { lean_object* x_21; lean_dec(x_9); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_1); lean_ctor_set(x_21, 1, x_17); return x_21; } else { lean_object* x_22; lean_dec(x_1); x_22 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_22, 0, x_9); lean_ctor_set(x_22, 1, x_17); return x_22; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName(x_1, x_2, x_3, x_4, x_5, x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); return x_7; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f___boxed__const__1() { _start: { double x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4; x_2 = lean_box_float(x_1); return x_2; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; uint8_t x_14; x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName(x_4, x_5, x_6, x_7, x_8, x_9); x_11 = lean_ctor_get(x_10, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_10, 1); lean_inc(x_12); if (lean_is_exclusive(x_10)) { lean_ctor_release(x_10, 0); lean_ctor_release(x_10, 1); x_13 = x_10; } else { lean_dec_ref(x_10); x_13 = lean_box(0); } x_14 = l_Lean_Name_isPrefixOf(x_1, x_11); if (x_14 == 0) { lean_object* x_15; lean_object* x_16; lean_dec(x_11); lean_dec(x_2); x_15 = lean_box(0); if (lean_is_scalar(x_13)) { x_16 = lean_alloc_ctor(0, 2, 0); } else { x_16 = x_13; } lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_12); return x_16; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; uint8_t x_46; x_17 = lean_box(0); x_18 = l_Lean_Name_replacePrefix(x_11, x_1, x_17); x_46 = l_Lean_Name_isPrefixOf(x_2, x_18); if (x_46 == 0) { if (x_3 == 0) { lean_object* x_47; x_47 = lean_box(0); x_19 = x_47; goto block_45; } else { lean_object* x_48; lean_object* x_49; lean_dec(x_18); lean_dec(x_13); lean_dec(x_2); x_48 = lean_box(0); x_49 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_49, 0, x_48); lean_ctor_set(x_49, 1, x_12); return x_49; } } else { if (x_3 == 0) { lean_object* x_50; x_50 = lean_box(0); x_19 = x_50; goto block_45; } else { lean_object* x_51; uint8_t x_52; lean_dec(x_13); x_51 = l_Lean_Name_replacePrefix(x_18, x_2, x_17); lean_dec(x_2); x_52 = l_Lean_Name_isAtomic(x_51); if (x_52 == 0) { lean_object* x_53; lean_object* x_54; lean_dec(x_51); x_53 = lean_box(0); x_54 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_54, 0, x_53); lean_ctor_set(x_54, 1, x_12); return x_54; } else { uint8_t x_55; x_55 = l_Lean_Name_isAnonymous(x_51); if (x_55 == 0) { lean_object* x_56; lean_object* x_57; lean_object* x_58; lean_object* x_59; x_56 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f___boxed__const__1; x_57 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_57, 0, x_51); lean_ctor_set(x_57, 1, x_56); x_58 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_58, 0, x_57); x_59 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_59, 0, x_58); lean_ctor_set(x_59, 1, x_12); return x_59; } else { lean_object* x_60; lean_object* x_61; lean_dec(x_51); x_60 = lean_box(0); x_61 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_61, 0, x_60); lean_ctor_set(x_61, 1, x_12); return x_61; } } } } block_45: { lean_dec(x_19); if (lean_obj_tag(x_2) == 1) { if (lean_obj_tag(x_18) == 1) { lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; uint8_t x_24; x_20 = lean_ctor_get(x_2, 0); lean_inc(x_20); x_21 = lean_ctor_get(x_2, 1); lean_inc(x_21); lean_dec(x_2); x_22 = lean_ctor_get(x_18, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_18, 1); lean_inc(x_23); lean_dec(x_18); x_24 = lean_name_eq(x_20, x_22); lean_dec(x_22); lean_dec(x_20); if (x_24 == 0) { lean_object* x_25; lean_object* x_26; lean_dec(x_23); lean_dec(x_21); x_25 = lean_box(0); if (lean_is_scalar(x_13)) { x_26 = lean_alloc_ctor(0, 2, 0); } else { x_26 = x_13; } lean_ctor_set(x_26, 0, x_25); lean_ctor_set(x_26, 1, x_12); return x_26; } else { double x_27; lean_object* x_28; x_27 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12; lean_inc(x_23); x_28 = l_Lean_FuzzyMatching_fuzzyMatchScoreWithThreshold_x3f(x_21, x_23, x_27); if (lean_obj_tag(x_28) == 0) { lean_object* x_29; lean_object* x_30; lean_dec(x_23); x_29 = lean_box(0); if (lean_is_scalar(x_13)) { x_30 = lean_alloc_ctor(0, 2, 0); } else { x_30 = x_13; } lean_ctor_set(x_30, 0, x_29); lean_ctor_set(x_30, 1, x_12); return x_30; } else { uint8_t x_31; x_31 = !lean_is_exclusive(x_28); if (x_31 == 0) { lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_object* x_35; x_32 = lean_ctor_get(x_28, 0); x_33 = lean_name_mk_string(x_17, x_23); x_34 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_34, 1, x_32); lean_ctor_set(x_28, 0, x_34); if (lean_is_scalar(x_13)) { x_35 = lean_alloc_ctor(0, 2, 0); } else { x_35 = x_13; } lean_ctor_set(x_35, 0, x_28); lean_ctor_set(x_35, 1, x_12); return x_35; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; x_36 = lean_ctor_get(x_28, 0); lean_inc(x_36); lean_dec(x_28); x_37 = lean_name_mk_string(x_17, x_23); x_38 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_38, 0, x_37); lean_ctor_set(x_38, 1, x_36); x_39 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_39, 0, x_38); if (lean_is_scalar(x_13)) { x_40 = lean_alloc_ctor(0, 2, 0); } else { x_40 = x_13; } lean_ctor_set(x_40, 0, x_39); lean_ctor_set(x_40, 1, x_12); return x_40; } } } } else { lean_object* x_41; lean_object* x_42; lean_dec(x_18); lean_dec(x_2); x_41 = lean_box(0); if (lean_is_scalar(x_13)) { x_42 = lean_alloc_ctor(0, 2, 0); } else { x_42 = x_13; } lean_ctor_set(x_42, 0, x_41); lean_ctor_set(x_42, 1, x_12); return x_42; } } else { lean_object* x_43; lean_object* x_44; lean_dec(x_18); lean_dec(x_2); x_43 = lean_box(0); if (lean_is_scalar(x_13)) { x_44 = lean_alloc_ctor(0, 2, 0); } else { x_44 = x_13; } lean_ctor_set(x_44, 0, x_43); lean_ctor_set(x_44, 1, x_12); return x_44; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { uint8_t x_10; lean_object* x_11; x_10 = lean_unbox(x_3); lean_dec(x_3); x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(x_1, x_2, x_10, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); return x_11; } } static lean_object* _init_l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1___closed__1() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l_Lean_instInhabitedName; x_2 = l_instInhabitedNat; x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } LEAN_EXPORT lean_object* l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1(lean_object* x_1) { _start: { lean_object* x_2; lean_object* x_3; x_2 = l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1___closed__1; x_3 = lean_panic_fn(x_2, x_1); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__1() { _start: { lean_object* x_1; x_1 = lean_mk_string("Lean.Server.Completion"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__2() { _start: { lean_object* x_1; x_1 = lean_mk_string("_private.Lean.Server.Completion.0.Lean.Server.Completion.truncate.go"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__3() { _start: { lean_object* x_1; x_1 = lean_mk_string("unreachable code has been reached"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__4() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; lean_object* x_4; lean_object* x_5; lean_object* x_6; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__1; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__2; x_3 = lean_unsigned_to_nat(177u); x_4 = lean_unsigned_to_nat(25u); x_5 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__3; x_6 = l___private_Init_Util_0__mkPanicMessageWithDecl(x_1, x_2, x_3, x_4, x_5); return x_6; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go(lean_object* x_1, lean_object* x_2) { _start: { switch (lean_obj_tag(x_2)) { case 0: { lean_object* x_3; lean_object* x_4; lean_dec(x_1); x_3 = lean_unsigned_to_nat(0u); x_4 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_4, 0, x_2); lean_ctor_set(x_4, 1, x_3); return x_4; } case 1: { lean_object* x_5; lean_object* x_6; lean_object* x_7; uint8_t x_8; x_5 = lean_ctor_get(x_2, 0); lean_inc(x_5); x_6 = lean_ctor_get(x_2, 1); lean_inc(x_6); lean_inc(x_5); lean_inc(x_1); x_7 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go(x_1, x_5); x_8 = !lean_is_exclusive(x_7); if (x_8 == 0) { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_9 = lean_ctor_get(x_7, 0); x_10 = lean_ctor_get(x_7, 1); x_11 = lean_unsigned_to_nat(1u); x_12 = lean_nat_add(x_10, x_11); x_13 = lean_nat_dec_le(x_1, x_12); if (x_13 == 0) { uint8_t x_14; lean_object* x_15; lean_dec(x_9); x_14 = l_Lean_Name_isAnonymous(x_5); x_15 = lean_string_length(x_6); if (x_14 == 0) { lean_object* x_16; uint8_t x_17; x_16 = lean_nat_add(x_12, x_15); lean_dec(x_15); lean_dec(x_12); x_17 = lean_nat_dec_le(x_16, x_1); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_dec(x_16); lean_dec(x_2); x_18 = lean_nat_sub(x_1, x_11); x_19 = lean_nat_sub(x_18, x_10); lean_dec(x_10); lean_dec(x_18); x_20 = lean_unsigned_to_nat(0u); x_21 = lean_string_utf8_extract(x_6, x_20, x_19); lean_dec(x_19); lean_dec(x_6); x_22 = lean_name_mk_string(x_5, x_21); lean_ctor_set(x_7, 1, x_1); lean_ctor_set(x_7, 0, x_22); return x_7; } else { lean_dec(x_10); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); lean_ctor_set(x_7, 1, x_16); lean_ctor_set(x_7, 0, x_2); return x_7; } } else { lean_object* x_23; lean_object* x_24; lean_object* x_25; uint8_t x_26; lean_dec(x_12); x_23 = lean_unsigned_to_nat(0u); x_24 = lean_nat_add(x_10, x_23); x_25 = lean_nat_add(x_24, x_15); lean_dec(x_15); lean_dec(x_24); x_26 = lean_nat_dec_le(x_25, x_1); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_dec(x_25); lean_dec(x_2); x_27 = lean_nat_sub(x_1, x_23); x_28 = lean_nat_sub(x_27, x_10); lean_dec(x_10); lean_dec(x_27); x_29 = lean_string_utf8_extract(x_6, x_23, x_28); lean_dec(x_28); lean_dec(x_6); x_30 = lean_name_mk_string(x_5, x_29); lean_ctor_set(x_7, 1, x_1); lean_ctor_set(x_7, 0, x_30); return x_7; } else { lean_dec(x_10); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); lean_ctor_set(x_7, 1, x_25); lean_ctor_set(x_7, 0, x_2); return x_7; } } } else { lean_dec(x_12); lean_dec(x_6); lean_dec(x_5); lean_dec(x_2); lean_dec(x_1); return x_7; } } else { lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_object* x_34; uint8_t x_35; x_31 = lean_ctor_get(x_7, 0); x_32 = lean_ctor_get(x_7, 1); lean_inc(x_32); lean_inc(x_31); lean_dec(x_7); x_33 = lean_unsigned_to_nat(1u); x_34 = lean_nat_add(x_32, x_33); x_35 = lean_nat_dec_le(x_1, x_34); if (x_35 == 0) { uint8_t x_36; lean_object* x_37; lean_dec(x_31); x_36 = l_Lean_Name_isAnonymous(x_5); x_37 = lean_string_length(x_6); if (x_36 == 0) { lean_object* x_38; uint8_t x_39; x_38 = lean_nat_add(x_34, x_37); lean_dec(x_37); lean_dec(x_34); x_39 = lean_nat_dec_le(x_38, x_1); if (x_39 == 0) { lean_object* x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; lean_object* x_45; lean_dec(x_38); lean_dec(x_2); x_40 = lean_nat_sub(x_1, x_33); x_41 = lean_nat_sub(x_40, x_32); lean_dec(x_32); lean_dec(x_40); x_42 = lean_unsigned_to_nat(0u); x_43 = lean_string_utf8_extract(x_6, x_42, x_41); lean_dec(x_41); lean_dec(x_6); x_44 = lean_name_mk_string(x_5, x_43); x_45 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_45, 0, x_44); lean_ctor_set(x_45, 1, x_1); return x_45; } else { lean_object* x_46; lean_dec(x_32); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); x_46 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_46, 0, x_2); lean_ctor_set(x_46, 1, x_38); return x_46; } } else { lean_object* x_47; lean_object* x_48; lean_object* x_49; uint8_t x_50; lean_dec(x_34); x_47 = lean_unsigned_to_nat(0u); x_48 = lean_nat_add(x_32, x_47); x_49 = lean_nat_add(x_48, x_37); lean_dec(x_37); lean_dec(x_48); x_50 = lean_nat_dec_le(x_49, x_1); if (x_50 == 0) { lean_object* x_51; lean_object* x_52; lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_dec(x_49); lean_dec(x_2); x_51 = lean_nat_sub(x_1, x_47); x_52 = lean_nat_sub(x_51, x_32); lean_dec(x_32); lean_dec(x_51); x_53 = lean_string_utf8_extract(x_6, x_47, x_52); lean_dec(x_52); lean_dec(x_6); x_54 = lean_name_mk_string(x_5, x_53); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_1); return x_55; } else { lean_object* x_56; lean_dec(x_32); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); x_56 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_56, 0, x_2); lean_ctor_set(x_56, 1, x_49); return x_56; } } } else { lean_object* x_57; lean_dec(x_34); lean_dec(x_6); lean_dec(x_5); lean_dec(x_2); lean_dec(x_1); x_57 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_57, 0, x_31); lean_ctor_set(x_57, 1, x_32); return x_57; } } } default: { lean_object* x_58; lean_object* x_59; lean_dec(x_2); lean_dec(x_1); x_58 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___closed__4; x_59 = l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go___spec__1(x_58); return x_59; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; lean_object* x_4; x_3 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate_go(x_2, x_1); x_4 = lean_ctor_get(x_3, 0); lean_inc(x_4); lean_dec(x_3); return x_4; } } static lean_object* _init_l_Lean_Server_Completion_matchNamespace___closed__1___boxed__const__1() { _start: { double x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4; x_2 = lean_box_float(x_1); return x_2; } } static lean_object* _init_l_Lean_Server_Completion_matchNamespace___closed__1() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_Lean_Server_Completion_matchNamespace___closed__1___boxed__const__1; x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_matchNamespace(lean_object* x_1, lean_object* x_2, uint8_t x_3) { _start: { if (x_3 == 0) { if (lean_obj_tag(x_1) == 1) { if (lean_obj_tag(x_2) == 1) { lean_object* x_4; lean_object* x_5; lean_object* x_6; lean_object* x_7; uint8_t x_8; x_4 = lean_ctor_get(x_1, 0); lean_inc(x_4); x_5 = lean_ctor_get(x_1, 1); lean_inc(x_5); lean_dec(x_1); x_6 = lean_ctor_get(x_2, 0); lean_inc(x_6); x_7 = lean_ctor_get(x_2, 1); lean_inc(x_7); lean_dec(x_2); x_8 = lean_name_eq(x_4, x_6); lean_dec(x_6); lean_dec(x_4); if (x_8 == 0) { lean_object* x_9; lean_dec(x_7); lean_dec(x_5); x_9 = lean_box(0); return x_9; } else { double x_10; lean_object* x_11; x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12; x_11 = l_Lean_FuzzyMatching_fuzzyMatchScoreWithThreshold_x3f(x_7, x_5, x_10); return x_11; } } else { lean_object* x_12; lean_dec(x_2); lean_dec(x_1); x_12 = lean_box(0); return x_12; } } else { lean_object* x_13; lean_dec(x_2); lean_dec(x_1); x_13 = lean_box(0); return x_13; } } else { uint8_t x_14; x_14 = lean_name_eq(x_2, x_1); if (x_14 == 0) { uint8_t x_15; x_15 = l_Lean_Name_isPrefixOf(x_2, x_1); lean_dec(x_1); lean_dec(x_2); if (x_15 == 0) { lean_object* x_16; x_16 = lean_box(0); return x_16; } else { lean_object* x_17; x_17 = l_Lean_Server_Completion_matchNamespace___closed__1; return x_17; } } else { lean_object* x_18; lean_dec(x_2); lean_dec(x_1); x_18 = lean_box(0); return x_18; } } } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_matchNamespace___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3) { _start: { uint8_t x_4; lean_object* x_5; x_4 = lean_unbox(x_3); lean_dec(x_3); x_5 = l_Lean_Server_Completion_matchNamespace(x_1, x_2, x_4); return x_5; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces_visitNamespaces(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; lean_object* x_13; lean_inc(x_1); x_12 = l_Lean_Name_append(x_5, x_1); lean_inc(x_4); x_13 = l_Lean_Server_Completion_matchNamespace(x_4, x_12, x_2); if (lean_obj_tag(x_13) == 0) { if (lean_obj_tag(x_5) == 1) { lean_object* x_14; x_14 = lean_ctor_get(x_5, 0); lean_inc(x_14); lean_dec(x_5); x_5 = x_14; goto _start; } else { lean_object* x_16; lean_object* x_17; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_17 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_17, 0, x_16); lean_ctor_set(x_17, 1, x_11); return x_17; } } else { lean_object* x_18; lean_object* x_19; lean_dec(x_1); x_18 = lean_ctor_get(x_13, 0); lean_inc(x_18); lean_dec(x_13); x_19 = lean_apply_9(x_3, x_4, x_5, x_18, x_6, x_7, x_8, x_9, x_10, x_11); return x_19; } } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces_visitNamespaces___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; lean_object* x_13; x_12 = lean_unbox(x_2); lean_dec(x_2); x_13 = l_Lean_Server_Completion_completeNamespaces_visitNamespaces(x_1, x_12, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11); return x_13; } } static lean_object* _init_l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__1() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_2 = lean_box(0); x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } static lean_object* _init_l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__2() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__1; x_2 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } static lean_object* _init_l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__2; x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } LEAN_EXPORT lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { if (lean_obj_tag(x_5) == 0) { lean_object* x_13; lean_object* x_14; lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_13 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_13, 0, x_6); x_14 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_14, 0, x_13); lean_ctor_set(x_14, 1, x_12); return x_14; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_dec(x_6); x_15 = lean_ctor_get(x_5, 0); x_16 = lean_ctor_get(x_5, 1); if (lean_obj_tag(x_15) == 0) { lean_object* x_32; lean_object* x_33; lean_object* x_34; x_32 = lean_ctor_get(x_15, 0); lean_inc(x_1); x_33 = l_Lean_Name_append(x_32, x_1); lean_inc(x_33); lean_inc(x_3); x_34 = l_Lean_Server_Completion_matchNamespace(x_3, x_33, x_2); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; lean_object* x_36; lean_dec(x_33); lean_inc(x_4); x_35 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_35, 0, x_4); x_36 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_36, 0, x_35); x_17 = x_36; x_18 = x_12; goto block_31; } else { if (x_2 == 0) { lean_object* x_37; lean_object* x_38; lean_object* x_39; double x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_dec(x_33); x_37 = lean_ctor_get(x_34, 0); lean_inc(x_37); lean_dec(x_34); x_38 = lean_box(0); lean_inc(x_3); x_39 = l_Lean_Name_replacePrefix(x_3, x_32, x_38); x_40 = lean_unbox_float(x_37); lean_dec(x_37); x_41 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem(x_39, x_40, x_7, x_8, x_9, x_10, x_11, x_12); x_42 = lean_ctor_get(x_41, 1); lean_inc(x_42); lean_dec(x_41); x_43 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3; x_17 = x_43; x_18 = x_42; goto block_31; } else { lean_object* x_44; lean_object* x_45; lean_object* x_46; double x_47; lean_object* x_48; lean_object* x_49; lean_object* x_50; x_44 = lean_ctor_get(x_34, 0); lean_inc(x_44); lean_dec(x_34); x_45 = lean_box(0); lean_inc(x_3); x_46 = l_Lean_Name_replacePrefix(x_3, x_33, x_45); lean_dec(x_33); x_47 = lean_unbox_float(x_44); lean_dec(x_44); x_48 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem(x_46, x_47, x_7, x_8, x_9, x_10, x_11, x_12); x_49 = lean_ctor_get(x_48, 1); lean_inc(x_49); lean_dec(x_48); x_50 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3; x_17 = x_50; x_18 = x_49; goto block_31; } } } else { lean_object* x_51; lean_object* x_52; lean_inc(x_4); x_51 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_51, 0, x_4); x_52 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_52, 0, x_51); x_17 = x_52; x_18 = x_12; goto block_31; } block_31: { uint8_t x_19; x_19 = !lean_is_exclusive(x_17); if (x_19 == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_17, 0); if (lean_obj_tag(x_20) == 0) { lean_object* x_21; lean_object* x_22; lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); lean_dec(x_20); lean_ctor_set(x_17, 0, x_21); x_22 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_22, 0, x_17); lean_ctor_set(x_22, 1, x_18); return x_22; } else { lean_object* x_23; lean_free_object(x_17); x_23 = lean_ctor_get(x_20, 0); lean_inc(x_23); lean_dec(x_20); x_5 = x_16; x_6 = x_23; x_12 = x_18; goto _start; } } else { lean_object* x_25; x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); if (lean_obj_tag(x_25) == 0) { lean_object* x_26; lean_object* x_27; lean_object* x_28; lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_26 = lean_ctor_get(x_25, 0); lean_inc(x_26); lean_dec(x_25); x_27 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_27, 0, x_26); x_28 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_28, 0, x_27); lean_ctor_set(x_28, 1, x_18); return x_28; } else { lean_object* x_29; x_29 = lean_ctor_get(x_25, 0); lean_inc(x_29); lean_dec(x_25); x_5 = x_16; x_6 = x_29; x_12 = x_18; goto _start; } } } } } } LEAN_EXPORT lean_object* l_Std_AssocList_forM___at_Lean_Server_Completion_completeNamespaces___spec__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_9; lean_object* x_10; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_8); return x_10; } else { lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; x_11 = lean_ctor_get(x_2, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_2, 1); lean_inc(x_12); x_13 = lean_ctor_get(x_2, 2); lean_inc(x_13); lean_dec(x_2); lean_inc(x_1); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_14 = lean_apply_8(x_1, x_11, x_12, x_3, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_dec(x_15); x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_2 = x_13; x_8 = x_22; goto _start; } } else { uint8_t x_24; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_24 = !lean_is_exclusive(x_14); if (x_24 == 0) { return x_14; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; x_25 = lean_ctor_get(x_14, 0); x_26 = lean_ctor_get(x_14, 1); lean_inc(x_26); lean_inc(x_25); lean_dec(x_14); x_27 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_27, 0, x_25); lean_ctor_set(x_27, 1, x_26); return x_27; } } } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { lean_object* x_13; uint8_t x_14; x_13 = lean_array_get_size(x_2); x_14 = lean_nat_dec_lt(x_5, x_13); lean_dec(x_13); if (x_14 == 0) { lean_object* x_15; lean_object* x_16; lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_5); lean_dec(x_1); x_15 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_15, 0, x_6); x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_12); return x_16; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; x_17 = lean_array_fget(x_2, x_5); x_18 = lean_array_fget(x_3, x_5); lean_inc(x_1); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); x_19 = lean_apply_9(x_1, x_6, x_17, x_18, x_7, x_8, x_9, x_10, x_11, x_12); if (lean_obj_tag(x_19) == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); if (lean_obj_tag(x_20) == 0) { uint8_t x_21; lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_5); lean_dec(x_1); x_21 = !lean_is_exclusive(x_19); if (x_21 == 0) { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_19, 0); lean_dec(x_22); x_23 = lean_box(0); lean_ctor_set(x_19, 0, x_23); return x_19; } else { lean_object* x_24; lean_object* x_25; lean_object* x_26; x_24 = lean_ctor_get(x_19, 1); lean_inc(x_24); lean_dec(x_19); x_25 = lean_box(0); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_25); lean_ctor_set(x_26, 1, x_24); return x_26; } } else { lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; x_27 = lean_ctor_get(x_19, 1); lean_inc(x_27); lean_dec(x_19); x_28 = lean_ctor_get(x_20, 0); lean_inc(x_28); lean_dec(x_20); x_29 = lean_unsigned_to_nat(1u); x_30 = lean_nat_add(x_5, x_29); lean_dec(x_5); x_4 = lean_box(0); x_5 = x_30; x_6 = x_28; x_12 = x_27; goto _start; } } else { uint8_t x_32; lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_5); lean_dec(x_1); x_32 = !lean_is_exclusive(x_19); if (x_32 == 0) { return x_19; } else { lean_object* x_33; lean_object* x_34; lean_object* x_35; x_33 = lean_ctor_get(x_19, 0); x_34 = lean_ctor_get(x_19, 1); lean_inc(x_34); lean_inc(x_33); lean_dec(x_19); x_35 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_35, 0, x_33); lean_ctor_set(x_35, 1, x_34); return x_35; } } } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8(lean_object* x_1, lean_object* x_2, lean_object* x_3) { _start: { lean_object* x_4; x_4 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg___boxed), 12, 0); return x_4; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; x_11 = lean_apply_8(x_1, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__5(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__4(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__5(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__11(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__11(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__10(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__11(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__9(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__10(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_dec(x_5); x_13 = lean_array_uget(x_2, x_3); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_14 = l_Std_AssocList_forM___at_Lean_Server_Completion_completeNamespaces___spec__3(x_1, x_13, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_object* x_23; size_t x_24; size_t x_25; x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_23 = lean_ctor_get(x_15, 0); lean_inc(x_23); lean_dec(x_15); x_24 = 1; x_25 = lean_usize_add(x_3, x_24); x_3 = x_25; x_5 = x_23; x_11 = x_22; goto _start; } } else { uint8_t x_27; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_27 = !lean_is_exclusive(x_14); if (x_27 == 0) { return x_14; } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; x_28 = lean_ctor_get(x_14, 0); x_29 = lean_ctor_get(x_14, 1); lean_inc(x_29); lean_inc(x_28); lean_dec(x_14); x_30 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_30, 0, x_28); lean_ctor_set(x_30, 1, x_29); return x_30; } } } else { lean_object* x_31; lean_object* x_32; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_31 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_31, 0, x_5); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_11); return x_32; } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__16(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__16(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__15(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__16(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__14(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__15(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Lean_SMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__2(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_9 = lean_ctor_get(x_1, 0); lean_inc(x_9); x_10 = lean_ctor_get(x_9, 1); lean_inc(x_10); lean_dec(x_9); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_11); lean_dec(x_10); x_14 = lean_ctor_get(x_1, 1); lean_inc(x_14); lean_dec(x_1); x_15 = lean_box(0); x_16 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__5(x_2, x_14, x_15, x_3, x_4, x_5, x_6, x_7, x_8); return x_16; } else { uint8_t x_17; x_17 = lean_nat_dec_le(x_11, x_11); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_dec(x_11); lean_dec(x_10); x_18 = lean_ctor_get(x_1, 1); lean_inc(x_18); lean_dec(x_1); x_19 = lean_box(0); x_20 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__10(x_2, x_18, x_19, x_3, x_4, x_5, x_6, x_7, x_8); return x_20; } else { size_t x_21; size_t x_22; lean_object* x_23; lean_object* x_24; x_21 = 0; x_22 = lean_usize_of_nat(x_11); lean_dec(x_11); x_23 = lean_box(0); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); lean_inc(x_2); x_24 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13(x_2, x_10, x_21, x_22, x_23, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_10); if (lean_obj_tag(x_24) == 0) { lean_object* x_25; x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); if (lean_obj_tag(x_25) == 0) { uint8_t x_26; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_26 = !lean_is_exclusive(x_24); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; x_27 = lean_ctor_get(x_24, 0); lean_dec(x_27); x_28 = lean_box(0); lean_ctor_set(x_24, 0, x_28); return x_24; } else { lean_object* x_29; lean_object* x_30; lean_object* x_31; x_29 = lean_ctor_get(x_24, 1); lean_inc(x_29); lean_dec(x_24); x_30 = lean_box(0); x_31 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_31, 0, x_30); lean_ctor_set(x_31, 1, x_29); return x_31; } } else { lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_dec(x_25); x_32 = lean_ctor_get(x_24, 1); lean_inc(x_32); lean_dec(x_24); x_33 = lean_ctor_get(x_1, 1); lean_inc(x_33); lean_dec(x_1); x_34 = l_Std_PersistentHashMap_foldlM___at_Lean_Server_Completion_completeNamespaces___spec__15(x_2, x_33, x_23, x_3, x_4, x_5, x_6, x_7, x_32); return x_34; } } else { uint8_t x_35; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_35 = !lean_is_exclusive(x_24); if (x_35 == 0) { return x_24; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; x_36 = lean_ctor_get(x_24, 0); x_37 = lean_ctor_get(x_24, 1); lean_inc(x_37); lean_inc(x_36); lean_dec(x_24); x_38 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_38, 0, x_36); lean_ctor_set(x_38, 1, x_37); return x_38; } } } } } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__1(uint8_t x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, double x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { if (x_1 == 0) { lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_dec(x_2); x_12 = lean_box(0); x_13 = l_Lean_Name_replacePrefix(x_3, x_4, x_12); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem(x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); return x_14; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; x_15 = l_Lean_Name_append(x_4, x_2); x_16 = lean_box(0); x_17 = l_Lean_Name_replacePrefix(x_3, x_15, x_16); lean_dec(x_15); x_18 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addNamespaceCompletionItem(x_17, x_5, x_6, x_7, x_8, x_9, x_10, x_11); return x_18; } } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__2(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { lean_object* x_13; lean_object* x_14; x_13 = lean_ctor_get(x_1, 4); lean_inc(x_13); lean_dec(x_1); x_14 = l_Lean_Server_Completion_completeNamespaces_visitNamespaces(x_2, x_3, x_4, x_5, x_13, x_7, x_8, x_9, x_10, x_11, x_12); return x_14; } } static lean_object* _init_l_Lean_Server_Completion_completeNamespaces___lambda__3___closed__1() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = lean_box(0); x_2 = lean_box(0); x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, uint8_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; lean_dec(x_7); x_14 = l_Lean_Name_isInternal(x_6); if (x_14 == 0) { uint8_t x_15; lean_inc(x_6); x_15 = l_Lean_Environment_contains(x_1, x_6); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; x_16 = lean_ctor_get(x_2, 5); lean_inc(x_16); x_17 = l_Lean_Server_Completion_completeNamespaces___lambda__3___closed__1; lean_inc(x_6); lean_inc(x_3); x_18 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1(x_3, x_4, x_6, x_17, x_16, x_17, x_8, x_9, x_10, x_11, x_12, x_13); lean_dec(x_16); x_19 = lean_ctor_get(x_18, 0); lean_inc(x_19); x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); lean_dec(x_19); x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); lean_dec(x_20); if (lean_obj_tag(x_21) == 0) { lean_object* x_22; lean_object* x_23; lean_object* x_24; x_22 = lean_ctor_get(x_18, 1); lean_inc(x_22); lean_dec(x_18); x_23 = lean_box(0); x_24 = l_Lean_Server_Completion_completeNamespaces___lambda__2(x_2, x_3, x_4, x_5, x_6, x_23, x_8, x_9, x_10, x_11, x_12, x_22); return x_24; } else { uint8_t x_25; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); x_25 = !lean_is_exclusive(x_18); if (x_25 == 0) { lean_object* x_26; uint8_t x_27; x_26 = lean_ctor_get(x_18, 0); lean_dec(x_26); x_27 = !lean_is_exclusive(x_21); if (x_27 == 0) { lean_ctor_set(x_18, 0, x_21); return x_18; } else { lean_object* x_28; lean_object* x_29; x_28 = lean_ctor_get(x_21, 0); lean_inc(x_28); lean_dec(x_21); x_29 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_29, 0, x_28); lean_ctor_set(x_18, 0, x_29); return x_18; } } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_object* x_34; x_30 = lean_ctor_get(x_18, 1); lean_inc(x_30); lean_dec(x_18); x_31 = lean_ctor_get(x_21, 0); lean_inc(x_31); if (lean_is_exclusive(x_21)) { lean_ctor_release(x_21, 0); x_32 = x_21; } else { lean_dec_ref(x_21); x_32 = lean_box(0); } if (lean_is_scalar(x_32)) { x_33 = lean_alloc_ctor(1, 1, 0); } else { x_33 = x_32; } lean_ctor_set(x_33, 0, x_31); x_34 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_34, 1, x_30); return x_34; } } } else { lean_object* x_35; lean_object* x_36; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); x_35 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_36 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_36, 0, x_35); lean_ctor_set(x_36, 1, x_13); return x_36; } } else { lean_object* x_37; lean_object* x_38; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_37 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_38 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_38, 0, x_37); lean_ctor_set(x_38, 1, x_13); return x_38; } } } static lean_object* _init_l_Lean_Server_Completion_completeNamespaces___closed__1() { _start: { lean_object* x_1; x_1 = l_Lean_namespacesExt; return x_1; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; x_10 = lean_st_ref_get(x_8, x_9); x_11 = lean_ctor_get(x_10, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_10, 1); lean_inc(x_12); lean_dec(x_10); x_13 = lean_ctor_get(x_11, 0); lean_inc(x_13); lean_dec(x_11); x_14 = lean_box(x_3); lean_inc(x_2); x_15 = lean_alloc_closure((void*)(l_Lean_Server_Completion_completeNamespaces___lambda__1___boxed), 11, 2); lean_closure_set(x_15, 0, x_14); lean_closure_set(x_15, 1, x_2); x_16 = l_Lean_NameSSet_instInhabitedNameSSet; x_17 = l_Lean_Server_Completion_completeNamespaces___closed__1; x_18 = l_Lean_SimplePersistentEnvExtension_getState___rarg(x_16, x_17, x_13); x_19 = lean_box(x_3); x_20 = lean_alloc_closure((void*)(l_Lean_Server_Completion_completeNamespaces___lambda__3___boxed), 13, 5); lean_closure_set(x_20, 0, x_13); lean_closure_set(x_20, 1, x_1); lean_closure_set(x_20, 2, x_2); lean_closure_set(x_20, 3, x_19); lean_closure_set(x_20, 4, x_15); x_21 = l_Lean_SMap_forM___at_Lean_Server_Completion_completeNamespaces___spec__2(x_18, x_20, x_4, x_5, x_6, x_7, x_8, x_12); return x_21; } } LEAN_EXPORT lean_object* l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; lean_object* x_14; x_13 = lean_unbox(x_2); lean_dec(x_2); x_14 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1(x_1, x_13, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_5); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__7(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { lean_object* x_13; x_13 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_3); lean_dec(x_2); return x_13; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; x_11 = l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_2); return x_11; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__12(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__13(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at_Lean_Server_Completion_completeNamespaces___spec__17(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; double x_13; lean_object* x_14; x_12 = lean_unbox(x_1); lean_dec(x_1); x_13 = lean_unbox_float(x_5); lean_dec(x_5); x_14 = l_Lean_Server_Completion_completeNamespaces___lambda__1(x_12, x_2, x_3, x_4, x_13, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); return x_14; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__2___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; lean_object* x_14; x_13 = lean_unbox(x_3); lean_dec(x_3); x_14 = l_Lean_Server_Completion_completeNamespaces___lambda__2(x_1, x_2, x_13, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_6); return x_14; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___lambda__3___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; lean_object* x_15; x_14 = lean_unbox(x_4); lean_dec(x_4); x_15 = l_Lean_Server_Completion_completeNamespaces___lambda__3(x_1, x_2, x_3, x_14, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12, x_13); return x_15; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_completeNamespaces___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { uint8_t x_10; lean_object* x_11; x_10 = lean_unbox(x_3); lean_dec(x_3); x_11 = l_Lean_Server_Completion_completeNamespaces(x_1, x_2, x_10, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_searchAlias(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; lean_inc(x_1); lean_inc(x_3); lean_inc(x_5); x_12 = lean_apply_2(x_1, x_5, x_3); if (lean_obj_tag(x_12) == 0) { if (lean_obj_tag(x_5) == 1) { lean_object* x_13; x_13 = lean_ctor_get(x_5, 0); lean_inc(x_13); lean_dec(x_5); x_5 = x_13; goto _start; } else { lean_object* x_15; lean_object* x_16; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_11); return x_16; } } else { lean_object* x_17; lean_object* x_18; lean_dec(x_5); lean_dec(x_1); x_17 = lean_ctor_get(x_12, 0); lean_inc(x_17); lean_dec(x_12); x_18 = lean_apply_9(x_2, x_3, x_4, x_17, x_6, x_7, x_8, x_9, x_10, x_11); return x_18; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_visitNamespaces(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { if (lean_obj_tag(x_2) == 1) { lean_object* x_9; lean_object* x_10; x_9 = lean_ctor_get(x_2, 0); lean_inc(x_9); lean_inc(x_1); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_10 = lean_apply_7(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_10) == 0) { lean_object* x_11; x_11 = lean_ctor_get(x_10, 0); lean_inc(x_11); if (lean_obj_tag(x_11) == 0) { uint8_t x_12; lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_12 = !lean_is_exclusive(x_10); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; x_13 = lean_ctor_get(x_10, 0); lean_dec(x_13); x_14 = lean_box(0); lean_ctor_set(x_10, 0, x_14); return x_10; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; x_15 = lean_ctor_get(x_10, 1); lean_inc(x_15); lean_dec(x_10); x_16 = lean_box(0); x_17 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_17, 0, x_16); lean_ctor_set(x_17, 1, x_15); return x_17; } } else { uint8_t x_18; x_18 = !lean_is_exclusive(x_11); if (x_18 == 0) { lean_object* x_19; uint8_t x_20; x_19 = lean_ctor_get(x_11, 0); x_20 = lean_unbox(x_19); if (x_20 == 0) { lean_object* x_21; lean_free_object(x_11); lean_dec(x_19); x_21 = lean_ctor_get(x_10, 1); lean_inc(x_21); lean_dec(x_10); x_2 = x_9; x_8 = x_21; goto _start; } else { uint8_t x_23; lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_23 = !lean_is_exclusive(x_10); if (x_23 == 0) { lean_object* x_24; x_24 = lean_ctor_get(x_10, 0); lean_dec(x_24); return x_10; } else { lean_object* x_25; lean_object* x_26; x_25 = lean_ctor_get(x_10, 1); lean_inc(x_25); lean_dec(x_10); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_11); lean_ctor_set(x_26, 1, x_25); return x_26; } } } else { lean_object* x_27; uint8_t x_28; x_27 = lean_ctor_get(x_11, 0); lean_inc(x_27); lean_dec(x_11); x_28 = lean_unbox(x_27); if (x_28 == 0) { lean_object* x_29; lean_dec(x_27); x_29 = lean_ctor_get(x_10, 1); lean_inc(x_29); lean_dec(x_10); x_2 = x_9; x_8 = x_29; goto _start; } else { lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_31 = lean_ctor_get(x_10, 1); lean_inc(x_31); if (lean_is_exclusive(x_10)) { lean_ctor_release(x_10, 0); lean_ctor_release(x_10, 1); x_32 = x_10; } else { lean_dec_ref(x_10); x_32 = lean_box(0); } x_33 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_33, 0, x_27); if (lean_is_scalar(x_32)) { x_34 = lean_alloc_ctor(0, 2, 0); } else { x_34 = x_32; } lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_34, 1, x_31); return x_34; } } } } else { uint8_t x_35; lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_35 = !lean_is_exclusive(x_10); if (x_35 == 0) { return x_10; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; x_36 = lean_ctor_get(x_10, 0); x_37 = lean_ctor_get(x_10, 1); lean_inc(x_37); lean_inc(x_36); lean_dec(x_10); x_38 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_38, 0, x_36); lean_ctor_set(x_38, 1, x_37); return x_38; } } } else { lean_object* x_39; lean_object* x_40; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_39 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_40 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_40, 0, x_39); lean_ctor_set(x_40, 1, x_8); return x_40; } } } LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { if (lean_obj_tag(x_7) == 0) { lean_object* x_15; lean_object* x_16; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_15 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_15, 0, x_8); x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_14); return x_16; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_36; lean_object* x_37; lean_dec(x_8); x_17 = lean_ctor_get(x_7, 0); x_18 = lean_ctor_get(x_7, 1); if (lean_obj_tag(x_17) == 0) { lean_object* x_50; lean_object* x_51; uint8_t x_52; x_50 = lean_ctor_get(x_17, 0); x_51 = lean_ctor_get(x_17, 1); x_52 = l_List_elem___at_Lean_NameHashSet_insert___spec__2(x_4, x_51); if (x_52 == 0) { lean_object* x_53; lean_object* x_54; lean_inc(x_4); lean_inc(x_3); x_53 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(x_50, x_3, x_2, x_4, x_10, x_11, x_12, x_13, x_14); x_54 = lean_ctor_get(x_53, 0); lean_inc(x_54); if (lean_obj_tag(x_54) == 0) { lean_object* x_55; lean_object* x_56; x_55 = lean_ctor_get(x_53, 1); lean_inc(x_55); lean_dec(x_53); x_56 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_36 = x_56; x_37 = x_55; goto block_49; } else { lean_object* x_57; lean_object* x_58; lean_object* x_59; lean_object* x_60; lean_object* x_61; x_57 = lean_ctor_get(x_54, 0); lean_inc(x_57); lean_dec(x_54); x_58 = lean_ctor_get(x_53, 1); lean_inc(x_58); lean_dec(x_53); x_59 = lean_ctor_get(x_57, 0); lean_inc(x_59); x_60 = lean_ctor_get(x_57, 1); lean_inc(x_60); lean_dec(x_57); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); x_61 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl(x_5, x_9, x_10, x_11, x_12, x_13, x_58); if (lean_obj_tag(x_61) == 0) { lean_object* x_62; x_62 = lean_ctor_get(x_61, 0); lean_inc(x_62); if (lean_obj_tag(x_62) == 0) { lean_object* x_63; lean_object* x_64; lean_dec(x_60); lean_dec(x_59); x_63 = lean_ctor_get(x_61, 1); lean_inc(x_63); lean_dec(x_61); x_64 = lean_box(0); x_36 = x_64; x_37 = x_63; goto block_49; } else { lean_object* x_65; uint8_t x_66; x_65 = lean_ctor_get(x_61, 1); lean_inc(x_65); lean_dec(x_61); x_66 = !lean_is_exclusive(x_62); if (x_66 == 0) { lean_object* x_67; lean_object* x_68; uint8_t x_69; double x_70; lean_object* x_71; x_67 = lean_ctor_get(x_62, 0); x_68 = l_Lean_ConstantInfo_type(x_5); lean_inc(x_4); lean_ctor_set(x_62, 0, x_4); x_69 = lean_unbox(x_67); lean_dec(x_67); x_70 = lean_unbox_float(x_60); lean_dec(x_60); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_1); x_71 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_59, x_68, x_1, x_62, x_69, x_70, x_9, x_10, x_11, x_12, x_13, x_65); if (lean_obj_tag(x_71) == 0) { lean_object* x_72; x_72 = lean_ctor_get(x_71, 0); lean_inc(x_72); if (lean_obj_tag(x_72) == 0) { lean_object* x_73; lean_object* x_74; x_73 = lean_ctor_get(x_71, 1); lean_inc(x_73); lean_dec(x_71); x_74 = lean_box(0); x_36 = x_74; x_37 = x_73; goto block_49; } else { lean_object* x_75; lean_object* x_76; lean_dec(x_72); x_75 = lean_ctor_get(x_71, 1); lean_inc(x_75); lean_dec(x_71); x_76 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_36 = x_76; x_37 = x_75; goto block_49; } } else { uint8_t x_77; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_77 = !lean_is_exclusive(x_71); if (x_77 == 0) { return x_71; } else { lean_object* x_78; lean_object* x_79; lean_object* x_80; x_78 = lean_ctor_get(x_71, 0); x_79 = lean_ctor_get(x_71, 1); lean_inc(x_79); lean_inc(x_78); lean_dec(x_71); x_80 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_80, 0, x_78); lean_ctor_set(x_80, 1, x_79); return x_80; } } } else { lean_object* x_81; lean_object* x_82; lean_object* x_83; uint8_t x_84; double x_85; lean_object* x_86; x_81 = lean_ctor_get(x_62, 0); lean_inc(x_81); lean_dec(x_62); x_82 = l_Lean_ConstantInfo_type(x_5); lean_inc(x_4); x_83 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_83, 0, x_4); x_84 = lean_unbox(x_81); lean_dec(x_81); x_85 = lean_unbox_float(x_60); lean_dec(x_60); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_1); x_86 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_59, x_82, x_1, x_83, x_84, x_85, x_9, x_10, x_11, x_12, x_13, x_65); if (lean_obj_tag(x_86) == 0) { lean_object* x_87; x_87 = lean_ctor_get(x_86, 0); lean_inc(x_87); if (lean_obj_tag(x_87) == 0) { lean_object* x_88; lean_object* x_89; x_88 = lean_ctor_get(x_86, 1); lean_inc(x_88); lean_dec(x_86); x_89 = lean_box(0); x_36 = x_89; x_37 = x_88; goto block_49; } else { lean_object* x_90; lean_object* x_91; lean_dec(x_87); x_90 = lean_ctor_get(x_86, 1); lean_inc(x_90); lean_dec(x_86); x_91 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_36 = x_91; x_37 = x_90; goto block_49; } } else { lean_object* x_92; lean_object* x_93; lean_object* x_94; lean_object* x_95; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_92 = lean_ctor_get(x_86, 0); lean_inc(x_92); x_93 = lean_ctor_get(x_86, 1); lean_inc(x_93); if (lean_is_exclusive(x_86)) { lean_ctor_release(x_86, 0); lean_ctor_release(x_86, 1); x_94 = x_86; } else { lean_dec_ref(x_86); x_94 = lean_box(0); } if (lean_is_scalar(x_94)) { x_95 = lean_alloc_ctor(1, 2, 0); } else { x_95 = x_94; } lean_ctor_set(x_95, 0, x_92); lean_ctor_set(x_95, 1, x_93); return x_95; } } } } else { uint8_t x_96; lean_dec(x_60); lean_dec(x_59); lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_96 = !lean_is_exclusive(x_61); if (x_96 == 0) { return x_61; } else { lean_object* x_97; lean_object* x_98; lean_object* x_99; x_97 = lean_ctor_get(x_61, 0); x_98 = lean_ctor_get(x_61, 1); lean_inc(x_98); lean_inc(x_97); lean_dec(x_61); x_99 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_99, 0, x_97); lean_ctor_set(x_99, 1, x_98); return x_99; } } } } else { lean_object* x_100; lean_object* x_101; lean_inc(x_6); x_100 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_100, 0, x_6); x_101 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_101, 0, x_100); x_19 = x_101; x_20 = x_14; goto block_35; } } else { lean_object* x_102; lean_object* x_103; lean_inc(x_6); x_102 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_102, 0, x_6); x_103 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_103, 0, x_102); x_19 = x_103; x_20 = x_14; goto block_35; } block_35: { if (lean_obj_tag(x_19) == 0) { lean_object* x_21; lean_object* x_22; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_21 = lean_box(0); x_22 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_22, 0, x_21); lean_ctor_set(x_22, 1, x_20); return x_22; } else { uint8_t x_23; x_23 = !lean_is_exclusive(x_19); if (x_23 == 0) { lean_object* x_24; x_24 = lean_ctor_get(x_19, 0); if (lean_obj_tag(x_24) == 0) { lean_object* x_25; lean_object* x_26; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); lean_dec(x_24); lean_ctor_set(x_19, 0, x_25); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_19); lean_ctor_set(x_26, 1, x_20); return x_26; } else { lean_object* x_27; lean_free_object(x_19); x_27 = lean_ctor_get(x_24, 0); lean_inc(x_27); lean_dec(x_24); x_7 = x_18; x_8 = x_27; x_14 = x_20; goto _start; } } else { lean_object* x_29; x_29 = lean_ctor_get(x_19, 0); lean_inc(x_29); lean_dec(x_19); if (lean_obj_tag(x_29) == 0) { lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_30 = lean_ctor_get(x_29, 0); lean_inc(x_30); lean_dec(x_29); x_31 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_31, 0, x_30); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_20); return x_32; } else { lean_object* x_33; x_33 = lean_ctor_get(x_29, 0); lean_inc(x_33); lean_dec(x_29); x_7 = x_18; x_8 = x_33; x_14 = x_20; goto _start; } } } } block_49: { if (lean_obj_tag(x_36) == 0) { lean_object* x_38; x_38 = lean_box(0); x_19 = x_38; x_20 = x_37; goto block_35; } else { uint8_t x_39; x_39 = !lean_is_exclusive(x_36); if (x_39 == 0) { lean_object* x_40; uint8_t x_41; x_40 = lean_ctor_get(x_36, 0); x_41 = lean_unbox(x_40); lean_dec(x_40); if (x_41 == 0) { lean_object* x_42; lean_inc(x_6); x_42 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_42, 0, x_6); lean_ctor_set(x_36, 0, x_42); x_19 = x_36; x_20 = x_37; goto block_35; } else { lean_object* x_43; lean_free_object(x_36); x_43 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3; x_19 = x_43; x_20 = x_37; goto block_35; } } else { lean_object* x_44; uint8_t x_45; x_44 = lean_ctor_get(x_36, 0); lean_inc(x_44); lean_dec(x_36); x_45 = lean_unbox(x_44); lean_dec(x_44); if (x_45 == 0) { lean_object* x_46; lean_object* x_47; lean_inc(x_6); x_46 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_46, 0, x_6); x_47 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_47, 0, x_46); x_19 = x_47; x_20 = x_37; goto block_35; } else { lean_object* x_48; x_48 = l_List_forIn_loop___at_Lean_Server_Completion_completeNamespaces___spec__1___closed__3; x_19 = x_48; x_20 = x_37; goto block_35; } } } } } } } LEAN_EXPORT lean_object* l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_9; lean_object* x_10; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_8); return x_10; } else { lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; x_11 = lean_ctor_get(x_2, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_2, 1); lean_inc(x_12); x_13 = lean_ctor_get(x_2, 2); lean_inc(x_13); lean_dec(x_2); lean_inc(x_1); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_14 = lean_apply_8(x_1, x_11, x_12, x_3, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_dec(x_15); x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_2 = x_13; x_8 = x_22; goto _start; } } else { uint8_t x_24; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_24 = !lean_is_exclusive(x_14); if (x_24 == 0) { return x_14; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; x_25 = lean_ctor_get(x_14, 0); x_26 = lean_ctor_get(x_14, 1); lean_inc(x_26); lean_inc(x_25); lean_dec(x_14); x_27 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_27, 0, x_25); lean_ctor_set(x_27, 1, x_26); return x_27; } } } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__6(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__6(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__5(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__6(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__4(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__5(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__10(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__10(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__9(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__10(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__8(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__9(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_dec(x_5); x_13 = lean_array_uget(x_2, x_3); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_14 = l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__3(x_1, x_13, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_object* x_23; size_t x_24; size_t x_25; x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_23 = lean_ctor_get(x_15, 0); lean_inc(x_23); lean_dec(x_15); x_24 = 1; x_25 = lean_usize_add(x_3, x_24); x_3 = x_25; x_5 = x_23; x_11 = x_22; goto _start; } } else { uint8_t x_27; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_27 = !lean_is_exclusive(x_14); if (x_27 == 0) { return x_14; } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; x_28 = lean_ctor_get(x_14, 0); x_29 = lean_ctor_get(x_14, 1); lean_inc(x_29); lean_inc(x_28); lean_dec(x_14); x_30 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_30, 0, x_28); lean_ctor_set(x_30, 1, x_29); return x_30; } } } else { lean_object* x_31; lean_object* x_32; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_31 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_31, 0, x_5); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_11); return x_32; } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__15(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__15(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__14(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__15(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__13(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__14(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__2(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_9 = lean_ctor_get(x_1, 0); lean_inc(x_9); x_10 = lean_ctor_get(x_9, 1); lean_inc(x_10); lean_dec(x_9); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_11); lean_dec(x_10); x_14 = lean_ctor_get(x_1, 1); lean_inc(x_14); lean_dec(x_1); x_15 = lean_box(0); x_16 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__5(x_2, x_14, x_15, x_3, x_4, x_5, x_6, x_7, x_8); return x_16; } else { uint8_t x_17; x_17 = lean_nat_dec_le(x_11, x_11); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_dec(x_11); lean_dec(x_10); x_18 = lean_ctor_get(x_1, 1); lean_inc(x_18); lean_dec(x_1); x_19 = lean_box(0); x_20 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__9(x_2, x_18, x_19, x_3, x_4, x_5, x_6, x_7, x_8); return x_20; } else { size_t x_21; size_t x_22; lean_object* x_23; lean_object* x_24; x_21 = 0; x_22 = lean_usize_of_nat(x_11); lean_dec(x_11); x_23 = lean_box(0); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); lean_inc(x_2); x_24 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12(x_2, x_10, x_21, x_22, x_23, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_10); if (lean_obj_tag(x_24) == 0) { lean_object* x_25; x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); if (lean_obj_tag(x_25) == 0) { uint8_t x_26; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_26 = !lean_is_exclusive(x_24); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; x_27 = lean_ctor_get(x_24, 0); lean_dec(x_27); x_28 = lean_box(0); lean_ctor_set(x_24, 0, x_28); return x_24; } else { lean_object* x_29; lean_object* x_30; lean_object* x_31; x_29 = lean_ctor_get(x_24, 1); lean_inc(x_29); lean_dec(x_24); x_30 = lean_box(0); x_31 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_31, 0, x_30); lean_ctor_set(x_31, 1, x_29); return x_31; } } else { lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_dec(x_25); x_32 = lean_ctor_get(x_24, 1); lean_inc(x_32); lean_dec(x_24); x_33 = lean_ctor_get(x_1, 1); lean_inc(x_33); lean_dec(x_1); x_34 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__14(x_2, x_33, x_23, x_3, x_4, x_5, x_6, x_7, x_32); return x_34; } } else { uint8_t x_35; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_35 = !lean_is_exclusive(x_24); if (x_35 == 0) { return x_24; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; x_36 = lean_ctor_get(x_24, 0); x_37 = lean_ctor_get(x_24, 1); lean_inc(x_37); lean_inc(x_36); lean_dec(x_24); x_38 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_38, 0, x_36); lean_ctor_set(x_38, 1, x_37); return x_38; } } } } } } LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17(lean_object* x_1, lean_object* x_2, double x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { if (lean_obj_tag(x_4) == 0) { lean_object* x_11; lean_object* x_12; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_12 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_12, 0, x_11); lean_ctor_set(x_12, 1, x_10); return x_12; } else { lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; uint8_t x_17; x_13 = lean_ctor_get(x_4, 0); lean_inc(x_13); x_14 = lean_ctor_get(x_4, 1); lean_inc(x_14); lean_dec(x_4); lean_inc(x_13); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_13, x_6, x_7, x_8, x_9, x_10); x_16 = lean_ctor_get(x_15, 0); lean_inc(x_16); x_17 = lean_unbox(x_16); lean_dec(x_16); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; x_18 = lean_ctor_get(x_15, 1); lean_inc(x_18); lean_dec(x_15); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); lean_inc(x_2); x_19 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl(x_2, x_13, x_1, x_3, x_5, x_6, x_7, x_8, x_9, x_18); if (lean_obj_tag(x_19) == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); if (lean_obj_tag(x_20) == 0) { uint8_t x_21; lean_dec(x_14); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_21 = !lean_is_exclusive(x_19); if (x_21 == 0) { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_19, 0); lean_dec(x_22); x_23 = lean_box(0); lean_ctor_set(x_19, 0, x_23); return x_19; } else { lean_object* x_24; lean_object* x_25; lean_object* x_26; x_24 = lean_ctor_get(x_19, 1); lean_inc(x_24); lean_dec(x_19); x_25 = lean_box(0); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_25); lean_ctor_set(x_26, 1, x_24); return x_26; } } else { lean_object* x_27; lean_dec(x_20); x_27 = lean_ctor_get(x_19, 1); lean_inc(x_27); lean_dec(x_19); x_4 = x_14; x_10 = x_27; goto _start; } } else { uint8_t x_29; lean_dec(x_14); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_29 = !lean_is_exclusive(x_19); if (x_29 == 0) { return x_19; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_19, 0); x_31 = lean_ctor_get(x_19, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_19); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } else { lean_object* x_33; lean_dec(x_13); x_33 = lean_ctor_get(x_15, 1); lean_inc(x_33); lean_dec(x_15); x_4 = x_14; x_10 = x_33; goto _start; } } } } LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18(lean_object* x_1, lean_object* x_2, double x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { if (lean_obj_tag(x_4) == 0) { lean_object* x_11; lean_object* x_12; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_12 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_12, 0, x_11); lean_ctor_set(x_12, 1, x_10); return x_12; } else { lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; uint8_t x_17; x_13 = lean_ctor_get(x_4, 0); lean_inc(x_13); x_14 = lean_ctor_get(x_4, 1); lean_inc(x_14); lean_dec(x_4); lean_inc(x_13); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_13, x_6, x_7, x_8, x_9, x_10); x_16 = lean_ctor_get(x_15, 0); lean_inc(x_16); x_17 = lean_unbox(x_16); lean_dec(x_16); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; x_18 = lean_ctor_get(x_15, 1); lean_inc(x_18); lean_dec(x_15); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); lean_inc(x_2); x_19 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl(x_2, x_13, x_1, x_3, x_5, x_6, x_7, x_8, x_9, x_18); if (lean_obj_tag(x_19) == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); if (lean_obj_tag(x_20) == 0) { uint8_t x_21; lean_dec(x_14); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_21 = !lean_is_exclusive(x_19); if (x_21 == 0) { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_19, 0); lean_dec(x_22); x_23 = lean_box(0); lean_ctor_set(x_19, 0, x_23); return x_19; } else { lean_object* x_24; lean_object* x_25; lean_object* x_26; x_24 = lean_ctor_get(x_19, 1); lean_inc(x_24); lean_dec(x_19); x_25 = lean_box(0); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_25); lean_ctor_set(x_26, 1, x_24); return x_26; } } else { lean_object* x_27; lean_dec(x_20); x_27 = lean_ctor_get(x_19, 1); lean_inc(x_27); lean_dec(x_19); x_4 = x_14; x_10 = x_27; goto _start; } } else { uint8_t x_29; lean_dec(x_14); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_29 = !lean_is_exclusive(x_19); if (x_29 == 0) { return x_19; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_19, 0); x_31 = lean_ctor_get(x_19, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_19); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } else { lean_object* x_33; lean_dec(x_13); x_33 = lean_ctor_get(x_15, 1); lean_inc(x_33); lean_dec(x_15); x_4 = x_14; x_10 = x_33; goto _start; } } } } LEAN_EXPORT lean_object* l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__20(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_9; lean_object* x_10; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_8); return x_10; } else { lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; x_11 = lean_ctor_get(x_2, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_2, 1); lean_inc(x_12); x_13 = lean_ctor_get(x_2, 2); lean_inc(x_13); lean_dec(x_2); lean_inc(x_1); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_14 = lean_apply_8(x_1, x_11, x_12, x_3, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_dec(x_15); x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_2 = x_13; x_8 = x_22; goto _start; } } else { uint8_t x_24; lean_dec(x_13); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_24 = !lean_is_exclusive(x_14); if (x_24 == 0) { return x_14; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; x_25 = lean_ctor_get(x_14, 0); x_26 = lean_ctor_get(x_14, 1); lean_inc(x_26); lean_inc(x_25); lean_dec(x_14); x_27 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_27, 0, x_25); lean_ctor_set(x_27, 1, x_26); return x_27; } } } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__23(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__23(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__22(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__23(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__21(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__22(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__27(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__27(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__26(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__27(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__25(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__26(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_dec(x_5); x_13 = lean_array_uget(x_2, x_3); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_14 = l_Std_AssocList_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__20(x_1, x_13, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_14) == 0) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_16 = !lean_is_exclusive(x_14); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; x_17 = lean_ctor_get(x_14, 0); lean_dec(x_17); x_18 = lean_box(0); lean_ctor_set(x_14, 0, x_18); return x_14; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_dec(x_14); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { lean_object* x_22; lean_object* x_23; size_t x_24; size_t x_25; x_22 = lean_ctor_get(x_14, 1); lean_inc(x_22); lean_dec(x_14); x_23 = lean_ctor_get(x_15, 0); lean_inc(x_23); lean_dec(x_15); x_24 = 1; x_25 = lean_usize_add(x_3, x_24); x_3 = x_25; x_5 = x_23; x_11 = x_22; goto _start; } } else { uint8_t x_27; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_27 = !lean_is_exclusive(x_14); if (x_27 == 0) { return x_14; } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; x_28 = lean_ctor_get(x_14, 0); x_29 = lean_ctor_get(x_14, 1); lean_inc(x_29); lean_inc(x_28); lean_dec(x_14); x_30 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_30, 0, x_28); lean_ctor_set(x_30, 1, x_29); return x_30; } } } else { lean_object* x_31; lean_object* x_32; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_31 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_31, 0, x_5); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_11); return x_32; } } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33(lean_object* x_1, lean_object* x_2, size_t x_3, size_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_eq(x_3, x_4); if (x_12 == 0) { lean_object* x_13; x_13 = lean_array_uget(x_2, x_3); switch (lean_obj_tag(x_13)) { case 0: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_5); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); lean_inc(x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_16 = lean_apply_8(x_1, x_14, x_15, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; lean_object* x_25; size_t x_26; size_t x_27; x_24 = lean_ctor_get(x_16, 1); lean_inc(x_24); lean_dec(x_16); x_25 = lean_ctor_get(x_17, 0); lean_inc(x_25); lean_dec(x_17); x_26 = 1; x_27 = lean_usize_add(x_3, x_26); x_3 = x_27; x_5 = x_25; x_11 = x_24; goto _start; } } else { uint8_t x_29; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { return x_16; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_16, 0); x_31 = lean_ctor_get(x_16, 1); lean_inc(x_31); lean_inc(x_30); lean_dec(x_16); x_32 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); return x_32; } } } case 1: { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_13, 0); lean_inc(x_33); lean_dec(x_13); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_34 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__32(x_1, x_33, x_5, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_34) == 0) { lean_object* x_35; x_35 = lean_ctor_get(x_34, 0); lean_inc(x_35); if (lean_obj_tag(x_35) == 0) { uint8_t x_36; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_36 = !lean_is_exclusive(x_34); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; x_37 = lean_ctor_get(x_34, 0); lean_dec(x_37); x_38 = lean_box(0); lean_ctor_set(x_34, 0, x_38); return x_34; } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; x_39 = lean_ctor_get(x_34, 1); lean_inc(x_39); lean_dec(x_34); x_40 = lean_box(0); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_40); lean_ctor_set(x_41, 1, x_39); return x_41; } } else { lean_object* x_42; lean_object* x_43; size_t x_44; size_t x_45; x_42 = lean_ctor_get(x_34, 1); lean_inc(x_42); lean_dec(x_34); x_43 = lean_ctor_get(x_35, 0); lean_inc(x_43); lean_dec(x_35); x_44 = 1; x_45 = lean_usize_add(x_3, x_44); x_3 = x_45; x_5 = x_43; x_11 = x_42; goto _start; } } else { uint8_t x_47; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_47 = !lean_is_exclusive(x_34); if (x_47 == 0) { return x_34; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_34, 0); x_49 = lean_ctor_get(x_34, 1); lean_inc(x_49); lean_inc(x_48); lean_dec(x_34); x_50 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_50, 0, x_48); lean_ctor_set(x_50, 1, x_49); return x_50; } } } default: { size_t x_51; size_t x_52; x_51 = 1; x_52 = lean_usize_add(x_3, x_51); x_3 = x_52; goto _start; } } } else { lean_object* x_54; lean_object* x_55; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_5); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_54); lean_ctor_set(x_55, 1, x_11); return x_55; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__32(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_3); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_9); return x_15; } else { uint8_t x_16; x_16 = lean_nat_dec_le(x_11, x_11); if (x_16 == 0) { lean_object* x_17; lean_object* x_18; lean_dec(x_11); lean_dec(x_10); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_3); x_18 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_18, 0, x_17); lean_ctor_set(x_18, 1, x_9); return x_18; } else { size_t x_19; size_t x_20; lean_object* x_21; x_19 = 0; x_20 = lean_usize_of_nat(x_11); lean_dec(x_11); x_21 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33(x_1, x_10, x_19, x_20, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_10); return x_21; } } } else { lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; x_22 = lean_ctor_get(x_2, 0); lean_inc(x_22); x_23 = lean_ctor_get(x_2, 1); lean_inc(x_23); lean_dec(x_2); x_24 = lean_alloc_closure((void*)(l_Std_PersistentHashMap_foldlMAux___at_Lean_Server_Completion_completeNamespaces___spec__6___lambda__1___boxed), 10, 1); lean_closure_set(x_24, 0, x_1); x_25 = lean_unsigned_to_nat(0u); x_26 = l_Std_PersistentHashMap_foldlMAux_traverse___at_Lean_Server_Completion_completeNamespaces___spec__8___rarg(x_24, x_22, x_23, lean_box(0), x_25, x_3, x_4, x_5, x_6, x_7, x_8, x_9); lean_dec(x_23); lean_dec(x_22); return x_26; } } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__31(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9) { _start: { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_2, 0); lean_inc(x_10); lean_dec(x_2); x_11 = l_Std_PersistentHashMap_foldlMAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__32(x_1, x_10, x_3, x_4, x_5, x_6, x_7, x_8, x_9); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentHashMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__30(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_box(0); x_10 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__31(x_1, x_2, x_9, x_3, x_4, x_5, x_6, x_7, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__19(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; uint8_t x_13; x_9 = lean_ctor_get(x_1, 0); lean_inc(x_9); x_10 = lean_ctor_get(x_9, 1); lean_inc(x_10); lean_dec(x_9); x_11 = lean_array_get_size(x_10); x_12 = lean_unsigned_to_nat(0u); x_13 = lean_nat_dec_lt(x_12, x_11); if (x_13 == 0) { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_11); lean_dec(x_10); x_14 = lean_ctor_get(x_1, 1); lean_inc(x_14); lean_dec(x_1); x_15 = lean_box(0); x_16 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__22(x_2, x_14, x_15, x_3, x_4, x_5, x_6, x_7, x_8); return x_16; } else { uint8_t x_17; x_17 = lean_nat_dec_le(x_11, x_11); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_dec(x_11); lean_dec(x_10); x_18 = lean_ctor_get(x_1, 1); lean_inc(x_18); lean_dec(x_1); x_19 = lean_box(0); x_20 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__26(x_2, x_18, x_19, x_3, x_4, x_5, x_6, x_7, x_8); return x_20; } else { size_t x_21; size_t x_22; lean_object* x_23; lean_object* x_24; x_21 = 0; x_22 = lean_usize_of_nat(x_11); lean_dec(x_11); x_23 = lean_box(0); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); lean_inc(x_2); x_24 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29(x_2, x_10, x_21, x_22, x_23, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_10); if (lean_obj_tag(x_24) == 0) { lean_object* x_25; x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); if (lean_obj_tag(x_25) == 0) { uint8_t x_26; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_26 = !lean_is_exclusive(x_24); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; x_27 = lean_ctor_get(x_24, 0); lean_dec(x_27); x_28 = lean_box(0); lean_ctor_set(x_24, 0, x_28); return x_24; } else { lean_object* x_29; lean_object* x_30; lean_object* x_31; x_29 = lean_ctor_get(x_24, 1); lean_inc(x_29); lean_dec(x_24); x_30 = lean_box(0); x_31 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_31, 0, x_30); lean_ctor_set(x_31, 1, x_29); return x_31; } } else { lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_dec(x_25); x_32 = lean_ctor_get(x_24, 1); lean_inc(x_32); lean_dec(x_24); x_33 = lean_ctor_get(x_1, 1); lean_inc(x_33); lean_dec(x_1); x_34 = l_Std_PersistentHashMap_foldlM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__31(x_2, x_33, x_23, x_3, x_4, x_5, x_6, x_7, x_32); return x_34; } } else { uint8_t x_35; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_35 = !lean_is_exclusive(x_24); if (x_35 == 0) { return x_24; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; x_36 = lean_ctor_get(x_24, 0); x_37 = lean_ctor_get(x_24, 1); lean_inc(x_37); lean_inc(x_36); lean_dec(x_24); x_38 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_38, 0, x_36); lean_ctor_set(x_38, 1, x_37); return x_38; } } } } } } LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = l_Lean_Name_isPrefixOf(x_1, x_4); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_14 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_14, 0, x_13); lean_ctor_set(x_14, 1, x_11); return x_14; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; x_15 = lean_box(0); lean_inc(x_4); x_16 = l_Lean_Name_replacePrefix(x_4, x_1, x_15); lean_dec(x_1); x_17 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(x_2, x_16); if (lean_obj_tag(x_17) == 0) { lean_object* x_18; lean_object* x_19; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); x_18 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_19 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_19, 0, x_18); lean_ctor_set(x_19, 1, x_11); return x_19; } else { lean_object* x_20; double x_21; lean_object* x_22; x_20 = lean_ctor_get(x_17, 0); lean_inc(x_20); lean_dec(x_17); x_21 = lean_unbox_float(x_20); lean_dec(x_20); x_22 = l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18(x_3, x_4, x_21, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_6); return x_22; } } } } static lean_object* _init_l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__1() { _start: { lean_object* x_1; lean_object* x_2; x_1 = lean_box(0); x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } static lean_object* _init_l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__1; x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { if (lean_obj_tag(x_4) == 0) { lean_object* x_12; lean_object* x_13; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_12 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_12, 0, x_5); x_13 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_13, 0, x_12); lean_ctor_set(x_13, 1, x_11); return x_13; } else { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_dec(x_5); x_14 = lean_ctor_get(x_4, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_4, 1); lean_inc(x_15); lean_dec(x_4); if (lean_obj_tag(x_14) == 0) { lean_object* x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; x_24 = lean_ctor_get(x_14, 0); lean_inc(x_24); lean_dec(x_14); x_25 = l_Lean_getAliasState(x_3); lean_inc(x_1); lean_inc(x_2); x_26 = lean_alloc_closure((void*)(l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___lambda__1), 11, 3); lean_closure_set(x_26, 0, x_24); lean_closure_set(x_26, 1, x_2); lean_closure_set(x_26, 2, x_1); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_27 = l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__19(x_25, x_26, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_27) == 0) { lean_object* x_28; x_28 = lean_ctor_get(x_27, 0); lean_inc(x_28); if (lean_obj_tag(x_28) == 0) { lean_object* x_29; lean_object* x_30; x_29 = lean_ctor_get(x_27, 1); lean_inc(x_29); lean_dec(x_27); x_30 = lean_box(0); x_16 = x_30; x_17 = x_29; goto block_23; } else { lean_object* x_31; lean_object* x_32; lean_dec(x_28); x_31 = lean_ctor_get(x_27, 1); lean_inc(x_31); lean_dec(x_27); x_32 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_16 = x_32; x_17 = x_31; goto block_23; } } else { uint8_t x_33; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_33 = !lean_is_exclusive(x_27); if (x_33 == 0) { return x_27; } else { lean_object* x_34; lean_object* x_35; lean_object* x_36; x_34 = lean_ctor_get(x_27, 0); x_35 = lean_ctor_get(x_27, 1); lean_inc(x_35); lean_inc(x_34); lean_dec(x_27); x_36 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_36, 0, x_34); lean_ctor_set(x_36, 1, x_35); return x_36; } } } else { lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; uint8_t x_41; x_37 = lean_ctor_get(x_14, 0); lean_inc(x_37); x_38 = lean_ctor_get(x_14, 1); lean_inc(x_38); lean_dec(x_14); lean_inc(x_38); x_39 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_38, x_7, x_8, x_9, x_10, x_11); x_40 = lean_ctor_get(x_39, 0); lean_inc(x_40); x_41 = lean_unbox(x_40); lean_dec(x_40); if (x_41 == 0) { lean_object* x_42; lean_object* x_43; x_42 = lean_ctor_get(x_39, 1); lean_inc(x_42); lean_dec(x_39); lean_inc(x_37); lean_inc(x_2); x_43 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(x_2, x_37); if (lean_obj_tag(x_43) == 0) { lean_object* x_44; lean_dec(x_38); lean_dec(x_37); x_44 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_16 = x_44; x_17 = x_42; goto block_23; } else { lean_object* x_45; double x_46; lean_object* x_47; x_45 = lean_ctor_get(x_43, 0); lean_inc(x_45); lean_dec(x_43); x_46 = lean_unbox_float(x_45); lean_dec(x_45); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_1); x_47 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItemForDecl(x_37, x_38, x_1, x_46, x_6, x_7, x_8, x_9, x_10, x_42); if (lean_obj_tag(x_47) == 0) { lean_object* x_48; x_48 = lean_ctor_get(x_47, 0); lean_inc(x_48); if (lean_obj_tag(x_48) == 0) { lean_object* x_49; lean_object* x_50; x_49 = lean_ctor_get(x_47, 1); lean_inc(x_49); lean_dec(x_47); x_50 = lean_box(0); x_16 = x_50; x_17 = x_49; goto block_23; } else { lean_object* x_51; lean_object* x_52; lean_dec(x_48); x_51 = lean_ctor_get(x_47, 1); lean_inc(x_51); lean_dec(x_47); x_52 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_16 = x_52; x_17 = x_51; goto block_23; } } else { uint8_t x_53; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_53 = !lean_is_exclusive(x_47); if (x_53 == 0) { return x_47; } else { lean_object* x_54; lean_object* x_55; lean_object* x_56; x_54 = lean_ctor_get(x_47, 0); x_55 = lean_ctor_get(x_47, 1); lean_inc(x_55); lean_inc(x_54); lean_dec(x_47); x_56 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_56, 0, x_54); lean_ctor_set(x_56, 1, x_55); return x_56; } } } } else { lean_object* x_57; lean_object* x_58; lean_dec(x_38); lean_dec(x_37); x_57 = lean_ctor_get(x_39, 1); lean_inc(x_57); lean_dec(x_39); x_58 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_16 = x_58; x_17 = x_57; goto block_23; } } block_23: { if (lean_obj_tag(x_16) == 0) { lean_object* x_18; lean_object* x_19; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); x_18 = lean_box(0); x_19 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_19, 0, x_18); lean_ctor_set(x_19, 1, x_17); return x_19; } else { lean_object* x_20; lean_object* x_21; x_20 = lean_ctor_get(x_16, 0); lean_inc(x_20); lean_dec(x_16); x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); lean_dec(x_20); x_4 = x_15; x_5 = x_21; x_11 = x_17; goto _start; } } } } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35(lean_object* x_1, size_t x_2, size_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { uint8_t x_11; x_11 = lean_usize_dec_lt(x_3, x_2); if (x_11 == 0) { lean_object* x_12; lean_object* x_13; x_12 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_12, 0, x_4); x_13 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_13, 0, x_12); lean_ctor_set(x_13, 1, x_10); return x_13; } else { lean_object* x_14; lean_object* x_15; lean_object* x_16; size_t x_17; size_t x_18; lean_object* x_19; lean_dec(x_4); x_14 = lean_array_uget(x_1, x_3); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem(x_14, x_5, x_6, x_7, x_8, x_9, x_10); x_16 = lean_ctor_get(x_15, 1); lean_inc(x_16); lean_dec(x_15); x_17 = 1; x_18 = lean_usize_add(x_3, x_17); x_19 = lean_box(0); x_3 = x_18; x_4 = x_19; x_10 = x_16; goto _start; } } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, size_t x_6, size_t x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { uint8_t x_15; x_15 = lean_usize_dec_lt(x_7, x_6); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_16 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_16, 0, x_8); x_17 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_17, 0, x_16); lean_ctor_set(x_17, 1, x_14); return x_17; } else { lean_object* x_18; lean_object* x_19; lean_object* x_20; uint8_t x_40; x_18 = lean_array_uget(x_5, x_7); x_40 = !lean_is_exclusive(x_8); if (x_40 == 0) { lean_object* x_41; lean_object* x_42; lean_object* x_43; x_41 = lean_ctor_get(x_8, 1); x_42 = lean_ctor_get(x_8, 0); lean_dec(x_42); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_41); lean_inc(x_3); lean_inc(x_2); lean_inc(x_1); x_43 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37(x_1, x_2, x_3, x_18, x_41, x_9, x_10, x_11, x_12, x_13, x_14); if (lean_obj_tag(x_43) == 0) { lean_object* x_44; x_44 = lean_ctor_get(x_43, 0); lean_inc(x_44); if (lean_obj_tag(x_44) == 0) { lean_object* x_45; lean_object* x_46; lean_free_object(x_8); lean_dec(x_41); x_45 = lean_ctor_get(x_43, 1); lean_inc(x_45); lean_dec(x_43); x_46 = lean_box(0); x_19 = x_46; x_20 = x_45; goto block_39; } else { uint8_t x_47; x_47 = !lean_is_exclusive(x_44); if (x_47 == 0) { lean_object* x_48; x_48 = lean_ctor_get(x_44, 0); if (lean_obj_tag(x_48) == 0) { lean_object* x_49; lean_object* x_50; lean_object* x_51; x_49 = lean_ctor_get(x_43, 1); lean_inc(x_49); lean_dec(x_43); lean_ctor_set(x_8, 0, x_44); x_50 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_50, 0, x_8); x_51 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_51, 0, x_50); x_19 = x_51; x_20 = x_49; goto block_39; } else { lean_object* x_52; uint8_t x_53; lean_dec(x_41); x_52 = lean_ctor_get(x_43, 1); lean_inc(x_52); lean_dec(x_43); x_53 = !lean_is_exclusive(x_48); if (x_53 == 0) { lean_object* x_54; x_54 = lean_ctor_get(x_48, 0); lean_inc(x_4); lean_ctor_set(x_8, 1, x_54); lean_ctor_set(x_8, 0, x_4); lean_ctor_set(x_48, 0, x_8); x_19 = x_44; x_20 = x_52; goto block_39; } else { lean_object* x_55; lean_object* x_56; x_55 = lean_ctor_get(x_48, 0); lean_inc(x_55); lean_dec(x_48); lean_inc(x_4); lean_ctor_set(x_8, 1, x_55); lean_ctor_set(x_8, 0, x_4); x_56 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_56, 0, x_8); lean_ctor_set(x_44, 0, x_56); x_19 = x_44; x_20 = x_52; goto block_39; } } } else { lean_object* x_57; x_57 = lean_ctor_get(x_44, 0); lean_inc(x_57); lean_dec(x_44); if (lean_obj_tag(x_57) == 0) { lean_object* x_58; lean_object* x_59; lean_object* x_60; lean_object* x_61; x_58 = lean_ctor_get(x_43, 1); lean_inc(x_58); lean_dec(x_43); x_59 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_59, 0, x_57); lean_ctor_set(x_8, 0, x_59); x_60 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_60, 0, x_8); x_61 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_61, 0, x_60); x_19 = x_61; x_20 = x_58; goto block_39; } else { lean_object* x_62; lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_dec(x_41); x_62 = lean_ctor_get(x_43, 1); lean_inc(x_62); lean_dec(x_43); x_63 = lean_ctor_get(x_57, 0); lean_inc(x_63); if (lean_is_exclusive(x_57)) { lean_ctor_release(x_57, 0); x_64 = x_57; } else { lean_dec_ref(x_57); x_64 = lean_box(0); } lean_inc(x_4); lean_ctor_set(x_8, 1, x_63); lean_ctor_set(x_8, 0, x_4); if (lean_is_scalar(x_64)) { x_65 = lean_alloc_ctor(1, 1, 0); } else { x_65 = x_64; } lean_ctor_set(x_65, 0, x_8); x_66 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_66, 0, x_65); x_19 = x_66; x_20 = x_62; goto block_39; } } } } else { uint8_t x_67; lean_free_object(x_8); lean_dec(x_41); lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_67 = !lean_is_exclusive(x_43); if (x_67 == 0) { return x_43; } else { lean_object* x_68; lean_object* x_69; lean_object* x_70; x_68 = lean_ctor_get(x_43, 0); x_69 = lean_ctor_get(x_43, 1); lean_inc(x_69); lean_inc(x_68); lean_dec(x_43); x_70 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_70, 0, x_68); lean_ctor_set(x_70, 1, x_69); return x_70; } } } else { lean_object* x_71; lean_object* x_72; x_71 = lean_ctor_get(x_8, 1); lean_inc(x_71); lean_dec(x_8); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_71); lean_inc(x_3); lean_inc(x_2); lean_inc(x_1); x_72 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37(x_1, x_2, x_3, x_18, x_71, x_9, x_10, x_11, x_12, x_13, x_14); if (lean_obj_tag(x_72) == 0) { lean_object* x_73; x_73 = lean_ctor_get(x_72, 0); lean_inc(x_73); if (lean_obj_tag(x_73) == 0) { lean_object* x_74; lean_object* x_75; lean_dec(x_71); x_74 = lean_ctor_get(x_72, 1); lean_inc(x_74); lean_dec(x_72); x_75 = lean_box(0); x_19 = x_75; x_20 = x_74; goto block_39; } else { lean_object* x_76; lean_object* x_77; x_76 = lean_ctor_get(x_73, 0); lean_inc(x_76); if (lean_is_exclusive(x_73)) { lean_ctor_release(x_73, 0); x_77 = x_73; } else { lean_dec_ref(x_73); x_77 = lean_box(0); } if (lean_obj_tag(x_76) == 0) { lean_object* x_78; lean_object* x_79; lean_object* x_80; lean_object* x_81; lean_object* x_82; x_78 = lean_ctor_get(x_72, 1); lean_inc(x_78); lean_dec(x_72); if (lean_is_scalar(x_77)) { x_79 = lean_alloc_ctor(1, 1, 0); } else { x_79 = x_77; } lean_ctor_set(x_79, 0, x_76); x_80 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_80, 0, x_79); lean_ctor_set(x_80, 1, x_71); x_81 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_81, 0, x_80); x_82 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_82, 0, x_81); x_19 = x_82; x_20 = x_78; goto block_39; } else { lean_object* x_83; lean_object* x_84; lean_object* x_85; lean_object* x_86; lean_object* x_87; lean_object* x_88; lean_dec(x_71); x_83 = lean_ctor_get(x_72, 1); lean_inc(x_83); lean_dec(x_72); x_84 = lean_ctor_get(x_76, 0); lean_inc(x_84); if (lean_is_exclusive(x_76)) { lean_ctor_release(x_76, 0); x_85 = x_76; } else { lean_dec_ref(x_76); x_85 = lean_box(0); } lean_inc(x_4); x_86 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_86, 0, x_4); lean_ctor_set(x_86, 1, x_84); if (lean_is_scalar(x_85)) { x_87 = lean_alloc_ctor(1, 1, 0); } else { x_87 = x_85; } lean_ctor_set(x_87, 0, x_86); if (lean_is_scalar(x_77)) { x_88 = lean_alloc_ctor(1, 1, 0); } else { x_88 = x_77; } lean_ctor_set(x_88, 0, x_87); x_19 = x_88; x_20 = x_83; goto block_39; } } } else { lean_object* x_89; lean_object* x_90; lean_object* x_91; lean_object* x_92; lean_dec(x_71); lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_89 = lean_ctor_get(x_72, 0); lean_inc(x_89); x_90 = lean_ctor_get(x_72, 1); lean_inc(x_90); if (lean_is_exclusive(x_72)) { lean_ctor_release(x_72, 0); lean_ctor_release(x_72, 1); x_91 = x_72; } else { lean_dec_ref(x_72); x_91 = lean_box(0); } if (lean_is_scalar(x_91)) { x_92 = lean_alloc_ctor(1, 2, 0); } else { x_92 = x_91; } lean_ctor_set(x_92, 0, x_89); lean_ctor_set(x_92, 1, x_90); return x_92; } } block_39: { if (lean_obj_tag(x_19) == 0) { lean_object* x_21; lean_object* x_22; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_21 = lean_box(0); x_22 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_22, 0, x_21); lean_ctor_set(x_22, 1, x_20); return x_22; } else { uint8_t x_23; x_23 = !lean_is_exclusive(x_19); if (x_23 == 0) { lean_object* x_24; x_24 = lean_ctor_get(x_19, 0); if (lean_obj_tag(x_24) == 0) { lean_object* x_25; lean_object* x_26; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); lean_dec(x_24); lean_ctor_set(x_19, 0, x_25); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_19); lean_ctor_set(x_26, 1, x_20); return x_26; } else { lean_object* x_27; size_t x_28; size_t x_29; lean_free_object(x_19); x_27 = lean_ctor_get(x_24, 0); lean_inc(x_27); lean_dec(x_24); x_28 = 1; x_29 = lean_usize_add(x_7, x_28); x_7 = x_29; x_8 = x_27; x_14 = x_20; goto _start; } } else { lean_object* x_31; x_31 = lean_ctor_get(x_19, 0); lean_inc(x_31); lean_dec(x_19); if (lean_obj_tag(x_31) == 0) { lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_32 = lean_ctor_get(x_31, 0); lean_inc(x_32); lean_dec(x_31); x_33 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_33, 0, x_32); x_34 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_34, 1, x_20); return x_34; } else { lean_object* x_35; size_t x_36; size_t x_37; x_35 = lean_ctor_get(x_31, 0); lean_inc(x_35); lean_dec(x_31); x_36 = 1; x_37 = lean_usize_add(x_7, x_36); x_7 = x_37; x_8 = x_35; x_14 = x_20; goto _start; } } } } } } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, size_t x_5, size_t x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; x_14 = lean_usize_dec_lt(x_6, x_5); if (x_14 == 0) { lean_object* x_15; lean_object* x_16; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_15 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_15, 0, x_7); x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_13); return x_16; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_39; lean_object* x_40; lean_object* x_41; lean_object* x_42; x_17 = lean_array_uget(x_4, x_6); x_39 = lean_ctor_get(x_7, 1); lean_inc(x_39); if (lean_is_exclusive(x_7)) { lean_ctor_release(x_7, 0); lean_ctor_release(x_7, 1); x_40 = x_7; } else { lean_dec_ref(x_7); x_40 = lean_box(0); } if (lean_obj_tag(x_17) == 0) { lean_object* x_66; lean_object* x_67; lean_inc(x_39); x_66 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_66, 0, x_39); x_67 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_67, 0, x_66); x_41 = x_67; x_42 = x_13; goto block_65; } else { lean_object* x_68; lean_object* x_69; lean_object* x_70; x_68 = lean_ctor_get(x_17, 0); lean_inc(x_68); lean_dec(x_17); x_69 = l_Lean_LocalDecl_userName(x_68); lean_inc(x_69); lean_inc(x_2); x_70 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(x_2, x_69); if (lean_obj_tag(x_70) == 0) { lean_object* x_71; lean_dec(x_69); lean_dec(x_68); x_71 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_41 = x_71; x_42 = x_13; goto block_65; } else { lean_object* x_72; lean_object* x_73; lean_object* x_74; uint8_t x_75; double x_76; lean_object* x_77; x_72 = lean_ctor_get(x_70, 0); lean_inc(x_72); lean_dec(x_70); x_73 = l_Lean_LocalDecl_type(x_68); lean_dec(x_68); x_74 = lean_box(0); x_75 = 5; x_76 = lean_unbox_float(x_72); lean_dec(x_72); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_1); x_77 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_69, x_73, x_1, x_74, x_75, x_76, x_8, x_9, x_10, x_11, x_12, x_13); if (lean_obj_tag(x_77) == 0) { lean_object* x_78; x_78 = lean_ctor_get(x_77, 0); lean_inc(x_78); if (lean_obj_tag(x_78) == 0) { lean_object* x_79; x_79 = lean_ctor_get(x_77, 1); lean_inc(x_79); lean_dec(x_77); lean_inc(x_3); x_41 = x_3; x_42 = x_79; goto block_65; } else { lean_object* x_80; lean_object* x_81; lean_dec(x_78); x_80 = lean_ctor_get(x_77, 1); lean_inc(x_80); lean_dec(x_77); x_81 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_41 = x_81; x_42 = x_80; goto block_65; } } else { uint8_t x_82; lean_dec(x_40); lean_dec(x_39); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_82 = !lean_is_exclusive(x_77); if (x_82 == 0) { return x_77; } else { lean_object* x_83; lean_object* x_84; lean_object* x_85; x_83 = lean_ctor_get(x_77, 0); x_84 = lean_ctor_get(x_77, 1); lean_inc(x_84); lean_inc(x_83); lean_dec(x_77); x_85 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_85, 0, x_83); lean_ctor_set(x_85, 1, x_84); return x_85; } } } } block_38: { if (lean_obj_tag(x_18) == 0) { lean_object* x_20; lean_object* x_21; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } else { uint8_t x_22; x_22 = !lean_is_exclusive(x_18); if (x_22 == 0) { lean_object* x_23; x_23 = lean_ctor_get(x_18, 0); if (lean_obj_tag(x_23) == 0) { lean_object* x_24; lean_object* x_25; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_24 = lean_ctor_get(x_23, 0); lean_inc(x_24); lean_dec(x_23); lean_ctor_set(x_18, 0, x_24); x_25 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_25, 0, x_18); lean_ctor_set(x_25, 1, x_19); return x_25; } else { lean_object* x_26; size_t x_27; size_t x_28; lean_free_object(x_18); x_26 = lean_ctor_get(x_23, 0); lean_inc(x_26); lean_dec(x_23); x_27 = 1; x_28 = lean_usize_add(x_6, x_27); x_6 = x_28; x_7 = x_26; x_13 = x_19; goto _start; } } else { lean_object* x_30; x_30 = lean_ctor_get(x_18, 0); lean_inc(x_30); lean_dec(x_18); if (lean_obj_tag(x_30) == 0) { lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_31 = lean_ctor_get(x_30, 0); lean_inc(x_31); lean_dec(x_30); x_32 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_32, 0, x_31); x_33 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_33, 0, x_32); lean_ctor_set(x_33, 1, x_19); return x_33; } else { lean_object* x_34; size_t x_35; size_t x_36; x_34 = lean_ctor_get(x_30, 0); lean_inc(x_34); lean_dec(x_30); x_35 = 1; x_36 = lean_usize_add(x_6, x_35); x_6 = x_36; x_7 = x_34; x_13 = x_19; goto _start; } } } } block_65: { if (lean_obj_tag(x_41) == 0) { lean_object* x_43; lean_dec(x_40); lean_dec(x_39); x_43 = lean_box(0); x_18 = x_43; x_19 = x_42; goto block_38; } else { uint8_t x_44; x_44 = !lean_is_exclusive(x_41); if (x_44 == 0) { lean_object* x_45; x_45 = lean_ctor_get(x_41, 0); if (lean_obj_tag(x_45) == 0) { lean_object* x_46; lean_object* x_47; lean_object* x_48; if (lean_is_scalar(x_40)) { x_46 = lean_alloc_ctor(0, 2, 0); } else { x_46 = x_40; } lean_ctor_set(x_46, 0, x_41); lean_ctor_set(x_46, 1, x_39); x_47 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_47, 0, x_46); x_48 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_48, 0, x_47); x_18 = x_48; x_19 = x_42; goto block_38; } else { uint8_t x_49; lean_dec(x_39); x_49 = !lean_is_exclusive(x_45); if (x_49 == 0) { lean_object* x_50; lean_object* x_51; x_50 = lean_ctor_get(x_45, 0); lean_inc(x_3); if (lean_is_scalar(x_40)) { x_51 = lean_alloc_ctor(0, 2, 0); } else { x_51 = x_40; } lean_ctor_set(x_51, 0, x_3); lean_ctor_set(x_51, 1, x_50); lean_ctor_set(x_45, 0, x_51); x_18 = x_41; x_19 = x_42; goto block_38; } else { lean_object* x_52; lean_object* x_53; lean_object* x_54; x_52 = lean_ctor_get(x_45, 0); lean_inc(x_52); lean_dec(x_45); lean_inc(x_3); if (lean_is_scalar(x_40)) { x_53 = lean_alloc_ctor(0, 2, 0); } else { x_53 = x_40; } lean_ctor_set(x_53, 0, x_3); lean_ctor_set(x_53, 1, x_52); x_54 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_54, 0, x_53); lean_ctor_set(x_41, 0, x_54); x_18 = x_41; x_19 = x_42; goto block_38; } } } else { lean_object* x_55; x_55 = lean_ctor_get(x_41, 0); lean_inc(x_55); lean_dec(x_41); if (lean_obj_tag(x_55) == 0) { lean_object* x_56; lean_object* x_57; lean_object* x_58; lean_object* x_59; x_56 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_56, 0, x_55); if (lean_is_scalar(x_40)) { x_57 = lean_alloc_ctor(0, 2, 0); } else { x_57 = x_40; } lean_ctor_set(x_57, 0, x_56); lean_ctor_set(x_57, 1, x_39); x_58 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_58, 0, x_57); x_59 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_59, 0, x_58); x_18 = x_59; x_19 = x_42; goto block_38; } else { lean_object* x_60; lean_object* x_61; lean_object* x_62; lean_object* x_63; lean_object* x_64; lean_dec(x_39); x_60 = lean_ctor_get(x_55, 0); lean_inc(x_60); if (lean_is_exclusive(x_55)) { lean_ctor_release(x_55, 0); x_61 = x_55; } else { lean_dec_ref(x_55); x_61 = lean_box(0); } lean_inc(x_3); if (lean_is_scalar(x_40)) { x_62 = lean_alloc_ctor(0, 2, 0); } else { x_62 = x_40; } lean_ctor_set(x_62, 0, x_3); lean_ctor_set(x_62, 1, x_60); if (lean_is_scalar(x_61)) { x_63 = lean_alloc_ctor(1, 1, 0); } else { x_63 = x_61; } lean_ctor_set(x_63, 0, x_62); x_64 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_64, 0, x_63); x_18 = x_64; x_19 = x_42; goto block_38; } } } } } } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; lean_object* x_11; x_9 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_9, 0, x_1); x_10 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_10, 0, x_9); x_11 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_11, 0, x_10); lean_ctor_set(x_11, 1, x_8); return x_11; } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { if (lean_obj_tag(x_4) == 0) { lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; size_t x_16; size_t x_17; lean_object* x_18; x_12 = lean_ctor_get(x_4, 0); lean_inc(x_12); lean_dec(x_4); x_13 = lean_box(0); x_14 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_14, 0, x_13); lean_ctor_set(x_14, 1, x_5); x_15 = lean_array_get_size(x_12); x_16 = lean_usize_of_nat(x_15); lean_dec(x_15); x_17 = 0; lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_18 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38(x_1, x_2, x_3, x_13, x_12, x_16, x_17, x_14, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_12); if (lean_obj_tag(x_18) == 0) { lean_object* x_19; x_19 = lean_ctor_get(x_18, 0); lean_inc(x_19); if (lean_obj_tag(x_19) == 0) { uint8_t x_20; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_20 = !lean_is_exclusive(x_18); if (x_20 == 0) { lean_object* x_21; x_21 = lean_ctor_get(x_18, 0); lean_dec(x_21); lean_ctor_set(x_18, 0, x_13); return x_18; } else { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_18, 1); lean_inc(x_22); lean_dec(x_18); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_13); lean_ctor_set(x_23, 1, x_22); return x_23; } } else { lean_object* x_24; lean_object* x_25; x_24 = lean_ctor_get(x_19, 0); lean_inc(x_24); lean_dec(x_19); x_25 = lean_ctor_get(x_24, 0); lean_inc(x_25); if (lean_obj_tag(x_25) == 0) { lean_object* x_26; lean_object* x_27; lean_object* x_28; lean_object* x_29; x_26 = lean_ctor_get(x_18, 1); lean_inc(x_26); lean_dec(x_18); x_27 = lean_ctor_get(x_24, 1); lean_inc(x_27); lean_dec(x_24); x_28 = lean_box(0); x_29 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1(x_27, x_28, x_6, x_7, x_8, x_9, x_10, x_26); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); return x_29; } else { uint8_t x_30; lean_dec(x_24); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_30 = !lean_is_exclusive(x_18); if (x_30 == 0) { lean_object* x_31; uint8_t x_32; x_31 = lean_ctor_get(x_18, 0); lean_dec(x_31); x_32 = !lean_is_exclusive(x_25); if (x_32 == 0) { lean_ctor_set(x_18, 0, x_25); return x_18; } else { lean_object* x_33; lean_object* x_34; x_33 = lean_ctor_get(x_25, 0); lean_inc(x_33); lean_dec(x_25); x_34 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_18, 0, x_34); return x_18; } } else { lean_object* x_35; lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_object* x_39; x_35 = lean_ctor_get(x_18, 1); lean_inc(x_35); lean_dec(x_18); x_36 = lean_ctor_get(x_25, 0); lean_inc(x_36); if (lean_is_exclusive(x_25)) { lean_ctor_release(x_25, 0); x_37 = x_25; } else { lean_dec_ref(x_25); x_37 = lean_box(0); } if (lean_is_scalar(x_37)) { x_38 = lean_alloc_ctor(1, 1, 0); } else { x_38 = x_37; } lean_ctor_set(x_38, 0, x_36); x_39 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_39, 0, x_38); lean_ctor_set(x_39, 1, x_35); return x_39; } } } } else { uint8_t x_40; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_40 = !lean_is_exclusive(x_18); if (x_40 == 0) { return x_18; } else { lean_object* x_41; lean_object* x_42; lean_object* x_43; x_41 = lean_ctor_get(x_18, 0); x_42 = lean_ctor_get(x_18, 1); lean_inc(x_42); lean_inc(x_41); lean_dec(x_18); x_43 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_43, 0, x_41); lean_ctor_set(x_43, 1, x_42); return x_43; } } } else { lean_object* x_44; lean_object* x_45; lean_object* x_46; lean_object* x_47; size_t x_48; size_t x_49; lean_object* x_50; lean_dec(x_3); x_44 = lean_ctor_get(x_4, 0); lean_inc(x_44); lean_dec(x_4); x_45 = lean_box(0); x_46 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_46, 0, x_45); lean_ctor_set(x_46, 1, x_5); x_47 = lean_array_get_size(x_44); x_48 = lean_usize_of_nat(x_47); lean_dec(x_47); x_49 = 0; lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); x_50 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39(x_1, x_2, x_45, x_44, x_48, x_49, x_46, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_44); if (lean_obj_tag(x_50) == 0) { lean_object* x_51; x_51 = lean_ctor_get(x_50, 0); lean_inc(x_51); if (lean_obj_tag(x_51) == 0) { uint8_t x_52; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_52 = !lean_is_exclusive(x_50); if (x_52 == 0) { lean_object* x_53; x_53 = lean_ctor_get(x_50, 0); lean_dec(x_53); lean_ctor_set(x_50, 0, x_45); return x_50; } else { lean_object* x_54; lean_object* x_55; x_54 = lean_ctor_get(x_50, 1); lean_inc(x_54); lean_dec(x_50); x_55 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_55, 0, x_45); lean_ctor_set(x_55, 1, x_54); return x_55; } } else { lean_object* x_56; lean_object* x_57; x_56 = lean_ctor_get(x_51, 0); lean_inc(x_56); lean_dec(x_51); x_57 = lean_ctor_get(x_56, 0); lean_inc(x_57); if (lean_obj_tag(x_57) == 0) { lean_object* x_58; lean_object* x_59; lean_object* x_60; lean_object* x_61; x_58 = lean_ctor_get(x_50, 1); lean_inc(x_58); lean_dec(x_50); x_59 = lean_ctor_get(x_56, 1); lean_inc(x_59); lean_dec(x_56); x_60 = lean_box(0); x_61 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1(x_59, x_60, x_6, x_7, x_8, x_9, x_10, x_58); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); return x_61; } else { uint8_t x_62; lean_dec(x_56); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_62 = !lean_is_exclusive(x_50); if (x_62 == 0) { lean_object* x_63; uint8_t x_64; x_63 = lean_ctor_get(x_50, 0); lean_dec(x_63); x_64 = !lean_is_exclusive(x_57); if (x_64 == 0) { lean_ctor_set(x_50, 0, x_57); return x_50; } else { lean_object* x_65; lean_object* x_66; x_65 = lean_ctor_get(x_57, 0); lean_inc(x_65); lean_dec(x_57); x_66 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_66, 0, x_65); lean_ctor_set(x_50, 0, x_66); return x_50; } } else { lean_object* x_67; lean_object* x_68; lean_object* x_69; lean_object* x_70; lean_object* x_71; x_67 = lean_ctor_get(x_50, 1); lean_inc(x_67); lean_dec(x_50); x_68 = lean_ctor_get(x_57, 0); lean_inc(x_68); if (lean_is_exclusive(x_57)) { lean_ctor_release(x_57, 0); x_69 = x_57; } else { lean_dec_ref(x_57); x_69 = lean_box(0); } if (lean_is_scalar(x_69)) { x_70 = lean_alloc_ctor(1, 1, 0); } else { x_70 = x_69; } lean_ctor_set(x_70, 0, x_68); x_71 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_71, 0, x_70); lean_ctor_set(x_71, 1, x_67); return x_71; } } } } else { uint8_t x_72; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); x_72 = !lean_is_exclusive(x_50); if (x_72 == 0) { return x_50; } else { lean_object* x_73; lean_object* x_74; lean_object* x_75; x_73 = lean_ctor_get(x_50, 0); x_74 = lean_ctor_get(x_50, 1); lean_inc(x_74); lean_inc(x_73); lean_dec(x_50); x_75 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_75, 0, x_73); lean_ctor_set(x_75, 1, x_74); return x_75; } } } } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, size_t x_5, size_t x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; x_14 = lean_usize_dec_lt(x_6, x_5); if (x_14 == 0) { lean_object* x_15; lean_object* x_16; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_15 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_15, 0, x_7); x_16 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_16, 0, x_15); lean_ctor_set(x_16, 1, x_13); return x_16; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; x_17 = lean_array_uget(x_4, x_6); x_28 = lean_ctor_get(x_7, 1); lean_inc(x_28); if (lean_is_exclusive(x_7)) { lean_ctor_release(x_7, 0); lean_ctor_release(x_7, 1); x_29 = x_7; } else { lean_dec_ref(x_7); x_29 = lean_box(0); } if (lean_obj_tag(x_17) == 0) { lean_object* x_48; lean_object* x_49; x_48 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_48, 0, x_28); x_49 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_49, 0, x_48); x_30 = x_49; x_31 = x_13; goto block_47; } else { lean_object* x_50; lean_object* x_51; lean_object* x_52; lean_dec(x_28); x_50 = lean_ctor_get(x_17, 0); lean_inc(x_50); lean_dec(x_17); x_51 = l_Lean_LocalDecl_userName(x_50); lean_inc(x_51); lean_inc(x_2); x_52 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(x_2, x_51); if (lean_obj_tag(x_52) == 0) { lean_object* x_53; lean_dec(x_51); lean_dec(x_50); x_53 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_30 = x_53; x_31 = x_13; goto block_47; } else { lean_object* x_54; lean_object* x_55; lean_object* x_56; uint8_t x_57; double x_58; lean_object* x_59; x_54 = lean_ctor_get(x_52, 0); lean_inc(x_54); lean_dec(x_52); x_55 = l_Lean_LocalDecl_type(x_50); lean_dec(x_50); x_56 = lean_box(0); x_57 = 5; x_58 = lean_unbox_float(x_54); lean_dec(x_54); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_1); x_59 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_51, x_55, x_1, x_56, x_57, x_58, x_8, x_9, x_10, x_11, x_12, x_13); if (lean_obj_tag(x_59) == 0) { lean_object* x_60; x_60 = lean_ctor_get(x_59, 0); lean_inc(x_60); if (lean_obj_tag(x_60) == 0) { lean_object* x_61; x_61 = lean_ctor_get(x_59, 1); lean_inc(x_61); lean_dec(x_59); x_30 = x_56; x_31 = x_61; goto block_47; } else { lean_object* x_62; lean_object* x_63; lean_dec(x_60); x_62 = lean_ctor_get(x_59, 1); lean_inc(x_62); lean_dec(x_59); x_63 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___closed__2; x_30 = x_63; x_31 = x_62; goto block_47; } } else { uint8_t x_64; lean_dec(x_29); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_64 = !lean_is_exclusive(x_59); if (x_64 == 0) { return x_59; } else { lean_object* x_65; lean_object* x_66; lean_object* x_67; x_65 = lean_ctor_get(x_59, 0); x_66 = lean_ctor_get(x_59, 1); lean_inc(x_66); lean_inc(x_65); lean_dec(x_59); x_67 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_67, 0, x_65); lean_ctor_set(x_67, 1, x_66); return x_67; } } } } block_27: { if (lean_obj_tag(x_18) == 0) { lean_object* x_20; lean_object* x_21; lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_20 = lean_box(0); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } else { lean_object* x_22; lean_object* x_23; size_t x_24; size_t x_25; x_22 = lean_ctor_get(x_18, 0); lean_inc(x_22); lean_dec(x_18); x_23 = lean_ctor_get(x_22, 0); lean_inc(x_23); lean_dec(x_22); x_24 = 1; x_25 = lean_usize_add(x_6, x_24); x_6 = x_25; x_7 = x_23; x_13 = x_19; goto _start; } } block_47: { if (lean_obj_tag(x_30) == 0) { lean_object* x_32; lean_dec(x_29); x_32 = lean_box(0); x_18 = x_32; x_19 = x_31; goto block_27; } else { uint8_t x_33; x_33 = !lean_is_exclusive(x_30); if (x_33 == 0) { lean_object* x_34; uint8_t x_35; x_34 = lean_ctor_get(x_30, 0); x_35 = !lean_is_exclusive(x_34); if (x_35 == 0) { lean_object* x_36; lean_object* x_37; x_36 = lean_ctor_get(x_34, 0); lean_inc(x_3); if (lean_is_scalar(x_29)) { x_37 = lean_alloc_ctor(0, 2, 0); } else { x_37 = x_29; } lean_ctor_set(x_37, 0, x_3); lean_ctor_set(x_37, 1, x_36); lean_ctor_set(x_34, 0, x_37); x_18 = x_30; x_19 = x_31; goto block_27; } else { lean_object* x_38; lean_object* x_39; lean_object* x_40; x_38 = lean_ctor_get(x_34, 0); lean_inc(x_38); lean_dec(x_34); lean_inc(x_3); if (lean_is_scalar(x_29)) { x_39 = lean_alloc_ctor(0, 2, 0); } else { x_39 = x_29; } lean_ctor_set(x_39, 0, x_3); lean_ctor_set(x_39, 1, x_38); x_40 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_40, 0, x_39); lean_ctor_set(x_30, 0, x_40); x_18 = x_30; x_19 = x_31; goto block_27; } } else { lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; lean_object* x_45; lean_object* x_46; x_41 = lean_ctor_get(x_30, 0); lean_inc(x_41); lean_dec(x_30); x_42 = lean_ctor_get(x_41, 0); lean_inc(x_42); if (lean_is_exclusive(x_41)) { lean_ctor_release(x_41, 0); x_43 = x_41; } else { lean_dec_ref(x_41); x_43 = lean_box(0); } lean_inc(x_3); if (lean_is_scalar(x_29)) { x_44 = lean_alloc_ctor(0, 2, 0); } else { x_44 = x_29; } lean_ctor_set(x_44, 0, x_3); lean_ctor_set(x_44, 1, x_42); if (lean_is_scalar(x_43)) { x_45 = lean_alloc_ctor(1, 1, 0); } else { x_45 = x_43; } lean_ctor_set(x_45, 0, x_44); x_46 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_46, 0, x_45); x_18 = x_46; x_19 = x_31; goto block_27; } } } } } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_9, 0, x_1); x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_8); return x_10; } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; lean_object* x_12; x_11 = lean_ctor_get(x_3, 0); lean_inc(x_11); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_2); lean_inc(x_1); x_12 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37(x_1, x_2, x_4, x_11, x_4, x_5, x_6, x_7, x_8, x_9, x_10); if (lean_obj_tag(x_12) == 0) { lean_object* x_13; x_13 = lean_ctor_get(x_12, 0); lean_inc(x_13); if (lean_obj_tag(x_13) == 0) { uint8_t x_14; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_14 = !lean_is_exclusive(x_12); if (x_14 == 0) { lean_object* x_15; lean_object* x_16; x_15 = lean_ctor_get(x_12, 0); lean_dec(x_15); x_16 = lean_box(0); lean_ctor_set(x_12, 0, x_16); return x_12; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; x_17 = lean_ctor_get(x_12, 1); lean_inc(x_17); lean_dec(x_12); x_18 = lean_box(0); x_19 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_19, 0, x_18); lean_ctor_set(x_19, 1, x_17); return x_19; } } else { uint8_t x_20; x_20 = !lean_is_exclusive(x_13); if (x_20 == 0) { lean_object* x_21; x_21 = lean_ctor_get(x_13, 0); if (lean_obj_tag(x_21) == 0) { uint8_t x_22; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_22 = !lean_is_exclusive(x_12); if (x_22 == 0) { lean_object* x_23; lean_object* x_24; x_23 = lean_ctor_get(x_12, 0); lean_dec(x_23); x_24 = lean_ctor_get(x_21, 0); lean_inc(x_24); lean_dec(x_21); lean_ctor_set(x_13, 0, x_24); return x_12; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; x_25 = lean_ctor_get(x_12, 1); lean_inc(x_25); lean_dec(x_12); x_26 = lean_ctor_get(x_21, 0); lean_inc(x_26); lean_dec(x_21); lean_ctor_set(x_13, 0, x_26); x_27 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_27, 0, x_13); lean_ctor_set(x_27, 1, x_25); return x_27; } } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; size_t x_34; size_t x_35; lean_object* x_36; lean_free_object(x_13); x_28 = lean_ctor_get(x_12, 1); lean_inc(x_28); lean_dec(x_12); x_29 = lean_ctor_get(x_21, 0); lean_inc(x_29); lean_dec(x_21); x_30 = lean_ctor_get(x_3, 1); lean_inc(x_30); lean_dec(x_3); x_31 = lean_box(0); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_29); x_33 = lean_array_get_size(x_30); x_34 = lean_usize_of_nat(x_33); lean_dec(x_33); x_35 = 0; lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_36 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40(x_1, x_2, x_31, x_30, x_34, x_35, x_32, x_5, x_6, x_7, x_8, x_9, x_28); lean_dec(x_30); if (lean_obj_tag(x_36) == 0) { lean_object* x_37; x_37 = lean_ctor_get(x_36, 0); lean_inc(x_37); if (lean_obj_tag(x_37) == 0) { uint8_t x_38; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_38 = !lean_is_exclusive(x_36); if (x_38 == 0) { lean_object* x_39; x_39 = lean_ctor_get(x_36, 0); lean_dec(x_39); lean_ctor_set(x_36, 0, x_31); return x_36; } else { lean_object* x_40; lean_object* x_41; x_40 = lean_ctor_get(x_36, 1); lean_inc(x_40); lean_dec(x_36); x_41 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_41, 0, x_31); lean_ctor_set(x_41, 1, x_40); return x_41; } } else { lean_object* x_42; lean_object* x_43; x_42 = lean_ctor_get(x_37, 0); lean_inc(x_42); lean_dec(x_37); x_43 = lean_ctor_get(x_42, 0); lean_inc(x_43); if (lean_obj_tag(x_43) == 0) { lean_object* x_44; lean_object* x_45; lean_object* x_46; lean_object* x_47; x_44 = lean_ctor_get(x_36, 1); lean_inc(x_44); lean_dec(x_36); x_45 = lean_ctor_get(x_42, 1); lean_inc(x_45); lean_dec(x_42); x_46 = lean_box(0); x_47 = l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1(x_45, x_46, x_5, x_6, x_7, x_8, x_9, x_44); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); return x_47; } else { uint8_t x_48; lean_dec(x_42); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_48 = !lean_is_exclusive(x_36); if (x_48 == 0) { lean_object* x_49; uint8_t x_50; x_49 = lean_ctor_get(x_36, 0); lean_dec(x_49); x_50 = !lean_is_exclusive(x_43); if (x_50 == 0) { lean_ctor_set(x_36, 0, x_43); return x_36; } else { lean_object* x_51; lean_object* x_52; x_51 = lean_ctor_get(x_43, 0); lean_inc(x_51); lean_dec(x_43); x_52 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_52, 0, x_51); lean_ctor_set(x_36, 0, x_52); return x_36; } } else { lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_object* x_56; lean_object* x_57; x_53 = lean_ctor_get(x_36, 1); lean_inc(x_53); lean_dec(x_36); x_54 = lean_ctor_get(x_43, 0); lean_inc(x_54); if (lean_is_exclusive(x_43)) { lean_ctor_release(x_43, 0); x_55 = x_43; } else { lean_dec_ref(x_43); x_55 = lean_box(0); } if (lean_is_scalar(x_55)) { x_56 = lean_alloc_ctor(1, 1, 0); } else { x_56 = x_55; } lean_ctor_set(x_56, 0, x_54); x_57 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_57, 0, x_56); lean_ctor_set(x_57, 1, x_53); return x_57; } } } } else { uint8_t x_58; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_58 = !lean_is_exclusive(x_36); if (x_58 == 0) { return x_36; } else { lean_object* x_59; lean_object* x_60; lean_object* x_61; x_59 = lean_ctor_get(x_36, 0); x_60 = lean_ctor_get(x_36, 1); lean_inc(x_60); lean_inc(x_59); lean_dec(x_36); x_61 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_61, 0, x_59); lean_ctor_set(x_61, 1, x_60); return x_61; } } } } else { lean_object* x_62; x_62 = lean_ctor_get(x_13, 0); lean_inc(x_62); lean_dec(x_13); if (lean_obj_tag(x_62) == 0) { lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_63 = lean_ctor_get(x_12, 1); lean_inc(x_63); if (lean_is_exclusive(x_12)) { lean_ctor_release(x_12, 0); lean_ctor_release(x_12, 1); x_64 = x_12; } else { lean_dec_ref(x_12); x_64 = lean_box(0); } x_65 = lean_ctor_get(x_62, 0); lean_inc(x_65); lean_dec(x_62); x_66 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_66, 0, x_65); if (lean_is_scalar(x_64)) { x_67 = lean_alloc_ctor(0, 2, 0); } else { x_67 = x_64; } lean_ctor_set(x_67, 0, x_66); lean_ctor_set(x_67, 1, x_63); return x_67; } else { lean_object* x_68; lean_object* x_69; lean_object* x_70; lean_object* x_71; lean_object* x_72; lean_object* x_73; size_t x_74; size_t x_75; lean_object* x_76; x_68 = lean_ctor_get(x_12, 1); lean_inc(x_68); lean_dec(x_12); x_69 = lean_ctor_get(x_62, 0); lean_inc(x_69); lean_dec(x_62); x_70 = lean_ctor_get(x_3, 1); lean_inc(x_70); lean_dec(x_3); x_71 = lean_box(0); x_72 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_72, 0, x_71); lean_ctor_set(x_72, 1, x_69); x_73 = lean_array_get_size(x_70); x_74 = lean_usize_of_nat(x_73); lean_dec(x_73); x_75 = 0; lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_76 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40(x_1, x_2, x_71, x_70, x_74, x_75, x_72, x_5, x_6, x_7, x_8, x_9, x_68); lean_dec(x_70); if (lean_obj_tag(x_76) == 0) { lean_object* x_77; x_77 = lean_ctor_get(x_76, 0); lean_inc(x_77); if (lean_obj_tag(x_77) == 0) { lean_object* x_78; lean_object* x_79; lean_object* x_80; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_78 = lean_ctor_get(x_76, 1); lean_inc(x_78); if (lean_is_exclusive(x_76)) { lean_ctor_release(x_76, 0); lean_ctor_release(x_76, 1); x_79 = x_76; } else { lean_dec_ref(x_76); x_79 = lean_box(0); } if (lean_is_scalar(x_79)) { x_80 = lean_alloc_ctor(0, 2, 0); } else { x_80 = x_79; } lean_ctor_set(x_80, 0, x_71); lean_ctor_set(x_80, 1, x_78); return x_80; } else { lean_object* x_81; lean_object* x_82; x_81 = lean_ctor_get(x_77, 0); lean_inc(x_81); lean_dec(x_77); x_82 = lean_ctor_get(x_81, 0); lean_inc(x_82); if (lean_obj_tag(x_82) == 0) { lean_object* x_83; lean_object* x_84; lean_object* x_85; lean_object* x_86; x_83 = lean_ctor_get(x_76, 1); lean_inc(x_83); lean_dec(x_76); x_84 = lean_ctor_get(x_81, 1); lean_inc(x_84); lean_dec(x_81); x_85 = lean_box(0); x_86 = l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1(x_84, x_85, x_5, x_6, x_7, x_8, x_9, x_83); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); return x_86; } else { lean_object* x_87; lean_object* x_88; lean_object* x_89; lean_object* x_90; lean_object* x_91; lean_object* x_92; lean_dec(x_81); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_87 = lean_ctor_get(x_76, 1); lean_inc(x_87); if (lean_is_exclusive(x_76)) { lean_ctor_release(x_76, 0); lean_ctor_release(x_76, 1); x_88 = x_76; } else { lean_dec_ref(x_76); x_88 = lean_box(0); } x_89 = lean_ctor_get(x_82, 0); lean_inc(x_89); if (lean_is_exclusive(x_82)) { lean_ctor_release(x_82, 0); x_90 = x_82; } else { lean_dec_ref(x_82); x_90 = lean_box(0); } if (lean_is_scalar(x_90)) { x_91 = lean_alloc_ctor(1, 1, 0); } else { x_91 = x_90; } lean_ctor_set(x_91, 0, x_89); if (lean_is_scalar(x_88)) { x_92 = lean_alloc_ctor(0, 2, 0); } else { x_92 = x_88; } lean_ctor_set(x_92, 0, x_91); lean_ctor_set(x_92, 1, x_87); return x_92; } } } else { lean_object* x_93; lean_object* x_94; lean_object* x_95; lean_object* x_96; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); x_93 = lean_ctor_get(x_76, 0); lean_inc(x_93); x_94 = lean_ctor_get(x_76, 1); lean_inc(x_94); if (lean_is_exclusive(x_76)) { lean_ctor_release(x_76, 0); lean_ctor_release(x_76, 1); x_95 = x_76; } else { lean_dec_ref(x_76); x_95 = lean_box(0); } if (lean_is_scalar(x_95)) { x_96 = lean_alloc_ctor(1, 2, 0); } else { x_96 = x_95; } lean_ctor_set(x_96, 0, x_93); lean_ctor_set(x_96, 1, x_94); return x_96; } } } } } else { uint8_t x_97; lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_97 = !lean_is_exclusive(x_12); if (x_97 == 0) { return x_12; } else { lean_object* x_98; lean_object* x_99; lean_object* x_100; x_98 = lean_ctor_get(x_12, 0); x_99 = lean_ctor_get(x_12, 1); lean_inc(x_99); lean_inc(x_98); lean_dec(x_12); x_100 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_100, 0, x_98); lean_ctor_set(x_100, 1, x_99); return x_100; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { lean_object* x_13; lean_object* x_14; lean_inc(x_3); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(x_6, x_1, x_2, x_3, x_8, x_9, x_10, x_11, x_12); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); if (lean_obj_tag(x_14) == 0) { uint8_t x_15; lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_5); lean_dec(x_3); x_15 = !lean_is_exclusive(x_13); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; x_16 = lean_ctor_get(x_13, 0); lean_dec(x_16); x_17 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; lean_ctor_set(x_13, 0, x_17); return x_13; } else { lean_object* x_18; lean_object* x_19; lean_object* x_20; x_18 = lean_ctor_get(x_13, 1); lean_inc(x_18); lean_dec(x_13); x_19 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_20 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_20, 0, x_19); lean_ctor_set(x_20, 1, x_18); return x_20; } } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; x_21 = lean_ctor_get(x_14, 0); lean_inc(x_21); lean_dec(x_14); x_22 = lean_ctor_get(x_13, 1); lean_inc(x_22); lean_dec(x_13); x_23 = lean_ctor_get(x_21, 0); lean_inc(x_23); x_24 = lean_ctor_get(x_21, 1); lean_inc(x_24); lean_dec(x_21); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); x_25 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl(x_4, x_7, x_8, x_9, x_10, x_11, x_22); if (lean_obj_tag(x_25) == 0) { lean_object* x_26; x_26 = lean_ctor_get(x_25, 0); lean_inc(x_26); if (lean_obj_tag(x_26) == 0) { uint8_t x_27; lean_dec(x_24); lean_dec(x_23); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_5); lean_dec(x_3); x_27 = !lean_is_exclusive(x_25); if (x_27 == 0) { lean_object* x_28; lean_object* x_29; x_28 = lean_ctor_get(x_25, 0); lean_dec(x_28); x_29 = lean_box(0); lean_ctor_set(x_25, 0, x_29); return x_25; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; x_30 = lean_ctor_get(x_25, 1); lean_inc(x_30); lean_dec(x_25); x_31 = lean_box(0); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_31); lean_ctor_set(x_32, 1, x_30); return x_32; } } else { lean_object* x_33; uint8_t x_34; x_33 = lean_ctor_get(x_25, 1); lean_inc(x_33); lean_dec(x_25); x_34 = !lean_is_exclusive(x_26); if (x_34 == 0) { lean_object* x_35; lean_object* x_36; uint8_t x_37; double x_38; lean_object* x_39; x_35 = lean_ctor_get(x_26, 0); x_36 = l_Lean_ConstantInfo_type(x_4); lean_ctor_set(x_26, 0, x_3); x_37 = lean_unbox(x_35); lean_dec(x_35); x_38 = lean_unbox_float(x_24); lean_dec(x_24); x_39 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_23, x_36, x_5, x_26, x_37, x_38, x_7, x_8, x_9, x_10, x_11, x_33); if (lean_obj_tag(x_39) == 0) { lean_object* x_40; x_40 = lean_ctor_get(x_39, 0); lean_inc(x_40); if (lean_obj_tag(x_40) == 0) { uint8_t x_41; x_41 = !lean_is_exclusive(x_39); if (x_41 == 0) { lean_object* x_42; lean_object* x_43; x_42 = lean_ctor_get(x_39, 0); lean_dec(x_42); x_43 = lean_box(0); lean_ctor_set(x_39, 0, x_43); return x_39; } else { lean_object* x_44; lean_object* x_45; lean_object* x_46; x_44 = lean_ctor_get(x_39, 1); lean_inc(x_44); lean_dec(x_39); x_45 = lean_box(0); x_46 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_46, 0, x_45); lean_ctor_set(x_46, 1, x_44); return x_46; } } else { uint8_t x_47; lean_dec(x_40); x_47 = !lean_is_exclusive(x_39); if (x_47 == 0) { lean_object* x_48; lean_object* x_49; x_48 = lean_ctor_get(x_39, 0); lean_dec(x_48); x_49 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; lean_ctor_set(x_39, 0, x_49); return x_39; } else { lean_object* x_50; lean_object* x_51; lean_object* x_52; x_50 = lean_ctor_get(x_39, 1); lean_inc(x_50); lean_dec(x_39); x_51 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_52 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_52, 0, x_51); lean_ctor_set(x_52, 1, x_50); return x_52; } } } else { uint8_t x_53; x_53 = !lean_is_exclusive(x_39); if (x_53 == 0) { return x_39; } else { lean_object* x_54; lean_object* x_55; lean_object* x_56; x_54 = lean_ctor_get(x_39, 0); x_55 = lean_ctor_get(x_39, 1); lean_inc(x_55); lean_inc(x_54); lean_dec(x_39); x_56 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_56, 0, x_54); lean_ctor_set(x_56, 1, x_55); return x_56; } } } else { lean_object* x_57; lean_object* x_58; lean_object* x_59; uint8_t x_60; double x_61; lean_object* x_62; x_57 = lean_ctor_get(x_26, 0); lean_inc(x_57); lean_dec(x_26); x_58 = l_Lean_ConstantInfo_type(x_4); x_59 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_59, 0, x_3); x_60 = lean_unbox(x_57); lean_dec(x_57); x_61 = lean_unbox_float(x_24); lean_dec(x_24); x_62 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_23, x_58, x_5, x_59, x_60, x_61, x_7, x_8, x_9, x_10, x_11, x_33); if (lean_obj_tag(x_62) == 0) { lean_object* x_63; x_63 = lean_ctor_get(x_62, 0); lean_inc(x_63); if (lean_obj_tag(x_63) == 0) { lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; x_64 = lean_ctor_get(x_62, 1); lean_inc(x_64); if (lean_is_exclusive(x_62)) { lean_ctor_release(x_62, 0); lean_ctor_release(x_62, 1); x_65 = x_62; } else { lean_dec_ref(x_62); x_65 = lean_box(0); } x_66 = lean_box(0); if (lean_is_scalar(x_65)) { x_67 = lean_alloc_ctor(0, 2, 0); } else { x_67 = x_65; } lean_ctor_set(x_67, 0, x_66); lean_ctor_set(x_67, 1, x_64); return x_67; } else { lean_object* x_68; lean_object* x_69; lean_object* x_70; lean_object* x_71; lean_dec(x_63); x_68 = lean_ctor_get(x_62, 1); lean_inc(x_68); if (lean_is_exclusive(x_62)) { lean_ctor_release(x_62, 0); lean_ctor_release(x_62, 1); x_69 = x_62; } else { lean_dec_ref(x_62); x_69 = lean_box(0); } x_70 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; if (lean_is_scalar(x_69)) { x_71 = lean_alloc_ctor(0, 2, 0); } else { x_71 = x_69; } lean_ctor_set(x_71, 0, x_70); lean_ctor_set(x_71, 1, x_68); return x_71; } } else { lean_object* x_72; lean_object* x_73; lean_object* x_74; lean_object* x_75; x_72 = lean_ctor_get(x_62, 0); lean_inc(x_72); x_73 = lean_ctor_get(x_62, 1); lean_inc(x_73); if (lean_is_exclusive(x_62)) { lean_ctor_release(x_62, 0); lean_ctor_release(x_62, 1); x_74 = x_62; } else { lean_dec_ref(x_62); x_74 = lean_box(0); } if (lean_is_scalar(x_74)) { x_75 = lean_alloc_ctor(1, 2, 0); } else { x_75 = x_74; } lean_ctor_set(x_75, 0, x_72); lean_ctor_set(x_75, 1, x_73); return x_75; } } } } else { uint8_t x_76; lean_dec(x_24); lean_dec(x_23); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_5); lean_dec(x_3); x_76 = !lean_is_exclusive(x_25); if (x_76 == 0) { return x_25; } else { lean_object* x_77; lean_object* x_78; lean_object* x_79; x_77 = lean_ctor_get(x_25, 0); x_78 = lean_ctor_get(x_25, 1); lean_inc(x_78); lean_inc(x_77); lean_dec(x_25); x_79 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_79, 0, x_77); lean_ctor_set(x_79, 1, x_78); return x_79; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; x_14 = lean_ctor_get(x_1, 5); x_15 = lean_box(0); x_16 = l_Lean_Server_Completion_completeNamespaces___lambda__3___closed__1; x_17 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1(x_2, x_3, x_4, x_5, x_6, x_16, x_14, x_16, x_8, x_9, x_10, x_11, x_12, x_13); if (lean_obj_tag(x_17) == 0) { lean_object* x_18; x_18 = lean_ctor_get(x_17, 0); lean_inc(x_18); if (lean_obj_tag(x_18) == 0) { uint8_t x_19; x_19 = !lean_is_exclusive(x_17); if (x_19 == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_17, 0); lean_dec(x_20); lean_ctor_set(x_17, 0, x_15); return x_17; } else { lean_object* x_21; lean_object* x_22; x_21 = lean_ctor_get(x_17, 1); lean_inc(x_21); lean_dec(x_17); x_22 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_22, 0, x_15); lean_ctor_set(x_22, 1, x_21); return x_22; } } else { lean_object* x_23; lean_object* x_24; x_23 = lean_ctor_get(x_18, 0); lean_inc(x_23); lean_dec(x_18); x_24 = lean_ctor_get(x_23, 0); lean_inc(x_24); lean_dec(x_23); if (lean_obj_tag(x_24) == 0) { uint8_t x_25; x_25 = !lean_is_exclusive(x_17); if (x_25 == 0) { lean_object* x_26; lean_object* x_27; x_26 = lean_ctor_get(x_17, 0); lean_dec(x_26); x_27 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; lean_ctor_set(x_17, 0, x_27); return x_17; } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; x_28 = lean_ctor_get(x_17, 1); lean_inc(x_28); lean_dec(x_17); x_29 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_30 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_30, 0, x_29); lean_ctor_set(x_30, 1, x_28); return x_30; } } else { uint8_t x_31; x_31 = !lean_is_exclusive(x_17); if (x_31 == 0) { lean_object* x_32; uint8_t x_33; x_32 = lean_ctor_get(x_17, 0); lean_dec(x_32); x_33 = !lean_is_exclusive(x_24); if (x_33 == 0) { lean_ctor_set(x_17, 0, x_24); return x_17; } else { lean_object* x_34; lean_object* x_35; x_34 = lean_ctor_get(x_24, 0); lean_inc(x_34); lean_dec(x_24); x_35 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_35, 0, x_34); lean_ctor_set(x_17, 0, x_35); return x_17; } } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; x_36 = lean_ctor_get(x_17, 1); lean_inc(x_36); lean_dec(x_17); x_37 = lean_ctor_get(x_24, 0); lean_inc(x_37); if (lean_is_exclusive(x_24)) { lean_ctor_release(x_24, 0); x_38 = x_24; } else { lean_dec_ref(x_24); x_38 = lean_box(0); } if (lean_is_scalar(x_38)) { x_39 = lean_alloc_ctor(1, 1, 0); } else { x_39 = x_38; } lean_ctor_set(x_39, 0, x_37); x_40 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_40, 0, x_39); lean_ctor_set(x_40, 1, x_36); return x_40; } } } } else { uint8_t x_41; x_41 = !lean_is_exclusive(x_17); if (x_41 == 0) { return x_17; } else { lean_object* x_42; lean_object* x_43; lean_object* x_44; x_42 = lean_ctor_get(x_17, 0); x_43 = lean_ctor_get(x_17, 1); lean_inc(x_43); lean_inc(x_42); lean_dec(x_17); x_44 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_44, 0, x_42); lean_ctor_set(x_44, 1, x_43); return x_44; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, uint8_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { lean_object* x_15; lean_object* x_16; lean_dec(x_8); x_15 = lean_ctor_get(x_1, 4); lean_inc(x_15); lean_inc(x_13); lean_inc(x_12); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_visitNamespaces(x_2, x_15, x_9, x_10, x_11, x_12, x_13, x_14); if (lean_obj_tag(x_16) == 0) { lean_object* x_17; x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); if (lean_obj_tag(x_17) == 0) { uint8_t x_18; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_1); x_18 = !lean_is_exclusive(x_16); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; x_19 = lean_ctor_get(x_16, 0); lean_dec(x_19); x_20 = lean_box(0); lean_ctor_set(x_16, 0, x_20); return x_16; } else { lean_object* x_21; lean_object* x_22; lean_object* x_23; x_21 = lean_ctor_get(x_16, 1); lean_inc(x_21); lean_dec(x_16); x_22 = lean_box(0); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } } else { lean_object* x_24; uint8_t x_25; x_24 = lean_ctor_get(x_17, 0); lean_inc(x_24); lean_dec(x_17); x_25 = lean_unbox(x_24); lean_dec(x_24); if (x_25 == 0) { lean_object* x_26; lean_object* x_27; lean_object* x_28; x_26 = lean_ctor_get(x_16, 1); lean_inc(x_26); lean_dec(x_16); x_27 = lean_box(0); x_28 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2(x_1, x_3, x_4, x_5, x_6, x_7, x_27, x_9, x_10, x_11, x_12, x_13, x_26); lean_dec(x_9); lean_dec(x_7); lean_dec(x_1); return x_28; } else { uint8_t x_29; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_1); x_29 = !lean_is_exclusive(x_16); if (x_29 == 0) { lean_object* x_30; lean_object* x_31; x_30 = lean_ctor_get(x_16, 0); lean_dec(x_30); x_31 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; lean_ctor_set(x_16, 0, x_31); return x_16; } else { lean_object* x_32; lean_object* x_33; lean_object* x_34; x_32 = lean_ctor_get(x_16, 1); lean_inc(x_32); lean_dec(x_16); x_33 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_34 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_34, 0, x_33); lean_ctor_set(x_34, 1, x_32); return x_34; } } } } else { uint8_t x_35; lean_dec(x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_3); lean_dec(x_1); x_35 = !lean_is_exclusive(x_16); if (x_35 == 0) { return x_16; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; x_36 = lean_ctor_get(x_16, 0); x_37 = lean_ctor_get(x_16, 1); lean_inc(x_37); lean_inc(x_36); lean_dec(x_16); x_38 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_38, 0, x_36); lean_ctor_set(x_38, 1, x_37); return x_38; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { lean_object* x_13; lean_object* x_14; uint8_t x_15; lean_inc(x_5); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_5, x_8, x_9, x_10, x_11, x_12); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_unbox(x_14); lean_dec(x_14); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_31; lean_object* x_32; lean_object* x_33; x_16 = lean_ctor_get(x_13, 1); lean_inc(x_16); if (lean_is_exclusive(x_13)) { lean_ctor_release(x_13, 0); lean_ctor_release(x_13, 1); x_17 = x_13; } else { lean_dec_ref(x_13); x_17 = lean_box(0); } x_18 = lean_box(x_2); lean_inc(x_3); lean_inc(x_6); lean_inc(x_5); lean_inc(x_1); x_19 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1___boxed), 12, 5); lean_closure_set(x_19, 0, x_1); lean_closure_set(x_19, 1, x_18); lean_closure_set(x_19, 2, x_5); lean_closure_set(x_19, 3, x_6); lean_closure_set(x_19, 4, x_3); x_31 = lean_box(0); lean_inc(x_5); lean_inc(x_1); x_32 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchDecl_x3f(x_31, x_1, x_2, x_5, x_8, x_9, x_10, x_11, x_16); x_33 = lean_ctor_get(x_32, 0); lean_inc(x_33); if (lean_obj_tag(x_33) == 0) { lean_object* x_34; lean_object* x_35; x_34 = lean_ctor_get(x_32, 1); lean_inc(x_34); lean_dec(x_32); x_35 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__2; x_20 = x_35; x_21 = x_34; goto block_30; } else { lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; x_36 = lean_ctor_get(x_33, 0); lean_inc(x_36); lean_dec(x_33); x_37 = lean_ctor_get(x_32, 1); lean_inc(x_37); lean_dec(x_32); x_38 = lean_ctor_get(x_36, 0); lean_inc(x_38); x_39 = lean_ctor_get(x_36, 1); lean_inc(x_39); lean_dec(x_36); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); x_40 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl(x_6, x_7, x_8, x_9, x_10, x_11, x_37); if (lean_obj_tag(x_40) == 0) { lean_object* x_41; x_41 = lean_ctor_get(x_40, 0); lean_inc(x_41); if (lean_obj_tag(x_41) == 0) { lean_object* x_42; lean_object* x_43; lean_dec(x_39); lean_dec(x_38); x_42 = lean_ctor_get(x_40, 1); lean_inc(x_42); lean_dec(x_40); x_43 = lean_box(0); x_20 = x_43; x_21 = x_42; goto block_30; } else { lean_object* x_44; uint8_t x_45; x_44 = lean_ctor_get(x_40, 1); lean_inc(x_44); lean_dec(x_40); x_45 = !lean_is_exclusive(x_41); if (x_45 == 0) { lean_object* x_46; lean_object* x_47; uint8_t x_48; double x_49; lean_object* x_50; x_46 = lean_ctor_get(x_41, 0); x_47 = l_Lean_ConstantInfo_type(x_6); lean_inc(x_5); lean_ctor_set(x_41, 0, x_5); x_48 = lean_unbox(x_46); lean_dec(x_46); x_49 = lean_unbox_float(x_39); lean_dec(x_39); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_3); x_50 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_38, x_47, x_3, x_41, x_48, x_49, x_7, x_8, x_9, x_10, x_11, x_44); if (lean_obj_tag(x_50) == 0) { lean_object* x_51; x_51 = lean_ctor_get(x_50, 0); lean_inc(x_51); if (lean_obj_tag(x_51) == 0) { lean_object* x_52; lean_object* x_53; x_52 = lean_ctor_get(x_50, 1); lean_inc(x_52); lean_dec(x_50); x_53 = lean_box(0); x_20 = x_53; x_21 = x_52; goto block_30; } else { lean_object* x_54; lean_object* x_55; lean_dec(x_51); x_54 = lean_ctor_get(x_50, 1); lean_inc(x_54); lean_dec(x_50); x_55 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_20 = x_55; x_21 = x_54; goto block_30; } } else { uint8_t x_56; lean_dec(x_19); lean_dec(x_17); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_56 = !lean_is_exclusive(x_50); if (x_56 == 0) { return x_50; } else { lean_object* x_57; lean_object* x_58; lean_object* x_59; x_57 = lean_ctor_get(x_50, 0); x_58 = lean_ctor_get(x_50, 1); lean_inc(x_58); lean_inc(x_57); lean_dec(x_50); x_59 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_59, 0, x_57); lean_ctor_set(x_59, 1, x_58); return x_59; } } } else { lean_object* x_60; lean_object* x_61; lean_object* x_62; uint8_t x_63; double x_64; lean_object* x_65; x_60 = lean_ctor_get(x_41, 0); lean_inc(x_60); lean_dec(x_41); x_61 = l_Lean_ConstantInfo_type(x_6); lean_inc(x_5); x_62 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_62, 0, x_5); x_63 = lean_unbox(x_60); lean_dec(x_60); x_64 = lean_unbox_float(x_39); lean_dec(x_39); lean_inc(x_11); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_3); x_65 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem(x_38, x_61, x_3, x_62, x_63, x_64, x_7, x_8, x_9, x_10, x_11, x_44); if (lean_obj_tag(x_65) == 0) { lean_object* x_66; x_66 = lean_ctor_get(x_65, 0); lean_inc(x_66); if (lean_obj_tag(x_66) == 0) { lean_object* x_67; lean_object* x_68; x_67 = lean_ctor_get(x_65, 1); lean_inc(x_67); lean_dec(x_65); x_68 = lean_box(0); x_20 = x_68; x_21 = x_67; goto block_30; } else { lean_object* x_69; lean_object* x_70; lean_dec(x_66); x_69 = lean_ctor_get(x_65, 1); lean_inc(x_69); lean_dec(x_65); x_70 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_20 = x_70; x_21 = x_69; goto block_30; } } else { lean_object* x_71; lean_object* x_72; lean_object* x_73; lean_object* x_74; lean_dec(x_19); lean_dec(x_17); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_71 = lean_ctor_get(x_65, 0); lean_inc(x_71); x_72 = lean_ctor_get(x_65, 1); lean_inc(x_72); if (lean_is_exclusive(x_65)) { lean_ctor_release(x_65, 0); lean_ctor_release(x_65, 1); x_73 = x_65; } else { lean_dec_ref(x_65); x_73 = lean_box(0); } if (lean_is_scalar(x_73)) { x_74 = lean_alloc_ctor(1, 2, 0); } else { x_74 = x_73; } lean_ctor_set(x_74, 0, x_71); lean_ctor_set(x_74, 1, x_72); return x_74; } } } } else { uint8_t x_75; lean_dec(x_39); lean_dec(x_38); lean_dec(x_19); lean_dec(x_17); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_75 = !lean_is_exclusive(x_40); if (x_75 == 0) { return x_40; } else { lean_object* x_76; lean_object* x_77; lean_object* x_78; x_76 = lean_ctor_get(x_40, 0); x_77 = lean_ctor_get(x_40, 1); lean_inc(x_77); lean_inc(x_76); lean_dec(x_40); x_78 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_78, 0, x_76); lean_ctor_set(x_78, 1, x_77); return x_78; } } } block_30: { if (lean_obj_tag(x_20) == 0) { lean_object* x_22; lean_object* x_23; lean_dec(x_19); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_22 = lean_box(0); if (lean_is_scalar(x_17)) { x_23 = lean_alloc_ctor(0, 2, 0); } else { x_23 = x_17; } lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_21); return x_23; } else { lean_object* x_24; uint8_t x_25; x_24 = lean_ctor_get(x_20, 0); lean_inc(x_24); lean_dec(x_20); x_25 = lean_unbox(x_24); lean_dec(x_24); if (x_25 == 0) { lean_object* x_26; lean_object* x_27; lean_dec(x_17); x_26 = lean_box(0); x_27 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3(x_4, x_19, x_3, x_2, x_1, x_5, x_6, x_26, x_7, x_8, x_9, x_10, x_11, x_21); return x_27; } else { lean_object* x_28; lean_object* x_29; lean_dec(x_19); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_28 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; if (lean_is_scalar(x_17)) { x_29 = lean_alloc_ctor(0, 2, 0); } else { x_29 = x_17; } lean_ctor_set(x_29, 0, x_28); lean_ctor_set(x_29, 1, x_21); return x_29; } } } } else { uint8_t x_79; lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_79 = !lean_is_exclusive(x_13); if (x_79 == 0) { lean_object* x_80; lean_object* x_81; x_80 = lean_ctor_get(x_13, 0); lean_dec(x_80); x_81 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; lean_ctor_set(x_13, 0, x_81); return x_13; } else { lean_object* x_82; lean_object* x_83; lean_object* x_84; x_82 = lean_ctor_get(x_13, 1); lean_inc(x_82); lean_dec(x_13); x_83 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; x_84 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_84, 0, x_83); lean_ctor_set(x_84, 1, x_82); return x_84; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5(lean_object* x_1, lean_object* x_2, lean_object* x_3) { _start: { uint8_t x_4; x_4 = l_Lean_Name_isPrefixOf(x_2, x_3); if (x_4 == 0) { lean_object* x_5; lean_dec(x_3); lean_dec(x_1); x_5 = lean_box(0); return x_5; } else { lean_object* x_6; lean_object* x_7; lean_object* x_8; x_6 = lean_box(0); x_7 = l_Lean_Name_replacePrefix(x_3, x_2, x_6); x_8 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic(x_1, x_7); return x_8; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6(lean_object* x_1, lean_object* x_2, lean_object* x_3, double x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; x_11 = l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17(x_1, x_2, x_4, x_3, x_5, x_6, x_7, x_8, x_9, x_10); return x_11; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__7(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; lean_object* x_13; x_12 = lean_ctor_get(x_1, 4); lean_inc(x_12); lean_dec(x_1); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore_searchAlias(x_2, x_3, x_4, x_5, x_12, x_6, x_7, x_8, x_9, x_10, x_11); return x_13; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__8(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; x_11 = l_Lean_Server_Completion_completeNamespaces(x_1, x_2, x_3, x_5, x_6, x_7, x_8, x_9, x_10); return x_11; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9(lean_object* x_1, uint8_t x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; x_12 = lean_st_ref_get(x_10, x_11); x_13 = lean_ctor_get(x_12, 0); lean_inc(x_13); x_14 = lean_ctor_get(x_12, 1); lean_inc(x_14); lean_dec(x_12); x_15 = lean_ctor_get(x_13, 0); lean_inc(x_15); lean_dec(x_13); x_16 = lean_ctor_get(x_15, 1); lean_inc(x_16); x_17 = lean_box(x_2); lean_inc(x_4); lean_inc(x_3); lean_inc(x_1); x_18 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4___boxed), 12, 4); lean_closure_set(x_18, 0, x_1); lean_closure_set(x_18, 1, x_17); lean_closure_set(x_18, 2, x_3); lean_closure_set(x_18, 3, x_4); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_19 = l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__2(x_16, x_18, x_6, x_7, x_8, x_9, x_10, x_14); if (lean_obj_tag(x_19) == 0) { lean_object* x_20; x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); if (lean_obj_tag(x_20) == 0) { uint8_t x_21; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_21 = !lean_is_exclusive(x_19); if (x_21 == 0) { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_19, 0); lean_dec(x_22); x_23 = lean_box(0); lean_ctor_set(x_19, 0, x_23); return x_19; } else { lean_object* x_24; lean_object* x_25; lean_object* x_26; x_24 = lean_ctor_get(x_19, 1); lean_inc(x_24); lean_dec(x_19); x_25 = lean_box(0); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_25); lean_ctor_set(x_26, 1, x_24); return x_26; } } else { lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_dec(x_20); x_27 = lean_ctor_get(x_19, 1); lean_inc(x_27); lean_dec(x_19); lean_inc(x_1); x_28 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5___boxed), 3, 1); lean_closure_set(x_28, 0, x_1); lean_inc(x_3); x_29 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6___boxed), 10, 1); lean_closure_set(x_29, 0, x_3); x_30 = lean_ctor_get(x_4, 5); lean_inc(x_30); x_31 = lean_box(0); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_1); x_32 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34(x_3, x_1, x_15, x_30, x_31, x_6, x_7, x_8, x_9, x_10, x_27); if (lean_obj_tag(x_32) == 0) { lean_object* x_33; x_33 = lean_ctor_get(x_32, 0); lean_inc(x_33); if (lean_obj_tag(x_33) == 0) { uint8_t x_34; lean_dec(x_29); lean_dec(x_28); lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_1); x_34 = !lean_is_exclusive(x_32); if (x_34 == 0) { lean_object* x_35; lean_object* x_36; x_35 = lean_ctor_get(x_32, 0); lean_dec(x_35); x_36 = lean_box(0); lean_ctor_set(x_32, 0, x_36); return x_32; } else { lean_object* x_37; lean_object* x_38; lean_object* x_39; x_37 = lean_ctor_get(x_32, 1); lean_inc(x_37); lean_dec(x_32); x_38 = lean_box(0); x_39 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_39, 0, x_38); lean_ctor_set(x_39, 1, x_37); return x_39; } } else { lean_object* x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_dec(x_33); x_40 = lean_ctor_get(x_32, 1); lean_inc(x_40); lean_dec(x_32); x_41 = l_Lean_getAliasState(x_15); lean_inc(x_4); x_42 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__7), 11, 3); lean_closure_set(x_42, 0, x_4); lean_closure_set(x_42, 1, x_28); lean_closure_set(x_42, 2, x_29); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_43 = l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__19(x_41, x_42, x_6, x_7, x_8, x_9, x_10, x_40); if (lean_obj_tag(x_43) == 0) { lean_object* x_44; x_44 = lean_ctor_get(x_43, 0); lean_inc(x_44); if (lean_obj_tag(x_44) == 0) { uint8_t x_45; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_1); x_45 = !lean_is_exclusive(x_43); if (x_45 == 0) { lean_object* x_46; lean_object* x_47; x_46 = lean_ctor_get(x_43, 0); lean_dec(x_46); x_47 = lean_box(0); lean_ctor_set(x_43, 0, x_47); return x_43; } else { lean_object* x_48; lean_object* x_49; lean_object* x_50; x_48 = lean_ctor_get(x_43, 1); lean_inc(x_48); lean_dec(x_43); x_49 = lean_box(0); x_50 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_50, 0, x_49); lean_ctor_set(x_50, 1, x_48); return x_50; } } else { lean_dec(x_44); if (lean_obj_tag(x_1) == 1) { lean_object* x_51; x_51 = lean_ctor_get(x_1, 0); lean_inc(x_51); if (lean_obj_tag(x_51) == 0) { lean_object* x_52; lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_object* x_56; size_t x_57; size_t x_58; lean_object* x_59; lean_object* x_60; lean_object* x_61; x_52 = lean_ctor_get(x_43, 1); lean_inc(x_52); lean_dec(x_43); x_53 = lean_ctor_get(x_1, 1); lean_inc(x_53); x_54 = l_Lean_Parser_getTokenTable(x_15); lean_dec(x_15); x_55 = l_Lean_Parser_Trie_findPrefix___rarg(x_54, x_53); lean_dec(x_53); x_56 = lean_array_get_size(x_55); x_57 = lean_usize_of_nat(x_56); lean_dec(x_56); x_58 = 0; x_59 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35(x_55, x_57, x_58, x_31, x_6, x_7, x_8, x_9, x_10, x_52); lean_dec(x_55); x_60 = lean_ctor_get(x_59, 1); lean_inc(x_60); lean_dec(x_59); x_61 = l_Lean_Server_Completion_completeNamespaces(x_4, x_1, x_2, x_6, x_7, x_8, x_9, x_10, x_60); return x_61; } else { lean_object* x_62; lean_object* x_63; lean_dec(x_51); lean_dec(x_15); x_62 = lean_ctor_get(x_43, 1); lean_inc(x_62); lean_dec(x_43); x_63 = l_Lean_Server_Completion_completeNamespaces(x_4, x_1, x_2, x_6, x_7, x_8, x_9, x_10, x_62); return x_63; } } else { lean_object* x_64; lean_object* x_65; lean_dec(x_15); x_64 = lean_ctor_get(x_43, 1); lean_inc(x_64); lean_dec(x_43); x_65 = l_Lean_Server_Completion_completeNamespaces(x_4, x_1, x_2, x_6, x_7, x_8, x_9, x_10, x_64); return x_65; } } } else { uint8_t x_66; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_1); x_66 = !lean_is_exclusive(x_43); if (x_66 == 0) { return x_43; } else { lean_object* x_67; lean_object* x_68; lean_object* x_69; x_67 = lean_ctor_get(x_43, 0); x_68 = lean_ctor_get(x_43, 1); lean_inc(x_68); lean_inc(x_67); lean_dec(x_43); x_69 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_69, 0, x_67); lean_ctor_set(x_69, 1, x_68); return x_69; } } } } else { uint8_t x_70; lean_dec(x_29); lean_dec(x_28); lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_1); x_70 = !lean_is_exclusive(x_32); if (x_70 == 0) { return x_32; } else { lean_object* x_71; lean_object* x_72; lean_object* x_73; x_71 = lean_ctor_get(x_32, 0); x_72 = lean_ctor_get(x_32, 1); lean_inc(x_72); lean_inc(x_71); lean_dec(x_32); x_73 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_73, 0, x_71); lean_ctor_set(x_73, 1, x_72); return x_73; } } } } else { uint8_t x_74; lean_dec(x_15); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_74 = !lean_is_exclusive(x_19); if (x_74 == 0) { return x_19; } else { lean_object* x_75; lean_object* x_76; lean_object* x_77; x_75 = lean_ctor_get(x_19, 0); x_76 = lean_ctor_get(x_19, 1); lean_inc(x_76); lean_inc(x_75); lean_dec(x_19); x_77 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_77, 0, x_75); lean_ctor_set(x_77, 1, x_76); return x_77; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10(lean_object* x_1, lean_object* x_2, uint8_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; lean_dec(x_5); x_12 = l_Lean_Name_isAtomic(x_4); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; x_13 = lean_box(0); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9(x_4, x_3, x_1, x_2, x_13, x_6, x_7, x_8, x_9, x_10, x_11); return x_14; } else { lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; x_15 = lean_ctor_get(x_7, 1); lean_inc(x_15); x_16 = lean_ctor_get(x_15, 1); lean_inc(x_16); lean_dec(x_15); x_17 = lean_box(0); lean_inc(x_10); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); lean_inc(x_4); lean_inc(x_1); x_18 = l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36(x_1, x_4, x_16, x_17, x_6, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_18) == 0) { lean_object* x_19; x_19 = lean_ctor_get(x_18, 0); lean_inc(x_19); if (lean_obj_tag(x_19) == 0) { uint8_t x_20; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_2); lean_dec(x_1); x_20 = !lean_is_exclusive(x_18); if (x_20 == 0) { lean_object* x_21; lean_object* x_22; x_21 = lean_ctor_get(x_18, 0); lean_dec(x_21); x_22 = lean_box(0); lean_ctor_set(x_18, 0, x_22); return x_18; } else { lean_object* x_23; lean_object* x_24; lean_object* x_25; x_23 = lean_ctor_get(x_18, 1); lean_inc(x_23); lean_dec(x_18); x_24 = lean_box(0); x_25 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_25, 0, x_24); lean_ctor_set(x_25, 1, x_23); return x_25; } } else { lean_object* x_26; lean_object* x_27; lean_dec(x_19); x_26 = lean_ctor_get(x_18, 1); lean_inc(x_26); lean_dec(x_18); x_27 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9(x_4, x_3, x_1, x_2, x_17, x_6, x_7, x_8, x_9, x_10, x_26); return x_27; } } else { uint8_t x_28; lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); lean_dec(x_2); lean_dec(x_1); x_28 = !lean_is_exclusive(x_18); if (x_28 == 0) { return x_18; } else { lean_object* x_29; lean_object* x_30; lean_object* x_31; x_29 = lean_ctor_get(x_18, 0); x_30 = lean_ctor_get(x_18, 1); lean_inc(x_30); lean_inc(x_29); lean_dec(x_18); x_31 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_31, 0, x_29); lean_ctor_set(x_31, 1, x_30); return x_31; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore(lean_object* x_1, lean_object* x_2, lean_object* x_3, uint8_t x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; x_12 = lean_erase_macro_scopes(x_2); if (lean_obj_tag(x_3) == 0) { lean_object* x_13; lean_object* x_14; x_13 = lean_box(0); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10(x_5, x_1, x_4, x_12, x_13, x_6, x_7, x_8, x_9, x_10, x_11); return x_14; } else { lean_object* x_15; lean_object* x_16; uint8_t x_17; lean_object* x_18; lean_object* x_19; x_15 = lean_ctor_get(x_3, 0); lean_inc(x_15); lean_dec(x_3); x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_truncate(x_12, x_15); x_17 = 0; x_18 = lean_box(0); x_19 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10(x_5, x_1, x_17, x_16, x_18, x_6, x_7, x_8, x_9, x_10, x_11); return x_19; } } } LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { uint8_t x_15; lean_object* x_16; x_15 = lean_unbox(x_2); lean_dec(x_2); x_16 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__1(x_1, x_15, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12, x_13, x_14); lean_dec(x_9); lean_dec(x_7); lean_dec(x_5); return x_16; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__7(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__11(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__12(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__16(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { double x_11; lean_object* x_12; x_11 = lean_unbox_float(x_3); lean_dec(x_3); x_12 = l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__17(x_1, x_2, x_11, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_5); return x_12; } } LEAN_EXPORT lean_object* l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { double x_11; lean_object* x_12; x_11 = lean_unbox_float(x_3); lean_dec(x_3); x_12 = l_List_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__18(x_1, x_2, x_11, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_5); return x_12; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__24(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__28(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__29(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = lean_unbox_usize(x_4); lean_dec(x_4); x_14 = l_Array_foldlMUnsafe_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__33(x_1, x_2, x_12, x_13, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_2); return x_14; } } LEAN_EXPORT lean_object* l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { lean_object* x_12; x_12 = l_List_forIn_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__34(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_3); return x_12; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { size_t x_11; size_t x_12; lean_object* x_13; x_11 = lean_unbox_usize(x_2); lean_dec(x_2); x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__35(x_1, x_11, x_12, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); return x_13; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { size_t x_15; size_t x_16; lean_object* x_17; x_15 = lean_unbox_usize(x_6); lean_dec(x_6); x_16 = lean_unbox_usize(x_7); lean_dec(x_7); x_17 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__38(x_1, x_2, x_3, x_4, x_5, x_15, x_16, x_8, x_9, x_10, x_11, x_12, x_13, x_14); lean_dec(x_5); return x_17; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { size_t x_14; size_t x_15; lean_object* x_16; x_14 = lean_unbox_usize(x_5); lean_dec(x_5); x_15 = lean_unbox_usize(x_6); lean_dec(x_6); x_16 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__39(x_1, x_2, x_3, x_4, x_14, x_15, x_7, x_8, x_9, x_10, x_11, x_12, x_13); lean_dec(x_8); lean_dec(x_4); return x_16; } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; x_9 = l_Std_PersistentArray_forInAux___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__37___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); return x_9; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { size_t x_14; size_t x_15; lean_object* x_16; x_14 = lean_unbox_usize(x_5); lean_dec(x_5); x_15 = lean_unbox_usize(x_6); lean_dec(x_6); x_16 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__40(x_1, x_2, x_3, x_4, x_14, x_15, x_7, x_8, x_9, x_10, x_11, x_12, x_13); lean_dec(x_8); lean_dec(x_4); return x_16; } } LEAN_EXPORT lean_object* l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; x_9 = l_Std_PersistentArray_forIn___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__36___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); return x_9; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; lean_object* x_14; x_13 = lean_unbox(x_2); lean_dec(x_2); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__1(x_1, x_13, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12); lean_dec(x_7); lean_dec(x_6); lean_dec(x_4); return x_14; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; lean_object* x_15; x_14 = lean_unbox(x_3); lean_dec(x_3); x_15 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__2(x_1, x_2, x_14, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12, x_13); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_1); return x_15; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13, lean_object* x_14) { _start: { uint8_t x_15; lean_object* x_16; x_15 = lean_unbox(x_4); lean_dec(x_4); x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__3(x_1, x_2, x_3, x_15, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12, x_13, x_14); return x_16; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12) { _start: { uint8_t x_13; lean_object* x_14; x_13 = lean_unbox(x_2); lean_dec(x_2); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__4(x_1, x_13, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11, x_12); return x_14; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3) { _start: { lean_object* x_4; x_4 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__5(x_1, x_2, x_3); lean_dec(x_2); return x_4; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { double x_11; lean_object* x_12; x_11 = lean_unbox_float(x_4); lean_dec(x_4); x_12 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__6(x_1, x_2, x_3, x_11, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_5); return x_12; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__8___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { uint8_t x_11; lean_object* x_12; x_11 = lean_unbox(x_3); lean_dec(x_3); x_12 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__8(x_1, x_2, x_11, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_4); return x_12; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; lean_object* x_13; x_12 = lean_unbox(x_2); lean_dec(x_2); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__9(x_1, x_12, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_5); return x_13; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; lean_object* x_13; x_12 = lean_unbox(x_3); lean_dec(x_3); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___lambda__10(x_1, x_2, x_12, x_4, x_5, x_6, x_7, x_8, x_9, x_10, x_11); return x_13; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; lean_object* x_13; x_12 = lean_unbox(x_4); lean_dec(x_4); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore(x_1, x_2, x_3, x_12, x_5, x_6, x_7, x_8, x_9, x_10, x_11); return x_13; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, uint8_t x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; lean_object* x_9; lean_object* x_10; x_8 = lean_box(x_5); lean_inc(x_1); x_9 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___boxed), 11, 5); lean_closure_set(x_9, 0, x_1); lean_closure_set(x_9, 1, x_3); lean_closure_set(x_9, 2, x_4); lean_closure_set(x_9, 3, x_8); lean_closure_set(x_9, 4, x_6); x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM(x_1, x_2, x_9, x_7); lean_dec(x_1); return x_10; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { uint8_t x_8; lean_object* x_9; x_8 = lean_unbox(x_5); lean_dec(x_5); x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion(x_1, x_2, x_3, x_4, x_8, x_6, x_7); return x_9; } } static lean_object* _init_l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___closed__1() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l_List_allM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getCompletionKindForDecl___spec__5___closed__1; x_2 = lean_box(0); x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, size_t x_4, size_t x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { uint8_t x_12; x_12 = lean_usize_dec_lt(x_5, x_4); if (x_12 == 0) { lean_object* x_13; lean_dec(x_7); lean_dec(x_2); x_13 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_13, 0, x_6); lean_ctor_set(x_13, 1, x_11); return x_13; } else { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_dec(x_6); x_14 = lean_array_uget(x_3, x_5); x_15 = l_Lean_Expr_fvarId_x21(x_14); lean_inc(x_7); x_16 = l_Lean_Meta_getLocalDecl(x_15, x_7, x_8, x_9, x_10, x_11); if (lean_obj_tag(x_16) == 0) { uint8_t x_17; x_17 = !lean_is_exclusive(x_16); if (x_17 == 0) { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; uint8_t x_23; x_18 = lean_ctor_get(x_16, 0); x_19 = lean_ctor_get(x_16, 1); x_20 = l_Lean_LocalDecl_type(x_18); lean_dec(x_18); x_21 = l_Lean_Expr_consumeMData(x_20); lean_dec(x_20); x_22 = l_Lean_Expr_getAppFn(x_21); lean_dec(x_21); x_23 = l_Lean_Expr_isConstOf(x_22, x_1); lean_dec(x_22); if (x_23 == 0) { size_t x_24; size_t x_25; lean_free_object(x_16); x_24 = 1; x_25 = lean_usize_add(x_5, x_24); lean_inc(x_2); { size_t _tmp_4 = x_25; lean_object* _tmp_5 = x_2; lean_object* _tmp_10 = x_19; x_5 = _tmp_4; x_6 = _tmp_5; x_11 = _tmp_10; } goto _start; } else { lean_object* x_27; lean_dec(x_7); lean_dec(x_2); x_27 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___closed__1; lean_ctor_set(x_16, 0, x_27); return x_16; } } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; uint8_t x_33; x_28 = lean_ctor_get(x_16, 0); x_29 = lean_ctor_get(x_16, 1); lean_inc(x_29); lean_inc(x_28); lean_dec(x_16); x_30 = l_Lean_LocalDecl_type(x_28); lean_dec(x_28); x_31 = l_Lean_Expr_consumeMData(x_30); lean_dec(x_30); x_32 = l_Lean_Expr_getAppFn(x_31); lean_dec(x_31); x_33 = l_Lean_Expr_isConstOf(x_32, x_1); lean_dec(x_32); if (x_33 == 0) { size_t x_34; size_t x_35; x_34 = 1; x_35 = lean_usize_add(x_5, x_34); lean_inc(x_2); { size_t _tmp_4 = x_35; lean_object* _tmp_5 = x_2; lean_object* _tmp_10 = x_29; x_5 = _tmp_4; x_6 = _tmp_5; x_11 = _tmp_10; } goto _start; } else { lean_object* x_37; lean_object* x_38; lean_dec(x_7); lean_dec(x_2); x_37 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___closed__1; x_38 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_38, 0, x_37); lean_ctor_set(x_38, 1, x_29); return x_38; } } } else { uint8_t x_39; lean_dec(x_7); lean_dec(x_2); x_39 = !lean_is_exclusive(x_16); if (x_39 == 0) { return x_16; } else { lean_object* x_40; lean_object* x_41; lean_object* x_42; x_40 = lean_ctor_get(x_16, 0); x_41 = lean_ctor_get(x_16, 1); lean_inc(x_41); lean_inc(x_40); lean_dec(x_16); x_42 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_42, 0, x_40); lean_ctor_set(x_42, 1, x_41); return x_42; } } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { uint8_t x_7; lean_object* x_8; lean_object* x_9; x_7 = 0; x_8 = lean_box(x_7); x_9 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_9, 0, x_8); lean_ctor_set(x_9, 1, x_6); return x_9; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___closed__1() { _start: { lean_object* x_1; x_1 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1___boxed), 6, 0); return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; size_t x_10; size_t x_11; lean_object* x_12; lean_object* x_13; x_9 = lean_array_get_size(x_2); x_10 = lean_usize_of_nat(x_9); lean_dec(x_9); x_11 = 0; x_12 = l_Lean_Server_Completion_completeNamespaces___lambda__3___closed__1; lean_inc(x_4); x_13 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1(x_1, x_12, x_2, x_10, x_11, x_12, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_13) == 0) { lean_object* x_14; lean_object* x_15; x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); lean_dec(x_14); if (lean_obj_tag(x_15) == 0) { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; x_16 = lean_ctor_get(x_13, 1); lean_inc(x_16); lean_dec(x_13); x_17 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___closed__1; x_18 = lean_box(0); x_19 = lean_apply_6(x_17, x_18, x_4, x_5, x_6, x_7, x_16); return x_19; } else { uint8_t x_20; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); x_20 = !lean_is_exclusive(x_13); if (x_20 == 0) { lean_object* x_21; lean_object* x_22; x_21 = lean_ctor_get(x_13, 0); lean_dec(x_21); x_22 = lean_ctor_get(x_15, 0); lean_inc(x_22); lean_dec(x_15); lean_ctor_set(x_13, 0, x_22); return x_13; } else { lean_object* x_23; lean_object* x_24; lean_object* x_25; x_23 = lean_ctor_get(x_13, 1); lean_inc(x_23); lean_dec(x_13); x_24 = lean_ctor_get(x_15, 0); lean_inc(x_24); lean_dec(x_15); x_25 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_25, 0, x_24); lean_ctor_set(x_25, 1, x_23); return x_25; } } } else { uint8_t x_26; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); x_26 = !lean_is_exclusive(x_13); if (x_26 == 0) { return x_13; } else { lean_object* x_27; lean_object* x_28; lean_object* x_29; x_27 = lean_ctor_get(x_13, 0); x_28 = lean_ctor_get(x_13, 1); lean_inc(x_28); lean_inc(x_27); lean_dec(x_13); x_29 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_29, 0, x_27); lean_ctor_set(x_29, 1, x_28); return x_29; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; lean_object* x_9; lean_object* x_10; x_8 = l_Lean_ConstantInfo_type(x_2); x_9 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___boxed), 8, 1); lean_closure_set(x_9, 0, x_1); x_10 = l_Lean_Meta_forallTelescopeReducing___at_Lean_Meta_getParamNames___spec__2___rarg(x_8, x_9, x_3, x_4, x_5, x_6, x_7); return x_10; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11) { _start: { size_t x_12; size_t x_13; lean_object* x_14; x_12 = lean_unbox_usize(x_4); lean_dec(x_4); x_13 = lean_unbox_usize(x_5); lean_dec(x_5); x_14 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___spec__1(x_1, x_2, x_3, x_12, x_13, x_6, x_7, x_8, x_9, x_10, x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_3); lean_dec(x_1); return x_14; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); return x_7; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___lambda__2(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); return x_9; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; x_8 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod(x_1, x_2, x_3, x_4, x_5, x_6, x_7); lean_dec(x_2); return x_8; } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1(lean_object* x_1, size_t x_2, size_t x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { uint8_t x_11; x_11 = lean_usize_dec_lt(x_3, x_2); if (x_11 == 0) { lean_object* x_12; x_12 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_12, 0, x_4); lean_ctor_set(x_12, 1, x_10); return x_12; } else { lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; size_t x_23; size_t x_24; lean_dec(x_4); x_13 = lean_array_uget(x_1, x_3); x_14 = lean_st_ref_get(x_9, x_10); x_15 = lean_ctor_get(x_14, 1); lean_inc(x_15); lean_dec(x_14); x_16 = lean_st_ref_take(x_5, x_15); x_17 = lean_ctor_get(x_16, 0); lean_inc(x_17); x_18 = lean_ctor_get(x_16, 1); lean_inc(x_18); lean_dec(x_16); x_19 = lean_box(0); x_20 = l_Std_RBNode_insert___at_Lean_NameSet_insert___spec__1(x_17, x_13, x_19); x_21 = lean_st_ref_set(x_5, x_20, x_18); x_22 = lean_ctor_get(x_21, 1); lean_inc(x_22); lean_dec(x_21); x_23 = 1; x_24 = lean_usize_add(x_3, x_23); x_3 = x_24; x_4 = x_19; x_10 = x_22; goto _start; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { if (lean_obj_tag(x_1) == 0) { lean_object* x_8; lean_object* x_9; lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); x_8 = lean_box(0); x_9 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_9, 0, x_8); lean_ctor_set(x_9, 1, x_7); return x_9; } else { lean_object* x_10; lean_object* x_11; x_10 = lean_ctor_get(x_1, 0); lean_inc(x_10); lean_dec(x_1); x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit(x_10, x_2, x_3, x_4, x_5, x_6, x_7); return x_11; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2___closed__1() { _start: { lean_object* x_1; x_1 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__1), 7, 0); return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_object* x_10; x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2___closed__1; lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); x_10 = l_Lean_Meta_unfoldDefinition_x3f(x_1, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_10) == 0) { lean_object* x_11; lean_object* x_12; lean_object* x_13; x_11 = lean_ctor_get(x_10, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_10, 1); lean_inc(x_12); lean_dec(x_10); x_13 = lean_apply_7(x_9, x_11, x_3, x_4, x_5, x_6, x_7, x_12); return x_13; } else { lean_object* x_14; lean_object* x_15; lean_object* x_16; x_14 = lean_ctor_get(x_10, 1); lean_inc(x_14); lean_dec(x_10); x_15 = lean_box(0); x_16 = lean_apply_7(x_9, x_15, x_3, x_4, x_5, x_6, x_7, x_14); return x_16; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; x_8 = l_Lean_Expr_getAppFn(x_1); if (lean_obj_tag(x_8) == 4) { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; uint8_t x_23; x_9 = lean_ctor_get(x_8, 0); lean_inc(x_9); lean_dec(x_8); x_10 = lean_st_ref_get(x_6, x_7); x_11 = lean_ctor_get(x_10, 1); lean_inc(x_11); lean_dec(x_10); x_12 = lean_st_ref_take(x_2, x_11); x_13 = lean_ctor_get(x_12, 0); lean_inc(x_13); x_14 = lean_ctor_get(x_12, 1); lean_inc(x_14); lean_dec(x_12); x_15 = lean_box(0); lean_inc(x_9); x_16 = l_Std_RBNode_insert___at_Lean_NameSet_insert___spec__1(x_13, x_9, x_15); x_17 = lean_st_ref_set(x_2, x_16, x_14); x_18 = lean_ctor_get(x_17, 1); lean_inc(x_18); lean_dec(x_17); x_19 = lean_st_ref_get(x_6, x_18); x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); x_21 = lean_ctor_get(x_19, 1); lean_inc(x_21); lean_dec(x_19); x_22 = lean_ctor_get(x_20, 0); lean_inc(x_22); lean_dec(x_20); lean_inc(x_9); x_23 = l_Lean_isStructure(x_22, x_9); if (x_23 == 0) { lean_object* x_24; lean_dec(x_9); x_24 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2(x_1, x_15, x_2, x_3, x_4, x_5, x_6, x_21); return x_24; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; size_t x_31; size_t x_32; lean_object* x_33; lean_object* x_34; lean_object* x_35; x_25 = lean_st_ref_get(x_6, x_21); x_26 = lean_ctor_get(x_25, 0); lean_inc(x_26); x_27 = lean_ctor_get(x_25, 1); lean_inc(x_27); lean_dec(x_25); x_28 = lean_ctor_get(x_26, 0); lean_inc(x_28); lean_dec(x_26); x_29 = l_Lean_getAllParentStructures(x_28, x_9); x_30 = lean_array_get_size(x_29); x_31 = lean_usize_of_nat(x_30); lean_dec(x_30); x_32 = 0; x_33 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1(x_29, x_31, x_32, x_15, x_2, x_3, x_4, x_5, x_6, x_27); lean_dec(x_29); x_34 = lean_ctor_get(x_33, 1); lean_inc(x_34); lean_dec(x_33); x_35 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2(x_1, x_15, x_2, x_3, x_4, x_5, x_6, x_34); return x_35; } } else { lean_object* x_36; lean_object* x_37; lean_dec(x_8); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); x_36 = lean_box(0); x_37 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_37, 0, x_36); lean_ctor_set(x_37, 1, x_7); return x_37; } } } LEAN_EXPORT lean_object* l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { size_t x_11; size_t x_12; lean_object* x_13; x_11 = lean_unbox_usize(x_2); lean_dec(x_2); x_12 = lean_unbox_usize(x_3); lean_dec(x_3); x_13 = l_Array_forInUnsafe_loop___at___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___spec__1(x_1, x_11, x_12, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_1); return x_13; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; x_9 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit___lambda__2(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8); lean_dec(x_2); return x_9; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; x_7 = lean_st_ref_get(x_5, x_6); x_8 = lean_ctor_get(x_7, 1); lean_inc(x_8); lean_dec(x_7); x_9 = l_Lean_NameSet_empty; x_10 = lean_st_mk_ref(x_9, x_8); x_11 = lean_ctor_get(x_10, 0); lean_inc(x_11); x_12 = lean_ctor_get(x_10, 1); lean_inc(x_12); lean_dec(x_10); lean_inc(x_5); lean_inc(x_11); x_13 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames_visit(x_1, x_11, x_2, x_3, x_4, x_5, x_12); if (lean_obj_tag(x_13) == 0) { lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; uint8_t x_18; x_14 = lean_ctor_get(x_13, 1); lean_inc(x_14); lean_dec(x_13); x_15 = lean_st_ref_get(x_5, x_14); lean_dec(x_5); x_16 = lean_ctor_get(x_15, 1); lean_inc(x_16); lean_dec(x_15); x_17 = lean_st_ref_get(x_11, x_16); lean_dec(x_11); x_18 = !lean_is_exclusive(x_17); if (x_18 == 0) { return x_17; } else { lean_object* x_19; lean_object* x_20; lean_object* x_21; x_19 = lean_ctor_get(x_17, 0); x_20 = lean_ctor_get(x_17, 1); lean_inc(x_20); lean_inc(x_19); lean_dec(x_17); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_19); lean_ctor_set(x_21, 1, x_20); return x_21; } } else { uint8_t x_22; lean_dec(x_11); lean_dec(x_5); x_22 = !lean_is_exclusive(x_13); if (x_22 == 0) { return x_13; } else { lean_object* x_23; lean_object* x_24; lean_object* x_25; x_23 = lean_ctor_get(x_13, 0); x_24 = lean_ctor_get(x_13, 1); lean_inc(x_24); lean_inc(x_23); lean_dec(x_13); x_25 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_25, 0, x_23); lean_ctor_set(x_25, 1, x_24); return x_25; } } } } LEAN_EXPORT lean_object* l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1___rarg(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { lean_object* x_9; lean_inc(x_7); lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_9 = lean_apply_6(x_1, x_3, x_4, x_5, x_6, x_7, x_8); if (lean_obj_tag(x_9) == 0) { lean_object* x_10; lean_object* x_11; lean_object* x_12; x_10 = lean_ctor_get(x_9, 0); lean_inc(x_10); x_11 = lean_ctor_get(x_9, 1); lean_inc(x_11); lean_dec(x_9); x_12 = lean_apply_7(x_2, x_10, x_3, x_4, x_5, x_6, x_7, x_11); return x_12; } else { uint8_t x_13; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); x_13 = !lean_is_exclusive(x_9); if (x_13 == 0) { return x_9; } else { lean_object* x_14; lean_object* x_15; lean_object* x_16; x_14 = lean_ctor_get(x_9, 0); x_15 = lean_ctor_get(x_9, 1); lean_inc(x_15); lean_inc(x_14); lean_dec(x_9); x_16 = lean_alloc_ctor(1, 2, 0); lean_ctor_set(x_16, 0, x_14); lean_ctor_set(x_16, 1, x_15); return x_16; } } } } LEAN_EXPORT lean_object* l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; x_3 = lean_alloc_closure((void*)(l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1___rarg), 8, 0); return x_3; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; uint8_t x_12; x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_normPrivateName(x_3, x_6, x_7, x_8, x_9, x_10); x_12 = !lean_is_exclusive(x_11); if (x_12 == 0) { lean_object* x_13; lean_object* x_14; lean_object* x_15; uint8_t x_16; x_13 = lean_ctor_get(x_11, 0); x_14 = lean_ctor_get(x_11, 1); x_15 = l_Lean_Name_getPrefix(x_13); lean_dec(x_13); x_16 = l_Lean_NameSet_contains(x_1, x_15); if (x_16 == 0) { lean_object* x_17; lean_dec(x_15); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); x_17 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; lean_ctor_set(x_11, 0, x_17); return x_11; } else { lean_object* x_18; lean_object* x_19; lean_object* x_20; uint8_t x_21; lean_free_object(x_11); x_18 = l_Lean_ConstantInfo_name(x_4); lean_inc(x_18); x_19 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed(x_18, x_6, x_7, x_8, x_9, x_14); x_20 = lean_ctor_get(x_19, 0); lean_inc(x_20); x_21 = lean_unbox(x_20); lean_dec(x_20); if (x_21 == 0) { lean_object* x_22; lean_object* x_23; x_22 = lean_ctor_get(x_19, 1); lean_inc(x_22); lean_dec(x_19); lean_inc(x_9); lean_inc(x_8); lean_inc(x_7); lean_inc(x_6); x_23 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_isDotCompletionMethod(x_15, x_4, x_6, x_7, x_8, x_9, x_22); if (lean_obj_tag(x_23) == 0) { lean_object* x_24; uint8_t x_25; x_24 = lean_ctor_get(x_23, 0); lean_inc(x_24); x_25 = lean_unbox(x_24); lean_dec(x_24); if (x_25 == 0) { uint8_t x_26; lean_dec(x_18); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); x_26 = !lean_is_exclusive(x_23); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; x_27 = lean_ctor_get(x_23, 0); lean_dec(x_27); x_28 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addCompletionItem___lambda__1___closed__1; lean_ctor_set(x_23, 0, x_28); return x_23; } else { lean_object* x_29; lean_object* x_30; lean_object* x_31; x_29 = lean_ctor_get(x_23, 1); 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lean_dec(x_4); lean_dec(x_2); lean_dec(x_1); x_32 = lean_st_ref_get(x_10, x_11); x_33 = lean_ctor_get(x_32, 0); lean_inc(x_33); x_34 = lean_ctor_get(x_32, 1); lean_inc(x_34); lean_dec(x_32); x_35 = lean_ctor_get(x_33, 0); lean_inc(x_35); lean_dec(x_33); x_36 = lean_ctor_get(x_35, 1); lean_inc(x_36); lean_dec(x_35); x_37 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1___boxed), 10, 2); lean_closure_set(x_37, 0, x_5); lean_closure_set(x_37, 1, x_3); x_38 = l_Lean_SMap_forM___at___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletionCore___spec__2(x_36, x_37, x_6, x_7, x_8, x_9, x_10, x_34); return x_38; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l_Lean_NameSet_empty; x_2 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; lean_inc(x_6); lean_inc(x_5); lean_inc(x_4); lean_inc(x_3); x_8 = lean_infer_type(x_1, x_3, x_4, x_5, x_6, x_7); if (lean_obj_tag(x_8) == 0) { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; x_9 = lean_ctor_get(x_8, 0); lean_inc(x_9); x_10 = lean_ctor_get(x_8, 1); lean_inc(x_10); lean_dec(x_8); lean_inc(x_4); x_11 = l_Lean_Meta_instantiateMVars(x_9, x_3, x_4, x_5, x_6, x_10); x_12 = lean_ctor_get(x_11, 0); lean_inc(x_12); x_13 = lean_ctor_get(x_11, 1); lean_inc(x_13); lean_dec(x_11); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_getDotCompletionTypeNames(x_12, x_3, x_4, x_5, x_6, x_13); if (lean_obj_tag(x_14) == 0) { uint8_t x_15; x_15 = !lean_is_exclusive(x_14); if (x_15 == 0) { lean_object* x_16; lean_object* x_17; x_16 = lean_ctor_get(x_14, 0); x_17 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_17, 0, x_16); lean_ctor_set(x_14, 0, x_17); return x_14; } else { lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; x_18 = lean_ctor_get(x_14, 0); x_19 = lean_ctor_get(x_14, 1); lean_inc(x_19); lean_inc(x_18); lean_dec(x_14); x_20 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_20, 0, x_18); x_21 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_21, 0, x_20); lean_ctor_set(x_21, 1, x_19); return x_21; } } else { uint8_t x_22; x_22 = !lean_is_exclusive(x_14); if (x_22 == 0) { lean_object* x_23; lean_object* x_24; x_23 = lean_ctor_get(x_14, 0); lean_dec(x_23); x_24 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1; lean_ctor_set_tag(x_14, 0); lean_ctor_set(x_14, 0, x_24); return x_14; } else { lean_object* x_25; lean_object* x_26; lean_object* x_27; x_25 = lean_ctor_get(x_14, 1); lean_inc(x_25); lean_dec(x_14); x_26 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1; x_27 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_27, 0, x_26); lean_ctor_set(x_27, 1, x_25); return x_27; } } } else { uint8_t x_28; lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); x_28 = !lean_is_exclusive(x_8); if (x_28 == 0) { lean_object* x_29; lean_object* x_30; x_29 = lean_ctor_get(x_8, 0); lean_dec(x_29); x_30 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1; lean_ctor_set_tag(x_8, 0); lean_ctor_set(x_8, 0, x_30); return x_8; } else { lean_object* x_31; lean_object* x_32; lean_object* x_33; x_31 = lean_ctor_get(x_8, 1); lean_inc(x_31); lean_dec(x_8); x_32 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___closed__1; x_33 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_33, 0, x_32); lean_ctor_set(x_33, 1, x_31); return x_33; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__4(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8) { _start: { if (lean_obj_tag(x_2) == 0) { lean_object* x_9; lean_object* x_10; lean_dec(x_7); lean_dec(x_6); lean_dec(x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_1); x_9 = lean_box(0); x_10 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_10, 0, x_9); lean_ctor_set(x_10, 1, x_8); return x_10; } else { lean_object* x_11; lean_object* x_12; x_11 = lean_ctor_get(x_2, 0); lean_inc(x_11); lean_dec(x_2); x_12 = lean_apply_7(x_1, x_11, x_3, x_4, x_5, x_6, x_7, x_8); return x_12; } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5) { _start: { lean_object* x_6; lean_object* x_7; lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; x_6 = lean_ctor_get(x_2, 1); lean_inc(x_6); lean_inc(x_1); lean_inc(x_2); x_7 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__2), 11, 4); lean_closure_set(x_7, 0, x_2); lean_closure_set(x_7, 1, x_1); lean_closure_set(x_7, 2, x_4); lean_closure_set(x_7, 3, x_3); x_8 = lean_ctor_get(x_2, 3); lean_inc(x_8); lean_dec(x_2); x_9 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___boxed), 7, 1); lean_closure_set(x_9, 0, x_8); x_10 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__4), 8, 1); lean_closure_set(x_10, 0, x_7); x_11 = lean_alloc_closure((void*)(l_ReaderT_bind___at___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___spec__1___rarg), 8, 2); lean_closure_set(x_11, 0, x_9); lean_closure_set(x_11, 1, x_10); x_12 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_runM(x_1, x_6, x_11, x_5); lean_dec(x_1); return x_12; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__1(x_1, x_2, x_3, x_4, x_5, x_6, x_7, x_8, x_9, x_10); lean_dec(x_5); lean_dec(x_4); lean_dec(x_1); return x_11; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7) { _start: { lean_object* x_8; x_8 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion___lambda__3(x_1, x_2, x_3, x_4, x_5, x_6, x_7); lean_dec(x_2); return x_8; } } static lean_object* _init_l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1() { _start: { uint8_t x_1; lean_object* x_2; lean_object* x_3; x_1 = 9; x_2 = lean_box(x_1); x_3 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_3, 0, x_2); return x_3; } } static lean_object* _init_l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2() { _start: { lean_object* x_1; x_1 = lean_mk_string("("); return x_1; } } static lean_object* _init_l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3() { _start: { lean_object* x_1; x_1 = lean_mk_string("), "); return x_1; } } static lean_object* _init_l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4() { _start: { lean_object* x_1; x_1 = lean_mk_string(""); return x_1; } } LEAN_EXPORT lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, uint8_t x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { if (lean_obj_tag(x_7) == 0) { lean_object* x_14; lean_object* x_15; lean_dec(x_4); lean_dec(x_3); x_14 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_14, 0, x_8); x_15 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_15, 0, x_14); lean_ctor_set(x_15, 1, x_13); return x_15; } else { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; lean_object* x_24; lean_object* x_25; lean_object* x_26; uint8_t x_32; lean_object* x_33; double x_34; lean_object* x_35; x_16 = lean_ctor_get(x_7, 0); lean_inc(x_16); x_17 = lean_ctor_get(x_7, 1); lean_inc(x_17); x_18 = lean_ctor_get(x_7, 2); lean_inc(x_18); x_19 = lean_ctor_get(x_7, 3); lean_inc(x_19); lean_dec(x_7); lean_inc(x_4); lean_inc(x_3); x_20 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1(x_1, x_2, x_3, x_4, x_5, x_6, x_16, x_8, x_9, x_10, x_11, x_12, x_13); x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); x_22 = lean_ctor_get(x_20, 1); lean_inc(x_22); if (lean_is_exclusive(x_20)) { lean_ctor_release(x_20, 0); lean_ctor_release(x_20, 1); x_23 = x_20; } else { lean_dec_ref(x_20); x_23 = lean_box(0); } x_24 = lean_ctor_get(x_21, 0); lean_inc(x_24); if (lean_is_exclusive(x_21)) { lean_ctor_release(x_21, 0); x_25 = x_21; } else { lean_dec_ref(x_21); x_25 = lean_box(0); } x_32 = 1; lean_inc(x_17); x_33 = l_Lean_Name_toString(x_17, x_32); x_34 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_matchAtomic___closed__12; lean_inc(x_33); lean_inc(x_4); x_35 = l_Lean_FuzzyMatching_fuzzyMatchScoreWithThreshold_x3f(x_4, x_33, x_34); if (lean_obj_tag(x_35) == 0) { lean_object* x_36; lean_object* x_37; lean_dec(x_33); lean_dec(x_18); lean_dec(x_17); if (lean_is_scalar(x_25)) { x_36 = lean_alloc_ctor(1, 1, 0); } else { x_36 = x_25; } lean_ctor_set(x_36, 0, x_24); if (lean_is_scalar(x_23)) { x_37 = lean_alloc_ctor(0, 2, 0); } else { x_37 = x_23; } lean_ctor_set(x_37, 0, x_36); lean_ctor_set(x_37, 1, x_22); x_26 = x_37; goto block_31; } else { lean_object* x_38; lean_object* x_39; lean_object* x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; lean_object* x_93; lean_object* x_110; lean_object* x_111; x_38 = lean_ctor_get(x_35, 0); lean_inc(x_38); if (lean_is_exclusive(x_35)) { lean_ctor_release(x_35, 0); x_39 = x_35; } else { lean_dec_ref(x_35); x_39 = lean_box(0); } x_40 = lean_ctor_get(x_18, 0); lean_inc(x_40); x_41 = l_Lean_KVMap_findCore(x_6, x_17); lean_dec(x_17); x_42 = lean_ctor_get(x_18, 2); lean_inc(x_42); lean_dec(x_18); x_43 = lean_box(0); if (lean_obj_tag(x_2) == 0) { lean_object* x_128; x_128 = lean_box(0); x_44 = x_128; goto block_92; } else { lean_object* x_129; x_129 = lean_ctor_get(x_2, 0); if (lean_obj_tag(x_129) == 0) { lean_object* x_130; x_130 = lean_box(0); x_44 = x_130; goto block_92; } else { lean_object* x_131; x_131 = lean_ctor_get(x_129, 0); if (lean_obj_tag(x_131) == 0) { lean_object* x_132; x_132 = lean_box(0); x_44 = x_132; goto block_92; } else { lean_object* x_133; x_133 = lean_ctor_get(x_131, 0); if (lean_obj_tag(x_133) == 0) { lean_object* x_134; x_134 = lean_box(0); x_44 = x_134; goto block_92; } else { lean_object* x_135; uint8_t x_136; x_135 = lean_ctor_get(x_133, 0); x_136 = lean_unbox(x_135); if (x_136 == 0) { lean_object* x_137; x_137 = lean_box(0); x_44 = x_137; goto block_92; } else { uint8_t x_138; lean_object* x_139; lean_dec(x_39); lean_dec(x_25); lean_dec(x_23); x_138 = 0; lean_inc(x_3); x_139 = l_Lean_Syntax_getRange_x3f(x_3, x_138); if (lean_obj_tag(x_139) == 0) { if (lean_obj_tag(x_41) == 0) { x_93 = x_43; goto block_109; } else { lean_object* x_140; lean_dec(x_40); x_140 = lean_ctor_get(x_41, 0); lean_inc(x_140); lean_dec(x_41); x_110 = x_43; x_111 = x_140; goto block_127; } } else { uint8_t x_141; x_141 = !lean_is_exclusive(x_139); if (x_141 == 0) { lean_object* x_142; lean_object* x_143; lean_object* x_144; lean_object* x_145; lean_object* x_146; x_142 = lean_ctor_get(x_139, 0); x_143 = lean_ctor_get(x_142, 0); lean_inc(x_143); x_144 = lean_ctor_get(x_142, 1); lean_inc(x_144); lean_dec(x_142); x_145 = lean_ctor_get(x_1, 1); x_146 = l_Lean_FileMap_utf8PosToLspPos(x_145, x_143); lean_dec(x_143); if (x_5 == 0) { lean_object* x_147; lean_object* x_148; lean_object* x_149; x_147 = l_Lean_FileMap_utf8PosToLspPos(x_145, x_144); lean_dec(x_144); x_148 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_148, 0, x_146); lean_ctor_set(x_148, 1, x_147); lean_inc(x_148); lean_inc(x_33); x_149 = lean_alloc_ctor(0, 3, 0); lean_ctor_set(x_149, 0, x_33); lean_ctor_set(x_149, 1, x_148); lean_ctor_set(x_149, 2, x_148); lean_ctor_set(x_139, 0, x_149); if (lean_obj_tag(x_41) == 0) { x_93 = x_139; goto block_109; } else { lean_object* x_150; lean_dec(x_40); x_150 = lean_ctor_get(x_41, 0); lean_inc(x_150); lean_dec(x_41); x_110 = x_139; x_111 = x_150; goto block_127; } } else { lean_object* x_151; lean_object* x_152; lean_object* x_153; lean_object* x_154; lean_object* x_155; x_151 = lean_unsigned_to_nat(1u); x_152 = lean_nat_add(x_144, x_151); lean_dec(x_144); x_153 = l_Lean_FileMap_utf8PosToLspPos(x_145, x_152); lean_dec(x_152); x_154 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_154, 0, x_146); lean_ctor_set(x_154, 1, x_153); lean_inc(x_154); lean_inc(x_33); x_155 = lean_alloc_ctor(0, 3, 0); lean_ctor_set(x_155, 0, x_33); lean_ctor_set(x_155, 1, x_154); lean_ctor_set(x_155, 2, x_154); lean_ctor_set(x_139, 0, x_155); if (lean_obj_tag(x_41) == 0) { x_93 = x_139; goto block_109; } else { lean_object* x_156; lean_dec(x_40); x_156 = lean_ctor_get(x_41, 0); lean_inc(x_156); lean_dec(x_41); x_110 = x_139; x_111 = x_156; goto block_127; } } } else { lean_object* x_157; lean_object* x_158; lean_object* x_159; lean_object* x_160; lean_object* x_161; x_157 = lean_ctor_get(x_139, 0); lean_inc(x_157); lean_dec(x_139); x_158 = lean_ctor_get(x_157, 0); lean_inc(x_158); x_159 = lean_ctor_get(x_157, 1); lean_inc(x_159); lean_dec(x_157); x_160 = lean_ctor_get(x_1, 1); x_161 = l_Lean_FileMap_utf8PosToLspPos(x_160, x_158); lean_dec(x_158); if (x_5 == 0) { lean_object* x_162; lean_object* x_163; lean_object* x_164; lean_object* x_165; x_162 = l_Lean_FileMap_utf8PosToLspPos(x_160, x_159); lean_dec(x_159); x_163 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_163, 0, x_161); lean_ctor_set(x_163, 1, x_162); lean_inc(x_163); lean_inc(x_33); x_164 = lean_alloc_ctor(0, 3, 0); lean_ctor_set(x_164, 0, x_33); lean_ctor_set(x_164, 1, x_163); lean_ctor_set(x_164, 2, x_163); x_165 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_165, 0, x_164); if (lean_obj_tag(x_41) == 0) { x_93 = x_165; goto block_109; } else { lean_object* x_166; lean_dec(x_40); x_166 = lean_ctor_get(x_41, 0); lean_inc(x_166); lean_dec(x_41); x_110 = x_165; x_111 = x_166; goto block_127; } } else { lean_object* x_167; lean_object* x_168; lean_object* x_169; lean_object* x_170; lean_object* x_171; lean_object* x_172; x_167 = lean_unsigned_to_nat(1u); x_168 = lean_nat_add(x_159, x_167); lean_dec(x_159); x_169 = l_Lean_FileMap_utf8PosToLspPos(x_160, x_168); lean_dec(x_168); x_170 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_170, 0, x_161); lean_ctor_set(x_170, 1, x_169); lean_inc(x_170); lean_inc(x_33); x_171 = lean_alloc_ctor(0, 3, 0); lean_ctor_set(x_171, 0, x_33); lean_ctor_set(x_171, 1, x_170); lean_ctor_set(x_171, 2, x_170); x_172 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_172, 0, x_171); if (lean_obj_tag(x_41) == 0) { x_93 = x_172; goto block_109; } else { lean_object* x_173; lean_dec(x_40); x_173 = lean_ctor_get(x_41, 0); lean_inc(x_173); lean_dec(x_41); x_110 = x_172; x_111 = x_173; goto block_127; } } } } } } } } } block_92: { lean_dec(x_44); if (lean_obj_tag(x_41) == 0) { lean_object* x_45; lean_object* x_46; lean_object* x_47; lean_object* x_48; lean_object* x_49; lean_object* x_50; lean_object* x_51; lean_object* x_52; lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_object* x_56; lean_object* x_57; lean_object* x_58; lean_object* x_59; x_45 = lean_data_value_to_string(x_40); x_46 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; x_47 = lean_string_append(x_46, x_45); lean_dec(x_45); x_48 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; x_49 = lean_string_append(x_47, x_48); x_50 = lean_string_append(x_49, x_42); lean_dec(x_42); x_51 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_52 = lean_string_append(x_50, x_51); if (lean_is_scalar(x_39)) { x_53 = lean_alloc_ctor(1, 1, 0); } else { x_53 = x_39; } lean_ctor_set(x_53, 0, x_52); x_54 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; x_55 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_55, 0, x_33); lean_ctor_set(x_55, 1, x_53); lean_ctor_set(x_55, 2, x_43); lean_ctor_set(x_55, 3, x_54); lean_ctor_set(x_55, 4, x_43); x_56 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_56, 0, x_55); lean_ctor_set(x_56, 1, x_38); x_57 = lean_array_push(x_24, x_56); if (lean_is_scalar(x_25)) { x_58 = lean_alloc_ctor(1, 1, 0); } else { x_58 = x_25; } lean_ctor_set(x_58, 0, x_57); if (lean_is_scalar(x_23)) { x_59 = lean_alloc_ctor(0, 2, 0); } else { x_59 = x_23; } lean_ctor_set(x_59, 0, x_58); lean_ctor_set(x_59, 1, x_22); x_26 = x_59; goto block_31; } else { uint8_t x_60; lean_dec(x_40); lean_dec(x_39); x_60 = !lean_is_exclusive(x_41); if (x_60 == 0) { lean_object* x_61; lean_object* x_62; lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; lean_object* x_68; lean_object* x_69; lean_object* x_70; lean_object* x_71; lean_object* x_72; lean_object* x_73; lean_object* x_74; lean_object* x_75; x_61 = lean_ctor_get(x_41, 0); x_62 = lean_data_value_to_string(x_61); x_63 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; x_64 = lean_string_append(x_63, x_62); lean_dec(x_62); x_65 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; x_66 = lean_string_append(x_64, x_65); x_67 = lean_string_append(x_66, x_42); lean_dec(x_42); x_68 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_69 = lean_string_append(x_67, x_68); lean_ctor_set(x_41, 0, x_69); x_70 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; x_71 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_71, 0, x_33); lean_ctor_set(x_71, 1, x_41); lean_ctor_set(x_71, 2, x_43); lean_ctor_set(x_71, 3, x_70); lean_ctor_set(x_71, 4, x_43); x_72 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_72, 0, x_71); lean_ctor_set(x_72, 1, x_38); x_73 = lean_array_push(x_24, x_72); if (lean_is_scalar(x_25)) { x_74 = lean_alloc_ctor(1, 1, 0); } else { x_74 = x_25; } lean_ctor_set(x_74, 0, x_73); if (lean_is_scalar(x_23)) { x_75 = lean_alloc_ctor(0, 2, 0); } else { x_75 = x_23; } lean_ctor_set(x_75, 0, x_74); lean_ctor_set(x_75, 1, x_22); x_26 = x_75; goto block_31; } else { lean_object* x_76; lean_object* x_77; lean_object* x_78; lean_object* x_79; lean_object* x_80; lean_object* x_81; lean_object* x_82; lean_object* x_83; lean_object* x_84; lean_object* x_85; lean_object* x_86; lean_object* x_87; lean_object* x_88; lean_object* x_89; lean_object* x_90; lean_object* x_91; x_76 = lean_ctor_get(x_41, 0); lean_inc(x_76); lean_dec(x_41); x_77 = lean_data_value_to_string(x_76); x_78 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; x_79 = lean_string_append(x_78, x_77); lean_dec(x_77); x_80 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; x_81 = lean_string_append(x_79, x_80); x_82 = lean_string_append(x_81, x_42); lean_dec(x_42); x_83 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_84 = lean_string_append(x_82, x_83); x_85 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_85, 0, x_84); x_86 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; x_87 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_87, 0, x_33); lean_ctor_set(x_87, 1, x_85); lean_ctor_set(x_87, 2, x_43); lean_ctor_set(x_87, 3, x_86); lean_ctor_set(x_87, 4, x_43); x_88 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_88, 0, x_87); lean_ctor_set(x_88, 1, x_38); x_89 = lean_array_push(x_24, x_88); if (lean_is_scalar(x_25)) { x_90 = lean_alloc_ctor(1, 1, 0); } else { x_90 = x_25; } lean_ctor_set(x_90, 0, x_89); if (lean_is_scalar(x_23)) { x_91 = lean_alloc_ctor(0, 2, 0); } else { x_91 = x_23; } lean_ctor_set(x_91, 0, x_90); lean_ctor_set(x_91, 1, x_22); x_26 = x_91; goto block_31; } } } block_109: { lean_object* x_94; lean_object* x_95; lean_object* x_96; lean_object* x_97; lean_object* x_98; lean_object* x_99; lean_object* x_100; lean_object* x_101; lean_object* x_102; lean_object* x_103; lean_object* x_104; lean_object* x_105; lean_object* x_106; lean_object* x_107; lean_object* x_108; x_94 = lean_data_value_to_string(x_40); x_95 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; x_96 = lean_string_append(x_95, x_94); lean_dec(x_94); x_97 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; x_98 = lean_string_append(x_96, x_97); x_99 = lean_string_append(x_98, x_42); lean_dec(x_42); x_100 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_101 = lean_string_append(x_99, x_100); x_102 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_102, 0, x_101); x_103 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; x_104 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_104, 0, x_33); lean_ctor_set(x_104, 1, x_102); lean_ctor_set(x_104, 2, x_43); lean_ctor_set(x_104, 3, x_103); lean_ctor_set(x_104, 4, x_93); x_105 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_105, 0, x_104); lean_ctor_set(x_105, 1, x_38); x_106 = lean_array_push(x_24, x_105); x_107 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_107, 0, x_106); x_108 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_108, 0, x_107); lean_ctor_set(x_108, 1, x_22); x_26 = x_108; goto block_31; } block_127: { lean_object* x_112; lean_object* x_113; lean_object* x_114; lean_object* x_115; lean_object* x_116; lean_object* x_117; lean_object* x_118; lean_object* x_119; lean_object* x_120; lean_object* x_121; lean_object* x_122; lean_object* x_123; lean_object* x_124; lean_object* x_125; lean_object* x_126; x_112 = lean_data_value_to_string(x_111); x_113 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__2; x_114 = lean_string_append(x_113, x_112); lean_dec(x_112); x_115 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__3; x_116 = lean_string_append(x_114, x_115); x_117 = lean_string_append(x_116, x_42); lean_dec(x_42); x_118 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_119 = lean_string_append(x_117, x_118); x_120 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_120, 0, x_119); x_121 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__1; x_122 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_122, 0, x_33); lean_ctor_set(x_122, 1, x_120); lean_ctor_set(x_122, 2, x_43); lean_ctor_set(x_122, 3, x_121); lean_ctor_set(x_122, 4, x_110); x_123 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_123, 0, x_122); lean_ctor_set(x_123, 1, x_38); x_124 = lean_array_push(x_24, x_123); x_125 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_125, 0, x_124); x_126 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_126, 0, x_125); lean_ctor_set(x_126, 1, x_22); x_26 = x_126; goto block_31; } } block_31: { lean_object* x_27; lean_object* x_28; lean_object* x_29; x_27 = lean_ctor_get(x_26, 0); lean_inc(x_27); x_28 = lean_ctor_get(x_26, 1); lean_inc(x_28); lean_dec(x_26); x_29 = lean_ctor_get(x_27, 0); lean_inc(x_29); lean_dec(x_27); x_7 = x_19; x_8 = x_29; x_13 = x_28; goto _start; } } } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, uint8_t x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; lean_object* x_16; lean_object* x_17; lean_object* x_18; uint8_t x_19; x_11 = lean_st_ref_get(x_9, x_10); x_12 = lean_ctor_get(x_11, 1); lean_inc(x_12); lean_dec(x_11); x_13 = l_Lean_getOptionDecls(x_12); x_14 = lean_ctor_get(x_13, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_13, 1); lean_inc(x_15); lean_dec(x_13); x_16 = lean_ctor_get(x_8, 0); x_17 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_18 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1(x_1, x_2, x_3, x_4, x_5, x_16, x_14, x_17, x_6, x_7, x_8, x_9, x_15); x_19 = !lean_is_exclusive(x_18); if (x_19 == 0) { lean_object* x_20; lean_object* x_21; lean_object* x_22; uint8_t x_23; lean_object* x_24; lean_object* x_25; x_20 = lean_ctor_get(x_18, 0); x_21 = lean_ctor_get(x_20, 0); lean_inc(x_21); lean_dec(x_20); x_22 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_21); x_23 = 1; x_24 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_24, 0, x_22); lean_ctor_set_uint8(x_24, sizeof(void*)*1, x_23); x_25 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_25, 0, x_24); lean_ctor_set(x_18, 0, x_25); return x_18; } else { lean_object* x_26; lean_object* x_27; lean_object* x_28; lean_object* x_29; uint8_t x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; x_26 = lean_ctor_get(x_18, 0); x_27 = lean_ctor_get(x_18, 1); lean_inc(x_27); lean_inc(x_26); lean_dec(x_18); x_28 = lean_ctor_get(x_26, 0); lean_inc(x_28); lean_dec(x_26); x_29 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_28); x_30 = 1; x_31 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_31, 0, x_29); lean_ctor_set_uint8(x_31, sizeof(void*)*1, x_30); x_32 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_32, 0, x_31); x_33 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_33, 0, x_32); lean_ctor_set(x_33, 1, x_27); return x_33; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__1() { _start: { lean_object* x_1; x_1 = l_Std_PersistentHashMap_mkEmptyEntriesArray(lean_box(0), lean_box(0)); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__2() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__1; x_2 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__3() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__2; x_2 = lean_unsigned_to_nat(0u); x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__4() { _start: { lean_object* x_1; lean_object* x_2; x_1 = lean_unsigned_to_nat(32u); x_2 = lean_mk_empty_array_with_capacity(x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__5() { _start: { lean_object* x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__4; x_2 = lean_alloc_ctor(0, 1, 0); lean_ctor_set(x_2, 0, x_1); return x_2; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__6() { _start: { size_t x_1; lean_object* x_2; lean_object* x_3; lean_object* x_4; lean_object* x_5; x_1 = 5; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__5; x_3 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__4; x_4 = lean_unsigned_to_nat(0u); x_5 = lean_alloc_ctor(0, 4, sizeof(size_t)*1); lean_ctor_set(x_5, 0, x_2); lean_ctor_set(x_5, 1, x_3); lean_ctor_set(x_5, 2, x_4); lean_ctor_set(x_5, 3, x_4); lean_ctor_set_usize(x_5, 4, x_1); return x_5; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__7() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__3; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__6; x_3 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_3, 0, x_1); lean_ctor_set(x_3, 1, x_2); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__8() { _start: { lean_object* x_1; uint8_t x_2; lean_object* x_3; lean_object* x_4; x_1 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___closed__4; x_2 = 0; x_3 = lean_box(x_2); x_4 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_4, 0, x_1); lean_ctor_set(x_4, 1, x_3); return x_4; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__9() { _start: { lean_object* x_1; x_1 = lean_mk_string("."); return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) { _start: { lean_object* x_5; lean_object* x_6; lean_object* x_7; uint8_t x_14; lean_object* x_15; x_5 = lean_unsigned_to_nat(1u); x_6 = l_Lean_Syntax_getArg(x_2, x_5); x_14 = 0; x_15 = l_Lean_Syntax_getSubstring_x3f(x_6, x_14, x_14); if (lean_obj_tag(x_15) == 0) { lean_object* x_16; x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__8; x_7 = x_16; goto block_13; } else { lean_object* x_17; lean_object* x_18; lean_object* x_19; uint8_t x_20; x_17 = lean_ctor_get(x_15, 0); lean_inc(x_17); lean_dec(x_15); x_18 = lean_ctor_get(x_17, 0); lean_inc(x_18); x_19 = lean_ctor_get(x_17, 2); lean_inc(x_19); x_20 = lean_string_utf8_at_end(x_18, x_19); if (x_20 == 0) { uint32_t x_21; uint32_t x_22; uint8_t x_23; x_21 = lean_string_utf8_get(x_18, x_19); lean_dec(x_19); lean_dec(x_18); x_22 = 46; x_23 = lean_uint32_dec_eq(x_21, x_22); if (x_23 == 0) { lean_object* x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_object* x_28; lean_object* x_29; x_24 = lean_ctor_get(x_17, 0); lean_inc(x_24); x_25 = lean_ctor_get(x_17, 1); lean_inc(x_25); x_26 = lean_ctor_get(x_17, 2); lean_inc(x_26); lean_dec(x_17); x_27 = lean_string_utf8_extract(x_24, x_25, x_26); lean_dec(x_26); lean_dec(x_25); lean_dec(x_24); x_28 = lean_box(x_14); x_29 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_29, 0, x_27); lean_ctor_set(x_29, 1, x_28); x_7 = x_29; goto block_13; } else { lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_object* x_34; lean_object* x_35; uint8_t x_36; lean_object* x_37; lean_object* x_38; x_30 = lean_ctor_get(x_17, 0); lean_inc(x_30); x_31 = lean_ctor_get(x_17, 1); lean_inc(x_31); x_32 = lean_ctor_get(x_17, 2); lean_inc(x_32); lean_dec(x_17); x_33 = lean_string_utf8_extract(x_30, x_31, x_32); lean_dec(x_32); lean_dec(x_31); lean_dec(x_30); x_34 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__9; x_35 = lean_string_append(x_33, x_34); x_36 = 1; x_37 = lean_box(x_36); x_38 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_38, 0, x_35); lean_ctor_set(x_38, 1, x_37); x_7 = x_38; goto block_13; } } else { lean_object* x_39; lean_object* x_40; lean_object* x_41; lean_object* x_42; lean_object* x_43; lean_object* x_44; lean_dec(x_19); lean_dec(x_18); x_39 = lean_ctor_get(x_17, 0); lean_inc(x_39); x_40 = lean_ctor_get(x_17, 1); lean_inc(x_40); x_41 = lean_ctor_get(x_17, 2); lean_inc(x_41); lean_dec(x_17); x_42 = lean_string_utf8_extract(x_39, x_40, x_41); lean_dec(x_41); lean_dec(x_40); lean_dec(x_39); x_43 = lean_box(x_14); x_44 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_44, 0, x_42); lean_ctor_set(x_44, 1, x_43); x_7 = x_44; goto block_13; } } block_13: { lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; x_8 = lean_ctor_get(x_7, 0); lean_inc(x_8); x_9 = lean_ctor_get(x_7, 1); lean_inc(x_9); lean_dec(x_7); lean_inc(x_1); x_10 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1___boxed), 10, 5); lean_closure_set(x_10, 0, x_1); lean_closure_set(x_10, 1, x_3); lean_closure_set(x_10, 2, x_6); lean_closure_set(x_10, 3, x_8); lean_closure_set(x_10, 4, x_9); x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__7; x_12 = l_Lean_Elab_ContextInfo_runMetaM___rarg(x_1, x_11, x_10, x_4); lean_dec(x_1); return x_12; } } } LEAN_EXPORT lean_object* l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10, lean_object* x_11, lean_object* x_12, lean_object* x_13) { _start: { uint8_t x_14; lean_object* x_15; x_14 = lean_unbox(x_5); lean_dec(x_5); x_15 = l_Std_RBNode_forIn_visit___at___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___spec__1(x_1, x_2, x_3, x_4, x_14, x_6, x_7, x_8, x_9, x_10, x_11, x_12, x_13); lean_dec(x_12); lean_dec(x_11); lean_dec(x_10); lean_dec(x_9); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); return x_15; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6, lean_object* x_7, lean_object* x_8, lean_object* x_9, lean_object* x_10) { _start: { uint8_t x_11; lean_object* x_12; x_11 = lean_unbox(x_5); lean_dec(x_5); x_12 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___lambda__1(x_1, x_2, x_3, x_4, x_11, x_6, x_7, x_8, x_9, x_10); lean_dec(x_9); lean_dec(x_8); lean_dec(x_7); lean_dec(x_6); lean_dec(x_2); lean_dec(x_1); return x_12; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4) { _start: { lean_object* x_5; x_5 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion(x_1, x_2, x_3, x_4); lean_dec(x_2); return x_5; } } LEAN_EXPORT lean_object* l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__1(lean_object* x_1) { _start: { lean_object* x_2; lean_object* x_3; x_2 = l_Lean_Parser_instInhabitedParserCategory; x_3 = lean_panic_fn(x_2, x_1); return x_3; } } static lean_object* _init_l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2___boxed__const__1() { _start: { double x_1; lean_object* x_2; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__4; x_2 = lean_box_float(x_1); return x_2; } } LEAN_EXPORT lean_object* l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(lean_object* x_1, lean_object* x_2) { _start: { if (lean_obj_tag(x_2) == 0) { return x_1; } else { lean_object* x_3; lean_object* x_4; lean_object* x_5; lean_object* x_6; uint8_t x_7; lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; x_3 = lean_ctor_get(x_2, 0); lean_inc(x_3); x_4 = lean_ctor_get(x_2, 1); lean_inc(x_4); x_5 = lean_ctor_get(x_2, 3); lean_inc(x_5); lean_dec(x_2); x_6 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_1, x_3); x_7 = 1; x_8 = l_Lean_Name_toString(x_4, x_7); x_9 = lean_box(0); x_10 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_addKeywordCompletionItem___closed__3; x_11 = lean_alloc_ctor(0, 5, 0); lean_ctor_set(x_11, 0, x_8); lean_ctor_set(x_11, 1, x_9); lean_ctor_set(x_11, 2, x_9); lean_ctor_set(x_11, 3, x_10); lean_ctor_set(x_11, 4, x_9); x_12 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2___boxed__const__1; x_13 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_13, 0, x_11); lean_ctor_set(x_13, 1, x_12); x_14 = lean_array_push(x_6, x_13); x_1 = x_14; x_2 = x_5; goto _start; } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__1() { _start: { lean_object* x_1; x_1 = l_Lean_Parser_parserExtension; return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__2() { _start: { lean_object* x_1; x_1 = lean_mk_string("tactic"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__3() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; x_1 = lean_box(0); x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__2; x_3 = lean_name_mk_string(x_1, x_2); return x_3; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__4() { _start: { lean_object* x_1; x_1 = lean_mk_string("Init.Data.Option.BasicAux"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__5() { _start: { lean_object* x_1; x_1 = lean_mk_string("Option.get!"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__6() { _start: { lean_object* x_1; x_1 = lean_mk_string("value is none"); return x_1; } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7() { _start: { lean_object* x_1; lean_object* x_2; lean_object* x_3; lean_object* x_4; lean_object* x_5; lean_object* x_6; x_1 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__4; x_2 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__5; x_3 = lean_unsigned_to_nat(16u); x_4 = lean_unsigned_to_nat(14u); x_5 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__6; x_6 = l___private_Init_Util_0__mkPanicMessageWithDecl(x_1, x_2, x_3, x_4, x_5); return x_6; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5) { _start: { lean_object* x_6; uint8_t x_7; x_6 = lean_st_ref_get(x_4, x_5); x_7 = !lean_is_exclusive(x_6); if (x_7 == 0) { lean_object* x_8; lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; lean_object* x_14; lean_object* x_15; x_8 = lean_ctor_get(x_6, 0); x_9 = lean_ctor_get(x_8, 0); lean_inc(x_9); lean_dec(x_8); x_10 = l_Lean_Parser_ParserExtension_instInhabitedState; x_11 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__1; x_12 = l_Lean_ScopedEnvExtension_getState___rarg(x_10, x_11, x_9); lean_dec(x_9); x_13 = lean_ctor_get(x_12, 2); lean_inc(x_13); lean_dec(x_12); x_14 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__3; x_15 = l_Std_PersistentHashMap_find_x3f___at_Lean_Parser_getCategory___spec__1(x_13, x_14); if (lean_obj_tag(x_15) == 0) { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; uint8_t x_23; lean_object* x_24; lean_object* x_25; x_16 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_17 = l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__1(x_16); x_18 = lean_ctor_get(x_17, 0); lean_inc(x_18); lean_dec(x_17); x_19 = lean_ctor_get(x_18, 0); lean_inc(x_19); lean_dec(x_18); x_20 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_21 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_20, x_19); x_22 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_21); x_23 = 1; x_24 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_24, 0, x_22); lean_ctor_set_uint8(x_24, sizeof(void*)*1, x_23); x_25 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_25, 0, x_24); lean_ctor_set(x_6, 0, x_25); return x_6; } else { uint8_t x_26; x_26 = !lean_is_exclusive(x_15); if (x_26 == 0) { lean_object* x_27; lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; uint8_t x_33; lean_object* x_34; x_27 = lean_ctor_get(x_15, 0); x_28 = lean_ctor_get(x_27, 0); lean_inc(x_28); lean_dec(x_27); x_29 = lean_ctor_get(x_28, 0); lean_inc(x_29); lean_dec(x_28); x_30 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_31 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_30, x_29); x_32 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_31); x_33 = 1; x_34 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_34, 0, x_32); lean_ctor_set_uint8(x_34, sizeof(void*)*1, x_33); lean_ctor_set(x_15, 0, x_34); lean_ctor_set(x_6, 0, x_15); return x_6; } else { lean_object* x_35; lean_object* x_36; lean_object* x_37; lean_object* x_38; lean_object* x_39; lean_object* x_40; uint8_t x_41; lean_object* x_42; lean_object* x_43; x_35 = lean_ctor_get(x_15, 0); lean_inc(x_35); lean_dec(x_15); x_36 = lean_ctor_get(x_35, 0); lean_inc(x_36); lean_dec(x_35); x_37 = lean_ctor_get(x_36, 0); lean_inc(x_37); lean_dec(x_36); x_38 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_39 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_38, x_37); x_40 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_39); x_41 = 1; x_42 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_42, 0, x_40); lean_ctor_set_uint8(x_42, sizeof(void*)*1, x_41); x_43 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_43, 0, x_42); lean_ctor_set(x_6, 0, x_43); return x_6; } } } else { lean_object* x_44; lean_object* x_45; lean_object* x_46; lean_object* x_47; lean_object* x_48; lean_object* x_49; lean_object* x_50; lean_object* x_51; lean_object* x_52; x_44 = lean_ctor_get(x_6, 0); x_45 = lean_ctor_get(x_6, 1); lean_inc(x_45); lean_inc(x_44); lean_dec(x_6); x_46 = lean_ctor_get(x_44, 0); lean_inc(x_46); lean_dec(x_44); x_47 = l_Lean_Parser_ParserExtension_instInhabitedState; x_48 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__1; x_49 = l_Lean_ScopedEnvExtension_getState___rarg(x_47, x_48, x_46); lean_dec(x_46); x_50 = lean_ctor_get(x_49, 2); lean_inc(x_50); lean_dec(x_49); x_51 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__3; x_52 = l_Std_PersistentHashMap_find_x3f___at_Lean_Parser_getCategory___spec__1(x_50, x_51); if (lean_obj_tag(x_52) == 0) { lean_object* x_53; lean_object* x_54; lean_object* x_55; lean_object* x_56; lean_object* x_57; lean_object* x_58; lean_object* x_59; uint8_t x_60; lean_object* x_61; lean_object* x_62; lean_object* x_63; x_53 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_54 = l_panic___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__1(x_53); x_55 = lean_ctor_get(x_54, 0); lean_inc(x_55); lean_dec(x_54); x_56 = lean_ctor_get(x_55, 0); lean_inc(x_56); lean_dec(x_55); x_57 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_58 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_57, x_56); x_59 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_58); x_60 = 1; x_61 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_61, 0, x_59); lean_ctor_set_uint8(x_61, sizeof(void*)*1, x_60); x_62 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_62, 0, x_61); x_63 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_63, 0, x_62); lean_ctor_set(x_63, 1, x_45); return x_63; } else { lean_object* x_64; lean_object* x_65; lean_object* x_66; lean_object* x_67; lean_object* x_68; lean_object* x_69; lean_object* x_70; uint8_t x_71; lean_object* x_72; lean_object* x_73; lean_object* x_74; x_64 = lean_ctor_get(x_52, 0); lean_inc(x_64); if (lean_is_exclusive(x_52)) { lean_ctor_release(x_52, 0); x_65 = x_52; } else { lean_dec_ref(x_52); x_65 = lean_box(0); } x_66 = lean_ctor_get(x_64, 0); lean_inc(x_66); lean_dec(x_64); x_67 = lean_ctor_get(x_66, 0); lean_inc(x_67); lean_dec(x_66); x_68 = l_Lean_Server_Completion_State_itemsMain___default___closed__1; x_69 = l_Std_RBNode_fold___at___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___spec__2(x_68, x_67); x_70 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_sortCompletionItems(x_69); x_71 = 1; x_72 = lean_alloc_ctor(0, 1, 1); lean_ctor_set(x_72, 0, x_70); lean_ctor_set_uint8(x_72, sizeof(void*)*1, x_71); if (lean_is_scalar(x_65)) { x_73 = lean_alloc_ctor(1, 1, 0); } else { x_73 = x_65; } lean_ctor_set(x_73, 0, x_72); x_74 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_74, 0, x_73); lean_ctor_set(x_74, 1, x_45); return x_74; } } } } static lean_object* _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___closed__1() { _start: { lean_object* x_1; x_1 = lean_alloc_closure((void*)(l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___boxed), 5, 0); return x_1; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; lean_object* x_4; lean_object* x_5; x_3 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion___closed__7; x_4 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___closed__1; x_5 = l_Lean_Elab_ContextInfo_runMetaM___rarg(x_1, x_3, x_4, x_2); return x_5; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5) { _start: { lean_object* x_6; x_6 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1(x_1, x_2, x_3, x_4, x_5); lean_dec(x_4); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); return x_6; } } LEAN_EXPORT lean_object* l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___boxed(lean_object* x_1, lean_object* x_2) { _start: { lean_object* x_3; x_3 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion(x_1, x_2); lean_dec(x_1); return x_3; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f_choose(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; uint8_t x_92; x_92 = l_Lean_Elab_Info_isCompletion(x_5); if (x_92 == 0) { lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_93; x_93 = l_Lean_Elab_Info_occursInside_x3f(x_5, x_1); if (lean_obj_tag(x_93) == 0) { if (lean_obj_tag(x_6) == 0) { lean_object* x_94; x_94 = l_Lean_Elab_Info_occursBefore_x3f(x_5, x_1); if (lean_obj_tag(x_94) == 0) { lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_95; x_95 = !lean_is_exclusive(x_94); if (x_95 == 0) { lean_object* x_96; lean_object* x_97; x_96 = lean_ctor_get(x_94, 0); lean_dec(x_96); x_97 = l_Lean_Elab_Info_tailPos_x3f(x_5); if (lean_obj_tag(x_97) == 0) { lean_object* x_98; lean_object* x_99; lean_object* x_100; lean_object* x_101; uint8_t x_102; x_98 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_99 = l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(x_98); x_100 = l_Lean_FileMap_toPosition(x_2, x_99); lean_dec(x_99); x_101 = lean_ctor_get(x_100, 0); lean_inc(x_101); lean_dec(x_100); x_102 = lean_nat_dec_eq(x_101, x_3); lean_dec(x_101); if (x_102 == 0) { lean_free_object(x_94); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_103; lean_object* x_104; lean_object* x_105; x_103 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_103, 0, x_4); lean_ctor_set(x_103, 1, x_5); x_104 = lean_box(0); x_105 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_105, 0, x_104); lean_ctor_set(x_105, 1, x_103); lean_ctor_set(x_94, 0, x_105); return x_94; } } else { uint8_t x_106; lean_free_object(x_94); x_106 = !lean_is_exclusive(x_97); if (x_106 == 0) { lean_object* x_107; lean_object* x_108; lean_object* x_109; uint8_t x_110; x_107 = lean_ctor_get(x_97, 0); x_108 = l_Lean_FileMap_toPosition(x_2, x_107); lean_dec(x_107); x_109 = lean_ctor_get(x_108, 0); lean_inc(x_109); lean_dec(x_108); x_110 = lean_nat_dec_eq(x_109, x_3); lean_dec(x_109); if (x_110 == 0) { lean_free_object(x_97); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_111; lean_object* x_112; lean_object* x_113; x_111 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_111, 0, x_4); lean_ctor_set(x_111, 1, x_5); x_112 = lean_box(0); x_113 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_113, 0, x_112); lean_ctor_set(x_113, 1, x_111); lean_ctor_set(x_97, 0, x_113); return x_97; } } else { lean_object* x_114; lean_object* x_115; lean_object* x_116; uint8_t x_117; x_114 = lean_ctor_get(x_97, 0); lean_inc(x_114); lean_dec(x_97); x_115 = l_Lean_FileMap_toPosition(x_2, x_114); lean_dec(x_114); x_116 = lean_ctor_get(x_115, 0); lean_inc(x_116); lean_dec(x_115); x_117 = lean_nat_dec_eq(x_116, x_3); lean_dec(x_116); if (x_117 == 0) { lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_118; lean_object* x_119; lean_object* x_120; lean_object* x_121; x_118 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_118, 0, x_4); lean_ctor_set(x_118, 1, x_5); x_119 = lean_box(0); x_120 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_120, 0, x_119); lean_ctor_set(x_120, 1, x_118); x_121 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_121, 0, x_120); return x_121; } } } } else { lean_object* x_122; lean_dec(x_94); x_122 = l_Lean_Elab_Info_tailPos_x3f(x_5); if (lean_obj_tag(x_122) == 0) { lean_object* x_123; lean_object* x_124; lean_object* x_125; lean_object* x_126; uint8_t x_127; x_123 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_124 = l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(x_123); x_125 = l_Lean_FileMap_toPosition(x_2, x_124); lean_dec(x_124); x_126 = lean_ctor_get(x_125, 0); lean_inc(x_126); lean_dec(x_125); x_127 = lean_nat_dec_eq(x_126, x_3); lean_dec(x_126); if (x_127 == 0) { lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_128; lean_object* x_129; lean_object* x_130; lean_object* x_131; x_128 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_128, 0, x_4); lean_ctor_set(x_128, 1, x_5); x_129 = lean_box(0); x_130 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_130, 0, x_129); lean_ctor_set(x_130, 1, x_128); x_131 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_131, 0, x_130); return x_131; } } else { lean_object* x_132; lean_object* x_133; lean_object* x_134; lean_object* x_135; uint8_t x_136; x_132 = lean_ctor_get(x_122, 0); lean_inc(x_132); if (lean_is_exclusive(x_122)) { lean_ctor_release(x_122, 0); x_133 = x_122; } else { lean_dec_ref(x_122); x_133 = lean_box(0); } x_134 = l_Lean_FileMap_toPosition(x_2, x_132); lean_dec(x_132); x_135 = lean_ctor_get(x_134, 0); lean_inc(x_135); lean_dec(x_134); x_136 = lean_nat_dec_eq(x_135, x_3); lean_dec(x_135); if (x_136 == 0) { lean_dec(x_133); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_137; lean_object* x_138; lean_object* x_139; lean_object* x_140; x_137 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_137, 0, x_4); lean_ctor_set(x_137, 1, x_5); x_138 = lean_box(0); x_139 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_139, 0, x_138); lean_ctor_set(x_139, 1, x_137); if (lean_is_scalar(x_133)) { x_140 = lean_alloc_ctor(1, 1, 0); } else { x_140 = x_133; } lean_ctor_set(x_140, 0, x_139); return x_140; } } } } } else { lean_object* x_141; lean_object* x_142; x_141 = lean_ctor_get(x_6, 0); lean_inc(x_141); x_142 = lean_ctor_get(x_141, 0); lean_inc(x_142); if (lean_obj_tag(x_142) == 0) { lean_object* x_143; lean_object* x_144; lean_object* x_145; x_143 = lean_ctor_get(x_141, 1); lean_inc(x_143); if (lean_is_exclusive(x_141)) { lean_ctor_release(x_141, 0); lean_ctor_release(x_141, 1); x_144 = x_141; } else { lean_dec_ref(x_141); x_144 = lean_box(0); } x_145 = l_Lean_Elab_Info_occursBefore_x3f(x_5, x_1); if (lean_obj_tag(x_145) == 0) { lean_dec(x_144); lean_dec(x_143); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_146; lean_object* x_147; lean_object* x_148; lean_object* x_212; x_146 = lean_ctor_get(x_145, 0); lean_inc(x_146); if (lean_is_exclusive(x_145)) { lean_ctor_release(x_145, 0); x_147 = x_145; } else { lean_dec_ref(x_145); x_147 = lean_box(0); } x_212 = l_Lean_Elab_Info_tailPos_x3f(x_5); if (lean_obj_tag(x_212) == 0) { lean_object* x_213; lean_object* x_214; lean_object* x_215; lean_object* x_216; uint8_t x_217; x_213 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_214 = l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(x_213); x_215 = l_Lean_FileMap_toPosition(x_2, x_214); lean_dec(x_214); x_216 = lean_ctor_get(x_215, 0); lean_inc(x_216); lean_dec(x_215); x_217 = lean_nat_dec_eq(x_216, x_3); lean_dec(x_216); if (x_217 == 0) { lean_dec(x_147); lean_dec(x_146); lean_dec(x_144); lean_dec(x_143); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_218; x_218 = lean_box(0); x_148 = x_218; goto block_211; } } else { lean_object* x_219; lean_object* x_220; lean_object* x_221; uint8_t x_222; x_219 = lean_ctor_get(x_212, 0); lean_inc(x_219); lean_dec(x_212); x_220 = l_Lean_FileMap_toPosition(x_2, x_219); lean_dec(x_219); x_221 = lean_ctor_get(x_220, 0); lean_inc(x_221); lean_dec(x_220); x_222 = lean_nat_dec_eq(x_221, x_3); lean_dec(x_221); if (x_222 == 0) { lean_dec(x_147); lean_dec(x_146); lean_dec(x_144); lean_dec(x_143); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_223; x_223 = lean_box(0); x_148 = x_223; goto block_211; } } block_211: { uint8_t x_149; lean_dec(x_148); x_149 = !lean_is_exclusive(x_143); if (x_149 == 0) { lean_object* x_150; lean_object* x_151; lean_object* x_152; x_150 = lean_ctor_get(x_143, 1); x_151 = lean_ctor_get(x_143, 0); lean_dec(x_151); x_152 = l_Lean_Elab_Info_occursBefore_x3f(x_150, x_1); if (lean_obj_tag(x_152) == 0) { lean_object* x_153; lean_object* x_154; uint8_t x_155; x_153 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_154 = l_panic___at_String_toNat_x21___spec__1(x_153); x_155 = lean_nat_dec_lt(x_146, x_154); if (x_155 == 0) { uint8_t x_156; x_156 = lean_nat_dec_eq(x_146, x_154); lean_dec(x_154); lean_dec(x_146); if (x_156 == 0) { lean_free_object(x_143); lean_dec(x_150); lean_dec(x_147); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_157; x_157 = l_Lean_Elab_Info_isSmaller(x_5, x_150); lean_dec(x_150); if (x_157 == 0) { lean_free_object(x_143); lean_dec(x_147); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_158; lean_object* x_159; lean_object* x_160; lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_158 = lean_box(0); if (lean_is_scalar(x_144)) { x_159 = lean_alloc_ctor(0, 2, 0); } else { x_159 = x_144; } lean_ctor_set(x_159, 0, x_158); lean_ctor_set(x_159, 1, x_143); if (lean_is_scalar(x_147)) { x_160 = lean_alloc_ctor(1, 1, 0); } else { x_160 = x_147; } lean_ctor_set(x_160, 0, x_159); return x_160; } } } else { lean_object* x_161; lean_object* x_162; lean_object* x_163; lean_dec(x_154); lean_dec(x_150); lean_dec(x_146); lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_161 = lean_box(0); if (lean_is_scalar(x_144)) { x_162 = lean_alloc_ctor(0, 2, 0); } else { x_162 = x_144; } lean_ctor_set(x_162, 0, x_161); lean_ctor_set(x_162, 1, x_143); if (lean_is_scalar(x_147)) { x_163 = lean_alloc_ctor(1, 1, 0); } else { x_163 = x_147; } lean_ctor_set(x_163, 0, x_162); return x_163; } } else { uint8_t x_164; lean_dec(x_147); x_164 = !lean_is_exclusive(x_152); if (x_164 == 0) { lean_object* x_165; uint8_t x_166; x_165 = lean_ctor_get(x_152, 0); x_166 = lean_nat_dec_lt(x_146, x_165); if (x_166 == 0) { uint8_t x_167; x_167 = lean_nat_dec_eq(x_146, x_165); lean_dec(x_165); lean_dec(x_146); if (x_167 == 0) { lean_free_object(x_152); lean_free_object(x_143); lean_dec(x_150); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_168; x_168 = l_Lean_Elab_Info_isSmaller(x_5, x_150); lean_dec(x_150); if (x_168 == 0) { lean_free_object(x_152); lean_free_object(x_143); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_169; lean_object* x_170; lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_169 = lean_box(0); if (lean_is_scalar(x_144)) { x_170 = lean_alloc_ctor(0, 2, 0); } else { x_170 = x_144; } lean_ctor_set(x_170, 0, x_169); lean_ctor_set(x_170, 1, x_143); lean_ctor_set(x_152, 0, x_170); return x_152; } } } else { lean_object* x_171; lean_object* x_172; lean_dec(x_165); lean_dec(x_150); lean_dec(x_146); lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_171 = lean_box(0); if (lean_is_scalar(x_144)) { x_172 = lean_alloc_ctor(0, 2, 0); } else { x_172 = x_144; } lean_ctor_set(x_172, 0, x_171); lean_ctor_set(x_172, 1, x_143); lean_ctor_set(x_152, 0, x_172); return x_152; } } else { lean_object* x_173; uint8_t x_174; x_173 = lean_ctor_get(x_152, 0); lean_inc(x_173); lean_dec(x_152); x_174 = lean_nat_dec_lt(x_146, x_173); if (x_174 == 0) { uint8_t x_175; x_175 = lean_nat_dec_eq(x_146, x_173); lean_dec(x_173); lean_dec(x_146); if (x_175 == 0) { lean_free_object(x_143); lean_dec(x_150); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_176; x_176 = l_Lean_Elab_Info_isSmaller(x_5, x_150); lean_dec(x_150); if (x_176 == 0) { lean_free_object(x_143); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_177; lean_object* x_178; lean_object* x_179; lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_177 = lean_box(0); if (lean_is_scalar(x_144)) { x_178 = lean_alloc_ctor(0, 2, 0); } else { x_178 = x_144; } lean_ctor_set(x_178, 0, x_177); lean_ctor_set(x_178, 1, x_143); x_179 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_179, 0, x_178); return x_179; } } } else { lean_object* x_180; lean_object* x_181; lean_object* x_182; lean_dec(x_173); lean_dec(x_150); lean_dec(x_146); lean_dec(x_6); lean_ctor_set(x_143, 1, x_5); lean_ctor_set(x_143, 0, x_4); x_180 = lean_box(0); if (lean_is_scalar(x_144)) { x_181 = lean_alloc_ctor(0, 2, 0); } else { x_181 = x_144; } lean_ctor_set(x_181, 0, x_180); lean_ctor_set(x_181, 1, x_143); x_182 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_182, 0, x_181); return x_182; } } } } else { lean_object* x_183; lean_object* x_184; x_183 = lean_ctor_get(x_143, 1); lean_inc(x_183); lean_dec(x_143); x_184 = l_Lean_Elab_Info_occursBefore_x3f(x_183, x_1); if (lean_obj_tag(x_184) == 0) { lean_object* x_185; lean_object* x_186; uint8_t x_187; x_185 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_186 = l_panic___at_String_toNat_x21___spec__1(x_185); x_187 = lean_nat_dec_lt(x_146, x_186); if (x_187 == 0) { uint8_t x_188; x_188 = lean_nat_dec_eq(x_146, x_186); lean_dec(x_186); lean_dec(x_146); if (x_188 == 0) { lean_dec(x_183); lean_dec(x_147); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_189; x_189 = l_Lean_Elab_Info_isSmaller(x_5, x_183); lean_dec(x_183); if (x_189 == 0) { lean_dec(x_147); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_190; lean_object* x_191; lean_object* x_192; lean_object* x_193; lean_dec(x_6); x_190 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_190, 0, x_4); lean_ctor_set(x_190, 1, x_5); x_191 = lean_box(0); if (lean_is_scalar(x_144)) { x_192 = lean_alloc_ctor(0, 2, 0); } else { x_192 = x_144; } lean_ctor_set(x_192, 0, x_191); lean_ctor_set(x_192, 1, x_190); if (lean_is_scalar(x_147)) { x_193 = lean_alloc_ctor(1, 1, 0); } else { x_193 = x_147; } lean_ctor_set(x_193, 0, x_192); return x_193; } } } else { lean_object* x_194; lean_object* x_195; lean_object* x_196; lean_object* x_197; lean_dec(x_186); lean_dec(x_183); lean_dec(x_146); lean_dec(x_6); x_194 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_194, 0, x_4); lean_ctor_set(x_194, 1, x_5); x_195 = lean_box(0); if (lean_is_scalar(x_144)) { x_196 = lean_alloc_ctor(0, 2, 0); } else { x_196 = x_144; } lean_ctor_set(x_196, 0, x_195); lean_ctor_set(x_196, 1, x_194); if (lean_is_scalar(x_147)) { x_197 = lean_alloc_ctor(1, 1, 0); } else { x_197 = x_147; } lean_ctor_set(x_197, 0, x_196); return x_197; } } else { lean_object* x_198; lean_object* x_199; uint8_t x_200; lean_dec(x_147); x_198 = lean_ctor_get(x_184, 0); lean_inc(x_198); if (lean_is_exclusive(x_184)) { lean_ctor_release(x_184, 0); x_199 = x_184; } else { lean_dec_ref(x_184); x_199 = lean_box(0); } x_200 = lean_nat_dec_lt(x_146, x_198); if (x_200 == 0) { uint8_t x_201; x_201 = lean_nat_dec_eq(x_146, x_198); lean_dec(x_198); lean_dec(x_146); if (x_201 == 0) { lean_dec(x_199); lean_dec(x_183); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_202; x_202 = l_Lean_Elab_Info_isSmaller(x_5, x_183); lean_dec(x_183); if (x_202 == 0) { lean_dec(x_199); lean_dec(x_144); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_203; lean_object* x_204; lean_object* x_205; lean_object* x_206; lean_dec(x_6); x_203 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_203, 0, x_4); lean_ctor_set(x_203, 1, x_5); x_204 = lean_box(0); if (lean_is_scalar(x_144)) { x_205 = lean_alloc_ctor(0, 2, 0); } else { x_205 = x_144; } lean_ctor_set(x_205, 0, x_204); lean_ctor_set(x_205, 1, x_203); if (lean_is_scalar(x_199)) { x_206 = lean_alloc_ctor(1, 1, 0); } else { x_206 = x_199; } lean_ctor_set(x_206, 0, x_205); return x_206; } } } else { lean_object* x_207; lean_object* x_208; lean_object* x_209; lean_object* x_210; lean_dec(x_198); lean_dec(x_183); lean_dec(x_146); lean_dec(x_6); x_207 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_207, 0, x_4); lean_ctor_set(x_207, 1, x_5); x_208 = lean_box(0); if (lean_is_scalar(x_144)) { x_209 = lean_alloc_ctor(0, 2, 0); } else { x_209 = x_144; } lean_ctor_set(x_209, 0, x_208); lean_ctor_set(x_209, 1, x_207); if (lean_is_scalar(x_199)) { x_210 = lean_alloc_ctor(1, 1, 0); } else { x_210 = x_199; } lean_ctor_set(x_210, 0, x_209); return x_210; } } } } } } else { lean_dec(x_142); lean_dec(x_141); lean_dec(x_5); lean_dec(x_4); return x_6; } } } else { lean_object* x_224; lean_dec(x_93); x_224 = l_Lean_Elab_Info_pos_x3f(x_5); if (lean_obj_tag(x_224) == 0) { lean_object* x_225; lean_object* x_226; x_225 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_226 = l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(x_225); x_7 = x_226; goto block_91; } else { lean_object* x_227; x_227 = lean_ctor_get(x_224, 0); lean_inc(x_227); lean_dec(x_224); x_7 = x_227; goto block_91; } } } block_91: { lean_object* x_8; lean_object* x_75; lean_object* x_76; lean_object* x_77; x_75 = l_Lean_FileMap_toPosition(x_2, x_7); x_76 = lean_ctor_get(x_75, 0); lean_inc(x_76); lean_dec(x_75); x_77 = l_Lean_Elab_Info_tailPos_x3f(x_5); if (lean_obj_tag(x_77) == 0) { lean_object* x_78; lean_object* x_79; lean_object* x_80; lean_object* x_81; uint8_t x_82; x_78 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion___lambda__1___closed__7; x_79 = l_panic___at_Lean_Elab_InfoTree_smallestInfo_x3f___spec__1(x_78); x_80 = l_Lean_FileMap_toPosition(x_2, x_79); lean_dec(x_79); x_81 = lean_ctor_get(x_80, 0); lean_inc(x_81); lean_dec(x_80); x_82 = lean_nat_dec_eq(x_76, x_3); if (x_82 == 0) { lean_dec(x_81); lean_dec(x_76); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_83; x_83 = lean_nat_dec_eq(x_76, x_81); lean_dec(x_81); lean_dec(x_76); if (x_83 == 0) { lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_84; x_84 = lean_box(0); x_8 = x_84; goto block_74; } } } else { lean_object* x_85; lean_object* x_86; lean_object* x_87; uint8_t x_88; x_85 = lean_ctor_get(x_77, 0); lean_inc(x_85); lean_dec(x_77); x_86 = l_Lean_FileMap_toPosition(x_2, x_85); lean_dec(x_85); x_87 = lean_ctor_get(x_86, 0); lean_inc(x_87); lean_dec(x_86); x_88 = lean_nat_dec_eq(x_76, x_3); if (x_88 == 0) { lean_dec(x_87); lean_dec(x_76); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_89; x_89 = lean_nat_dec_eq(x_76, x_87); lean_dec(x_87); lean_dec(x_76); if (x_89 == 0) { lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_90; x_90 = lean_box(0); x_8 = x_90; goto block_74; } } } block_74: { lean_dec(x_8); if (lean_obj_tag(x_6) == 0) { lean_object* x_9; lean_object* x_10; lean_object* x_11; lean_object* x_12; lean_object* x_13; x_9 = lean_nat_sub(x_1, x_7); lean_dec(x_7); x_10 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_10, 0, x_9); x_11 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_11, 0, x_4); lean_ctor_set(x_11, 1, x_5); x_12 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_12, 0, x_10); lean_ctor_set(x_12, 1, x_11); x_13 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_13, 0, x_12); return x_13; } else { lean_object* x_14; lean_object* x_15; x_14 = lean_ctor_get(x_6, 0); lean_inc(x_14); x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); if (lean_obj_tag(x_15) == 0) { uint8_t x_16; x_16 = !lean_is_exclusive(x_6); if (x_16 == 0) { lean_object* x_17; uint8_t x_18; x_17 = lean_ctor_get(x_6, 0); lean_dec(x_17); x_18 = !lean_is_exclusive(x_14); if (x_18 == 0) { lean_object* x_19; lean_object* x_20; lean_object* x_21; lean_object* x_22; lean_object* x_23; x_19 = lean_ctor_get(x_14, 1); lean_dec(x_19); x_20 = lean_ctor_get(x_14, 0); lean_dec(x_20); x_21 = lean_nat_sub(x_1, x_7); lean_dec(x_7); x_22 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_22, 0, x_21); lean_ctor_set(x_14, 1, x_5); lean_ctor_set(x_14, 0, x_4); x_23 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_23, 0, x_22); lean_ctor_set(x_23, 1, x_14); lean_ctor_set(x_6, 0, x_23); return x_6; } else { lean_object* x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_dec(x_14); x_24 = lean_nat_sub(x_1, x_7); lean_dec(x_7); x_25 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_25, 0, x_24); x_26 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_26, 0, x_4); lean_ctor_set(x_26, 1, x_5); x_27 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_27, 0, x_25); lean_ctor_set(x_27, 1, x_26); lean_ctor_set(x_6, 0, x_27); return x_6; } } else { lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_object* x_31; lean_object* x_32; lean_object* x_33; lean_dec(x_6); if (lean_is_exclusive(x_14)) { lean_ctor_release(x_14, 0); lean_ctor_release(x_14, 1); x_28 = x_14; } else { lean_dec_ref(x_14); x_28 = lean_box(0); } x_29 = lean_nat_sub(x_1, x_7); lean_dec(x_7); x_30 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_30, 0, x_29); if (lean_is_scalar(x_28)) { x_31 = lean_alloc_ctor(0, 2, 0); } else { x_31 = x_28; } lean_ctor_set(x_31, 0, x_4); lean_ctor_set(x_31, 1, x_5); x_32 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_32, 0, x_30); lean_ctor_set(x_32, 1, x_31); x_33 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_33, 0, x_32); return x_33; } } else { uint8_t x_34; x_34 = !lean_is_exclusive(x_15); if (x_34 == 0) { lean_object* x_35; uint8_t x_36; x_35 = lean_ctor_get(x_15, 0); lean_dec(x_35); x_36 = !lean_is_exclusive(x_14); if (x_36 == 0) { lean_object* x_37; lean_object* x_38; uint8_t x_39; x_37 = lean_ctor_get(x_14, 1); x_38 = lean_ctor_get(x_14, 0); lean_dec(x_38); x_39 = !lean_is_exclusive(x_37); if (x_39 == 0) { lean_object* x_40; lean_object* x_41; uint8_t x_42; x_40 = lean_ctor_get(x_37, 1); x_41 = lean_ctor_get(x_37, 0); lean_dec(x_41); x_42 = l_Lean_Elab_Info_isSmaller(x_5, x_40); lean_dec(x_40); if (x_42 == 0) { lean_free_object(x_37); lean_free_object(x_14); lean_free_object(x_15); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { uint8_t x_43; x_43 = !lean_is_exclusive(x_6); if (x_43 == 0) { lean_object* x_44; lean_object* x_45; x_44 = lean_ctor_get(x_6, 0); lean_dec(x_44); x_45 = lean_nat_sub(x_1, x_7); lean_dec(x_7); lean_ctor_set(x_15, 0, x_45); lean_ctor_set(x_37, 1, x_5); lean_ctor_set(x_37, 0, x_4); return x_6; } else { lean_object* x_46; lean_object* x_47; lean_dec(x_6); x_46 = lean_nat_sub(x_1, x_7); lean_dec(x_7); lean_ctor_set(x_15, 0, x_46); lean_ctor_set(x_37, 1, x_5); lean_ctor_set(x_37, 0, x_4); x_47 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_47, 0, x_14); return x_47; } } } else { lean_object* x_48; uint8_t x_49; x_48 = lean_ctor_get(x_37, 1); lean_inc(x_48); lean_dec(x_37); x_49 = l_Lean_Elab_Info_isSmaller(x_5, x_48); lean_dec(x_48); if (x_49 == 0) { lean_free_object(x_14); lean_free_object(x_15); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_50; lean_object* x_51; lean_object* x_52; lean_object* x_53; if (lean_is_exclusive(x_6)) { lean_ctor_release(x_6, 0); x_50 = x_6; } else { lean_dec_ref(x_6); x_50 = lean_box(0); } x_51 = lean_nat_sub(x_1, x_7); lean_dec(x_7); lean_ctor_set(x_15, 0, x_51); x_52 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_52, 0, x_4); lean_ctor_set(x_52, 1, x_5); lean_ctor_set(x_14, 1, x_52); if (lean_is_scalar(x_50)) { x_53 = lean_alloc_ctor(1, 1, 0); } else { x_53 = x_50; } lean_ctor_set(x_53, 0, x_14); return x_53; } } } else { lean_object* x_54; lean_object* x_55; lean_object* x_56; uint8_t x_57; x_54 = lean_ctor_get(x_14, 1); lean_inc(x_54); lean_dec(x_14); x_55 = lean_ctor_get(x_54, 1); lean_inc(x_55); if (lean_is_exclusive(x_54)) { lean_ctor_release(x_54, 0); lean_ctor_release(x_54, 1); x_56 = x_54; } else { lean_dec_ref(x_54); x_56 = lean_box(0); } x_57 = l_Lean_Elab_Info_isSmaller(x_5, x_55); lean_dec(x_55); if (x_57 == 0) { lean_dec(x_56); lean_free_object(x_15); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_58; lean_object* x_59; lean_object* x_60; lean_object* x_61; lean_object* x_62; if (lean_is_exclusive(x_6)) { lean_ctor_release(x_6, 0); x_58 = x_6; } else { lean_dec_ref(x_6); x_58 = lean_box(0); } x_59 = lean_nat_sub(x_1, x_7); lean_dec(x_7); lean_ctor_set(x_15, 0, x_59); if (lean_is_scalar(x_56)) { x_60 = lean_alloc_ctor(0, 2, 0); } else { x_60 = x_56; } lean_ctor_set(x_60, 0, x_4); lean_ctor_set(x_60, 1, x_5); x_61 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_61, 0, x_15); lean_ctor_set(x_61, 1, x_60); if (lean_is_scalar(x_58)) { x_62 = lean_alloc_ctor(1, 1, 0); } else { x_62 = x_58; } lean_ctor_set(x_62, 0, x_61); return x_62; } } } else { lean_object* x_63; lean_object* x_64; lean_object* x_65; lean_object* x_66; uint8_t x_67; lean_dec(x_15); x_63 = lean_ctor_get(x_14, 1); lean_inc(x_63); if (lean_is_exclusive(x_14)) { lean_ctor_release(x_14, 0); lean_ctor_release(x_14, 1); x_64 = x_14; } else { lean_dec_ref(x_14); x_64 = lean_box(0); } x_65 = lean_ctor_get(x_63, 1); lean_inc(x_65); if (lean_is_exclusive(x_63)) { lean_ctor_release(x_63, 0); lean_ctor_release(x_63, 1); x_66 = x_63; } else { lean_dec_ref(x_63); x_66 = lean_box(0); } x_67 = l_Lean_Elab_Info_isSmaller(x_5, x_65); lean_dec(x_65); if (x_67 == 0) { lean_dec(x_66); lean_dec(x_64); lean_dec(x_7); lean_dec(x_5); lean_dec(x_4); return x_6; } else { lean_object* x_68; lean_object* x_69; lean_object* x_70; lean_object* x_71; lean_object* x_72; lean_object* x_73; if (lean_is_exclusive(x_6)) { lean_ctor_release(x_6, 0); x_68 = x_6; } else { lean_dec_ref(x_6); x_68 = lean_box(0); } x_69 = lean_nat_sub(x_1, x_7); lean_dec(x_7); x_70 = lean_alloc_ctor(1, 1, 0); lean_ctor_set(x_70, 0, x_69); if (lean_is_scalar(x_66)) { x_71 = lean_alloc_ctor(0, 2, 0); } else { x_71 = x_66; } lean_ctor_set(x_71, 0, x_4); lean_ctor_set(x_71, 1, x_5); if (lean_is_scalar(x_64)) { x_72 = lean_alloc_ctor(0, 2, 0); } else { x_72 = x_64; } lean_ctor_set(x_72, 0, x_70); lean_ctor_set(x_72, 1, x_71); if (lean_is_scalar(x_68)) { x_73 = lean_alloc_ctor(1, 1, 0); } else { x_73 = x_68; } lean_ctor_set(x_73, 0, x_72); return x_73; } } } } } } } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f_choose___boxed(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5, lean_object* x_6) { _start: { lean_object* x_7; x_7 = l_Lean_Server_Completion_find_x3f_choose(x_1, x_2, x_3, x_4, x_5, x_6); lean_dec(x_3); lean_dec(x_2); lean_dec(x_1); return x_7; } } LEAN_EXPORT lean_object* l_Lean_Server_Completion_find_x3f(lean_object* x_1, lean_object* x_2, lean_object* x_3, lean_object* x_4, lean_object* x_5) { _start: { lean_object* x_6; lean_object* x_7; lean_object* x_8; lean_object* x_9; lean_object* x_10; x_6 = l_Lean_FileMap_toPosition(x_1, x_2); x_7 = lean_ctor_get(x_6, 0); lean_inc(x_7); lean_dec(x_6); x_8 = lean_alloc_closure((void*)(l_Lean_Server_Completion_find_x3f_choose___boxed), 6, 3); lean_closure_set(x_8, 0, x_2); lean_closure_set(x_8, 1, x_1); lean_closure_set(x_8, 2, x_7); x_9 = lean_box(0); x_10 = l_Lean_Elab_InfoTree_foldInfo___rarg(x_8, x_9, x_3); if (lean_obj_tag(x_10) == 0) { lean_object* x_11; lean_dec(x_4); x_11 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_11, 0, x_9); lean_ctor_set(x_11, 1, x_5); return x_11; } else { lean_object* x_12; lean_object* x_13; lean_object* x_14; x_12 = lean_ctor_get(x_10, 0); lean_inc(x_12); lean_dec(x_10); x_13 = lean_ctor_get(x_12, 1); lean_inc(x_13); x_14 = lean_ctor_get(x_13, 1); lean_inc(x_14); if (lean_obj_tag(x_14) == 5) { lean_object* x_15; x_15 = lean_ctor_get(x_14, 0); lean_inc(x_15); lean_dec(x_14); switch (lean_obj_tag(x_15)) { case 0: { lean_object* x_16; lean_object* x_17; lean_object* x_18; lean_object* x_19; lean_object* x_20; lean_dec(x_4); x_16 = lean_ctor_get(x_12, 0); lean_inc(x_16); lean_dec(x_12); x_17 = lean_ctor_get(x_13, 0); lean_inc(x_17); lean_dec(x_13); x_18 = lean_ctor_get(x_15, 0); lean_inc(x_18); x_19 = lean_ctor_get(x_15, 2); lean_inc(x_19); lean_dec(x_15); x_20 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_dotCompletion(x_17, x_18, x_16, x_19, x_5); return x_20; } case 1: { lean_object* x_21; lean_object* x_22; lean_object* x_23; uint8_t x_24; lean_object* x_25; lean_object* x_26; lean_object* x_27; lean_dec(x_4); x_21 = lean_ctor_get(x_12, 0); lean_inc(x_21); lean_dec(x_12); x_22 = lean_ctor_get(x_13, 0); lean_inc(x_22); lean_dec(x_13); x_23 = lean_ctor_get(x_15, 1); lean_inc(x_23); x_24 = lean_ctor_get_uint8(x_15, sizeof(void*)*4); x_25 = lean_ctor_get(x_15, 2); lean_inc(x_25); x_26 = lean_ctor_get(x_15, 3); lean_inc(x_26); lean_dec(x_15); x_27 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_idCompletion(x_22, x_25, x_23, x_21, x_24, x_26, x_5); return x_27; } case 3: { lean_object* x_28; lean_object* x_29; lean_object* x_30; lean_dec(x_12); x_28 = lean_ctor_get(x_13, 0); lean_inc(x_28); lean_dec(x_13); x_29 = lean_ctor_get(x_15, 0); lean_inc(x_29); lean_dec(x_15); x_30 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_optionCompletion(x_28, x_29, x_4, x_5); lean_dec(x_29); return x_30; } case 5: { lean_object* x_31; lean_object* x_32; lean_dec(x_15); lean_dec(x_12); lean_dec(x_4); x_31 = lean_ctor_get(x_13, 0); lean_inc(x_31); lean_dec(x_13); x_32 = l___private_Lean_Server_Completion_0__Lean_Server_Completion_tacticCompletion(x_31, x_5); lean_dec(x_31); return x_32; } default: { lean_object* x_33; lean_dec(x_15); lean_dec(x_13); lean_dec(x_12); lean_dec(x_4); x_33 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_33, 0, x_9); lean_ctor_set(x_33, 1, x_5); return x_33; } } } else { lean_object* x_34; lean_dec(x_14); lean_dec(x_13); lean_dec(x_12); lean_dec(x_4); x_34 = lean_alloc_ctor(0, 2, 0); lean_ctor_set(x_34, 0, x_9); lean_ctor_set(x_34, 1, x_5); return x_34; } } } } lean_object* initialize_Init(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Environment(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Parser_Term(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Data_FuzzyMatching(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Data_Lsp_LanguageFeatures(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Data_Lsp_Capabilities(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Data_Lsp_Utf16(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Meta_Tactic_Apply(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Meta_Match_MatcherInfo(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Server_InfoUtils(uint8_t builtin, lean_object*); lean_object* initialize_Lean_Parser_Extension(uint8_t builtin, lean_object*); static bool _G_initialized = false; LEAN_EXPORT lean_object* initialize_Lean_Server_Completion(uint8_t builtin, lean_object* w) { lean_object * res; if (_G_initialized) return lean_io_result_mk_ok(lean_box(0)); _G_initialized = true; res = initialize_Init(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Environment(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Parser_Term(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Data_FuzzyMatching(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Data_Lsp_LanguageFeatures(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Data_Lsp_Capabilities(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Data_Lsp_Utf16(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Meta_Tactic_Apply(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Meta_Match_MatcherInfo(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Server_InfoUtils(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); res = initialize_Lean_Parser_Extension(builtin, lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; lean_dec_ref(res); l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1 = _init_l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1(); lean_mark_persistent(l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__1); l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2 = _init_l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2(); lean_mark_persistent(l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8____closed__2); if (builtin) {res = l_Lean_Server_Completion_initFn____x40_Lean_Server_Completion___hyg_8_(lean_io_mk_world()); if (lean_io_result_is_error(res)) return res; l_Lean_Server_Completion_completionBlackListExt = lean_io_result_get_value(res); lean_mark_persistent(l_Lean_Server_Completion_completionBlackListExt); lean_dec_ref(res); }l_Lean_Server_Completion_addToBlackList___closed__1 = _init_l_Lean_Server_Completion_addToBlackList___closed__1(); lean_mark_persistent(l_Lean_Server_Completion_addToBlackList___closed__1); l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1 = _init_l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1(); lean_mark_persistent(l___private_Lean_Server_Completion_0__Lean_Server_Completion_isBlackListed___closed__1); 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30.126562

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2,460

h

C

Notebook/NBUI/NBNotebookView.h

hortont424/notebook

df852d7539c96aa16a86461402ede8db202f3c37

[ "BSD-2-Clause" ]

1

2015-03-03T23:56:41.000Z

Notebook/NBUI/NBNotebookView.h

hortont424/notebook

df852d7539c96aa16a86461402ede8db202f3c37

[ "BSD-2-Clause" ]

null

Notebook/NBUI/NBNotebookView.h

hortont424/notebook

df852d7539c96aa16a86461402ede8db202f3c37

[ "BSD-2-Clause" ]

null

/* * Copyright 2011 Tim Horton. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY TIM HORTON "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL TIM HORTON OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #import <Cocoa/Cocoa.h> #import <NBCore/NBCore.h> #import "NBCellViewDelegate.h" @class NBCellView; @interface NBNotebookView : NSView<NBCellViewDelegate,NBNotebookDelegate> { IBOutlet NBNotebook * notebook; NSMapTable * cellViews; NSMutableArray * selectedCellViews; NSMutableArray * addCellTrackingAreas; NBCellView * appendingCellView; } @property (nonatomic,assign) IBOutlet NBNotebook * notebook; @property (nonatomic,readonly) NSMutableArray * selectedCellViews; @property (nonatomic,readonly) NSMapTable * cellViews; - (void)relayoutViews; - (float)yForView:(NBCellView *)cellView; - (id)undoManager; - (void)setNotebook:(NBNotebook *)inNotebook; - (void)cellAdded:(NBCell *)cell atIndex:(NSUInteger)index; - (void)cellRemoved:(NBCell *)cell; - (void)mouseDown:(NSEvent *)theEvent; - (void)mouseEntered:(NSEvent *)theEvent; - (void)mouseExited:(NSEvent *)theEvent; - (void)cellViewResized:(NBCellView *)cellView; - (void)cellViewTookFocus:(NBCellView *)cellView; - (void)selectAll; - (void)deselectAll; - (void)selectedCell:(NBCellView *)cellView; - (void)deselectedCell:(NBCellView *)cellView; @end

33.69863

83

0.762602

03dbb90a5dad3f5e0f682f55ee004dfd3e2c8509

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c

C

src/arch/xtensa/smp/init.c

arnop2/sof

4cbfd88731aac0ce85f40754e31451feef85c3c3

[ "BSD-3-Clause" ]

null

src/arch/xtensa/smp/init.c

arnop2/sof

4cbfd88731aac0ce85f40754e31451feef85c3c3

[ "BSD-3-Clause" ]

null

src/arch/xtensa/smp/init.c

arnop2/sof

4cbfd88731aac0ce85f40754e31451feef85c3c3

[ "BSD-3-Clause" ]

null

// SPDX-License-Identifier: BSD-3-Clause // // Copyright(c) 2016 Intel Corporation. All rights reserved. // // Author: Liam Girdwood <liam.r.girdwood@linux.intel.com> /** * \file arch/xtensa/smp/init.c * \brief Xtensa SMP initialization functions * \authors Liam Girdwood <liam.r.girdwood@linux.intel.com> */ #include <xtos-structs.h> #include <platform/memory.h> #include <sof/interrupt.h> #include <platform/interrupt.h> #include <sof/mailbox.h> #include <arch/cpu.h> #include <arch/init.h> #include <sof/init.h> #include <sof/lock.h> #include <sof/notifier.h> #include <sof/panic.h> #include <sof/schedule/schedule.h> #include <sof/task.h> #include <platform/idc.h> #include <platform/cpu.h> #include <stdint.h> #if DEBUG_LOCKS /** \brief Debug lock. */ uint32_t lock_dbg_atomic; /** \brief Debug locks per user. */ uint32_t lock_dbg_user[DBG_LOCK_USERS] = {0}; #endif /** \brief Core context for master core. */ static struct core_context master_core_ctx; /** \brief Core context pointers for all the cores. */ struct core_context *core_ctx_ptr[PLATFORM_CORE_COUNT]; /** \brief Xtos core data for master core. */ struct xtos_core_data master_core_data; /** \brief Xtos core data pointers for all the cores. */ struct xtos_core_data *core_data_ptr[PLATFORM_CORE_COUNT]; /** * \brief Initializes core specific data. */ static void initialize_pointers_per_core(void) { int core = arch_cpu_get_id(); struct xtos_core_data *core_data = core_data_ptr[core]; xtos_structures_pointers *p; if (core == PLATFORM_MASTER_CORE_ID) { master_core_data.thread_data_ptr = &master_core_ctx.td; core_ctx_ptr[PLATFORM_MASTER_CORE_ID] = &master_core_ctx; } cpu_write_threadptr((int)core_ctx_ptr[core]); p = &core_data->thread_data_ptr->xtos_ptrs; p->xtos_enabled = &core_data->xtos_int_data.xtos_enabled; p->xtos_intstruct = &core_data->xtos_int_data; p->xtos_interrupt_table = &core_data->xtos_int_data.xtos_interrupt_table.array[0]; p->xtos_interrupt_mask_table = &core_data->xtos_int_data.xtos_interrupt_mask_table[0]; } /** * \brief Initializes architecture. * \param[in,out] sof Firmware main context. * \return Error status. */ int arch_init(struct sof *sof) { initialize_pointers_per_core(); register_exceptions(); arch_assign_tasks(); return 0; } int slave_core_init(struct sof *sof) { int err; /* init architecture */ trace_point(TRACE_BOOT_ARCH); err = arch_init(sof); if (err < 0) panic(SOF_IPC_PANIC_ARCH); trace_point(TRACE_BOOT_SYS_NOTIFIER); init_system_notify(sof); /* interrupts need to be initialized before any usage */ trace_point(TRACE_BOOT_PLATFORM_IRQ); platform_interrupt_init(); trace_point(TRACE_BOOT_PLATFORM_SCHED); scheduler_init(); /* initialize IDC mechanism */ trace_point(TRACE_BOOT_PLATFORM_IDC); err = idc_init(); if (err < 0) return err; trace_point(TRACE_BOOT_PLATFORM); /* should not return */ err = do_task_slave_core(sof); return err; }

24.289256

60

0.747533

03dbe34895aaffba575afd178cd77fa30bc3a6c4

564

h

C

component/fat/wrapperdiskio.h

wele2010/eBox_Framework

8de6e2ee8d0f1e5a3f0c2cf97435da317150b489

[ "MIT" ]

null

component/fat/wrapperdiskio.h

wele2010/eBox_Framework

8de6e2ee8d0f1e5a3f0c2cf97435da317150b489

[ "MIT" ]

null

component/fat/wrapperdiskio.h

wele2010/eBox_Framework

8de6e2ee8d0f1e5a3f0c2cf97435da317150b489

[ "MIT" ]

null

#ifndef __VIRTUALDISKIO_H #define __VIRTUALDISKIO_H #include "stm32f10x.h" #include "diskio.h" #ifdef __cplusplus extern "C" { #endif DRESULT attach_sd_to_fat(uint8_t pdrv, void *handler); DSTATUS my_disk_status(uint8_t pdrv ); DSTATUS my_disk_initialize(uint8_t pdrv); DRESULT my_disk_read(uint8_t pdrv, uint8_t *buffer, uint32_t sector, uint8_t count); DRESULT my_disk_write(uint8_t pdrv, const uint8_t *data, uint32_t sector, uint8_t count); DRESULT my_disk_ioctl (uint8_t pdrv, uint8_t cmd, void *buff); #ifdef __cplusplus } #endif #endif

23.5

90

0.771277

03df7703476137162e42a76b1a4fd456c8ce7453

1,948

h

C

src/launcher/proxy/LauncherProxy.h

visit-dav/vis

c08bc6e538ecd7d30ddc6399ec3022b9e062127e

[ "BSD-3-Clause" ]

226

2018-12-29T01:13:49.000Z

2022-03-30T19:16:31.000Z

src/launcher/proxy/LauncherProxy.h

visit-dav/vis

c08bc6e538ecd7d30ddc6399ec3022b9e062127e

[ "BSD-3-Clause" ]

5,100

2019-01-14T18:19:25.000Z

2022-03-31T23:08:36.000Z

src/launcher/proxy/LauncherProxy.h

visit-dav/vis

c08bc6e538ecd7d30ddc6399ec3022b9e062127e

[ "BSD-3-Clause" ]

84

2019-01-24T17:41:50.000Z

2022-03-10T10:01:46.000Z

// Copyright (c) Lawrence Livermore National Security, LLC and other VisIt // Project developers. See the top-level LICENSE file for dates and other // details. No copyright assignment is required to contribute to VisIt. #ifndef LAUNCHER_PROXY_H #define LAUNCHER_PROXY_H #include <visit-config.h> #include <vclproxy_exports.h> #include <RemoteProxyBase.h> #include <LauncherState.h> #include <LauncherMethods.h> #include <map> // **************************************************************************** // Class: LauncherProxy // // Purpose: // This is a proxy class for the launcher program. // // Notes: // // Programmer: Brad Whitlock // Creation: Fri May 2 16:11:43 PST 2003 // // Modifications: // Jeremy Meredith, Tue Mar 30 10:08:18 PST 2004 // I added support for simulations. // // Jeremy Meredith, Wed May 11 09:04:52 PDT 2005 // Added security key to simulation connection. // // Jeremy Meredith, Thu May 24 10:21:48 EDT 2007 // Added method to retrieve the SSH tunneling local-to-remote port map. // // Thomas R. Treadway, Mon Oct 8 13:27:42 PDT 2007 // Backing out SSH tunneling on Panther (MacOS X 10.3) // // **************************************************************************** class LAUNCHER_PROXY_API LauncherProxy : public RemoteProxyBase { public: LauncherProxy(); virtual ~LauncherProxy(); virtual std::string GetComponentName() const; virtual void Create(const MachineProfile &profile, ConnectCallback *connectCallback = 0, void *connectCallbackData = 0, bool createAsThoughLocal = false); std::map<int,int> GetPortTunnelMap(); LauncherMethods *GetLauncherMethods() { return methods; } LauncherState *GetLauncherState() { return state; } protected: virtual void SetupComponentRPCs(); private: LauncherMethods *methods; LauncherState *state; }; #endif

29.515152

79

0.632957

03e24d8362e885cc24f936ab32aef8dbe03655c7

1,346

h

C

include/storage/vsa.h

lambdaxymox/barrelfish

06a9f54721a8d96874a8939d8973178a562c342f

[ "MIT" ]

111

2015-02-03T02:57:27.000Z

2022-03-01T23:57:09.000Z

include/storage/vsa.h

lambdaxymox/barrelfish

06a9f54721a8d96874a8939d8973178a562c342f

[ "MIT" ]

12

2016-03-22T14:44:32.000Z

2020-03-18T13:30:29.000Z

include/storage/vsa.h

lambdaxymox/barrelfish

06a9f54721a8d96874a8939d8973178a562c342f

[ "MIT" ]

55

2015-02-03T05:28:12.000Z

2022-03-31T05:00:03.000Z

/* * Copyright (c) 2014, University of Washington. * All rights reserved. * * This file is distributed under the terms in the attached LICENSE file. * If you do not find this file, copies can be found by writing to: * ETH Zurich D-INFK, Universitaetstrasse 6, CH-8092 Zurich. Attn: Systems Group. */ #ifndef STORAGE_VSA_H #define STORAGE_VSA_H #ifdef BARRELFISH #include <barrelfish/barrelfish.h> struct storage_vsa { struct capref vsacap; size_t size; }; #elif defined(__linux__) struct storage_vsa { int fd; size_t size; }; #else # error "Unknown operating system!" #endif /** * \brief Allocates a virtual storage area (VSA). * * Allocates the next available VSA of the specified size. More * specific functions may be provided in the future that allow * allocating VSAs of specific characteristics (e.g., storage medium, * access latency, controller). An example invocation might allocate 2 * VSAs on flash that have 2 different controllers for parallel * access. * * \param size Size (in bytes) of the VSA. * * \return Error code. */ errval_t storage_vsa_alloc(struct storage_vsa *vsa, size_t size); errval_t storage_vsa_acquire(struct storage_vsa *vsa, const char *name, size_t size); errval_t storage_vsa_resize(struct storage_vsa *vsa, size_t size); #endif

26.392157

81

0.719168

03e2ac2efe50fc9f9ad85e2f09825f1bb9ab0ca4

863

h

C

kernel/linux-5.4/arch/arm/mach-omap1/i2c.h

josehu07/SplitFS

d7442fa67a17de7057664f91defbfdbf10dd7f4a

[ "Apache-2.0" ]

44

2022-03-16T08:32:31.000Z

2022-03-31T16:02:35.000Z

kernel/linux-5.4/arch/arm/mach-omap1/i2c.h

josehu07/SplitFS

d7442fa67a17de7057664f91defbfdbf10dd7f4a

[ "Apache-2.0" ]

13

2021-07-10T04:36:17.000Z

2022-03-03T10:50:05.000Z

kernel/linux-5.4/arch/arm/mach-omap1/i2c.h

josehu07/SplitFS

d7442fa67a17de7057664f91defbfdbf10dd7f4a

[ "Apache-2.0" ]

18

2022-03-19T04:41:04.000Z

2022-03-31T03:32:12.000Z

/* SPDX-License-Identifier: GPL-2.0-only */ /* * Helper module for board specific I2C bus registration * * Copyright (C) 2009 Nokia Corporation. */ #ifndef __ARCH_ARM_MACH_OMAP1_I2C_H #define __ARCH_ARM_MACH_OMAP1_I2C_H struct i2c_board_info; struct omap_i2c_bus_platform_data; int omap_i2c_add_bus(struct omap_i2c_bus_platform_data *i2c_pdata, int bus_id); #if defined(CONFIG_I2C_OMAP) || defined(CONFIG_I2C_OMAP_MODULE) extern int omap_register_i2c_bus(int bus_id, u32 clkrate, struct i2c_board_info const *info, unsigned len); extern int omap_register_i2c_bus_cmdline(void); #else static inline int omap_register_i2c_bus(int bus_id, u32 clkrate, struct i2c_board_info const *info, unsigned len) { return 0; } static inline int omap_register_i2c_bus_cmdline(void) { return 0; } #endif #endif /* __ARCH_ARM_MACH_OMAP1_I2C_H */

23.324324

66

0.782155

03e305525c7d3640da8508a62b1bbe0bd1646301

577

c

C

lab8/user_program/argv_test/argv_test.c

ChristineShih/osc2021

1cdaae245b26fce8934c6da849dffa536e4d3b70

[ "MIT" ]

null

lab8/user_program/argv_test/argv_test.c

ChristineShih/osc2021

1cdaae245b26fce8934c6da849dffa536e4d3b70

[ "MIT" ]

null

lab8/user_program/argv_test/argv_test.c

ChristineShih/osc2021

1cdaae245b26fce8934c6da849dffa536e4d3b70

[ "MIT" ]

null

#include "uart.h" #include "util.h" #include "sys.h" int main(int argc, char **argv) { uart_init(); // 1. print parent ID char buf[16] = {0}; uart_putstr("Argv Test, pid "); unsignedlonglongToStr(call_sys_gitPID(), buf); uart_putstr(buf); uart_putstr("\n"); // 2. prints the arguments uart_putstr("arguments: "); for (int i = 0; i < argc; ++i) { uart_putstr(argv[i]); uart_putstr(", "); } uart_putstr("\n"); // 3. exec fork_test.img char *fork_argv[] = {"fork_test", 0}; call_sys_exec("fork_test.img", fork_argv); return 0; }

18.612903

47

0.606586

03e337926ea111c1042f2f9d9b0b2ae865c204ef

2,833

c

C

code/3rdparty/3rdparty_other/glfw.c

warzes/MikoEngine

1199f59a71ab3dfcbea5d02238639db55eded0d4

[ "MIT" ]

5

2020-08-04T17:57:01.000Z

2021-02-07T12:19:02.000Z

code/3rdparty/3rdparty_other/glfw.c

warzes/MikoEngine

1199f59a71ab3dfcbea5d02238639db55eded0d4

[ "MIT" ]

null

code/3rdparty/3rdparty_other/glfw.c

warzes/MikoEngine

1199f59a71ab3dfcbea5d02238639db55eded0d4

[ "MIT" ]

null

//#define _GLFW_BUILD_DLL // To build shared version //http://www.glfw.org/docs/latest/compile.html#compile_manual #if defined(_WIN32) #define _GLFW_WIN32 #endif #if defined(__linux__) #if !defined(_GLFW_WAYLAND) // Required for Wayland windowing #define _GLFW_X11 #endif #endif #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__DragonFly__) #define _GLFW_X11 #endif #if defined(__APPLE__) #define _GLFW_COCOA #define _GLFW_USE_MENUBAR // To create and populate the menu bar when the first window is created #define _GLFW_USE_RETINA // To have windows use the full resolution of Retina displays #endif #if defined(__TINYC__) #define _WIN32_WINNT_WINXP 0x0501 #endif // NOTE: _GLFW_MIR experimental platform not supported at this moment #include "GLFW/src/context.c" #include "GLFW/src/init.c" #include "GLFW/src/input.c" #include "GLFW/src/monitor.c" #include "GLFW/src/vulkan.c" #include "GLFW/src/window.c" #if defined(_WIN32) #include "GLFW/src/win32_init.c" #include "GLFW/src/win32_joystick.c" #include "GLFW/src/win32_monitor.c" #include "GLFW/src/win32_time.c" #include "GLFW/src/win32_thread.c" #include "GLFW/src/win32_window.c" #include "GLFW/src/wgl_context.c" #include "GLFW/src/egl_context.c" #include "GLFW/src/osmesa_context.c" #endif #if defined(__linux__) #if defined(_GLFW_WAYLAND) #include "GLFW/src/wl_init.c" #include "GLFW/src/wl_monitor.c" #include "GLFW/src/wl_window.c" #include "GLFW/src/wayland-pointer-constraints-unstable-v1-client-protocol.c" #include "GLFW/src/wayland-relative-pointer-unstable-v1-client-protocol.c" #endif #if defined(_GLFW_X11) #include "GLFW/src/x11_init.c" #include "GLFW/src/x11_monitor.c" #include "GLFW/src/x11_window.c" #include "GLFW/src/glx_context.c" #endif #include "GLFW/src/linux_joystick.c" #include "GLFW/src/posix_thread.c" #include "GLFW/src/posix_time.c" #include "GLFW/src/xkb_unicode.c" #include "GLFW/src/egl_context.c" #include "GLFW/src/osmesa_context.c" #endif #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined( __NetBSD__) || defined(__DragonFly__) #include "GLFW/src/x11_init.c" #include "GLFW/src/x11_monitor.c" #include "GLFW/src/x11_window.c" #include "GLFW/src/xkb_unicode.c" // TODO: Joystick implementation #include "GLFW/src/null_joystick.c" #include "GLFW/src/posix_time.c" #include "GLFW/src/posix_thread.c" #include "GLFW/src/glx_context.c" #include "GLFW/src/egl_context.c" #include "GLFW/src/osmesa_context.c" #endif #if defined(__APPLE__) #include "GLFW/src/cocoa_init.m" #include "GLFW/src/cocoa_joystick.m" #include "GLFW/src/cocoa_monitor.m" #include "GLFW/src/cocoa_window.m" #include "GLFW/src/cocoa_time.c" #include "GLFW/src/posix_thread.c" #include "GLFW/src/nsgl_context.m" #include "GLFW/src/egl_context.c" #include "GLFW/src/osmesa_context.c" #endif

30.793478

103

0.764208

03e590e5d884a32702b767210384e2bf4ac0918b

1,773

h

C

src/LLSettingController.h

haoerloveyou/WeChatRedEnvelopesHelper

dbfb82f755c5c8c9706697febfe8115fc01e69b7

[ "MIT" ]

2

2018-07-11T03:39:57.000Z

2021-06-08T13:46:06.000Z

src/LLSettingController.h

haoerloveyou/WeChatRedEnvelopesHelper

dbfb82f755c5c8c9706697febfe8115fc01e69b7

[ "MIT" ]

null

src/LLSettingController.h

haoerloveyou/WeChatRedEnvelopesHelper

dbfb82f755c5c8c9706697febfe8115fc01e69b7

[ "MIT" ]

null

// // LLSettingController.h // test // // Created by fqb on 2017/12/15. // Copyright © 2017年 kevliule. All rights reserved. // #import <UIKit/UIKit.h> @class POIInfo; @interface LLSettingParam : NSObject @property (nonatomic, assign) BOOL isOpenRedEnvelopesHelper; //是否开启红包助手 @property (nonatomic, assign) BOOL isOpenSportHelper; //是否开启步数助手 @property (nonatomic, assign) BOOL isOpenBackgroundMode; //是否开启后台模式 @property (nonatomic, assign) BOOL isOpenRedEnvelopesAlert; //是否打卡红包提醒 @property (nonatomic, assign) BOOL isOpenVirtualLocation; //是否打开虚拟定位 @property (nonatomic, assign) BOOL isOpenAutoReply; //是否打开自动回复 @property (nonatomic, assign) BOOL isOpenAutoLeaveMessage; //是否打开自动留言 @property (nonatomic, assign) BOOL isOpenKeywordFilter; //是否打开关键字过滤 @property (nonatomic, assign) BOOL isSnatchSelfRedEnvelopes; //是否抢自己的发的红包 @property (nonatomic, assign) BOOL isOpenAvoidRevokeMessage; //是否打开防止好友撤回消息 @property (nonatomic, assign) BOOL sportStepCountMode; //运动步数模式 true: 范围随机 false:固定步数 @property (nonatomic, assign) NSInteger sportStepCountUpperLimit; //运动步数上限 @property (nonatomic, assign) NSInteger sportStepCountLowerLimit; //运动步数下限 @property (nonatomic, copy) NSString *keywordFilterText; //要过滤的关键字 @property (nonatomic, copy) NSString *autoReplyText; //自动回复内容 @property (nonatomic, copy) NSString *autoLeaveMessageText; //自动留言内容 @property (nonatomic, assign) CGFloat openRedEnvelopesDelaySecond; //打开红包延迟时间 @property (nonatomic, assign) NSInteger wantSportStepCount; //想要的运动步数 @property (nonatomic, strong) NSMutableDictionary *filterRoomDic; //过滤群组字典 @property (nonatomic, strong) POIInfo *virtualLocation; //虚拟位置 @property (nonatomic, assign) BOOL isOpenBlockSendInputStatus; //是否阻止发送输入状态 @end @interface LLSettingController : UIViewController @end

42.214286

85

0.791878

03e692bfcf596d51a19065b38ae52dc934e0d8f3

482

h

C

NanoTimeKitCompanion.framework/NTKLocationManager.h

reels-research/iOS-Private-Frameworks

9a4f4534939310a51fdbf5a439dd22487efb0f01

[ "MIT" ]

4

2021-10-06T12:15:26.000Z

2022-02-21T02:26:00.000Z

NanoTimeKitCompanion.framework/NTKLocationManager.h

reels-research/iOS-Private-Frameworks

9a4f4534939310a51fdbf5a439dd22487efb0f01

[ "MIT" ]

null

NanoTimeKitCompanion.framework/NTKLocationManager.h

reels-research/iOS-Private-Frameworks

9a4f4534939310a51fdbf5a439dd22487efb0f01

[ "MIT" ]

1

2021-10-08T07:40:53.000Z

/* Generated by RuntimeBrowser Image: /System/Library/PrivateFrameworks/NanoTimeKitCompanion.framework/NanoTimeKitCompanion */ @interface NTKLocationManager : NSObject + (id)fallbackLocation; + (id)sharedLocationManager; - (id)anyLocation; - (id)currentLocation; - (id)previousLocation; - (struct NSString { Class x1; }*)startLocationUpdatesWithIdentifier:(id)arg1 handler:(id /* block */)arg2; - (void)stopLocationUpdatesForToken:(struct NSString { Class x1; }*)arg1; @end

28.352941

107

0.76971

03e6d0a0343bf9ba12d894593dc371d6ff033a12

336

h

C

RongCloud/RongCloud/CustomMessages/Recall/ZLRecallMessage.h

zhangyanlf/RongCloud

b5c742772e0d0039d604bb1c78fe847b09364fba

[ "MIT" ]

null

RongCloud/RongCloud/CustomMessages/Recall/ZLRecallMessage.h

zhangyanlf/RongCloud

b5c742772e0d0039d604bb1c78fe847b09364fba

[ "MIT" ]

null

RongCloud/RongCloud/CustomMessages/Recall/ZLRecallMessage.h

zhangyanlf/RongCloud

b5c742772e0d0039d604bb1c78fe847b09364fba

[ "MIT" ]

null

// // ZLRecallMessage.h // RongCloud // // Created by 张彦林 on 2018/8/21. // Copyright © 2018年 zhangyanlf. All rights reserved. // #import <RongIMLib/RongIMLib.h> @interface ZLRecallMessage : RCMessageContent @property (nonatomic, strong) NSString *bRecalledMessageUId; - (instancetype) initWithBeRecallUId:(NSString *)uid; @end

18.666667

60

0.735119

03ea4b1440e331a08ce5116a1902caf5da072ece

291

h

C

Examples/Section Info/Section Info/SectionInfoTableViewController.h

skrew/TLIndexPathTools

f1de31974ded7f29e67771e4fec4d235ac9012ef

[ "MIT" ]

114

2015-01-01T09:43:10.000Z

2016-09-29T04:57:20.000Z

Examples/Section Info/Section Info/SectionInfoTableViewController.h

skrew/TLIndexPathTools

f1de31974ded7f29e67771e4fec4d235ac9012ef

[ "MIT" ]

30

2015-01-27T11:49:14.000Z

2016-07-20T19:11:14.000Z

Examples/Section Info/Section Info/SectionInfoTableViewController.h

skrew/TLIndexPathTools

f1de31974ded7f29e67771e4fec4d235ac9012ef

[ "MIT" ]

23

2016-10-11T02:13:17.000Z

2020-12-26T06:08:54.000Z

// // SectionInfoTableViewController.h // Section Info // // Created by Tim Moose on 7/5/13. // Copyright (c) 2013 wtm@tractablelabs.com. All rights reserved. // #import <TLIndexPathTools/TLTableViewController.h> @interface SectionInfoTableViewController : TLTableViewController @end

20.785714

66

0.762887

03ebe1c42b4c16d2094b8bf3b16e26cfb946682b

9,997

h

C

applications/mne_analyze/plugins/rawdataviewer/fiffrawviewdelegate.h

imsorryk/mne-cpp

82c8bab48ee87dadfdc450afcc9fa707ad7b7de0

[ "BSD-3-Clause" ]

2

2019-08-14T20:14:10.000Z

2019-08-29T20:17:57.000Z

applications/mne_analyze/plugins/rawdataviewer/fiffrawviewdelegate.h

imsorryk/mne-cpp

82c8bab48ee87dadfdc450afcc9fa707ad7b7de0

[ "BSD-3-Clause" ]

null

applications/mne_analyze/plugins/rawdataviewer/fiffrawviewdelegate.h

imsorryk/mne-cpp

82c8bab48ee87dadfdc450afcc9fa707ad7b7de0

[ "BSD-3-Clause" ]

1

2020-06-15T17:46:25.000Z

//============================================================================================================= /** * @file fiffrawviewdelegate.h * @author Lorenz Esch <lesch@mgh.harvard.edu>; * Lars Debor <Lars.Debor@tu-ilmenau.de>; * Simon Heinke <Simon.Heinke@tu-ilmenau.de>; * Gabriel Motta <gbmotta@mgh.harvard.edu> * @since 0.1.0 * @date January, 2019 * * @section LICENSE * * Copyright (C) 2019, Lorenz Esch, Lars Debor, Simon Heinke, Gabriel Motta. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, are permitted provided that * the following conditions are met: * * Redistributions of source code must retain the above copyright notice, this list of conditions and the * following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and * the following disclaimer in the documentation and/or other materials provided with the distribution. * * Neither the name of MNE-CPP authors nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * * @brief Declaration of the FiffRawViewDelegate Class. * */ #ifndef FIFFRAWDELEGATE_H #define FIFFRAWDELEGATE_H //============================================================================================================= // INCLUDES //============================================================================================================= #include "rawdataviewer_global.h" //============================================================================================================= // QT INCLUDES //============================================================================================================= #include <QAbstractItemDelegate> #include <QPen> //============================================================================================================= // Eigen INCLUDES //============================================================================================================= //============================================================================================================= // FORWARD DECLARATIONS //============================================================================================================= namespace ANSHAREDLIB { class ChannelData; } //============================================================================================================= // DEFINE NAMESPACE RAWDATAVIEWERPLUGIN //============================================================================================================= namespace RAWDATAVIEWERPLUGIN { //============================================================================================================= // RAWDATAVIEWERPLUGIN FORWARD DECLARATIONS //============================================================================================================= //============================================================================================================= // DEFINE TYPEDEFS //============================================================================================================= //============================================================================================================= /** * FiffRawViewDelegate */ class RAWDATAVIEWERSHARED_EXPORT FiffRawViewDelegate : public QAbstractItemDelegate { Q_OBJECT public: typedef QSharedPointer<FiffRawViewDelegate> SPtr; /**< Shared pointer type for FiffRawViewDelegate. */ typedef QSharedPointer<const FiffRawViewDelegate> ConstSPtr; /**< Const shared pointer type for FiffRawViewDelegate. */ //========================================================================================================= /** * Creates a new abstract item delegate with the given parent. * * @param[in] parent Parent of the delegate */ FiffRawViewDelegate(QObject *parent = 0); //========================================================================================================= /** * Set the new upper item index color. This is used to only plot the background for the upper, visible item in the QTableView. * This is a rather ugly hack in order to cope with QOpenGLWidget's/QtableView's problem when setting a background color. * * @param [in] iUpperItem The new upper item index color. */ void setUpperItemIndex(int iUpperItemIndex); //========================================================================================================= /** * Use the painter and style option to render the item specified by the item index. * * (sizeHint() must be implemented also) * * @param[in] painter Low-level painting on widgets and other paint devices * @param[in] option Describes the parameters used to draw an item in a view widget * @param[in] index Used to locate data in a data model. */ virtual void paint(QPainter *painter, const QStyleOptionViewItem &option, const QModelIndex &index) const override; //========================================================================================================= /** * Item size * * @param[in] option Describes the parameters used to draw an item in a view widget * @param[in] index Used to locate data in a data model. */ virtual QSize sizeHint(const QStyleOptionViewItem &option, const QModelIndex &index) const override; //========================================================================================================= /** * Set the signal color. * * @param [in] signalColor The new signal color. */ void setSignalColor(const QColor& signalColor); private: //========================================================================================================= /** * createPlotPath creates the QPointer path for the data plot. * * @param[in] option Describes the parameters used to draw an item in a view widget * @param[in,out] path The QPointerPath to create for the data plot. * @param[in] data Current data for the given row. * @param[in] dDx pixel difference to the next sample in pixels. */ void createPlotPath(const QStyleOptionViewItem &option, QPainterPath& path, ANSHAREDLIB::ChannelData &data, double dDx, const QModelIndex &index) const; //========================================================================================================= /** * createTimeSpacersPath Creates the QPointer path for the vertical time spacers. * * @param[in] index Used to locate data in a data model. * @param[in] option Describes the parameters used to draw an item in a view widget * @param[in,out] path The QPointerPath to create for the data plot. * @param[in] data Data for the given row. */ void createTimeSpacersPath(const QModelIndex &index, const QStyleOptionViewItem &option, QPainterPath& path, ANSHAREDLIB::ChannelData &data) const; //========================================================================================================= /** * Draws annotations from the FiffRawView model's member Annotation Model * * @param index [in] Used to locate data in the model * @param option [in] Describes the parameters used to draw an item in a view widget * @param path [in] The QPointerPath to create the plot. * @param data [in] Data for the given row. * @param painter [in, out] Used for drawing the annotations */ void createMarksPath(const QModelIndex &index, const QStyleOptionViewItem &option, QPainterPath& path, ANSHAREDLIB::ChannelData &data, QPainter* painter) const; int m_iUpperItemIndex; /**< The current upper item index visible in the QTableView. */ QPen m_penGrid; /**< Pen for drawing the data grid. */ QPen m_penNormal; /**< Pen for drawing the data when data is plotted normally without freeze on. */ QPen m_penNormalSelected; /**< Pen for drawing the data when data is plotted normally without freeze on and channel is selected. */ QPen m_penNormalBad; /**< Pen for drawing the data when bad data is plotted normally without freeze on. */ QPen m_penNormalSelectedBad; /**< Pen for drawing the data when bad data is plotted normally without freeze on and channel is selected. */ }; } // NAMESPACE RAWDATAVIEWERPLUGIN #endif // FIFFRAWDELEGATE_H

49.985

154

0.479544

03eecb84208bf21fe50c80a38e0f1e083abf249f

532

h

C

include/il2cpp/Dpr/Battle/Logic/Section_FromEvent_CalcAgility.h

martmists-gh/BDSP

d6326c5d3ad9697ea65269ed47aa0b63abac2a0a

[ "MIT" ]

1

2022-01-15T20:20:27.000Z

include/il2cpp/Dpr/Battle/Logic/Section_FromEvent_CalcAgility.h

martmists-gh/BDSP

d6326c5d3ad9697ea65269ed47aa0b63abac2a0a

[ "MIT" ]

null

include/il2cpp/Dpr/Battle/Logic/Section_FromEvent_CalcAgility.h

martmists-gh/BDSP

d6326c5d3ad9697ea65269ed47aa0b63abac2a0a

[ "MIT" ]

null

#pragma once #include "il2cpp.h" void Dpr_Battle_Logic_Section_FromEvent_CalcAgility___ctor (Dpr_Battle_Logic_Section_FromEvent_CalcAgility_o* __this, Dpr_Battle_Logic_Section_CommonParam_o** commonParam, const MethodInfo* method_info); void Dpr_Battle_Logic_Section_FromEvent_CalcAgility__Execute (Dpr_Battle_Logic_Section_FromEvent_CalcAgility_o* __this, Dpr_Battle_Logic_Section_FromEvent_CalcAgility_Result_o* result, Dpr_Battle_Logic_Section_FromEvent_CalcAgility_Description_o** description, const MethodInfo* method_info);

76

292

0.904135

03efd2a09de82114fbed5b7a7415048fabab1ad4

336

h

C

src/light/dielectric_material.h

ectucker1/ectert

1e8af3d8aaa884932bbf434f9e284633e0abb90d

[ "MIT" ]

null

src/light/dielectric_material.h

ectucker1/ectert

1e8af3d8aaa884932bbf434f9e284633e0abb90d

[ "MIT" ]

null

src/light/dielectric_material.h

ectucker1/ectert

1e8af3d8aaa884932bbf434f9e284633e0abb90d

[ "MIT" ]

null

#pragma once #include "material.h" class DielectricMaterial : public Material { public: DielectricMaterial(float ior); virtual Scatter scatter(const Hit& hit) const; private: static Tuple refract(const Tuple& incoming, const Tuple& normal, float n_ratio); static float reflectance(float cosine, float n_ratio); };

19.764706

84

0.738095

03f09e80dfa68b02ec627f7f26db1e950deaa208

271

c

C

urionlinejudge/1065/ParesentreCincoNumeros.c

walternascimentobarroso/urionlinejudge

8759420835fca75e681cc4172e92531e561d82a1

[ "MIT" ]

null

urionlinejudge/1065/ParesentreCincoNumeros.c

walternascimentobarroso/urionlinejudge

8759420835fca75e681cc4172e92531e561d82a1

[ "MIT" ]

null

urionlinejudge/1065/ParesentreCincoNumeros.c

walternascimentobarroso/urionlinejudge

8759420835fca75e681cc4172e92531e561d82a1

[ "MIT" ]

null

#include <stdio.h> int main() { int vetor[5], j, count=0; scanf("%d\n%d\n%d\n%d\n%d", &vetor[0], &vetor[1], &vetor[2], &vetor[3], &vetor[4]); for(j = 0; j < 5; j++) { if((vetor[j]%2) == 0){ count++; } } printf("%d valores pares\n", count); return 0; }

15.941176

84

0.498155

03f0c5130975078b98f2760e6bf1ca9fe32dfb45

26,181

h

C

src/CCA/Components/ICE/PressureSolve/HypreStandAlone/Vector.h

damu1000/Uintah

0c768664c1fe0a80eff2bbbd9b837e27f281f0a5

[ "MIT" ]

2

2021-12-17T05:50:44.000Z

2021-12-22T21:37:32.000Z

src/CCA/Components/ICE/PressureSolve/HypreStandAlone/Vector.h

damu1000/Uintah

0c768664c1fe0a80eff2bbbd9b837e27f281f0a5

[ "MIT" ]

null

src/CCA/Components/ICE/PressureSolve/HypreStandAlone/Vector.h

damu1000/Uintah

0c768664c1fe0a80eff2bbbd9b837e27f281f0a5

[ "MIT" ]

1

2020-11-30T04:46:05.000Z

/* * The MIT License * * Copyright (c) 1997-2020 The University of Utah * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ /*############################################################################# # Vector.h - a 1-dimensional vector array #============================================================================ # Vector is a vector array. It's very close to stl_vector, with slight # changes in assignment operator asserts and other minor features. # # See also: Sub. # # Revision history: # ----------------- # 25-DEC-2004 Added comments. # 03-AUG-2005 Adapted from ERS code's Tensor.h. ###########################################################################*/ #ifndef _VECTOR_H #define _VECTOR_H #include "Error.h" /*============= Begin class Vector =============*/ template<class VAR> class Vector : public Error { public: /*------------- Vector iterator -------------*/ /*============= Begin class Vector::iterator =============*/ class iterator { /* Vector iterator */ public: inline iterator(VAR* index) : index_(index) {} inline ~iterator(void) {} inline void operator ++ (void) { index_++; } inline void operator ++ (int) { index_++; } inline void operator -- (void) { index_--; } inline const VAR& operator * (void) const { return *index_; } inline VAR& operator * (void) { return *index_; } inline int operator == (const iterator& other) const { return index_ == other.index_; } inline int operator != (const iterator& other) const { return !(*this == other); } private: VAR* index_; }; /*============= End class Vector::iterator =============*/ /*------------- Construction, destruction, copy -------------*/ inline Vector (const int& start = 0, // Index base const Counter& len = 0, VAR* fillPtr = 0, // Ignored if len <= 0 const std::string& name = "", const VAR& fillValue = VAR(0)) : _name(name), _start(start), _len(len), _data(0), _width(3) /* Construction from a VectorSize */ { if (_len > 0) { if (fillPtr) _data = fillPtr; else _data = scinew VAR [_len]; // Allocate data array } if (!fillPtr) { for (Counter i = 0; i < _len; i++) _data[i] = fillValue; } } inline ~Vector(void) /* Vector destructor */ { DELETE_BRACKET(_data); } iterator begin(void) const /* Points to first element */ { return iterator(_data); } iterator end(void) const /* Points to one-after-the-last element. Never access its value! */ { return iterator(&(_data[_len])); } Vector(const Vector& other) /* Vector copy constructor. */ : _name(other._name), _start(other._start), _len(other._len), _data(0), _width(other._width) { _data = scinew VAR [_len]; iterator otherIter = other.begin(); for (iterator iter = begin(); iter != end(); ++iter, ++otherIter) { *iter = *otherIter; } } /*------------- Element access and size operations -------------*/ /* Const */ inline const std::string& getName (void) const { return _name; } inline const int& getStart(void) const { return _start; } inline const Counter& getLen (void) const { return _len; } inline const VAR* getData (void) const { return _data; } inline const Counter& getWidth(void) const { return _width; } /* Modifiable */ inline std::string& getName (void) { return _name; } inline int& getStart(void) { return _start; } inline VAR* getData (void) { return _data; } inline void setWidth(const Counter& width) { _width = width; } inline void resize (const int& start = 0, // Index base const Counter& len = 0, VAR* fillPtr = 0, const std::string& name = "") /* Resizes the Vector to a scinew size. Creates a scinew data pointer if length is changed. Then previous data is destroyed. */ { if (name != "") { _name = name; } Counter newLen = len; if (newLen != _len) { _len = newLen; if (_data) { DELETE_BRACKET(_data); } _data = scinew VAR [_len]; } if (fillPtr) _data = fillPtr; } std::string summary(void) const /* Print a summary of the object's properties. */ { std::ostringstream out; out << "Vector [" << "start=" << _start << ", len=" << _len << "]"; return out.str(); } void rangeError(const int& i) const /* Print an error message for out-of-range access attempt. */ { std::ostringstream msg; int high = _len + _start- 1; msg << "index out of range: i = " << i; msg << ", range = "; if (high < _start) { msg << "empty"; } else { msg << "[" << _start << ".." << high << "]"; } error(msg); } Counter find(const VAR& value) const /* Return the index of value, if exists in the array. If not found, return _len (outside the array). */ { for (Counter i = 0; i < _len; i++) if (value == _data[i]) return i; return _len; } inline const VAR& operator [] (const int& i) const /* Access by 1D array index i, going from 0 to len-1. */ { if ((i < 0) || (i >= _len)) rangeError(i); return _data[i]; } inline const VAR& operator()(const int& i) const /* For 1D arrays, access through one subscript directly */ { if ((i < 0) || (i >= int(_len))) rangeError(i); return _data[i]; } inline VAR& operator[](const int& i) /* Access by 1D array index i, going from 0 to len-1 (modifyable). */ { if ((i < 0) || (i >= _len)) rangeError(i); return _data[i]; } inline VAR& operator()(const int& i) /* For 1D arrays, access through one subscript directly */ { if ((i < 0) || (i >= int(_len))) rangeError(i); return _data[i]; } /*------------- Assignment, comparison -------------*/ Vector& operator = (const Vector& other) /* Assignment operator. */ { _start = other._start; if (_len != other._len) { _len = other._len; DELETE_BRACKET(_data); _data = scinew VAR [_len]; } if (_data != other._data) { for (Counter i = 0; i < _len; i++) _data[i] = other._data[i]; } return *this; } Vector& operator = (const VAR& FillValue) /* Assignment of a Vector to a scalar (fill with this constant value). */ { for (Counter i = 0; i < _len; i++) _data[i] = FillValue; return *this; } Vector& operator |= (const VAR& value); Vector& operator &= (const VAR& value); Vector& operator ^= (const VAR& value); Vector& fillRandom (const VAR& a, const VAR& b); int operator == (const Vector& b) const /* Equality operator. */ { if ((_start != b._start) || (_len != b._len )) { return 0; } for (Counter i = 0; i < _len; i++) { if (_data[i] != b._data[i]) { return 0; } } return 1; } int operator != (const Vector& b) const /* Inequality operator */ { return !(*this == b); } int operator < (const Vector& b) const /* Inequality operator (true if inequality holds for all entries). */ { for (Counter i = 0; i < _len; i++) { if (_data[i] >= b._data[i]) { return 0; } } return 1; } int operator <= (const Vector& b) const /* Inequality operator (true if inequality holds for all entries). */ { for (Counter i = 0; i < _len; i++) { if (_data[i] > b._data[i]) { return 0; } } return 1; } int operator >= (const Vector& b) const /* Inequality operator (true if inequality holds for all entries). */ { for (Counter i = 0; i < _len; i++) { if (_data[i] < b._data[i]) { return 0; } } return 1; } int operator > (const Vector& b) const /* Inequality operator (true if inequality holds for all entries). */ { for (Counter i = 0; i < _len; i++) { if (_data[i] <= b._data[i]) { return 0; } } return 1; } /*------------- Arithmetic operations: Vector/scalar -------------*/ Vector operator + (const VAR& b) const /* Vector + scalar */ { VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] + b; std::ostringstream newName; newName << _name << " + " << b; return Vector(_start, _len, news, newName.str()); } Vector operator - (const VAR& b) const /* Vector - scalar */ { VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] - b; std::ostringstream newName; newName << _name << " - " << b; return Vector(_start, _len, news, newName.str()); } Vector operator * (const VAR& b) const /* Vector * scalar */ { VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] * b; std::ostringstream newName; newName << _name << " * " << b; return Vector(_start, _len, news, newName.str()); } Vector operator / (const VAR& b) const /* Vector / scalar */ { if (b == VAR(0)) { std::ostringstream msg; msg << "Vector / VAR: division by 0"; error(msg); } VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] / b; std::ostringstream newName; newName << _name << " / " << b; return Vector(_start, _len, news, newName.str()); } /*---------- Arithmetic operations: Vector/scalar, incremental ----------*/ Vector& operator += (const VAR& b) /* Vector += scalar */ { for (Counter i = 0; i < _len; i++) _data[i] += b; return *this; } Vector& operator -= (const VAR& b) /* Vector -= scalar */ { for (Counter i = 0; i < _len; i++) _data[i] -= b; return *this; } Vector& operator *= (const VAR& b) /* Vector *= scalar */ { for (Counter i = 0; i < _len; i++) _data[i] *= b; return *this; } Vector& operator /= (const VAR& b) /* Vector /= scalar */ { if (b == VAR(0)) { std::ostringstream msg; msg << "Vector / VAR: division by 0"; error(msg); } for (Counter i = 0; i < _len; i++) _data[i] /= b; return *this; } /*------------- Arithmetic operations: pointwise Vector/Vector -------------*/ Vector operator + (const Vector& b) const /* Vector + Vector */ { assertSize(b._start,b._len); VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] + b._data[i]; std::ostringstream newName; newName << _name << " + " << b._name; return Vector(_start, _len, news, newName.str()); } Vector operator - (const Vector& b) const /* Vector - Vector */ { assertSize(b._start,b._len); VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] - b._data[i]; std::ostringstream newName; newName << _name << " - " << b._name; return Vector(_start, _len, news, newName.str()); } Vector operator * (const Vector& b) const /* Vector * Vector */ { assertSize(b._start,b._len); VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = _data[i] * b._data[i]; std::ostringstream newName; newName << _name << " * " << b._name; return Vector(_start, _len, news, newName.str()); } Vector operator / (const Vector& b) const /* Vector / Vector */ { assertSize(b._start,b._len); VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) { if (b._data[i] == VAR(0)) { std::ostringstream msg; msg << "Vector<int> / int: division by 0"; error(msg); } news[i] = _data[i] / b._data[i]; } std::ostringstream newName; newName << _name << " / " << b._name; return Vector(_start, _len, news, newName.str()); } VAR innerProduct(const Vector& b) const /* Vector inner product. */ { assertSize(b._start,b._len); VAR res = 0; for (Counter i = 0; i < _len; i++) res += _data[i]*b._data[i]; return res; } /*------------- Incremental operations: Vector/Vector -------------*/ Vector& operator += (const Vector& b) /* Vector += Vector */ { assertSize(b.getStart(),b.getSize()); for (Counter i = 0; i < _len; i++) _data[i] += b._data[i]; return *this; } Vector& operator -= (const Vector& b) /* Vector -= Vector */ { assertSize(b.getStart(),b.getSize()); for (Counter i = 0; i < _len; i++) _data[i] -= b._data[i]; return *this; } Vector& operator *= (const Vector& b) /* pointwise Vector *= Vector */ { assertSize(b.getStart(),b.getSize()); for (Counter i = 0; i < _len; i++) _data[i] *= b._data[i]; return *this; } Vector& operator /= (const Vector& b) /* postwise Vector /= Vector */ { assertSize(b.getStart(),b.getSize()); for (Counter i = 0; i < _len; i++) { if (b._data[i] == VAR(0)) { std::ostringstream msg; msg << "Vector<int> / int: division by 0"; error(msg); } _data[i] /= b._data[i]; } return *this; } /*------------- Unary operations -------------*/ Vector operator - (void) const /* Negative of a Vector. */ { VAR* news = scinew VAR [_len]; for (Counter i = 0; i < _len; i++) news[i] = -_data[i]; return Vector(_start, _len, news, std::string("-" + _name)); } VAR norm(const Counter& order) const /* Vector Lp norm (p=order); p=0 returns the maximum norm. */ { switch (order) { case 0: { // Convension: norm(0) is the maximum norm VAR res = abs(_data[0]); for (Counter i = 1; i < _len; i++) { VAR tmp = abs(_data[i]); if (tmp > res) res = tmp; } return res; break; } case 1: { VAR res = 0; for (Counter i = 0; i < _len; i++) res += abs(_data[i]); return res; break; } case 2: { VAR res = 0, tmp; for (Counter i = 0; i < _len; i++) { tmp = abs(_data[i]); res += tmp*tmp; } return sqrt(res); break; } default: { std::ostringstream msg; msg << "Vector::Norm(): Variable order."; error(msg); return 0; break; } } } VAR max(void) const /* Maximum value among Vector elements. */ { VAR res = _data[0]; for (Counter i = 1; i < _len; i++) if (_data[i] > res) res = _data[i]; return res; } VAR min(void) const /* Minimum value among Vector elements. */ { VAR res = _data[0]; for (Counter i = 1; i < _len; i++) if (_data[i] < res) res = _data[i]; return res; } int findMax(void) const /* Smallest index at which max() value is attained. */ { int ind = 0; for (Counter i = 1; i < _len; i++) if (_data[i] > _data[ind]) ind = i; return ind; } int findMin(void) const /* Smallest index at which min() value is attained. */ { int ind = 0; for (Counter i = 1; i < _len; i++) if (_data[i] < _data[ind]) ind = i; return ind; } VAR sum(void) const /* Sum of all elements */ { VAR result = VAR(0); for (Counter i = 0; i < _len; i++) result += _data[i]; return result; } VAR prod(void) const /* Product of all elements */ { VAR result = VAR(1); for (Counter i = 0; i < _len; i++) result *= _data[i]; return result; } /*------------- Printouts -------------*/ template<class T> friend std::ostream& operator << (std::ostream& os, const Vector<T>& a); template<class T> friend std::istream& operator >> (std::istream& os, Vector<T>& a); private: /*------------- Data members -------------*/ std::string _name; // Name of this Vector int _start; // Index base (for all dimensions) Counter _len; // Total number of elements VAR* _data; // Pointer to data array Counter _width; // Field width for printouts /*------------- Useful private member functions -------------*/ void assertSize(const int& start, const Counter& len) const /* Check whether len and start are the same as for *this. */ { if ((start != _start) || (len != _len )) { std::ostringstream msg; msg << "incompatible Vectors"; error(msg); } } }; // class Vector /*============= End class Vector =============*/ /*============= Non-member functions =============*/ template <class VAR> std::ostream& operator << (std::ostream& os, const Vector<VAR>& a) /* Write the Vector to the stream os. */ { // os << "(width=" << a.getWidth() << ")"; os << "["; for (Counter i = 0; i < a.getLen(); i++) { os << std::setw(a.getWidth()) << a[i]; if (i < a.getLen()-1) { os << ","; } } os << "]"; return os; } template <class VAR> std::istream& operator >> (std::istream& os, Vector<VAR>& a) /* Read the Vector from the stream os. */ { for (Counter i = 0; i < a.getLen(); i++) os >> a[i]; return os; } template <class VAR> Vector<VAR> abs(const Vector<VAR>& a)/* Absolute value of a Vector. */ { VAR* news = scinew VAR [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = abs(_data[i]); return Vector<VAR>(a.getStart(), a.getSize(), news, std::string("abs(" + a.getName() + ")")); } template<class T> Vector<T> min (const Vector<T>& a, const Vector<T>& b) // Pointwise min of two vectors { assert( a.getLen() == b.getLen() ); T* news = scinew T [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) { news[i] = min(a.getData()[i],b.getData()[i]); } std::ostringstream newName; newName << "min(" << a.getName() << " , " << b.getName() << ")"; return Vector<T>(a.getStart(), a.getLen(), news, newName.str()); } template<class T> Vector<T> max (const Vector<T>& a, const Vector<T>& b) // Pointwise max of two vectors { assert( a.getLen() == b.getLen() ); T* news = scinew T [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) { news[i] = max(a.getData()[i],b.getData()[i]); } std::ostringstream newName; newName << "min(" << a.getName() << " , " << b.getName() << ")"; return Vector<T>(a.getStart(), a.getLen(), news, newName.str()); } //-------------------------------------------------------------------- // Misc arithmetic operations. S is a field of values containing T. //-------------------------------------------------------------------- //----- (Vector<T>, Vector<S>) operations template<class T, class S> Vector<S> operator + (const Vector<S>& a, /* Vector<S> = Vector<T> + Vector<S> */ const Vector<T>& b) { assert( a.getLen() == b.getLen() ); S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] + b.getData()[i]; std::ostringstream newName; newName << b.getName() << " + " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator - (const Vector<S>& a, /* Vector<S> = Vector<T> - Vector<S> */ const Vector<T>& b) { assert( a.getLen() == b.getLen() ); S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] - b.getData()[i]; std::ostringstream newName; newName << b.getName() << " - " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator * (const Vector<S>& a, /* Vector<S> = Vector<T> * Vector<S> */ const Vector<T>& b) { assert( a.getLen() == b.getLen() ); S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] * b.getData()[i]; std::ostringstream newName; newName << b.getName() << " * " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator / (const Vector<S>& a, /* Vector<S> = Vector<T> / Vector<S> */ const Vector<T>& b) { assert( a.getLen() == b.getLen() ); S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) { if (b.getData()[i] == S(0)) { std::ostringstream msg; msg << "Vector / VAR: division by 0"; a.error(msg); } news[i] = a.getData()[i] / b.getData()[i]; } std::ostringstream newName; newName << b.getName() << " / " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } //----- (Vector<T>, Scalar<S>) operations template<class T, class S> Vector<S> operator + (const Vector<T>& a, /* Vector<S> = Vector<T> + scalar<S> */ const S& b) { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] + b; std::ostringstream newName; newName << b << " + " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator - (const Vector<T>& a, /* Vector<S> = Vector<T> - scalar<S> */ const S& b) { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] - b; std::ostringstream newName; newName << b << " - " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator * (const Vector<T>& a, /* Vector<S> = Vector<T> * scalar<S> */ const S& b) { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] * b; std::ostringstream newName; newName << b << " * " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator / (const Vector<T>& a, /* Vector<S> = Vector<T> / scalar<S> */ const S& b) { if (b == S(0)) { std::ostringstream msg; msg << "Vector / VAR: division by 0"; a.error(msg); } S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = a.getData()[i] / b; std::ostringstream newName; newName << b << " / " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } //----- (Scalar<S> , Vector<T>) operations template<class T, class S> Vector<S> operator + (const S& b, const Vector<T>& a) /* Vector<S> = scalar<S> + Vector<T> */ { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = b + a.getData()[i]; std::ostringstream newName; newName << b << " + " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator - (const S& b, const Vector<T>& a) /* Vector<S> = scalar<S> - Vector<T> */ { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = b - a.getData()[i]; std::ostringstream newName; newName << b << " - " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator * (const S& b, const Vector<T>& a) /* Vector<S> = scalar<S> * Vector<T> */ { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) news[i] = b * a.getData()[i]; std::ostringstream newName; newName << b << " * " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } template<class T, class S> Vector<S> operator / (const S& b, const Vector<T>& a) /* Vector<S> = scalar<S> / Vector<T> */ { S* news = scinew S [a.getLen()]; for (Counter i = 0; i < a.getLen(); i++) { if (a.getData()[i] == T(0)) { std::ostringstream msg; msg << "Vector / VAR: division by 0"; a.error(msg); } news[i] = b / a.getData()[i]; } std::ostringstream newName; newName << b << " / " << a.getName(); return Vector<S>(a.getStart(), a.getLen(), news, newName.str()); } #endif /* _VECTOR_H */

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Example/NEIApplicationConfig/NEIAppDelegate.h

neilabdev/NEIApplicationConfig

59a0ed8f607b64cb380a5d25cc5e7fc8c26959f1

[ "MIT" ]

1

2017-08-07T17:19:38.000Z

Example/NEIApplicationConfig/NEIAppDelegate.h

neilabdev/NEIApplicationConfig

59a0ed8f607b64cb380a5d25cc5e7fc8c26959f1

[ "MIT" ]

null

Example/NEIApplicationConfig/NEIAppDelegate.h

neilabdev/NEIApplicationConfig

59a0ed8f607b64cb380a5d25cc5e7fc8c26959f1

[ "MIT" ]

null

// // NEIAppDelegate.h // NEIApplicationConfig // // Created by ghost on 11/28/2016. // Copyright (c) 2016 ghost. All rights reserved. // @import UIKit; @interface NEIAppDelegate : UIResponder <UIApplicationDelegate> @property (strong, nonatomic) UIWindow *window; @end

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h

C

src/include/fcntl.h

HumbleHunger/xbook2

40ed7b3992fdab35d6f518c00c364302c950a510

[ "MIT" ]

416

2020-03-24T10:09:20.000Z

2022-03-30T16:55:07.000Z

src/include/fcntl.h

HumbleHunger/xbook2

40ed7b3992fdab35d6f518c00c364302c950a510

[ "MIT" ]

22

2020-05-29T03:53:55.000Z

2021-07-22T00:59:37.000Z

src/include/fcntl.h

HumbleHunger/xbook2

40ed7b3992fdab35d6f518c00c364302c950a510

[ "MIT" ]

65

2020-06-02T05:50:27.000Z

2021-12-31T10:41:33.000Z

#ifndef _XLIBC_FCNTL_H #define _XLIBC_FCNTL_H #include <stdint.h> #ifndef F_DUPFD #define F_DUPFD 0 #endif #ifndef F_GETFD #define F_GETFD 1 #endif #ifndef F_SETFD #define F_SETFD 2 #endif #ifndef F_GETFL #define F_GETFL 3 #endif #ifndef F_SETFL #define F_SETFL 4 #endif #ifndef FD_NCLOEXEC #define FD_NCLOEXEC 0 #endif #ifndef FD_CLOEXEC #define FD_CLOEXEC 1 #endif #endif /* _XLIBC_FCNTL_H */

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398

h

C

release/src-rt/linux/linux-2.6/include/asm-sh/titan.h

ghsecuritylab/tomato_egg

50473a46347f4631eb4878a0f47955cc64c87293

[ "FSFAP" ]

278

2015-11-03T03:01:20.000Z

2022-01-20T18:21:05.000Z

release/src-rt/linux/linux-2.6/include/asm-sh/titan.h

ghsecuritylab/tomato_egg

50473a46347f4631eb4878a0f47955cc64c87293

[ "FSFAP" ]

374

2015-11-03T12:37:22.000Z

2021-12-17T14:18:08.000Z

include/asm-sh/titan.h

KylinskyChen/linuxCore_2.6.24

11e90b14386491cc80477d4015e0c8f673f6d020

[ "MIT" ]

96

2015-11-22T07:47:26.000Z

2022-01-20T19:52:19.000Z

/* * Platform defintions for Titan */ #ifndef _ASM_SH_TITAN_H #define _ASM_SH_TITAN_H #define __IO_PREFIX titan #include <asm/io_generic.h> /* IRQ assignments */ #define TITAN_IRQ_WAN 2 /* eth0 (WAN) */ #define TITAN_IRQ_LAN 5 /* eth1 (LAN) */ #define TITAN_IRQ_MPCIA 8 /* mPCI A */ #define TITAN_IRQ_MPCIB 11 /* mPCI B */ #define TITAN_IRQ_USB 11 /* USB */ #endif /* __ASM_SH_TITAN_H */

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h

C

chrome/browser/ui/cookie_controls/cookie_controls_controller.h

sarang-apps/darshan_browser

173649bb8a7c656dc60784d19e7bb73e07c20daa

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

null

chrome/browser/ui/cookie_controls/cookie_controls_controller.h

sarang-apps/darshan_browser

173649bb8a7c656dc60784d19e7bb73e07c20daa

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

null

chrome/browser/ui/cookie_controls/cookie_controls_controller.h

sarang-apps/darshan_browser

173649bb8a7c656dc60784d19e7bb73e07c20daa

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

null

// Copyright 2019 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CHROME_BROWSER_UI_COOKIE_CONTROLS_COOKIE_CONTROLS_CONTROLLER_H_ #define CHROME_BROWSER_UI_COOKIE_CONTROLS_COOKIE_CONTROLS_CONTROLLER_H_ #include "base/memory/scoped_refptr.h" #include "base/observer_list.h" #include "chrome/browser/ui/cookie_controls/cookie_controls_service.h" #include "components/content_settings/browser/tab_specific_content_settings.h" #include "components/content_settings/core/common/cookie_controls_enforcement.h" #include "components/content_settings/core/common/cookie_controls_status.h" #include "components/prefs/pref_change_registrar.h" #include "content/public/browser/web_contents.h" namespace content { class WebContents; } namespace content_settings { class CookieSettings; } class CookieControlsView; class CookieControlsController { public: explicit CookieControlsController(content::WebContents* web_contents); ~CookieControlsController(); // Called when the web_contents has changed. void Update(content::WebContents* web_contents); // Called when CookieControlsView is closing. void OnUiClosing(); // Called when the user clicks on the button to enable/disable cookie // blocking. void OnCookieBlockingEnabledForSite(bool block_third_party_cookies); void AddObserver(CookieControlsView* obs); void RemoveObserver(CookieControlsView* obs); private: // The observed WebContents changes during the lifetime of the // CookieControlsController. SiteDataObserver can't change the observed // object, so we need an inner class that can be recreated when necessary. // TODO(dullweber): Make it possible to change the observed class and maybe // convert SiteDataObserver to a pure virtual interface. class TabObserver : public content_settings::TabSpecificContentSettings::SiteDataObserver { public: TabObserver(CookieControlsController* cookie_controls, content_settings::TabSpecificContentSettings* tab_specific_content_settings); // TabSpecificContentSettings::SiteDataObserver: void OnSiteDataAccessed() override; private: CookieControlsController* cookie_controls_; DISALLOW_COPY_AND_ASSIGN(TabObserver); }; // Determine the CookieControlsStatus based on |web_contents|. std::pair<CookieControlsStatus, CookieControlsEnforcement> GetStatus( content::WebContents* web_contents); // Updates the blocked cookie count of |icon_|. void PresentBlockedCookieCounter(); // Returns the number of blocked cookies. int GetBlockedCookieCount(); // Callback for when the cookie controls or third-party cookie blocking // preference changes. void OnPrefChanged(); content::WebContents* GetWebContents(); std::unique_ptr<TabObserver> tab_observer_; scoped_refptr<content_settings::CookieSettings> cookie_settings_; scoped_refptr<content_settings::CookieSettings> regular_cookie_settings_; PrefChangeRegistrar pref_change_registrar_; bool should_reload_ = false; base::ObserverList<CookieControlsView> observers_; DISALLOW_COPY_AND_ASSIGN(CookieControlsController); }; #endif // CHROME_BROWSER_UI_COOKIE_CONTROLS_COOKIE_CONTROLS_CONTROLLER_H_

34.427083

80

0.797579

03f575e0b061dda1d49fdf2a053b7e601fae6a74

256

h

C

arc/arc/Model/Local Files/LocalFolder.h

BenTobias/arc

7576466fd254236bf9fd66ac173ca75b9611a577

[ "MIT" ]

2

2016-03-24T14:16:07.000Z

2018-01-22T05:51:24.000Z

arc/arc/Model/Local Files/LocalFolder.h

BenTobias/arc

7576466fd254236bf9fd66ac173ca75b9611a577

[ "MIT" ]

null

arc/arc/Model/Local Files/LocalFolder.h

BenTobias/arc

7576466fd254236bf9fd66ac173ca75b9611a577

[ "MIT" ]

null

// // LocalFolder.h // arc // // Created by Jerome Cheng on 1/4/13. // Copyright (c) 2013 nus.cs3217. All rights reserved. // #import <Foundation/Foundation.h> #import "Folder.h" #import "LocalFile.h" @interface LocalFolder : NSObject <Folder> @end

16

55

0.679688

03f5da1b44a69ba51da4dbd4b32ac01c2b81563c

25,352

h

C

blades/xbmc/xbmc/pvr/addons/PVRClients.h

krattai/AEBL

a7b12c97479e1236d5370166b15ca9f29d7d4265

[ "BSD-2-Clause" ]

4

2016-04-26T03:43:54.000Z

2016-11-17T08:09:04.000Z

blades/xbmc/xbmc/pvr/addons/PVRClients.h

krattai/AEBL

a7b12c97479e1236d5370166b15ca9f29d7d4265

[ "BSD-2-Clause" ]

17

2015-01-05T21:06:22.000Z

2015-12-07T20:45:44.000Z

blades/xbmc/xbmc/pvr/addons/PVRClients.h

krattai/AEBL

a7b12c97479e1236d5370166b15ca9f29d7d4265

[ "BSD-2-Clause" ]

3

2016-04-26T03:43:55.000Z

2020-11-06T11:02:08.000Z

#pragma once /* * Copyright (C) 2012-2013 Team XBMC * http://xbmc.org * * This Program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This Program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with XBMC; see the file COPYING. If not, see * <http://www.gnu.org/licenses/>. * */ #include "addons/AddonDatabase.h" #include "threads/CriticalSection.h" #include "threads/Thread.h" #include "utils/Observer.h" #include "pvr/channels/PVRChannel.h" #include "pvr/recordings/PVRRecording.h" #include "PVRClient.h" #include <deque> #include <vector> namespace EPG { class CEpg; } namespace PVR { class CPVRGUIInfo; typedef std::shared_ptr<CPVRClient> PVR_CLIENT; typedef std::map< int, PVR_CLIENT > PVR_CLIENTMAP; typedef std::map< int, PVR_CLIENT >::iterator PVR_CLIENTMAP_ITR; typedef std::map< int, PVR_CLIENT >::const_iterator PVR_CLIENTMAP_CITR; typedef std::map< int, PVR_STREAM_PROPERTIES > STREAMPROPS; /** * Holds generic data about a backend (number of channels etc.) */ struct SBackend { std::string name; std::string version; std::string host; int numTimers = 0; int numRecordings = 0; int numDeletedRecordings = 0; int numChannels = 0; long long diskUsed = 0; long long diskTotal = 0; }; class CPVRClients : public ADDON::IAddonMgrCallback, public Observer, private CThread { public: CPVRClients(void); virtual ~CPVRClients(void); /*! * @brief Checks whether an add-on is loaded by the pvr manager * @param strAddonId The add-on id to check * @return True when in use, false otherwise */ bool IsInUse(const std::string& strAddonId) const; /*! * @brief Start the backend info updater thread. */ void Start(void); /*! * @brief Stop the backend info updater thread. */ void Stop(void); /*! @name Backend methods */ //@{ /*! * @brief Check whether a client ID points to a valid and connected add-on. * @param iClientId The client ID. * @return True when the client ID is valid and connected, false otherwise. */ bool IsConnectedClient(int iClientId) const; bool IsConnectedClient(const ADDON::AddonPtr addon); /*! * @brief Restart a single client add-on. * @param addon The add-on to restart. * @param bDataChanged True if the client's data changed, false otherwise (unused). * @return True if the client was found and restarted, false otherwise. */ bool RequestRestart(ADDON::AddonPtr addon, bool bDataChanged); /*! * @brief Remove a single client add-on. * @param addon The add-on to remove. * @return True if the client was found and removed, false otherwise. */ bool RequestRemoval(ADDON::AddonPtr addon); /*! * @brief Unload all loaded add-ons and reset all class properties. */ void Unload(void); /*! * @brief The ID of the first active client or -1 if no clients are active; */ int GetFirstConnectedClientID(void); /*! * @return True when at least one client is known and enabled, false otherwise. */ bool HasEnabledClients(void) const; /*! * @return The amount of enabled clients. */ int EnabledClientAmount(void) const; /*! * @brief Stop a client. * @param addon The client to stop. * @param bRestart If true, restart the client. * @return True if the client was found, false otherwise. */ bool StopClient(ADDON::AddonPtr client, bool bRestart); /*! * @return The amount of connected clients. */ int ConnectedClientAmount(void) const; /*! * @brief Check whether there are any connected clients. * @return True if at least one client is connected. */ bool HasConnectedClients(void) const; /*! * @brief Get the friendly name for the client with the given id. * @param iClientId The id of the client. * @param strName The friendly name of the client or an empty string when it wasn't found. * @return True if the client was found, false otherwise. */ bool GetClientName(int iClientId, std::string &strName) const; /*! * @brief Returns properties about all connected clients * @return the properties */ std::vector<SBackend> GetBackendProperties() const; /*! * Get the add-on ID of the client * @param iClientId The db id of the client * @return The add-on id */ std::string GetClientAddonId(int iClientId) const; /*! * @return The client ID of the client that is currently playing a stream or -1 if no client is playing. */ int GetPlayingClientID(void) const; //@} /*! @name Stream methods */ //@{ /*! * @return True if a stream is playing, false otherwise. */ bool IsPlaying(void) const; /*! * @return The friendly name of the client that is currently playing or an empty string if nothing is playing. */ const std::string GetPlayingClientName(void) const; /*! * @brief Read from an open stream. * @param lpBuf Target buffer. * @param uiBufSize The size of the buffer. * @return The amount of bytes that was added. */ int ReadStream(void* lpBuf, int64_t uiBufSize); /*! * @brief Return the filesize of the currently running stream. * Limited to recordings playback at the moment. * @return The size of the stream. */ int64_t GetStreamLength(void); /*! * @brief Seek to a position in a stream. * Limited to recordings playback at the moment. * @param iFilePosition The position to seek to. * @param iWhence Specify how to seek ("new position=pos", "new position=pos+actual postion" or "new position=filesize-pos") * @return The new stream position. */ int64_t SeekStream(int64_t iFilePosition, int iWhence = SEEK_SET); /*! * @brief Get the currently playing position in a stream. * @return The current position. */ int64_t GetStreamPosition(void); /*! * @brief Close a PVR stream. */ void CloseStream(void); /*! * @brief (Un)Pause a PVR stream (only called when timeshifting is supported) */ void PauseStream(bool bPaused); /*! * @brief Check whether it is possible to pause the currently playing livetv or recording stream */ bool CanPauseStream(void) const; /*! * @brief Check whether it is possible to seek the currently playing livetv or recording stream */ bool CanSeekStream(void) const; /*! * @brief Get the input format name of the current playing stream content. * @return A pointer to the properties or NULL if no stream is playing. */ std::string GetCurrentInputFormat(void) const; /*! * @return True if a live stream is playing, false otherwise. */ bool IsReadingLiveStream(void) const; /*! * @return True if a TV channel is playing, false otherwise. */ bool IsPlayingTV(void) const; /*! * @return True if a radio channel playing, false otherwise. */ bool IsPlayingRadio(void) const; /*! * @return True if the currently playing channel is encrypted, false otherwise. */ bool IsEncrypted(void) const; /*! * @brief Open a stream on the given channel. * @param channel The channel to start playing. * @param bIsSwitchingChannel True when switching channels, false otherwise. * @return True if the stream was opened successfully, false otherwise. */ bool OpenStream(const CPVRChannelPtr &channel, bool bIsSwitchingChannel); /*! * @brief Get the URL for the stream to the given channel. * @param channel The channel to get the stream url for. * @return The requested stream url or an empty string if it wasn't found. */ std::string GetStreamURL(const CPVRChannelPtr &channel); /*! * @brief Switch an opened live tv stream to another channel. * @param channel The channel to switch to. * @return True if the switch was successfull, false otherwise. */ bool SwitchChannel(const CPVRChannelPtr &channel); /*! * @brief Get the channel that is currently playing. * @return the channel that is currently playing, NULL otherwise. */ CPVRChannelPtr GetPlayingChannel() const; /*! * @return True if a recording is playing, false otherwise. */ bool IsPlayingRecording(void) const; /*! * @brief Open a stream from the given recording. * @param tag The recording to start playing. * @return True if the stream was opened successfully, false otherwise. */ bool OpenStream(const CPVRRecordingPtr &tag); /*! * @brief Get the recordings that is currently playing. * @return The recording that is currently playing, NULL otherwise. */ CPVRRecordingPtr GetPlayingRecording(void) const; //@} /*! @name Timer methods */ //@{ /*! * @brief Check whether a client supports timers. * @param iClientId The id of the client to check. * @return True if the supports timers, false otherwise. */ bool HasTimerSupport(int iClientId); /*! * @brief Get all timers from clients * @param timers Store the timers in this container. * @return The amount of timers that were added. */ PVR_ERROR GetTimers(CPVRTimers *timers); /*! * @brief Add a new timer to a backend. * @param timer The timer to add. * @param error An error if it occured. * @return True if the timer was added successfully, false otherwise. */ PVR_ERROR AddTimer(const CPVRTimerInfoTag &timer); /*! * @brief Update a timer on the backend. * @param timer The timer to update. * @param error An error if it occured. * @return True if the timer was updated successfully, false otherwise. */ PVR_ERROR UpdateTimer(const CPVRTimerInfoTag &timer); /*! * @brief Delete a timer from the backend. * @param timer The timer to delete. * @param bForce Also delete when currently recording if true. * @param error An error if it occured. * @return True if the timer was deleted successfully, false otherwise. */ PVR_ERROR DeleteTimer(const CPVRTimerInfoTag &timer, bool bForce); /*! * @brief Rename a timer on the backend. * @param timer The timer to rename. * @param strNewName The new name. * @param error An error if it occured. * @return True if the timer was renamed successfully, false otherwise. */ PVR_ERROR RenameTimer(const CPVRTimerInfoTag &timer, const std::string &strNewName); /*! * @brief Get all supported timer types. * @param results The container to store the result in. * @return PVR_ERROR_NO_ERROR if the list has been fetched successfully. */ PVR_ERROR GetTimerTypes(CPVRTimerTypes& results) const; /*! * @brief Get all timer types supported by a certain client. * @param iClientId The id of the client. * @param results The container to store the result in. * @return PVR_ERROR_NO_ERROR if the list has been fetched successfully. */ PVR_ERROR GetTimerTypes(CPVRTimerTypes& results, int iClientId) const; //@} /*! @name Recording methods */ //@{ /*! * @brief Check whether a client supports recordings. * @param iClientId The id of the client to check. * @return True if the supports recordings, false otherwise. */ bool SupportsRecordings(int iClientId) const; /*! * @brief Check whether a client supports undelete of recordings. * @param iClientId The id of the client to check. * @return True if the supports undeleted of recordings, false otherwise. */ bool SupportsRecordingsUndelete(int iClientId) const; /*! * @brief Get all recordings from clients * @param recordings Store the recordings in this container. * @param deleted Return deleted recordings * @return The amount of recordings that were added. */ PVR_ERROR GetRecordings(CPVRRecordings *recordings, bool deleted); /*! * @brief Rename a recordings on the backend. * @param recording The recordings to rename. * @param error An error if it occured. * @return True if the recording was renamed successfully, false otherwise. */ PVR_ERROR RenameRecording(const CPVRRecording &recording); /*! * @brief Delete a recording from the backend. * @param recording The recording to delete. * @param error An error if it occured. * @return True if the recordings was deleted successfully, false otherwise. */ PVR_ERROR DeleteRecording(const CPVRRecording &recording); /*! * @brief Undelete a recording from the backend. * @param recording The recording to undelete. * @param error An error if it occured. * @return True if the recording was undeleted successfully, false otherwise. */ PVR_ERROR UndeleteRecording(const CPVRRecording &recording); /*! * @brief Delete all recordings permanent which in the deleted folder on the backend. * @return PVR_ERROR_NO_ERROR if the recordings has been deleted successfully. */ PVR_ERROR DeleteAllRecordingsFromTrash(); /*! * @brief Set play count of a recording on the backend. * @param recording The recording to set the play count. * @param count Play count. * @param error An error if it occured. * @return True if the recording's play count was set successfully, false otherwise. */ bool SetRecordingPlayCount(const CPVRRecording &recording, int count, PVR_ERROR *error); /*! * @brief Set the last watched position of a recording on the backend. * @param recording The recording. * @param position The last watched position in seconds * @param error An error if it occured. * @return True if the last played position was updated successfully, false otherwise */ bool SetRecordingLastPlayedPosition(const CPVRRecording &recording, int lastplayedposition, PVR_ERROR *error); /*! * @brief Retrieve the last watched position of a recording on the backend. * @param recording The recording. * @return The last watched position in seconds */ int GetRecordingLastPlayedPosition(const CPVRRecording &recording); /*! * @brief Retrieve the edit decision list (EDL) from the backend. * @param recording The recording. * @return The edit decision list (empty on error). */ std::vector<PVR_EDL_ENTRY> GetRecordingEdl(const CPVRRecording &recording); /*! * @brief Check whether there is an active recording on the current channel. * @return True if there is, false otherwise. */ bool IsRecordingOnPlayingChannel(void) const; /*! * @brief Check whether the current channel can be recorded instantly. * @return True if it can, false otherwise. */ bool CanRecordInstantly(void); //@} /*! @name EPG methods */ //@{ /*! * @brief Check whether a client supports EPG transfer. * @param iClientId The id of the client to check. * @return True if the supports EPG transfer, false otherwise. */ bool SupportsEPG(int iClientId) const; /*! * @brief Get the EPG table for a channel. * @param channel The channel to get the EPG table for. * @param epg Store the EPG in this container. * @param start Get entries after this start time. * @param end Get entries before this end time. * @param error An error if it occured. * @return True if the EPG was transfered successfully, false otherwise. */ PVR_ERROR GetEPGForChannel(const CPVRChannelPtr &channel, EPG::CEpg *epg, time_t start, time_t end); //@} /*! @name Channel methods */ //@{ /*! * @brief Get all channels from backends. * @param group The container to store the channels in. * @param error An error if it occured. * @return The amount of channels that were added. */ PVR_ERROR GetChannels(CPVRChannelGroupInternal *group); /*! * @brief Check whether a client supports channel groups. * @param iClientId The id of the client to check. * @return True if the supports channel groups, false otherwise. */ bool SupportsChannelGroups(int iClientId) const; /*! * @brief Get all channel groups from backends. * @param groups Store the channel groups in this container. * @param error An error if it occured. * @return The amount of groups that were added. */ PVR_ERROR GetChannelGroups(CPVRChannelGroups *groups); /*! * @brief Get all group members of a channel group. * @param group The group to get the member for. * @param error An error if it occured. * @return The amount of channels that were added. */ PVR_ERROR GetChannelGroupMembers(CPVRChannelGroup *group); //@} /*! @name Menu hook methods */ //@{ /*! * @brief Check whether a client has any PVR specific menu entries. * @param iClientId The ID of the client to get the menu entries for. Get the menu for the active channel if iClientId < 0. * @return True if the client has any menu hooks, false otherwise. */ bool HasMenuHooks(int iClientId, PVR_MENUHOOK_CAT cat); /*! * @brief Open selection and progress PVR actions. * @param iClientId The ID of the client to process the menu entries for. Process the menu entries for the active channel if iClientId < 0. * @param item The selected file item for which the hook was called. */ void ProcessMenuHooks(int iClientID, PVR_MENUHOOK_CAT cat, const CFileItem *item); //@} /*! @name Channel scan methods */ //@{ /*! * @return True when a channel scan is currently running, false otherwise. */ bool IsRunningChannelScan(void) const; /*! * @brief Open a selection dialog and start a channel scan on the selected client. */ void StartChannelScan(void); /*! * @return All clients that support channel scanning. */ std::vector<PVR_CLIENT> GetClientsSupportingChannelScan(void) const; //@} /*! @name Channel settings methods */ //@{ /*! * @return All clients that support channel settings inside addon. */ std::vector<PVR_CLIENT> GetClientsSupportingChannelSettings(bool bRadio) const; /*! * @brief Open addon settings dialog to add a channel * @param channel The channel to edit. * @return True if the edit was successfull, false otherwise. */ bool OpenDialogChannelAdd(const CPVRChannelPtr &channel); /*! * @brief Open addon settings dialog to related channel * @param channel The channel to edit. * @return True if the edit was successfull, false otherwise. */ bool OpenDialogChannelSettings(const CPVRChannelPtr &channel); /*! * @brief Inform addon to delete channel * @param channel The channel to delete. * @return True if it was successfull, false otherwise. */ bool DeleteChannel(const CPVRChannelPtr &channel); /*! * @brief Request the client to rename given channel * @param channel The channel to rename * @return True if the edit was successfull, false otherwise. */ bool RenameChannel(const CPVRChannelPtr &channel); //@} void Notify(const Observable &obs, const ObservableMessage msg); bool GetClient(const std::string &strId, ADDON::AddonPtr &addon) const; bool SupportsChannelScan(int iClientId) const; bool SupportsChannelSettings(int iClientId) const; bool SupportsLastPlayedPosition(int iClientId) const; bool SupportsRadio(int iClientId) const; bool SupportsRecordingPlayCount(int iClientId) const; bool SupportsRecordingEdl(int iClientId) const; bool SupportsTimers(int iClientId) const; bool SupportsTV(int iClientId) const; bool HandlesDemuxing(int iClientId) const; bool HandlesInputStream(int iClientId) const; bool GetPlayingClient(PVR_CLIENT &client) const; std::string GetBackendHostnameByClientId(int iClientId) const; bool IsTimeshifting() const; time_t GetPlayingTime() const; time_t GetBufferTimeStart() const; time_t GetBufferTimeEnd() const; /** * Called by OnEnable() and OnDisable() to check if the manager should be restarted * @return True if it should be restarted, false otherwise */ bool RestartManagerOnAddonDisabled(void) const { return m_bRestartManagerOnAddonDisabled; } int GetClientId(const std::string& strId) const; private: /*! * @brief Update add-ons from the AddonManager * @return True when updated, false otherwise */ bool UpdateAddons(void); /*! * @brief Get the menu hooks for a client. * @param iClientID The client to get the hooks for. * @param hooks The container to add the hooks to. * @return True if the hooks were added successfully (if any), false otherwise. */ bool GetMenuHooks(int iClientID, PVR_MENUHOOK_CAT cat, PVR_MENUHOOKS *hooks); /*! * @brief Updates the backend information */ void Process(void); /*! * @brief Show a dialog to guide new users who have no clients enabled. */ void ShowDialogNoClientsEnabled(void); /*! * @brief Get the instance of the client. * @param iClientId The id of the client to get. * @param addon The client. * @return True if the client was found, false otherwise. */ bool GetClient(int iClientId, PVR_CLIENT &addon) const; /*! * @brief Get the instance of the client, if it's connected. * @param iClientId The id of the client to get. * @param addon The client. * @return True if the client is connected, false otherwise. */ bool GetConnectedClient(int iClientId, PVR_CLIENT &addon) const; /*! * @bried Get all connected clients. * @param clients Store the active clients in this map. * @return The amount of added clients. */ int GetConnectedClients(PVR_CLIENTMAP &clients) const; /*! * @brief Check whether a client is registered. * @param client The client to check. * @return True if this client is registered, false otherwise. */ bool IsKnownClient(const ADDON::AddonPtr client) const; /*! * @brief Check whether there are any new pvr add-ons enabled or whether any of the known clients has been disabled. * @param bInitialiseAllClients True to initialise all clients, false to only initialise new clients. * @return True if all clients were updated successfully, false otherwise. */ bool UpdateAndInitialiseClients(bool bInitialiseAllClients = false); /*! * @brief Initialise and connect a client. * @param client The client to initialise. * @return The id of the client if it was created or found in the existing client map, -1 otherwise. */ int RegisterClient(ADDON::AddonPtr client); int GetClientId(const ADDON::AddonPtr client) const; /*! * Try to automatically configure clients * @return True when at least one was configured */ bool AutoconfigureClients(void); bool m_bChannelScanRunning; /*!< true when a channel scan is currently running, false otherwise */ bool m_bIsSwitchingChannels; /*!< true while switching channels */ int m_playingClientId; /*!< the ID of the client that is currently playing */ bool m_bIsPlayingLiveTV; bool m_bIsPlayingRecording; DWORD m_scanStart; /*!< scan start time to check for non present streams */ std::string m_strPlayingClientName; /*!< the name client that is currenty playing a stream or an empty string if nothing is playing */ ADDON::VECADDONS m_addons; PVR_CLIENTMAP m_clientMap; /*!< a map of all known clients */ STREAMPROPS m_streamProps; /*!< the current stream's properties */ bool m_bNoAddonWarningDisplayed; /*!< true when a warning was displayed that no add-ons were found, false otherwise */ CCriticalSection m_critSection; std::map<int, time_t> m_connectionAttempts; /*!< last connection attempt per add-on */ bool m_bRestartManagerOnAddonDisabled; /*!< true to restart the manager when an add-on is enabled/disabled */ std::map<std::string, int> m_addonNameIds; /*!< map add-on names to IDs */ }; }

33.667995

152

0.661644

03f7149398c0527da9cfe8a63e2b3c1fdb9d73ed

2,772

h

C

src/core/imported/vam/src/core/vamobject.h

brianwatling/pal

02e0b6b86627bf47a7ac2b0579036742f4ae19cf

[ "MIT" ]

null

src/core/imported/vam/src/core/vamobject.h

brianwatling/pal

02e0b6b86627bf47a7ac2b0579036742f4ae19cf

[ "MIT" ]

null

src/core/imported/vam/src/core/vamobject.h

brianwatling/pal

02e0b6b86627bf47a7ac2b0579036742f4ae19cf

[ "MIT" ]

null

/* *********************************************************************************************************************** * * Copyright (c) 2009-2020 Advanced Micro Devices, Inc. All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * **********************************************************************************************************************/ /** *************************************************************************************************** * @file vamobject.h * @brief Contains the VamObject base class definition. *************************************************************************************************** */ #ifndef __VAMOBJECT_H__ #define __VAMOBJECT_H__ #include "vaminterface.h" /** *************************************************************************************************** * @brief This is the base class for all VAM class objects. *************************************************************************************************** */ class VamObject { public: VamObject(); VamObject(VAM_CLIENT_HANDLE hClient); virtual ~VamObject(); VOID* operator new(size_t size, VAM_CLIENT_HANDLE hClient); VOID operator delete(VOID* pObj, VAM_CLIENT_HANDLE hClient); VOID operator delete(VOID* pObj); static VOID SetupSysMemFuncs( VAM_ALLOCSYSMEM allocSysMem, VAM_FREESYSMEM freeSysMem ); protected: VAM_CLIENT_HANDLE m_hClient; static VAM_ALLOCSYSMEM m_allocSysMem; static VAM_FREESYSMEM m_freeSysMem; private: // Disallow the copy constructor VamObject(const VamObject& a); // Disallow the assignment operator VamObject& operator=(const VamObject& a); }; #endif

38.5

120

0.559524

03f9307433481993f0777e1debb0da458877314e

303

h

C

examples/slide10/ival_slider.h

txs72/BUPTOops

2e0dae6fb0143abfd2c58f97d60237f161ee03d3

[ "Apache-2.0" ]

74

2015-10-19T02:16:35.000Z

2021-09-15T01:54:36.000Z

examples/slide10/ival_slider.h

rorschaches/BUPTOops

2e0dae6fb0143abfd2c58f97d60237f161ee03d3

[ "Apache-2.0" ]

1

2020-10-23T11:29:18.000Z

examples/slide10/ival_slider.h

rorschaches/BUPTOops

2e0dae6fb0143abfd2c58f97d60237f161ee03d3

[ "Apache-2.0" ]

28

2015-12-07T01:28:31.000Z

2021-09-15T01:55:01.000Z

#include "ival_box.h" class Ival_slider : public Ival_box, protected BBwindow { public: Ival_slider(int, int); ~Ival_slider(); int get_value(); void set_value(int i); //.. protected: //覆盖BBwindow虚函数的函数 //例如：draw(), mousehit()... private: // slider所需要的数据 };// 多重继承的方式

15.15

55

0.630363

03fb8863db928523c0b095a2dbf97dd163adb8a3

5,159

h

C

valhalla/baldr/graphid.h

Rui-Santos/tpp-valhalla

2eb75448b661c2b661f7ed30f2dcdac4577d1cba

[ "MIT" ]

null

valhalla/baldr/graphid.h

Rui-Santos/tpp-valhalla

2eb75448b661c2b661f7ed30f2dcdac4577d1cba

[ "MIT" ]

null

valhalla/baldr/graphid.h

Rui-Santos/tpp-valhalla

2eb75448b661c2b661f7ed30f2dcdac4577d1cba

[ "MIT" ]

1

2021-07-20T23:07:11.000Z

#ifndef VALHALLA_BALDR_GRAPHID_H_ #define VALHALLA_BALDR_GRAPHID_H_ #include <cstdint> #include <functional> #include <iostream> #include <valhalla/baldr/json.h> #include <valhalla/baldr/graphconstants.h> namespace valhalla { namespace baldr { // Maximum of 8 (0-7) graph hierarchies are supported. constexpr uint32_t kMaxGraphHierarchy = 7; // 46 bits are used for the non-spare part of a graph Id. Fill all of them. // If we ever change the size of GraphId fields this will also need to change. constexpr uint64_t kInvalidGraphId = 0x3fffffffffff; // Value used to increment an Id by 1 constexpr uint64_t kIdIncrement = 1 << 25; /** * Identifier of a node or an edge within the tiled, hierarchical graph. * Includes the tile Id, hierarchy level, and a unique identifier within * the tile/level. * TODO - currently the Ids are indexes into the node and directed edge * "lists" for the tile/level. May need to create persistent Ids at some * point. */ struct GraphId { public: // Single 64 bit value representing the graph id. // Bit fields within the Id include: // 3 bits for hierarchy level // 22 bits for tile Id and // 21 bits for id within the tile. uint64_t value; /** * Default constructor */ GraphId() : value(kInvalidGraphId) { } /** * Constructor. * @param tileid Tile Id. * @param level Hierarchy level * @param id Unique identifier within the level. Cast this to 64 bits * since the Id portion of the value crosses the 4-byte bdry. */ GraphId(const uint32_t tileid, const uint32_t level, const uint32_t id) { if (tileid > kMaxGraphTileId) { throw std::logic_error("Tile id out of valid range"); } if (level > kMaxGraphHierarchy) { throw std::logic_error("Level out of valid range"); } if (id > kMaxGraphId) { throw std::logic_error("Id out of valid range"); } value = level | (tileid << 3) | (static_cast<uint64_t>(id) << 25); } /** * Constructor * @param value all the various bits rolled into one */ explicit GraphId(const uint64_t value) : value(value) { } /** * Gets the tile Id. * @return Returns the tile Id. */ uint32_t tileid() const { return (value & 0x1fffff8) >> 3; } /** * Gets the hierarchy level. * @return Returns the level. */ uint32_t level() const { return (value & 0x7); } /** * Gets the identifier within the hierarchy level. * @return Returns the unique identifier within the level. */ uint32_t id() const { return (value & 0x3ffffe000000) >> 25; } /** * Set the Id portion of the GraphId. Since the Id crosses the 4-byte * boundary cast it to 64 bits. * @param id Id to set. */ void set_id(const uint32_t id) { value = (value & 0x1ffffff) | (static_cast<uint64_t>(id & 0x1fffff) << 25); } /** * Conversion to bool for use in conditional statements. * Note that this is explicit to avoid unexpected implicit conversions. Some * statements, including "if", "&&", "||", "!" are "implicit explicit" and * will result in conversion. * @return boolean true if the id is valid. */ explicit inline operator bool() const { return Is_Valid(); } /** * Returns true if the id is valid * @return boolean true if the id is valid */ bool Is_Valid() const { return value != kInvalidGraphId; } /** * Returns a GraphId omitting the id of the of the object within the level. * Construct a new GraphId with the Id portion omitted. * @return graphid with only tileid and level included */ GraphId Tile_Base() const { return GraphId((value & 0x1ffffff)); } /** * The json representation of the id * @return json */ json::Value json() const; /** * Post increments the id. */ GraphId operator ++(int) { GraphId t = *this; value += kIdIncrement; return t; } /** * Pre increments the id. */ GraphId& operator ++() { value += kIdIncrement; return *this; } /** * Advances the id */ GraphId operator+(uint64_t offset) const { return GraphId(tileid(), level(), id() + offset); } /** * Less than operator for sorting. * @param rhs Right hand side graph Id for comparison. * @return Returns true if this GraphId is less than the right hand side. */ bool operator <(const GraphId& rhs) const{ return value < rhs.value; } // Operator EqualTo. bool operator ==(const GraphId& rhs) const { return value == rhs.value; } // Operator not equal bool operator !=(const GraphId& rhs) const { return value != rhs.value; } // cast operator operator uint64_t() const { return value; } // Stream output friend std::ostream& operator<<(std::ostream& os, const GraphId& id); }; } } // Extend the standard namespace to know how to hash graphids namespace std { template <> struct hash<valhalla::baldr::GraphId> { inline std::size_t operator()(const valhalla::baldr::GraphId& k) const { return static_cast<size_t>(k.value); } }; } #endif // VALHALLA_BALDR_GRAPHID_H_

24.566667

79

0.646055

03fbc0e4b38cec87aae2c83b50dc6d476798a414

4,601

h

C

UEPrototype/Intermediate/Build/Win64/UE4Editor/Inc/UEPrototype/VPFrameworkLibrary.generated.h

hun2ya9/Prototype

64f88ba610990c5314aaadfe5e2f680b7fcfd2e3

[ "MIT" ]

null

UEPrototype/Intermediate/Build/Win64/UE4Editor/Inc/UEPrototype/VPFrameworkLibrary.generated.h

hun2ya9/Prototype

64f88ba610990c5314aaadfe5e2f680b7fcfd2e3

[ "MIT" ]

null

UEPrototype/Intermediate/Build/Win64/UE4Editor/Inc/UEPrototype/VPFrameworkLibrary.generated.h

hun2ya9/Prototype

64f88ba610990c5314aaadfe5e2f680b7fcfd2e3

[ "MIT" ]

null

// Copyright 1998-2018 Epic Games, Inc. All Rights Reserved. /*=========================================================================== Generated code exported from UnrealHeaderTool. DO NOT modify this manually! Edit the corresponding .h files instead! ===========================================================================*/ #include "UObject/ObjectMacros.h" #include "UObject/ScriptMacros.h" PRAGMA_DISABLE_DEPRECATION_WARNINGS #ifdef UEPROTOTYPE_VPFrameworkLibrary_generated_h #error "VPFrameworkLibrary.generated.h already included, missing '#pragma once' in VPFrameworkLibrary.h" #endif #define UEPROTOTYPE_VPFrameworkLibrary_generated_h #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_RPC_WRAPPERS #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_RPC_WRAPPERS_NO_PURE_DECLS #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_INCLASS_NO_PURE_DECLS \ private: \ static void StaticRegisterNativesUVPFrameworkLibrary(); \ friend struct Z_Construct_UClass_UVPFrameworkLibrary_Statics; \ public: \ DECLARE_CLASS(UVPFrameworkLibrary, UBlueprintFunctionLibrary, COMPILED_IN_FLAGS(0), CASTCLASS_None, TEXT("/Script/UEPrototype"), NO_API) \ DECLARE_SERIALIZER(UVPFrameworkLibrary) #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_INCLASS \ private: \ static void StaticRegisterNativesUVPFrameworkLibrary(); \ friend struct Z_Construct_UClass_UVPFrameworkLibrary_Statics; \ public: \ DECLARE_CLASS(UVPFrameworkLibrary, UBlueprintFunctionLibrary, COMPILED_IN_FLAGS(0), CASTCLASS_None, TEXT("/Script/UEPrototype"), NO_API) \ DECLARE_SERIALIZER(UVPFrameworkLibrary) #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_STANDARD_CONSTRUCTORS \ /** Standard constructor, called after all reflected properties have been initialized */ \ NO_API UVPFrameworkLibrary(const FObjectInitializer& ObjectInitializer = FObjectInitializer::Get()); \ DEFINE_DEFAULT_OBJECT_INITIALIZER_CONSTRUCTOR_CALL(UVPFrameworkLibrary) \ DECLARE_VTABLE_PTR_HELPER_CTOR(NO_API, UVPFrameworkLibrary); \ DEFINE_VTABLE_PTR_HELPER_CTOR_CALLER(UVPFrameworkLibrary); \ private: \ /** Private move- and copy-constructors, should never be used */ \ NO_API UVPFrameworkLibrary(UVPFrameworkLibrary&&); \ NO_API UVPFrameworkLibrary(const UVPFrameworkLibrary&); \ public: #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_ENHANCED_CONSTRUCTORS \ /** Standard constructor, called after all reflected properties have been initialized */ \ NO_API UVPFrameworkLibrary(const FObjectInitializer& ObjectInitializer = FObjectInitializer::Get()) : Super(ObjectInitializer) { }; \ private: \ /** Private move- and copy-constructors, should never be used */ \ NO_API UVPFrameworkLibrary(UVPFrameworkLibrary&&); \ NO_API UVPFrameworkLibrary(const UVPFrameworkLibrary&); \ public: \ DECLARE_VTABLE_PTR_HELPER_CTOR(NO_API, UVPFrameworkLibrary); \ DEFINE_VTABLE_PTR_HELPER_CTOR_CALLER(UVPFrameworkLibrary); \ DEFINE_DEFAULT_OBJECT_INITIALIZER_CONSTRUCTOR_CALL(UVPFrameworkLibrary) #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_PRIVATE_PROPERTY_OFFSET #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_12_PROLOG #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_GENERATED_BODY_LEGACY \ PRAGMA_DISABLE_DEPRECATION_WARNINGS \ public: \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_PRIVATE_PROPERTY_OFFSET \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_RPC_WRAPPERS \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_INCLASS \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_STANDARD_CONSTRUCTORS \ public: \ PRAGMA_ENABLE_DEPRECATION_WARNINGS #define UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_GENERATED_BODY \ PRAGMA_DISABLE_DEPRECATION_WARNINGS \ public: \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_PRIVATE_PROPERTY_OFFSET \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_RPC_WRAPPERS_NO_PURE_DECLS \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_INCLASS_NO_PURE_DECLS \ UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h_15_ENHANCED_CONSTRUCTORS \ private: \ PRAGMA_ENABLE_DEPRECATION_WARNINGS #undef CURRENT_FILE_ID #define CURRENT_FILE_ID UEPrototype_Source_UEPrototype_Public_Utility_VPFrameworkLibrary_h PRAGMA_ENABLE_DEPRECATION_WARNINGS

50.56044

139

0.851119

83be13c9431b1cf4d11b98a99a3d931d10890702

926

h

C

Pods/Target Support Files/BetterBaseClasses/BetterBaseClasses-umbrella.h

AyushC/RWPickFlavor

f1ecec1ac2ddb69f0d1a60be59462cc37d52aa29

[ "MIT" ]

null

Pods/Target Support Files/BetterBaseClasses/BetterBaseClasses-umbrella.h

AyushC/RWPickFlavor

f1ecec1ac2ddb69f0d1a60be59462cc37d52aa29

[ "MIT" ]

null

Pods/Target Support Files/BetterBaseClasses/BetterBaseClasses-umbrella.h

AyushC/RWPickFlavor

f1ecec1ac2ddb69f0d1a60be59462cc37d52aa29

[ "MIT" ]

null

#import <UIKit/UIKit.h> #import "BetterBaseClasses.h" #import "BetterBaseCategories.h" #import "UIView+AnimateIfNeeded.h" #import "BetterBaseConstants.h" #import "AppDelegateNotificationKeys.h" #import "BetterBaseControllers.h" #import "BaseAppDelegate.h" #import "BaseContainerViewController.h" #import "BaseNavigationController.h" #import "BaseTabBarController.h" #import "BaseTableViewController.h" #import "BaseViewController.h" #import "DynamicFontTableContainerViewController.h" #import "DynamicFontTableViewController.h" #import "DynamicFontViewController.h" #import "UIViewController+BetterBaseClasses.h" #import "BetterBaseViews.h" #import "BaseTableViewCell.h" #import "BaseView.h" #import "DynamicFontTableViewCell.h" #import "DynamicFontView.h" #import "UIView+BetterBaseClasses.h" FOUNDATION_EXPORT double BetterBaseClassesVersionNumber; FOUNDATION_EXPORT const unsigned char BetterBaseClassesVersionString[];

31.931034

71

0.830454

83be7d75e53afab1a63419ba17d5e4f73d50fc98

12,181

c

C

ccaes/crypto_test/crypto_test_aes_modes.c

holyswordman/apple_corecrypto_mirror

7f67b02ab1fe07817b818c4e6f0d65ac39999d06

[ "AML" ]

20

2018-07-11T17:56:35.000Z

2021-11-03T06:49:13.000Z

ccaes/crypto_test/crypto_test_aes_modes.c

holyswordman/apple_corecrypto_mirror

7f67b02ab1fe07817b818c4e6f0d65ac39999d06

[ "AML" ]

null

ccaes/crypto_test/crypto_test_aes_modes.c

holyswordman/apple_corecrypto_mirror

7f67b02ab1fe07817b818c4e6f0d65ac39999d06

[ "AML" ]

null

/* * Copyright (c) 2012,2013,2014,2015,2016,2017,2018 Apple Inc. All rights reserved. * * corecrypto Internal Use License Agreement * * IMPORTANT: This Apple corecrypto software is supplied to you by Apple Inc. ("Apple") * in consideration of your agreement to the following terms, and your download or use * of this Apple software constitutes acceptance of these terms. If you do not agree * with these terms, please do not download or use this Apple software. * * 1. As used in this Agreement, the term "Apple Software" collectively means and * includes all of the Apple corecrypto materials provided by Apple here, including * but not limited to the Apple corecrypto software, frameworks, libraries, documentation * and other Apple-created materials. In consideration of your agreement to abide by the * following terms, conditioned upon your compliance with these terms and subject to * these terms, Apple grants you, for a period of ninety (90) days from the date you * download the Apple Software, a limited, non-exclusive, non-sublicensable license * under Apple’s copyrights in the Apple Software to make a reasonable number of copies * of, compile, and run the Apple Software internally within your organization only on * devices and computers you own or control, for the sole purpose of verifying the * security characteristics and correct functioning of the Apple Software; provided * that you must retain this notice and the following text and disclaimers in all * copies of the Apple Software that you make. You may not, directly or indirectly, * redistribute the Apple Software or any portions thereof. The Apple Software is only * licensed and intended for use as expressly stated above and may not be used for other * purposes or in other contexts without Apple's prior written permission. Except as * expressly stated in this notice, no other rights or licenses, express or implied, are * granted by Apple herein. * * 2. The Apple Software is provided by Apple on an "AS IS" basis. APPLE MAKES NO * WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED WARRANTIES * OF NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, REGARDING * THE APPLE SOFTWARE OR ITS USE AND OPERATION ALONE OR IN COMBINATION WITH YOUR PRODUCTS, * SYSTEMS, OR SERVICES. APPLE DOES NOT WARRANT THAT THE APPLE SOFTWARE WILL MEET YOUR * REQUIREMENTS, THAT THE OPERATION OF THE APPLE SOFTWARE WILL BE UNINTERRUPTED OR * ERROR-FREE, THAT DEFECTS IN THE APPLE SOFTWARE WILL BE CORRECTED, OR THAT THE APPLE * SOFTWARE WILL BE COMPATIBLE WITH FUTURE APPLE PRODUCTS, SOFTWARE OR SERVICES. NO ORAL * OR WRITTEN INFORMATION OR ADVICE GIVEN BY APPLE OR AN APPLE AUTHORIZED REPRESENTATIVE * WILL CREATE A WARRANTY. * * 3. IN NO EVENT SHALL APPLE BE LIABLE FOR ANY DIRECT, SPECIAL, INDIRECT, INCIDENTAL * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) ARISING * IN ANY WAY OUT OF THE USE, REPRODUCTION, COMPILATION OR OPERATION OF THE APPLE * SOFTWARE, HOWEVER CAUSED AND WHETHER UNDER THEORY OF CONTRACT, TORT (INCLUDING * NEGLIGENCE), STRICT LIABILITY OR OTHERWISE, EVEN IF APPLE HAS BEEN ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * 4. This Agreement is effective until terminated. Your rights under this Agreement will * terminate automatically without notice from Apple if you fail to comply with any term(s) * of this Agreement. Upon termination, you agree to cease all use of the Apple Software * and destroy all copies, full or partial, of the Apple Software. This Agreement will be * governed and construed in accordance with the laws of the State of California, without * regard to its choice of law rules. * * You may report security issues about Apple products to product-security@apple.com, * as described here: https://www.apple.com/support/security/. Non-security bugs and * enhancement requests can be made via https://bugreport.apple.com as described * here: https://developer.apple.com/bug-reporting/ * * EA1350 * 10/5/15 */ #include "testmore.h" #include "testbyteBuffer.h" #include <corecrypto/ccaes.h> #include <corecrypto/ccmode.h> #include <corecrypto/ccmode_factory.h> #include <corecrypto/cc_runtime_config.h> #include "crypto_test_aes_modes.h" #include "ccaes_ios_hardware.h" #if (CCAES_MODES == 0) entryPoint(ccaes_modes_tests,"ccaes mode") #else #include "crypto_test_modes.h" static int kTestTestCount = 116234 /* base */ #if CCAES_INTEL_ASM + 50993; #elif CCAES_MUX +46+49; #else + 0; #endif #define END_VECTOR {.keyStr=NULL} ccsymmetric_test_vector aes_ctr_vectors[] = { #include "../test_vectors/aes_ctr_test_vectors.inc" END_VECTOR }; int ccaes_modes_tests(TM_UNUSED int argc, TM_UNUSED char *const *argv) { struct ccmode_ctr ccaes_generic_ctr_crypt_mode; ccmode_factory_ctr_crypt(&ccaes_generic_ctr_crypt_mode, &ccaes_ltc_ecb_encrypt_mode); static struct ccmode_xts ccaes_generic_ltc_xts_encrypt_mode; static struct ccmode_xts ccaes_generic_ltc_xts_decrypt_mode; ccmode_factory_xts_encrypt(&ccaes_generic_ltc_xts_encrypt_mode, &ccaes_ltc_ecb_encrypt_mode, &ccaes_ltc_ecb_encrypt_mode); ccmode_factory_xts_decrypt(&ccaes_generic_ltc_xts_decrypt_mode, &ccaes_ltc_ecb_decrypt_mode, &ccaes_ltc_ecb_encrypt_mode); static struct ccmode_gcm ccaes_generic_ltc_gcm_encrypt_mode; static struct ccmode_gcm ccaes_generic_ltc_gcm_decrypt_mode; ccmode_factory_gcm_encrypt(&ccaes_generic_ltc_gcm_encrypt_mode, &ccaes_ltc_ecb_encrypt_mode); ccmode_factory_gcm_decrypt(&ccaes_generic_ltc_gcm_decrypt_mode, &ccaes_ltc_ecb_encrypt_mode); static struct ccmode_ccm ccaes_generic_ltc_ccm_encrypt_mode; static struct ccmode_ccm ccaes_generic_ltc_ccm_decrypt_mode; ccmode_factory_ccm_encrypt(&ccaes_generic_ltc_ccm_encrypt_mode, &ccaes_ltc_ecb_encrypt_mode); ccmode_factory_ccm_decrypt(&ccaes_generic_ltc_ccm_decrypt_mode, &ccaes_ltc_ecb_encrypt_mode); #if CCAES_INTEL_ASM if(CC_HAS_AESNI()) kTestTestCount+=69; #endif #if CCAES_MUX if (ccaes_ios_hardware_enabled(CCAES_HW_CTR)) kTestTestCount+=46; if (ccaes_ios_hardware_enabled(CCAES_HW_CBC)) kTestTestCount+=49; #endif plan_tests(kTestTestCount); aes_validation_test(); test_ctr("Default AES-CTR",ccaes_ctr_crypt_mode(), ccaes_ctr_crypt_mode(), aes_ctr_vectors); test_ctr("Generic AES-CTR",&ccaes_generic_ctr_crypt_mode, &ccaes_generic_ctr_crypt_mode, aes_ctr_vectors); #if CCAES_MUX // Mux is always supported, falls back to pure SW when needed if (ccaes_ios_hardware_enabled(CCAES_HW_CTR)) /* Test only, not to be used by corecrypto clients */ test_ctr("HW AES-CTR",&ccaes_ios_hardware_ctr_crypt_mode, &ccaes_ios_hardware_ctr_crypt_mode, aes_ctr_vectors); test_ctr("MUX AES-CTR",ccaes_ios_mux_ctr_crypt_mode(), ccaes_ios_mux_ctr_crypt_mode(), aes_ctr_vectors); #endif #if CCAES_MUX if (ccaes_ios_hardware_enabled(CCAES_HW_CBC)) /* Test only, not to be used by corecrypto clients */ ok(test_mode((ciphermode_t) &ccaes_ios_hardware_cbc_encrypt_mode, (ciphermode_t) &ccaes_ios_hardware_cbc_decrypt_mode, cc_cipherAES, cc_ModeCBC) == 1, "iOS HW AES for CBC"); ok(test_mode((ciphermode_t) ccaes_ios_mux_cbc_encrypt_mode(), (ciphermode_t) ccaes_ios_mux_cbc_decrypt_mode(), cc_cipherAES, cc_ModeCBC) == 1, "Mux AES for CBC - iOS HW/SW"); #endif ok(test_mode((ciphermode_t)ccaes_siv_encrypt_mode(), (ciphermode_t)ccaes_siv_decrypt_mode(), cc_cipherAES, cc_ModeSIV) == 1, "Generic AES-SIV"); ok(test_mode((ciphermode_t) &ccaes_ltc_ecb_encrypt_mode, (ciphermode_t) &ccaes_ltc_ecb_decrypt_mode, cc_cipherAES, cc_ModeECB) == 1, "Standard LTC AES for ECB"); ok(test_mode((ciphermode_t) &ccaes_gladman_cbc_encrypt_mode, (ciphermode_t) &ccaes_gladman_cbc_decrypt_mode, cc_cipherAES, cc_ModeCBC) == 1, "Standard LTC AES for CBC"); #if 0 // CCAES_ARM_ASM ok(test_mode((ciphermode_t) &ccaes_arm_ecb_encrypt_mode, (ciphermode_t) &ccaes_arm_ecb_decrypt_mode, cc_cipherAES, cc_ModeECB) == 1, "arm VNG AES for ECB"); ok(test_mode((ciphermode_t) &ccaes_arm_cbc_encrypt_mode, (ciphermode_t) &ccaes_arm_cbc_decrypt_mode, cc_cipherAES, cc_ModeCBC) == 1, "arm VNG AES for CBC"); #endif #if CCAES_INTEL_ASM ok(test_mode((ciphermode_t) &ccaes_intel_ecb_encrypt_opt_mode, (ciphermode_t) &ccaes_intel_ecb_decrypt_opt_mode, cc_cipherAES, cc_ModeECB) == 1, "Intel Non-AES-NI AES-ECB"); ok(test_mode((ciphermode_t) &ccaes_intel_cbc_encrypt_opt_mode, (ciphermode_t) &ccaes_intel_cbc_decrypt_opt_mode, cc_cipherAES, cc_ModeCBC) == 1, "Intel Non-AES-NI AES-CBC"); ok(test_mode((ciphermode_t) &ccaes_intel_xts_encrypt_opt_mode, (ciphermode_t) &ccaes_intel_xts_decrypt_opt_mode, cc_cipherAES, cc_ModeXTS) == 1, "Intel Non-AES-NI AES-XTS"); ok(test_xts(&ccaes_intel_xts_encrypt_opt_mode, &ccaes_intel_xts_decrypt_opt_mode), "Intel Non-AES-NI AES-XTS Extended testing"); if(CC_HAS_AESNI()) { ok(test_mode((ciphermode_t) &ccaes_intel_ecb_encrypt_aesni_mode, (ciphermode_t) &ccaes_intel_ecb_decrypt_aesni_mode, cc_cipherAES, cc_ModeECB) == 1, "Intel AES-NI AES-ECB"); ok(test_mode((ciphermode_t) &ccaes_intel_cbc_encrypt_aesni_mode, (ciphermode_t) &ccaes_intel_cbc_decrypt_aesni_mode, cc_cipherAES, cc_ModeCBC) == 1, "Intel AES-NI AES-CBC"); ok(test_mode((ciphermode_t) &ccaes_intel_xts_encrypt_aesni_mode, (ciphermode_t) &ccaes_intel_xts_decrypt_aesni_mode, cc_cipherAES, cc_ModeXTS) == 1, "Intel AES-NI AES-XTS"); ok(test_xts(&ccaes_intel_xts_encrypt_aesni_mode, &ccaes_intel_xts_decrypt_aesni_mode), "Intel AES-NI AES-XTS Extended testing"); } #endif ok(test_mode((ciphermode_t) ccaes_ecb_encrypt_mode(), (ciphermode_t) ccaes_ecb_decrypt_mode(), cc_cipherAES, cc_ModeECB) == 1, "Default AES-ECB"); ok(test_mode((ciphermode_t) ccaes_cbc_encrypt_mode(), (ciphermode_t) ccaes_cbc_decrypt_mode(), cc_cipherAES, cc_ModeCBC) == 1, "Default AES-CBC"); ok(test_mode((ciphermode_t) ccaes_cfb_encrypt_mode(), (ciphermode_t) ccaes_cfb_decrypt_mode(), cc_cipherAES, cc_ModeCFB) == 1, "Default AES-CFB"); ok(test_mode((ciphermode_t) ccaes_cfb8_encrypt_mode(), (ciphermode_t) ccaes_cfb8_decrypt_mode(), cc_cipherAES, cc_ModeCFB8) == 1, "Default AES-CFB8"); ok(test_mode((ciphermode_t) ccaes_ofb_crypt_mode(), (ciphermode_t) ccaes_ofb_crypt_mode(), cc_cipherAES, cc_ModeOFB) == 1, "Default AES-OFB"); ok(test_mode((ciphermode_t) (const struct ccmode_xts *) &ccaes_generic_ltc_xts_encrypt_mode, (ciphermode_t) (const struct ccmode_xts *) &ccaes_generic_ltc_xts_decrypt_mode, cc_cipherAES, cc_ModeXTS) == 1, "Generic AES-XTS"); ok(test_mode((ciphermode_t) ccaes_xts_encrypt_mode(), (ciphermode_t) ccaes_xts_decrypt_mode(), cc_cipherAES, cc_ModeXTS) == 1, "Default AES-XTS"); ok(test_mode((ciphermode_t) ccaes_gcm_encrypt_mode(), (ciphermode_t) ccaes_gcm_decrypt_mode(), cc_cipherAES, cc_ModeGCM) == 1, "Default AES-GCM"); ok(test_mode((ciphermode_t) (const struct ccmode_gcm *) &ccaes_generic_ltc_gcm_encrypt_mode, (ciphermode_t) (const struct ccmode_gcm *) &ccaes_generic_ltc_gcm_decrypt_mode, cc_cipherAES, cc_ModeGCM) == 1, "Generic AES-GCM"); ok(test_mode((ciphermode_t) ccaes_ccm_encrypt_mode(), (ciphermode_t) ccaes_ccm_decrypt_mode(), cc_cipherAES, cc_ModeCCM) == 1, "Default AES-CCM"); ok(test_mode((ciphermode_t) (const struct ccmode_ccm *) &ccaes_generic_ltc_ccm_encrypt_mode, (ciphermode_t) (const struct ccmode_ccm *) &ccaes_generic_ltc_ccm_decrypt_mode, cc_cipherAES, cc_ModeCCM) == 1, "Generic AES-CCM"); ok(test_gcm(ccaes_gcm_encrypt_mode(), ccaes_gcm_decrypt_mode()), "Default AES-GCM Extended testing"); ok(test_gcm(&ccaes_generic_ltc_gcm_encrypt_mode,&ccaes_generic_ltc_gcm_decrypt_mode), "Generic AES-GCM Extended testing"); ok(test_xts(ccaes_xts_encrypt_mode(), ccaes_xts_decrypt_mode()), "Default AES-XTS Extended testing"); ok(test_xts(&ccaes_generic_ltc_xts_encrypt_mode, &ccaes_generic_ltc_xts_decrypt_mode), "Generic AES-XTS Extended testing"); return 0; } #endif

66.928571

181

0.778179

83bf61d99de6b6a4b95eff54b9a7516e79f422e1

3,630

c

C

tools-src/uClibc/libc/termios/tcsetattr.c

enfoTek/tomato.linksys.e2000.nvram-mod

2ce3a5217def49d6df7348522e2bfda702b56029

[ "FSFAP" ]

80

2015-01-02T10:14:04.000Z

2021-06-07T06:29:49.000Z

tools-src/uClibc/libc/termios/tcsetattr.c

unforgiven512/tomato

96f09fab4929c6ddde5c9113f1b2476ad37133c4

[ "FSFAP" ]

40

2018-12-03T19:48:52.000Z

2021-03-10T06:34:26.000Z

tools-src/uClibc/libc/termios/tcsetattr.c

unforgiven512/tomato

96f09fab4929c6ddde5c9113f1b2476ad37133c4

[ "FSFAP" ]

69

2015-01-02T10:45:56.000Z

2021-09-06T07:52:13.000Z

/* Copyright (C) 1993, 1996, 1997, 1998 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #include <errno.h> #include <string.h> #include <termios.h> #include <sys/ioctl.h> #include <sys/types.h> /* The difference here is that the termios structure used in the kernel is not the same as we use in the libc. Therefore we must translate it here. */ #include "kernel_termios.h" /* This is a gross hack around a kernel bug. If the cfsetispeed functions is called with the SPEED argument set to zero this means use the same speed as for output. But we don't have independent input and output speeds and therefore cannot record this. We use an unused bit in the `c_iflag' field to keep track of this use of `cfsetispeed'. The value here must correspond to the one used in `speed.c'. */ #if !defined _HAVE_C_ISPEED || !defined _HAVE_C_OSPEED # define IBAUD0 020000000000 #else /* If we have separate values for input and output speed don't bother with this. Define the value as zero so the compiler sees we don't have to do the AND below. */ # define IBAUD0 0 #endif /* Set the state of FD to *TERMIOS_P. */ int tcsetattr (int fd, int optional_actions, const struct termios *termios_p) { struct __kernel_termios k_termios; unsigned long int cmd; int retval; switch (optional_actions) { case TCSANOW: cmd = TCSETS; break; case TCSADRAIN: cmd = TCSETSW; break; case TCSAFLUSH: cmd = TCSETSF; break; default: __set_errno (EINVAL); return -1; } k_termios.c_iflag = termios_p->c_iflag & ~IBAUD0; k_termios.c_oflag = termios_p->c_oflag; k_termios.c_cflag = termios_p->c_cflag; k_termios.c_lflag = termios_p->c_lflag; k_termios.c_line = termios_p->c_line; #ifdef _HAVE_C_ISPEED k_termios.c_ispeed = termios_p->c_ispeed; #endif #ifdef _HAVE_C_OSPEED k_termios.c_ospeed = termios_p->c_ospeed; #endif memcpy (&k_termios.c_cc[0], &termios_p->c_cc[0], __KERNEL_NCCS * sizeof (cc_t)); retval = ioctl (fd, cmd, &k_termios); if (retval == 0 && cmd == TCSETS) { /* The Linux kernel has a bug which silently ignore the invalid c_cflag on pty. We have to check it here. */ int save = errno; retval = ioctl (fd, TCGETS, &k_termios); if (retval) { /* We cannot verify if the setting is ok. We don't return an error (?). */ __set_errno (save); retval = 0; } else if ((termios_p->c_cflag & (PARENB | CREAD)) != (k_termios.c_cflag & (PARENB | CREAD)) || ((termios_p->c_cflag & CSIZE) && ((termios_p->c_cflag & CSIZE) != (k_termios.c_cflag & CSIZE)))) { /* It looks like the Linux kernel silently changed the PARENB/CREAD/CSIZE bits in c_cflag. Report it as an error. */ __set_errno (EINVAL); retval = -1; } } return retval; }

31.025641

77

0.687052

83c0a25e6b052c80208e1210f749495e3709b9b4

1,042

h

C

OpenGLDemo/XboxControllerOpenGLDemo/Utils.h

bmcilmoyle/XboxController

44fdfffb24ef30bed4cb3e7a17c4a2e7e51a3b23

[ "MIT" ]

2

2015-02-26T16:05:27.000Z

2018-03-22T00:56:09.000Z

OpenGLDemo/XboxControllerOpenGLDemo/Utils.h

bmcilmoyle/XboxController

44fdfffb24ef30bed4cb3e7a17c4a2e7e51a3b23

[ "MIT" ]

null

OpenGLDemo/XboxControllerOpenGLDemo/Utils.h

bmcilmoyle/XboxController

44fdfffb24ef30bed4cb3e7a17c4a2e7e51a3b23

[ "MIT" ]

2

2019-08-15T04:51:40.000Z

2019-10-06T05:01:07.000Z

#ifndef UTILS_H #define UTILS_H #include <stdlib.h> #include <stdio.h> #include <string.h> #include <math.h> #include <time.h> #include <GL/glew.h> #include <GL/freeglut.h> static const double PI = 3.14159265358979323846; typedef struct Vertex { float Position[4]; float Color[4]; float UV[2]; } Vertex; typedef struct Matrix { float m[16]; } Matrix; extern const Matrix IDENTITY_MATRIX; float Cotangent(float angle); float DegreesToRadians(float degrees); float RadiansToDegrees(float radians); Matrix MultiplyMatrices(const Matrix* m1, const Matrix* m2); void RotateAboutX(Matrix* m, float angle); void RotateAboutY(Matrix* m, float angle); void RotateAboutZ(Matrix* m, float angle); void ScaleMatrix(Matrix* m, float x, float y, float z); void TranslateMatrix(Matrix* m, float x, float y, float z); Matrix CreateProjectionMatrix( float fovy, float aspect_ratio, float near_plane, float far_plane ); void ExitOnGLError(const char* error_message); GLuint LoadShader(const char* filename, GLenum shader_type); #endif

21.265306

60

0.752399

83c4e12fee9b72afd1f8103c89811b2f2783f420

1,370

h

C

include/sysdeps/mach/hurd/dl-sysdep.h

abhijeetviswam/libucresolv

f4911dcf4d9b5410a423970d698ac98ac071a413

[ "Apache-2.0" ]

1

2019-02-02T05:08:01.000Z

include/sysdeps/mach/hurd/dl-sysdep.h

DalavanCloud/libucresolv

04a4827aa44c47556f425a4eed5e0ab4a5c0d25a

[ "Apache-2.0" ]

3

2017-10-05T20:52:56.000Z

2019-02-26T23:05:29.000Z

include/sysdeps/mach/hurd/dl-sysdep.h

DalavanCloud/libucresolv

04a4827aa44c47556f425a4eed5e0ab4a5c0d25a

[ "Apache-2.0" ]

7

2017-07-04T10:52:39.000Z

2019-02-28T08:37:16.000Z

/* System-specific settings for dynamic linker code. Hurd version. Copyright (C) 2002-2017 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see <http://www.gnu.org/licenses/>. */ /* The private errno doesn't make sense on the Hurd. errno is always the thread-local slot shared with libc, and it matters to share the cell with libc because after startup we use libc functions that set errno (open, mmap, etc). */ #define RTLD_PRIVATE_ERRNO 0 #ifdef SHARED /* _dl_argv and __libc_stack_end cannot be attribute_relro, because the stack-switching libc initializer for using cthreads might write into it. */ # define DL_ARGV_NOT_RELRO 1 # define LIBC_STACK_END_NOT_RELRO 1 #endif

42.8125

87

0.755474

83c54a93a66a56acb366efc242d1a672172672cd

7,247

h

C

cvs/objects/resources/include/subresource.h

gcamt/gcam-core

433f004dc075767590796e6f47e9b378d3b602a1

[ "ECL-2.0" ]

1

2021-04-28T04:10:11.000Z

cvs/objects/resources/include/subresource.h

gcamt/gcam-core

433f004dc075767590796e6f47e9b378d3b602a1

[ "ECL-2.0" ]

null

cvs/objects/resources/include/subresource.h

gcamt/gcam-core

433f004dc075767590796e6f47e9b378d3b602a1

[ "ECL-2.0" ]

null

#ifndef _SUBRSRC_H_ #define _SUBRSRC_H_ #if defined(_MSC_VER) #pragma once #endif /* * LEGAL NOTICE * This computer software was prepared by Battelle Memorial Institute, * hereinafter the Contractor, under Contract No. DE-AC05-76RL0 1830 * with the Department of Energy (DOE). NEITHER THE GOVERNMENT NOR THE * CONTRACTOR MAKES ANY WARRANTY, EXPRESS OR IMPLIED, OR ASSUMES ANY * LIABILITY FOR THE USE OF THIS SOFTWARE. This notice including this * sentence must appear on any copies of this computer software. * * EXPORT CONTROL * User agrees that the Software will not be shipped, transferred or * exported into any country or used in any manner prohibited by the * United States Export Administration Act or any other applicable * export laws, restrictions or regulations (collectively the "Export Laws"). * Export of the Software may require some form of license or other * authority from the U.S. Government, and failure to obtain such * export control license may result in criminal liability under * U.S. laws. In addition, if the Software is identified as export controlled * items under the Export Laws, User represents and warrants that User * is not a citizen, or otherwise located within, an embargoed nation * (including without limitation Iran, Syria, Sudan, Cuba, and North Korea) * and that User is not otherwise prohibited * under the Export Laws from receiving the Software. * * Copyright 2011 Battelle Memorial Institute. All Rights Reserved. * Distributed as open-source under the terms of the Educational Community * License version 2.0 (ECL 2.0). http://www.opensource.org/licenses/ecl2.php * * For further details, see: http://www.globalchange.umd.edu/models/gcam/ * */ /*! * \file subresource.h * \ingroup Objects * \brief The SubResource class header file. * \author Sonny Kim */ #include <memory> #include <xercesc/dom/DOMNode.hpp> #include <boost/core/noncopyable.hpp> #include "util/base/include/inamed.h" #include "util/base/include/ivisitable.h" #include "util/base/include/value.h" #include "util/base/include/time_vector.h" #include "util/base/include/data_definition_util.h" // Forward declarations. class Grade; class GDP; class IInfo; class IVisitor; class Tabs; class ITechnologyContainer; // Need to forward declare the subclasses as well. class SubRenewableResource; class SmoothRenewableSubresource; /*! * \ingroup Objects * \brief SubResource is a class that contains grades. * \author Sonny Kim */ class SubResource: public INamed, public IVisitable, private boost::noncopyable { friend class XMLDBOutputter; friend class CalibrateResourceVisitor; friend class EnergyBalanceTable; public: SubResource(); virtual ~SubResource(); const std::string& getName() const; void XMLParse( const xercesc::DOMNode* tempnode ); // virtual void completeInit( const IInfo* aResourceInfo ); virtual void completeInit( const std::string& aRegionName, const std::string& aResourceName, const IInfo* aResourceInfo ); void toDebugXML( const int period, std::ostream& out, Tabs* tabs ) const; static const std::string& getXMLNameStatic(); virtual void cumulsupply( double aPrice, int aPeriod ); virtual void initCalc( const std::string& aRegionName, const std::string& aResourceName, const int aPeriod ); virtual void postCalc( const std::string& aRegionName, const std::string& aResourceName, const int aPeriod ); virtual double getCumulProd( const int aPeriod ) const; virtual void annualsupply( int aPeriod, const GDP* aGdp, double aPrice, double aPrevPrice ); double getAnnualProd( int aPeriod ) const; double getAvailable( int aPeriod ) const; void updateAvailable( const int period ); virtual double getVariance() const; virtual double getAverageCapacityFactor() const; virtual void accept( IVisitor* aVisitor, const int aPeriod ) const; virtual double getLowestPrice( const int aPeriod ) const; virtual double getHighestPrice( const int aPeriod ) const; protected: virtual const std::string& getXMLName() const; virtual bool XMLDerivedClassParse( const std::string& nodeName, const xercesc::DOMNode* node ) = 0; DEFINE_DATA( /* Declare all subclasses of SubResource to allow automatic traversal of the * hierarchy under introspection. */ DEFINE_SUBCLASS_FAMILY( SubResource, SubRenewableResource, SmoothRenewableSubresource ), //! SubResource name. DEFINE_VARIABLE( SIMPLE, "name", mName, std::string ), //! total available resource DEFINE_VARIABLE( ARRAY | STATE, "available", mAvailable, objects::PeriodVector<Value> ), //! annual production of SubResource DEFINE_VARIABLE( ARRAY | STATE, "annualprod", mAnnualProd, objects::PeriodVector<Value> ), //! cumulative production of SubResource DEFINE_VARIABLE( ARRAY | STATE, "cumulprod", mCumulProd, objects::PeriodVector<Value> ), //! Cumulative Technical Change for this subsector DEFINE_VARIABLE( ARRAY, "cumulative-tech-change", mCumulativeTechChange, objects::PeriodVector<double> ), //! effective price (global price + price adder) DEFINE_VARIABLE( ARRAY | STATE, "effective-price", mEffectivePrice, objects::PeriodVector<Value> ), //! calibrated production DEFINE_VARIABLE( ARRAY, "cal-production", mCalProduction, objects::PeriodVector<double> ), //! technical change DEFINE_VARIABLE( ARRAY, "techChange", mTechChange, objects::PeriodVector<Value> ), //! Environmental costs DEFINE_VARIABLE( ARRAY, "environCost", mEnvironCost, objects::PeriodVector<Value> ), //! Severance Tax (exogenous) DEFINE_VARIABLE( ARRAY, "severanceTax", mSeveranceTax, objects::PeriodVector<Value> ), //! price adder used for calibration purposes DEFINE_VARIABLE( ARRAY | STATE, "price-adder", mPriceAdder, objects::PeriodVector<Value> ), //! amount of SubResource for each grade DEFINE_VARIABLE( CONTAINER, "grade", mGrade, std::vector<Grade*> ), //! The technology to add additional inputs and perform emissions calculations DEFINE_VARIABLE( CONTAINER, "technology", mTechnology, ITechnologyContainer* ) ) //!< The subsector's information store. std::auto_ptr<IInfo> mSubresourceInfo; //maw 6_17_18 new stuff for resource technology but may need to be changed to fusion format std::string mRegionName; std::string mResourceName; }; /*! * \ingroup Objects * \brief A class which defines a SubDepletableResource object, which is a container for multiple grade objects. * \author Steve Smith */ class SubDepletableResource: public SubResource { virtual bool XMLDerivedClassParse( const std::string& nodeName, const xercesc::DOMNode* node ); }; /*! * \ingroup Objects * \brief A class which defines a SubFixedResource object, which is a container for multiple grade objects. * \author Steve Smith */ class SubFixedResource: public SubResource { virtual bool XMLDerivedClassParse( const std::string& nodeName, const xercesc::DOMNode* node ); }; #endif // _SUBRSRC_H_

39.818681

126

0.72499

83c6b2f1062abb968efef939f72ebcf12d3f4660

1,178

h

C

hardware/aw/playready/include/inc/drmlicense.h

ghsecuritylab/Android-7.0

e65af741a5cd5ac6e49e8735b00b456d00f6c0d0

[ "MIT" ]

10

2020-04-17T04:02:36.000Z

2021-11-23T11:38:42.000Z

hardware/aw/playready/include/inc/drmlicense.h

ghsecuritylab/Android-7.0

e65af741a5cd5ac6e49e8735b00b456d00f6c0d0

[ "MIT" ]

3

2020-02-19T16:53:25.000Z

2021-04-29T07:28:40.000Z

hardware/aw/playready/include/inc/drmlicense.h

ghsecuritylab/Android-7.0

e65af741a5cd5ac6e49e8735b00b456d00f6c0d0

[ "MIT" ]

5

2019-12-25T04:05:02.000Z

2022-01-14T16:57:55.000Z

/**@@@+++@@@@****************************************************************** ** ** Microsoft (r) PlayReady (r) ** Copyright (c) Microsoft Corporation. All rights reserved. ** ***@@@---@@@@****************************************************************** */ #ifndef __DRMLICENSE_H__ #define __DRMLICENSE_H__ #include <drmtypes.h> #include <oemcryptoctx.h> ENTER_PK_NAMESPACE; #define DRM_MAX_LICENSESIZE 36864 /* 36 * 1024 == 36K max license size */ #define MAX_DEVICE_CERT_SIZE 36864 /* 36 * 1024 == 36K max device cert size */ #define MAX_DEVICE_CERT_TEMPLATE_SIZE ( ( MAX_DEVICE_CERT_SIZE * 6 ) / 10 )/* 60% of max devcert */ #define DRM_AES_CK_CHECKSUM_LENGTH 8 #define LEGACY_KID_B64ENC_LEN 24 #define DRM_MAX_CHECKSUM DRM_MAX( DRM_MAX( CHECKSUM_LENGTH, LEGACY_KID_B64ENC_LEN ), DRM_AES_CK_CHECKSUM_LENGTH ) typedef struct __tagDRM_V1Header { DRM_BYTE *pbKeyID; DRM_DWORD cbKeyID; DRM_BYTE *pbSecretData; DRM_DWORD cbSecretData; DRM_BYTE *pbURL; DRM_DWORD cbURL; DRM_BYTE bBuffer[1]; } DRM_V1Header; EXIT_PK_NAMESPACE; #endif /* __DRMLICENSE_H__ */

28.047619

120

0.595925

83c7985cc179f4ddc1cade7eec488363aff15f80

9,511

h

C

source/Irrlicht/OctTree.h

flaithbheartaigh/mirrlicht

ccc16e8f5465fb72e81ae986e56ef2e4c3e7654b

[ "IJG" ]

null

source/Irrlicht/OctTree.h

flaithbheartaigh/mirrlicht

ccc16e8f5465fb72e81ae986e56ef2e4c3e7654b

[ "IJG" ]

null

source/Irrlicht/OctTree.h

flaithbheartaigh/mirrlicht

ccc16e8f5465fb72e81ae986e56ef2e4c3e7654b

[ "IJG" ]

null

// Copyright (C) 2002-2007 Nikolaus Gebhardt // This file is part of the "Irrlicht Engine". // For conditions of distribution and use, see copyright notice in irrlicht.h #ifndef __C_OCT_TREE_H_INCLUDED__ #define __C_OCT_TREE_H_INCLUDED__ #include "SViewFrustum.h" #include "S3DVertex.h" #include "aabbox3d.h" #include "irrArray.h" #include "irrString.h" namespace irr { //! template octtree. T must be a vertex type which has a member //! called .Pos, which is a core::vertex3df position. template <class T> class OctTree { public: u32 nodeCount; struct SMeshChunk { core::array<T> Vertices; core::array<u16> Indices; s32 MaterialId; }; struct SIndexChunk { core::array<u16> Indices; s32 MaterialId; }; struct SIndexData { u16* Indices; s32 CurrentSize; s32 MaxSize; }; //! constructor OctTree(const core::array<SMeshChunk>& meshes, s32 minimalPolysPerNode=128) { nodeCount = 0; IndexDataCount = meshes.size(); IndexData = new SIndexData[IndexDataCount]; // construct array of all indices core::array<SIndexChunk>* indexChunks = new core::array<SIndexChunk>; SIndexChunk ic; for (u32 i=0; i<meshes.size(); ++i) { IndexData[i].CurrentSize = 0; IndexData[i].MaxSize = meshes[i].Indices.size(); IndexData[i].Indices = new u16[IndexData[i].MaxSize]; ic.MaterialId = meshes[i].MaterialId; indexChunks->push_back(ic); SIndexChunk& tic = (*indexChunks)[i]; for (u32 t=0; t<meshes[i].Indices.size(); ++t) tic.Indices.push_back(meshes[i].Indices[t]); } // create tree Root = new OctTreeNode(nodeCount, 0, meshes, indexChunks, minimalPolysPerNode); } //! returns all ids of polygons partially or fully enclosed //! by this bounding box. void calculatePolys(const core::aabbox3d<f32>& box) { for (u32 i=0; i<IndexDataCount; ++i) IndexData[i].CurrentSize = 0; Root->getPolys(box, IndexData, 0); } //! returns all ids of polygons partially or fully enclosed //! by a view frustum. void calculatePolys(const scene::SViewFrustum& frustum) { for (u32 i=0; i<IndexDataCount; ++i) IndexData[i].CurrentSize = 0; Root->getPolys(frustum, IndexData); } SIndexData* getIndexData() { return IndexData; } u32 getIndexDataCount() { return IndexDataCount; } // for debug purposes only, renders the bounding boxes of the tree void renderBoundingBoxes(const core::aabbox3d<f32>& box, core::array< core::aabbox3d<f32> >&outBoxes) { Root->renderBoundingBoxes(box, outBoxes); } //! destructor ~OctTree() { for (u32 i=0; i<IndexDataCount; ++i) delete [] IndexData[i].Indices; delete [] IndexData; delete Root; } private: // private inner class class OctTreeNode { public: // constructor OctTreeNode(u32& nodeCount, u32 currentdepth, const core::array<SMeshChunk>& allmeshdata, core::array<SIndexChunk>* indices, s32 minimalPolysPerNode) : IndexData(0), Depth(currentdepth+1) { ++nodeCount; u32 i; // new ISO for scoping problem with different compilers for (i=0; i<8; ++i) Children[i] = 0; if (indices->empty()) { delete indices; return; } bool found = false; // find first point for bounding box for (i=0; i<indices->size(); ++i) { if (!(*indices)[i].Indices.empty()) { Box.reset(allmeshdata[i].Vertices[(*indices)[i].Indices[0]].Pos); found = true; break; } } if (!found) { delete indices; return; } s32 totalPrimitives = 0; // now lets calculate our bounding box for (i=0; i<indices->size(); ++i) { totalPrimitives += (*indices)[i].Indices.size(); for (u32 j=0; j<(*indices)[i].Indices.size(); ++j) Box.addInternalPoint(allmeshdata[i].Vertices[(*indices)[i].Indices[j]].Pos); } core::vector3df middle = Box.getCenter(); core::vector3df edges[8]; Box.getEdges(edges); // calculate all children core::aabbox3d<f32> box; if (totalPrimitives > minimalPolysPerNode && !Box.isEmpty()) for (s32 ch=0; ch<8; ++ch) { box.reset(middle); box.addInternalPoint(edges[ch]); // create indices for child core::array<SIndexChunk>* cindexChunks = new core::array<SIndexChunk>; bool added = false; for (i=0; i<allmeshdata.size(); ++i) { SIndexChunk ic; ic.MaterialId = allmeshdata[i].MaterialId; cindexChunks->push_back(ic); SIndexChunk& tic = (*cindexChunks)[i]; for (u32 t=0; t<(*indices)[i].Indices.size(); t+=3) { if (box.isPointInside(allmeshdata[i].Vertices[(*indices)[i].Indices[t]].Pos) && box.isPointInside(allmeshdata[i].Vertices[(*indices)[i].Indices[t+1]].Pos) && box.isPointInside(allmeshdata[i].Vertices[(*indices)[i].Indices[t+2]].Pos)) { tic.Indices.push_back((*indices)[i].Indices[t]); tic.Indices.push_back((*indices)[i].Indices[t+1]); tic.Indices.push_back((*indices)[i].Indices[t+2]); (*indices)[i].Indices.erase(t, 3); t-=3; added = true; } } } if (added) Children[ch] = new OctTreeNode(nodeCount, Depth, allmeshdata, cindexChunks, minimalPolysPerNode); else delete cindexChunks; } // end for all possible children IndexData = indices; } // destructor ~OctTreeNode() { delete IndexData; for (u32 i=0; i<8; ++i) delete Children[i]; } // returns all ids of polygons partially or full enclosed // by this bounding box. void getPolys(const core::aabbox3d<f32>& box, SIndexData* idxdata, u32 parentTest ) const { // if not full inside if ( parentTest != 2 ) { // partially inside ? parentTest = (u32) Box.intersectsWithBox(box); if ( 0 == parentTest ) return; // fully inside ? parentTest+= Box.isFullInside(box); } //if (Box.intersectsWithBox(box)) { u32 cnt = IndexData->size(); u32 i; // new ISO for scoping problem in some compilers for (i=0; i<cnt; ++i) { s32 idxcnt = (*IndexData)[i].Indices.size(); if (idxcnt) { memcpy(&idxdata[i].Indices[idxdata[i].CurrentSize], &(*IndexData)[i].Indices[0], idxcnt * sizeof(s16)); idxdata[i].CurrentSize += idxcnt; } } for (i=0; i<8; ++i) if (Children[i]) Children[i]->getPolys(box, idxdata,parentTest); } } #if 0 // returns all ids of polygons partially or full enclosed // by the view frustum. void getPolys(const scene::SViewFrustum& frustum, SIndexData* idxdata,u32 parentTest) const { // not full inside //if ( parentTest != 2 ) { s32 i; // new ISO for scoping problem in some compilers core::vector3df edges[8]; Box.getEdges(edges); u32 bitTest = 0; for (i=0; i<scene::SViewFrustum::VF_PLANE_COUNT; ++i) { bool boxInFrustum = false; for (int j=0; j<8; ++j) if (frustum.planes[i].classifyPointRelation(edges[j]) != core::ISREL3D_BACK) { boxInFrustum = true; break; } if (!boxInFrustum) { return; } } } s32 cnt = IndexData->size(); for (i=0; i<cnt; ++i) { s32 idxcnt = (*IndexData)[i].Indices.size(); if (idxcnt) { memcpy(&idxdata[i].Indices[idxdata[i].CurrentSize], &(*IndexData)[i].Indices[0], idxcnt * sizeof(s16)); idxdata[i].CurrentSize += idxcnt; } } for (i=0; i<8; ++i) if (Children[i]) Children[i]->getPolys(frustum, idxdata,parentTest); } #endif // returns all ids of polygons partially or full enclosed // by the view frustum. void getPolys(const scene::SViewFrustum& frustum, SIndexData* idxdata,u32 parentTest) const { u32 totalIn = 0; s32 i; // new ISO for scoping problem in some compilers // not full inside //if ( parentTest != 2 ) { core::vector3df edges[8]; Box.getEdges(edges); u32 bitTest = 0; for (i=0; i<scene::SViewFrustum::VF_PLANE_COUNT; ++i) { bool boxInFrustum = false; for (int j=0; j<8; ++j) if (frustum.planes[i].isFrontFacing(edges[j]) ) { boxInFrustum = true; break; } if (!boxInFrustum) { return; } } } s32 cnt = IndexData->size(); for (i=0; i<cnt; ++i) { s32 idxcnt = (*IndexData)[i].Indices.size(); if (idxcnt) { memcpy(&idxdata[i].Indices[idxdata[i].CurrentSize], &(*IndexData)[i].Indices[0], idxcnt * sizeof(s16)); idxdata[i].CurrentSize += idxcnt; } } for (i=0; i<8; ++i) if (Children[i]) Children[i]->getPolys(frustum, idxdata,parentTest); } void renderBoundingBoxes(const core::aabbox3d<f32>& box, core::array< core::aabbox3d<f32> >&outBoxes) { if (Box.intersectsWithBox(box)) { outBoxes.push_back(Box); for (u32 i=0; i<8; ++i) if (Children[i]) Children[i]->renderBoundingBoxes(box, outBoxes); } } private: core::aabbox3df Box; core::array<SIndexChunk>* IndexData; OctTreeNode* Children[8]; u32 Depth; }; OctTreeNode* Root; SIndexData* IndexData; u32 IndexDataCount; }; } // end namespace #endif

21.965358

94

0.59447

83c80d6609bb13aded953190f5f3bf421e207188

24,344

h

C

include/okruz/bspline/Spline.h

okruz/BSplinebasis

2dd31b9e48730966d3097035b5bed2f7dbbbe46b

[ "Unlicense" ]

1

2021-12-29T17:30:17.000Z

include/okruz/bspline/Spline.h

okruz/BSplinebasis

2dd31b9e48730966d3097035b5bed2f7dbbbe46b

[ "Unlicense" ]

9

2021-11-15T20:50:12.000Z

2022-01-31T20:32:44.000Z

include/okruz/bspline/Spline.h

okruz/BSplinebasis

2dd31b9e48730966d3097035b5bed2f7dbbbe46b

[ "Unlicense" ]

null

#ifndef OKRUZ_BSPLINE_SPLINE_H #define OKRUZ_BSPLINE_SPLINE_H #include <okruz/bspline/exceptions/BSplineException.h> #include <okruz/bspline/internal/misc.h> #include <okruz/bspline/support/Support.h> #include <algorithm> #include <array> #include <type_traits> #include <vector> /* * template<typename T, size_t order> * class Spline * * Represents a spline of dataytype T and order order. The datatype has to * fulfill the following requirements: * - comparisons <, <=, >, >=, == and != have to be implemented. * - arithmetic operators + - * / += -= *= /= have to be implemented * - A pathway must exist, such that integer values of type T can be * constructed via static_cast<T>(int) (e. g. via a constructor taking an int). * BSplines can be generated via the method generateBspline(...). * * All methods accessing two splines assume that these splines are defined on * the same grid (i.e. that both splines have the same interval boundaries * within the intersection of their respective supports). This may also cause * problems when splines are constructed by adding up multiple splines. To be * safe, make sure that the supports of two splines being added overlap at least * in one grid point. * * * ######################################################################## * The contents of this file is free and unencumbered software released into the * public domain. For more information, please refer to <http://unlicense.org/> * ######################################################################## */ /*! * Main namespace for this library. */ namespace okruz::bspline { using namespace support; using namespace okruz::bspline::exceptions; /*! * Spline class representing spline of datatype T and order order. * The coefficients of the spline are defined with respect to the center point * xm of each interval. * * @tparam T Datatype of the spline. * @tparam order Order of the spline. */ template <typename T, size_t order> class Spline { private: /*! Number of coefficients per interval. */ static constexpr size_t ARRAY_SIZE = order + 1; /*! The support of this spline, represented by N+1 grid points. */ Support<T> _support; /*! Coefficients of the polynomials on each interval. */ std::vector<std::array<T, ARRAY_SIZE>> _coefficients; /*! * Finds the interval in which x lies by binary search. Used during the * evaluation of the spline. * * @param x Point, whose interval will be searched. * @return The index corresponding to the beginning of the interval which * contains x or -1 if x is not part of the spline's support. */ int findInterval(const T &x) const { if (_support.size() < 2 || x > _support.back() || x < _support.front()) return -1; // x is not part of the spline's support const auto begin = _support.begin(); const auto it = std::lower_bound(begin, _support.end(), x); int retval = std::distance(begin, it); return std::max(0, retval - 1); }; /** * Performs consistency checks on the internal data. */ void checkValidity() const { bool isValid = (!_support.containsIntervals() && _coefficients.size() == 0) || (_support.size() >= 2 && _coefficients.size() == _support.numberOfIntervals()); if (!isValid) throw BSplineException(ErrorCode::INCONSISTENT_DATA); }; /*! * Resets the data of the spline and performs sanity checks. * * @param intervals The grid points representing the intervals on which the * spline is defined. * @param coefficients Polynomial coefficients on each of the intervals. */ void setData(Support<T> support, std::vector<std::array<T, ARRAY_SIZE>> coefficients) { _support = std::move(support); _coefficients = std::move(coefficients); checkValidity(); }; public: /*! * Provides acces to the data type T of the spline. */ using data_type = T; /*! * Provides access to the order of the spline. */ static constexpr size_t spline_order = order; /*! * Constructor setting the data. Performs sanity checks. * * @param support The spline's support. * @param coefficients Polynomial coefficients of the spline on each interval. */ Spline(Support<T> support, std::vector<std::array<T, ARRAY_SIZE>> coefficients) : _support(std::move(support)), _coefficients(std::move(coefficients)) { checkValidity(); }; /** * Constructs an empty spline on the global grid. * * @param grid The global grid. */ Spline(Grid<T> grid) : Spline(Support(std::move(grid)), {}){}; // Default constructors and operators generated by the compiler. Spline() = delete; Spline(const Spline &m) = default; Spline(Spline &&m) = default; virtual ~Spline() = default; Spline &operator=(const Spline &m) = default; Spline &operator=(Spline &&m) = default; /*! * Returns the spline's support. */ const Support<T> &getSupport() const noexcept { return _support; }; /*! * Returns the polynomial coefficients of the spline for each interval. */ const std::vector<std::array<T, ARRAY_SIZE>> &getCoefficients() const noexcept { return _coefficients; }; /*! * Evaluates the spline at point x. * * @param x Point at which to evaluate the spline. If x is outside of the * support of the spline, zero is returned. */ T operator()(const T &x) const { int index = findInterval(x); if (index < 0) return static_cast<T>(0); const auto &coeffs = _coefficients[index]; // distance between x and the middlepoint of the interval const T dx = x - (_support[index + 1] + _support[index]) / static_cast<T>(2); T xpot = static_cast<T>(1), result = static_cast<T>(0); for (const T &c : coeffs) { result += xpot * c; xpot *= dx; } return result; }; /*! * Returns the beginning of the support of this spline. If the spline is * empty, an exception is thrown. * * @throws BSplineException If the spline's support is empty. */ const T &front() const { return _support.front(); }; /*! * Returns the end of the support of this spline. If the spline is empty, an * exception is thrown. * * @throws BSplineException If the spline's support is empty. */ const T &back() const { return _support.back(); }; /*! * Checks whether the supports of the two splines overlap. * * @param m2 Other spline against which to check. * @tparam order2 Order of spline m2. */ template <size_t order2> bool checkOverlap(const Spline<T, order2> &m2) const { if (!_support.containsIntervals() || !m2.getSupport().containsIntervals()) return false; const bool isNotOverlapping = m2.getSupport().back() <= _support.front() || m2.getSupport().front() >= _support.back(); return !isNotOverlapping; } /*! * Checks whether this spline returns zero for all x. Can be the case, either * if the support contains no intervals (i.e. the vector intervals is empty) * or if all coefficients are zero. */ bool isZero() const { static const T ZERO = static_cast<T>(0); if (!_support.containsIntervals()) return true; for (const auto &cs : _coefficients) { for (const auto &c : cs) { if (c != ZERO) return false; } } return true; }; //######################## Operator definitions ######################## //###################################################################### /*! * Scalar-division operator. Divides this spline by the scalar d. * * @param d Scalar by which to divide this spline. */ Spline<T, order> operator/(const T &d) const { return (*this) * (static_cast<T>(1) / d); }; /*! * Scalar-multiplication operator. Multiplies this spline with the scalar d. * * @param d Scalar by which to multiply this spline. */ Spline<T, order> operator*(const T &d) const { Spline<T, order> ret(*this); for (auto &cs : ret._coefficients) { for (auto &c : cs) { c *= d; } } return ret; }; /*! * In-place scalar-multiplication operator. Multiplies this spline with the * scalar d in-place. * * @param d Scalar by which to multiply this spline. */ Spline<T, order> &operator*=(const T &d) { for (auto &cs : _coefficients) { for (auto &c : cs) { c *= d; } } return *this; }; /*! * In-place scalar-division operator. Divides this spline by the scalar d * in-place. * * @param d Scalar by which to divide this spline. */ Spline<T, order> &operator/=(const T &d) { (*this) *= (static_cast<T>(1) / d); return *this; }; /*! * Unary minus operator. */ Spline<T, order> operator-() const { return (*this) * static_cast<T>(-1); }; /*! * Copy assign of spline to this spline object. The operation is only well * defined if the order of the spline to be assigned is lower than or equal to * the order of this spline object. * * @param a Spline to be assigned. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, order> &operator=(const Spline<T, ordera> &a) { // The case ordera == order should be handled by the default assignment // operator which is automatically generated. static_assert( ordera < order, "The assignment operator is only defined if the order of the rhs " "spline is lower than or equal to that of the lhs spline."); std::vector<std::array<T, ARRAY_SIZE>> ncoefficients( a.getCoefficients().size(), internal::make_array<T, ARRAY_SIZE>(static_cast<T>(0))); for (size_t i = 0; i < a.getCoefficients().size(); i++) { const auto &coeffsi = a.getCoefficients()[i]; auto &ncoeffsi = ncoefficients[i]; for (size_t j = 0; j < coeffsi.size(); j++) ncoeffsi[j] = coeffsi[j]; } setData(a.getSupport(), std::move(ncoefficients)); return *this; } /*! * Spline-spline multiplication operator. Returns a spline of order order + * ordera. * * @param a Spline to be multiplied with this spline. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, order + ordera> operator*(const Spline<T, ordera> &a) const { if (!_support.hasSameGrid(a.getSupport())) { throw BSplineException(ErrorCode::DIFFERING_GRIDS); } static constexpr size_t NEW_ORDER = order + ordera; static constexpr size_t NEW_ARRAY_SIZE = NEW_ORDER + 1; Support newSupport = _support.calcIntersection(a.getSupport()); const size_t nintervals = newSupport.numberOfIntervals(); if (nintervals == 0) return Spline<T, NEW_ORDER>(std::move(newSupport), {}); // No overlap std::vector<std::array<T, NEW_ARRAY_SIZE>> newCoefficients( nintervals, internal::make_array<T, NEW_ARRAY_SIZE>(static_cast<T>(0))); for (size_t i = 0; i < nintervals; i++) { const auto ai = newSupport.absoluteFromRelative(i); auto thisRelIndex = _support.relativeFromAbsolute(ai).value(); auto aRelIndex = a.getSupport().relativeFromAbsolute(ai).value(); const auto &thiscoeffs = _coefficients[thisRelIndex]; const auto &acoeffs = a.getCoefficients()[aRelIndex]; auto &coeffsi = newCoefficients[i]; for (size_t j = 0; j < order + 1; j++) { for (size_t k = 0; k < ordera + 1; k++) { coeffsi[j + k] += thiscoeffs[j] * acoeffs[k]; } } } return Spline<T, NEW_ORDER>(std::move(newSupport), std::move(newCoefficients)); } /*! * Addition operator. Adds spline a to this spline. * * @param a Spline to be added. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, std::max(order, ordera)> operator+( const Spline<T, ordera> &a) const { if (!_support.hasSameGrid(a.getSupport())) { throw BSplineException(ErrorCode::DIFFERING_GRIDS); } static constexpr size_t NEW_ORDER = std::max(order, ordera); static constexpr size_t NEW_ARRAY_SIZE = NEW_ORDER + 1; Support newSupport = _support.calcUnion(a.getSupport()); const size_t nintervals = newSupport.numberOfIntervals(); std::vector<std::array<T, NEW_ARRAY_SIZE>> ncoefficients(nintervals); for (size_t i = 0; i < nintervals; i++) { const auto absIndex = newSupport.absoluteFromRelative(i); const auto thisRelIndex = _support.intervalIndexFromAbsolute(absIndex); const auto aRelIndex = a.getSupport().intervalIndexFromAbsolute(absIndex); if (thisRelIndex && !aRelIndex) { ncoefficients[i] = internal::changearraysize<T, order + 1, NEW_ARRAY_SIZE>( _coefficients[thisRelIndex.value()]); } else if (aRelIndex && !thisRelIndex) { ncoefficients[i] = internal::changearraysize<T, ordera + 1, NEW_ARRAY_SIZE>( a.getCoefficients()[aRelIndex.value()]); } else if (thisRelIndex && aRelIndex) { ncoefficients[i] = internal::add<T, ordera + 1, order + 1>( a.getCoefficients()[aRelIndex.value()], _coefficients[thisRelIndex.value()]); } else { ncoefficients[i] = internal::make_array<T, NEW_ARRAY_SIZE>(static_cast<T>(0)); } } return Spline<T, NEW_ORDER>(std::move(newSupport), std::move(ncoefficients)); } /*! * In-place addition operator. Adds spline a to this spline. The operation is * only well defined if the order of spline a is lower than or equal to the * order of this spline object. * * @param a Spline to be added. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, order> &operator+=(const Spline<T, ordera> &a) { static_assert( ordera <= order, "The operators += and -= are only defined if the order of the rhs " "spline is lower than or equal to that of the lhs spline."); (*this) = (*this) + a; return *this; } /*! * Binary in-place subtraction operator. Subtracts spline a from this spline. * The operation is only well defined if the order of the spline to be * subtracted is lower than or equal to the order of this spline object. * * @param a Spline to be subtracted. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, order> &operator-=(const Spline<T, ordera> &a) { (*this) += (static_cast<T>(-1) * a); return *this; } /*! * Binary subtraction operator. Subtracts spline a from this spline. * * @param a Spline to be subtracted. * @tparam ordera Order of spline a. */ template <size_t ordera> Spline<T, std::max(order, ordera)> operator-( const Spline<T, ordera> &a) const { return (*this) + (static_cast<T>(-1) * a); } //####################### Spline transformations ####################### //###################################################################### /*! * Returns a spline g(x) = x f(x), where f(x) is this spline. * * @deprecated Use okruz::bspline::operators::Position<1> instead. */ [[deprecated]] Spline<T, order + 1> timesx() const { std::vector<std::array<T, ARRAY_SIZE + 1>> newcoeffs( _coefficients.size(), internal::make_array<T, ARRAY_SIZE + 1>(static_cast<T>(0))); for (size_t i = 0; i + 1 < _support.size(); i++) { const T xm = (_support[i + 1] + _support[i]) / static_cast<T>(2); const std::array<T, ARRAY_SIZE> &coeffs_old = _coefficients[i]; auto &coeffsi = newcoeffs[i]; for (size_t j = 0; j <= coeffs_old.size(); j++) { if (j > 0) coeffsi[j] += coeffs_old[j - 1]; if (j < coeffs_old.size()) coeffsi[j] += xm * coeffs_old[j]; } } return Spline<T, order + 1>(_support, std::move(newcoeffs)); }; /*! * Calculates the order of a spline representing a derivative of another * spline. Defined for convenience. * * @param spline_order Order of the spline before applying the derivative. * @param derivative_order Order of the derivative to be applied. * @deprecated Use okruz::bspline::operators::Derivative<n>::outputOrder() * instead. */ [[deprecated]] static constexpr size_t orderdx(size_t spline_order, size_t derivative_order) { if (derivative_order > spline_order) return 0; else return spline_order - derivative_order; } /*! * Returns a spline g(x) = \\frac{\\partial^n}{\\partial x^n} f(x), where f(x) * is this spline. Assumes the spline is n-1 times continously differentiable. * * @tparam n Order of the derivative. * @deprecated Use okruz::bspline::operators::Derivative<n> instead. */ template <size_t n = 1> [[deprecated]] Spline<T, orderdx(order, n)> dx() const { if constexpr (n > order) return Spline<T, 0>(Support(_support.getGrid()), {}); else if constexpr (n == 0) return *this; else { static constexpr size_t NEW_ORDER = orderdx(order, n); static constexpr size_t NEW_ARRAY_SIZE = NEW_ORDER + 1; std::vector<std::array<T, NEW_ARRAY_SIZE>> ncoeffs( _coefficients.size(), internal::make_array<T, NEW_ARRAY_SIZE>(static_cast<T>(0))); for (size_t ii = 0; ii < _coefficients.size(); ii++) { auto &nc = ncoeffs[ii]; const auto &c = _coefficients[ii]; for (size_t i = n; i < c.size(); i++) { size_t faculty = 1; for (size_t j = 0; j < n; j++) faculty *= i - j; nc[i - n] = faculty * c[i]; } } return Spline<T, NEW_ORDER>(_support, std::move(ncoeffs)); } } /*! * Calculates the second derivative. * * @deprecated Use okruz::bspline::operators::Derivative<2> instead. */ [[deprecated]] Spline<T, orderdx(order, 2)> dx2() const { return this->template dx<2>(); }; /*! * Calculates the third derivative. * * @deprecated Use okruz::bspline::operators::Derivative<3> instead. */ [[deprecated]] Spline<T, orderdx(order, 3)> dx3() const { return this->template dx<3>(); }; }; // class Spline /*! * Deduction guide for spline constructed from array. */ template <typename T, size_t ARRAY_SIZE> Spline(Support<T> support, std::vector<std::array<T, ARRAY_SIZE>> coefficients) -> Spline<T, ARRAY_SIZE - 1>; //################### End of defintion of Spline class ################### //######################################################################## /*! * Commutation of spline scalar multiplication operator. * * @param d Scalar to be multiplied. * @param b Spline to be multiplied. * @tparam T Datatype of spline and scalar. * @tparam order Order of the spline. */ template <typename T, size_t order> inline Spline<T, order> operator*(const T &d, const Spline<T, order> &b) { return b * d; } /*! * Calculates the linear combination of splines. Is more efficient than * successive scalar multiplications and spline additions. * * @param coeffsBegin The iterator referencing the first element of the * coefficient collection. * @param coeffsEnd The iterator referencing the end of the coefficient * collection. * @param splinesBegin The iterator referencing the first element of the spline * collection. * @param splinesEnd The iterator referencing the end of the spline collection. * @tparam CoeffIter An iterator referencing a coefficient of type T. * @tparam SplineIter An iterator referenchig a spline of type Spline<T, order>. * @returns The linear combination as a spline of type Spline<T, order>. * @throws BSplineException If the number of coefficients differs from the * number of splines, if the number of coefficients and splines are zero or the * grids of all splines are not logically equivalent. */ template <typename CoeffIter, typename SplineIter> decltype(auto) linearCombination(CoeffIter coeffsBegin, CoeffIter coeffsEnd, SplineIter splinesBegin, SplineIter splinesEnd) { // The spline data type. using Spline = typename std::remove_cv_t< typename std::iterator_traits<SplineIter>::value_type>; // The coefficient data type. using T = typename std::remove_cv_t< typename std::iterator_traits<CoeffIter>::value_type>; // The order of the spline. constexpr size_t order = Spline::spline_order; // Check, the data type of the spline and the coefficients are consistent. static_assert( std::is_same<typename Spline::data_type, T>::value, "Coefficients must be of the same type as the data type of the spline."); { // The number of coefficients and splines. const int coeffsSize = std::distance(coeffsBegin, coeffsEnd); const int splinesSize = std::distance(splinesBegin, splinesEnd); // Check, the data is consistent. if (coeffsSize != splinesSize) { throw BSplineException( ErrorCode::INCONSISTENT_DATA, "The number of coefficients and splines must coincide."); } // std::distance() may return negative values. if (coeffsSize <= 0) { throw BSplineException( ErrorCode::MISSING_DATA, "The number of coefficients and splines may not be zero."); } } const auto &support0 = splinesBegin->getSupport(); size_t startIndex = support0.getStartIndex(); size_t endIndex = support0.getEndIndex(); // Determine the union of all the splines' supports. for (auto it = splinesBegin + 1; it < splinesEnd; it++) { if (!it->getSupport().hasSameGrid(support0)) { throw BSplineException(ErrorCode::DIFFERING_GRIDS); } const size_t si = it->getSupport().getStartIndex(); const size_t ei = it->getSupport().getEndIndex(); if (si < startIndex) { startIndex = si; } if (ei > endIndex) { endIndex = ei; } } // Set up support and coefficients vector for the returned spline. Support newSupport(support0.getGrid(), startIndex, endIndex); std::vector<std::array<T, order + 1>> newCoefficients( newSupport.numberOfIntervals(), internal::make_array<T, order + 1>(static_cast<T>(0))); auto coeffIt = coeffsBegin; auto splineIt = splinesBegin; while (splineIt < splinesEnd) { // Get spline and coefficient. const auto &spline = *splineIt; const T coeff = *coeffIt; for (size_t j = 0; j < spline.getSupport().numberOfIntervals(); j++) { // Index of the interval relative to the global grid. const size_t absoluteIndex = spline.getSupport().absoluteFromRelative(j); // Index of the interval relative to the newSupport. const size_t newSupportIndex = newSupport.intervalIndexFromAbsolute(absoluteIndex).value(); const std::array<T, order + 1> &splineCoeffs = spline.getCoefficients().at(j); std::array<T, order + 1> &newCoeffs = newCoefficients.at(newSupportIndex); for (size_t k = 0; k < order + 1; k++) { newCoeffs[k] += coeff * splineCoeffs[k]; } } splineIt++; coeffIt++; } return Spline(std::move(newSupport), std::move(newCoefficients)); } /*! * Calculates the linear combination of splines. Is more efficient than * successive scalar multiplications and spline additions. * * @param coeffs The coefficient collection. * @param splines The spline collection. * @tparam CoeffCollection A collection of coefficients of type T. Must provide * begin() and end() iterators. * @tparam SplineCollection A collection of splines of type Spline<T, order>. * Must provide begin() and end() iterators. * @returns The linear combination as a spline of type Spline<T, order>. * @throws BSplineException If the number of coefficients differs from the * number of splines, if the number of coefficients and splines are zero or the * grids of all splines are not logically equivalent. */ template <typename CoeffCollection, typename SplineCollection> decltype(auto) linearCombination(const CoeffCollection &coeffs, const SplineCollection &splines) { return linearCombination(coeffs.begin(), coeffs.end(), splines.begin(), splines.end()); } } // namespace okruz::bspline #endif // OKRUZ_BSPLINE_SPLINE_H

34.287324

80

0.635968

83c9543dae5006eb6b773986e4048acbb23c3891

6,134

c

C

src/structs_filter.c

silentwarg/structs

37760711cb953a6d02e9e9ceef0e40de0be6d05c

[ "Unlicense" ]

null

src/structs_filter.c

silentwarg/structs

37760711cb953a6d02e9e9ceef0e40de0be6d05c

[ "Unlicense" ]

null

src/structs_filter.c

silentwarg/structs

37760711cb953a6d02e9e9ceef0e40de0be6d05c

[ "Unlicense" ]

null

/******************************************************************************* * HEADERS ******************************************************************************/ /* Standard Includes */ #define _GNU_SOURCE #include <sys/types.h> #include <sys/param.h> #include <assert.h> #include <stdio.h> #include <stdarg.h> #include <string.h> #include <errno.h> #include <unistd.h> #include <stdlib.h> /* Module Includes */ #include "structs.h" #include "structs_type_array.h" #include "structs_filter.h" /******************************************************************************* * FILTER STREAMS ******************************************************************************/ /* funopen(3) methods used by filter_fopen() */ static ssize_t filter_stream_read(void *cookie, char *buf, size_t len); static ssize_t filter_stream_write(void *cookie, const char *buf, size_t len); static int filter_stream_close(void *cookie); /* State used by filter_fopen() */ struct filter_stream { FILE *fp; /* underlying stream */ struct filter *filter; /* filter object */ int output; /* input or output? */ int eof; /* eof has been reached */ int flags; /* flags */ }; /* * Create a new filter stream using the supplied filter. */ FILE *filter_fopen(struct filter *filter, int flags, FILE * fp, const char *mode) { struct filter_stream *fs; int output; cookie_io_functions_t io_funcs = { .read = filter_stream_read, .write = filter_stream_write, .seek = NULL, .close = filter_stream_close }; if (strcmp(mode, "r") == 0) output = 0; else if (strcmp(mode, "w") == 0) output = 1; else { errno = EINVAL; return (NULL); } if ((fs = calloc(1, sizeof(*fs))) == NULL) return (NULL); memset(fs, 0, sizeof(*fs)); fs->filter = filter; fs->fp = fp; fs->output = output; fs->flags = flags; fp = fopencookie(fs, mode, io_funcs); if (fp == NULL) { free(fs); return (NULL); } return (fp); } static ssize_t filter_stream_read(void *cookie, char *buf, size_t len) { struct filter_stream *const fs = cookie; unsigned char fbuf[1024]; int total = 0; int flen; int num; int i; /* * Read from underlying stream until we've read "len" bytes * from the filter or the underlying stream returns EOF. */ for (total = 0; len > 0;) { /* Read any remaining output from the filter */ if ((num = filter_read(fs->filter, buf, len)) == -1) return (-1); buf += num; len -= num; total += num; /* No more data to be read from underlying stream? */ if (fs->eof || len == 0) break; /* * Read more data from the underlying stream, * but not any more than necessary. */ flen = filter_convert(fs->filter, len, 0); flen = MIN(flen, sizeof(fbuf)); clearerr(fs->fp); if ((num = fread(fbuf, 1, flen, fs->fp)) == 0) { if (ferror(fs->fp)) return (total > 0 ? total : -1); fs->eof = 1; if (filter_end(fs->filter) == -1) return (total > 0 ? total : -1); } /* Send the data we just read through the filter */ for (i = 0; i < num; i += flen) { if ((flen = filter_write(fs->filter, fbuf + i, num - i)) == -1) return (total > 0 ? total : -1); } } return (total); } static ssize_t filter_stream_write(void *cookie, const char *buf, size_t len) { struct filter_stream *const fs = cookie; unsigned char fbuf[1024]; int flen; if ((len = filter_write(fs->filter, buf, len)) == -1) return (-1); while ((flen = filter_read(fs->filter, fbuf, sizeof(fbuf))) > 0) { if (fwrite(fbuf, 1, flen, fs->fp) != flen) return (-1); } return (len); } static int filter_stream_close(void *cookie) { struct filter_stream *const fs = cookie; unsigned char buf[1024]; int len; if (fs->output) { (void)filter_end(fs->filter); /* XXX */ while ((len = filter_read(fs->filter, buf, sizeof(buf))) > 0) { if (fwrite(buf, 1, len, fs->fp) != len) break; } fflush(fs->fp); } if ((fs->flags & FILTER_NO_CLOSE_STREAM) == 0) fclose(fs->fp); if ((fs->flags & FILTER_NO_DESTROY_FILTER) == 0) filter_destroy(&fs->filter); /* Done */ free(fs); return (0); } /******************************************************************************* * FILTER PROCESSING ******************************************************************************/ /* * Filter data in memory using a filter. */ int filter_process(struct filter *filter, const void *input, int ilen, int final, unsigned char **outputp) { int nw, w; int nr, r; int olen; /* Allocate buffer big enough to hold filter output */ olen = filter_convert(filter, ilen, 1) + 10; if ((*outputp = calloc(1, olen)) == NULL) return (-1); /* Filter data */ for (w = r = 0; w < ilen; w += nw, r += nr) { if ((nw = filter_write(filter, (char *)input + w, MIN(ilen - w, 1024))) == -1) goto fail; if ((nr = filter_read(filter, *outputp + r, olen - r)) == -1) goto fail; } if (final) { if (filter_end(filter) == -1) goto fail; do { if ((nr = filter_read(filter, *outputp + r, olen - r)) == -1) goto fail; r += nr; } while (nr != 0); } assert(r < olen); /* Done */ (*outputp)[r] = 0; return (r); fail: free(*outputp); *outputp = NULL; return (-1); } /******************************************************************************* * FILTER METHOD WRAPPERS ******************************************************************************/ int filter_read(struct filter *filter, void *data, int len) { return (*filter->read) (filter, data, len); } int filter_write(struct filter *filter, const void *data, int len) { return (*filter->write) (filter, data, len); } int filter_end(struct filter *filter) { return (*filter->end) (filter); } int filter_convert(struct filter *filter, int num, int forward) { return (*filter->convert) (filter, num, forward); } void filter_destroy(struct filter **filterp) { struct filter *const filter = *filterp; if (filter != NULL) (*filter->destroy) (filterp); } /******************************************************************************* * END OF FILE ******************************************************************************/

23.775194

80

0.539615

83c9f90671411a1cc2bdbbb3b8ff1e364f3eda5f

4,535

h

C

NestVector/NestVector.h

lynixliu/My-Utilities

baf05fb8d03f3437f2a2f3032a48b92a162499e0

[ "MIT" ]

null

NestVector/NestVector.h

lynixliu/My-Utilities

baf05fb8d03f3437f2a2f3032a48b92a162499e0

[ "MIT" ]

null

NestVector/NestVector.h

lynixliu/My-Utilities

baf05fb8d03f3437f2a2f3032a48b92a162499e0

[ "MIT" ]

null

// // NestVector.h // // Created by Yang Liu on 13/07/18. // Copyright © 2018 Yang Liu. // See the LICENSE file for license information. // #ifndef NestVector_h #define NestVector_h #include <vector> template <class T, template<typename,typename> class Cont,template <typename,typename> class InnerCont = std::vector> class NestVector_iterator { typedef InnerCont<T,std::allocator<T>> innerContainer; typedef Cont<innerContainer*, std::allocator<innerContainer*>> container; typedef typename container::iterator dataIterator; typedef typename innerContainer::iterator innerIterator; typedef T elem_type; container& mData; dataIterator mOuterItr; innerIterator mInnerItr; public: NestVector_iterator(container& c, dataIterator outer, innerIterator inner) : mData(c), mOuterItr(outer), mInnerItr(inner){} NestVector_iterator(const NestVector_iterator& other) : mData(other.mData), mOuterItr(other.mOuterItr), mInnerItr(other.mInnerItr) {} NestVector_iterator& operator=(const NestVector_iterator& other) { mData = other.mData; mOuterItr = other.mOuterItr; mInnerItr = other.mInnerItr; return *this; } bool operator==(const NestVector_iterator& other) const {return (mOuterItr == other.mOuterItr && mInnerItr == other.mInnerItr);} bool operator!=(const NestVector_iterator& other) const {return !(*this==other);} elem_type& operator*() {return *mInnerItr;} NestVector_iterator operator++(int) { NestVector_iterator tmp(*this); operator++(); return tmp; } NestVector_iterator& operator++() { if (mOuterItr == mData.end()) { mOuterItr = mData.end(); mInnerItr = mData.back()->end(); return *this; } if (mInnerItr == (*mOuterItr)->end() || mInnerItr + 1 == (*mOuterItr)->end()) { mOuterItr++; mInnerItr = (mOuterItr == mData.end()) ? mData.back()->end() : (*mOuterItr)->begin(); return *this; } mInnerItr++; return *this; } NestVector_iterator operator+(size_t temp) const { NestVector_iterator result(*this); size_t count = temp; while (result.mOuterItr != mData.end() && (*result.mOuterItr)->size() <= count) { count-=(*(result.mOuterItr))->size(); result.mOuterItr++; } if (result.mOuterItr == mData.end()) { result.mOuterItr = mData.end(); result.mInnerItr = mData.back()->end(); return result; } result.mInnerItr = (*(result.mOuterItr))->begin() + count; return result; return result; } }; template <class T, template <typename,typename> class OuterCont = std::vector, template <typename, typename> class InnerCount = std::vector> class NestedVector { public: typedef T elem_type; typedef InnerCount<elem_type,std::allocator<elem_type>> innerContainer; typedef NestVector_iterator<elem_type, OuterCont, InnerCount> iterator; /// the caller should allocate and destroy the inseted data NestedVector() : mData(0, NULL), mSize(0){} virtual ~NestedVector() {} iterator begin() { return iterator(mData, mData.begin(), mData.front()->begin()); } iterator end() { return iterator(mData, mData.end(), mData.back()->end()); } void insert(innerContainer& dataPack) { mData.push_back(&dataPack); mSize += dataPack.size(); } size_t getIndex(size_t& groupId, size_t index) const { groupId = 0; for (auto data : mData) { if (not data) { return 0; } if (index < data->size()) return index; index -= data->size(); groupId++; } return index; } size_t size() {return mSize;} void clear() { mData.clear(); mSize = 0; } void getIndeces(std::vector<size_t>& indexes) { size_t i = 0; if (not indexes.empty()) indexes.clear(); indexes.reserve(mSize); for (iterator it = begin(),end_it = end(); it!= end_it; it++) { indexes.push_back(i++); } } elem_type at(size_t index) { return *(begin() + index); } private: typedef InnerCount<innerContainer*, std::allocator<innerContainer*>> outerContainer; outerContainer mData; size_t mSize; }; #endif /* NestVector_h */

32.163121

140

0.602426

83caaae0aa74bae7ecb029c9ce9e0a90e511ce99

580

h

C

TaoShenFang/AttentionModel.h

rentianhua/tsf_ios

5e3840119def49861effcdfe55382a09ae33de98

[ "MIT" ]

null

TaoShenFang/AttentionModel.h

rentianhua/tsf_ios

5e3840119def49861effcdfe55382a09ae33de98

[ "MIT" ]

null

TaoShenFang/AttentionModel.h

rentianhua/tsf_ios

5e3840119def49861effcdfe55382a09ae33de98

[ "MIT" ]

null

// // AttentionModel.h // TaoShenFang // // Created by YXM on 16/9/26. // Copyright © 2016年 RA. All rights reserved. // #import <Foundation/Foundation.h> #import "HouseModel.h" @interface AttentionModel : NSObject @property (nonatomic,copy)NSString *ID; @property (nonatomic,copy)NSString *catid; @property (nonatomic,copy)NSString *title; @property (nonatomic,copy)NSString *username; @property (nonatomic,copy)NSString *fromtable; @property (nonatomic,copy)NSString *userid; @property (nonatomic,copy)NSString *type; @property (nonatomic,strong)HouseModel * house; @end

24.166667

47

0.751724

83cb7903e6dddbe778f26462860b8972801e2d43

26

h

C

src_oniggnu.h

gbbr/rubex

fedd6a9cf93cabba25401e3c30e7d6bc04fa89f0

[ "MIT" ]

null

src_oniggnu.h

gbbr/rubex

fedd6a9cf93cabba25401e3c30e7d6bc04fa89f0

[ "MIT" ]

null

src_oniggnu.h

gbbr/rubex

fedd6a9cf93cabba25401e3c30e7d6bc04fa89f0

[ "MIT" ]

null

#include "onig/oniggnu.h"

13

25

0.730769

83cbfa04ddb700060f8368f18832d8fef8af85da

3,790

c

C

examples/stir_shaken_cert_req.c

HappyFacade/libstirshaken

e676c5f8ce44097ec7053da18d6c1bec678a4ae1

[ "MIT" ]

null

examples/stir_shaken_cert_req.c

HappyFacade/libstirshaken

e676c5f8ce44097ec7053da18d6c1bec678a4ae1

[ "MIT" ]

null

examples/stir_shaken_cert_req.c

HappyFacade/libstirshaken

e676c5f8ce44097ec7053da18d6c1bec678a4ae1

[ "MIT" ]

null

#include <stir_shaken.h> /** * This example demonstrates how to execute STI certificate request and download test certificate from SignalWire. * This test certificate is signed by test CA (test/ref/ca/ca.pem) and thus it allows to make Shaken protected calls on a network spanned by that CA (built from participants who trust test reference CA). * Any STI-SP verification service who trusts that CA (by using it's cert as a root anchor) will honour PASSporTs created with STI certificate obtained by running this code. **/ int main(void) { stir_shaken_sp_t sp = { 0 }; stir_shaken_http_req_t http_req = { 0 }; char *spc_token = NULL; stir_shaken_status_t status = STIR_SHAKEN_STATUS_FALSE; stir_shaken_context_t ss = { 0 }; const char *error_description = NULL; stir_shaken_error_t error_code = STIR_SHAKEN_ERROR_GENERAL; // We set log to very verbose but it can be less: MEDIUM, BASIC or even NOTHING at all status = stir_shaken_do_init(&ss, NULL, NULL, STIR_SHAKEN_LOGLEVEL_HIGH); if (STIR_SHAKEN_STATUS_OK != status) { printf("Cannot init lib\n"); goto exit; } printf("Loading keys...\n"); sp.keys.priv_raw_len = sizeof(sp.keys.priv_raw); if (STIR_SHAKEN_STATUS_OK != stir_shaken_load_keys(&ss, &sp.keys.private_key, &sp.keys.public_key, "test/ref/sp/sp.priv", "test/ref/sp/sp.pub", sp.keys.priv_raw, &sp.keys.priv_raw_len)) { goto exit; } printf("Loading CSR...\n"); sp.csr.req = stir_shaken_load_x509_req_from_file(&ss, "test/ref/sp/csr.pem"); if (!sp.csr.req) { goto exit; } printf("Requesting STI certificate...\n"); // Set SPC token to this: // SPC token encoded: // // eyJhbGciOiJFUzI1NiIsImlzc3VlciI6IlNpZ25hbFdpcmUgU1RJLVBBIFRlc3QiLCJ0eXAiOiJKV1QiLCJ4NXUiOiJodHRwczovL3BhLnNoYWtlbi5zaWduYWx3aXJlLmNvbS9wYS5wZW0ifQ.eyJub3RBZnRlciI6IjEgeWVhciBmcm9tIG5vdyIsIm5vdEJlZm9yZSI6InRvZGF5Iiwic3BjIjoiMSIsInR5cGUiOiJzcGMtdG9rZW4ifQ.Q2_oc3Ssd_Nz1Ex_B2nm8C8iiN9OzgxBRsljuEqkFdiEh5wkAHhqnQd54bITs2k4M6p9ePfRV5-8qtsXVkUp-Q // // SPC token decoded: // // // { // "alg": "ES256", // "issuer": "SignalWire STI-PA Test", // "typ": "JWT", // "x5u": "https://pa.shaken.signalwire.com/pa.pem" // } // . // { // "notAfter": "1 year from now", // "notBefore": "today", // "spc": "1", // "type": "spc-token" // } // spc_token = "eyJhbGciOiJFUzI1NiIsImlzc3VlciI6IlNpZ25hbFdpcmUgU1RJLVBBIFRlc3QiLCJ0eXAiOiJKV1QiLCJ4NXUiOiJodHRwczovL3BhLnNoYWtlbi5zaWduYWx3aXJlLmNvbS9wYS5wZW0ifQ.eyJub3RBZnRlciI6IjEgeWVhciBmcm9tIG5vdyIsIm5vdEJlZm9yZSI6InRvZGF5Iiwic3BjIjoiMSIsInR5cGUiOiJzcGMtdG9rZW4ifQ.Q2_oc3Ssd_Nz1Ex_B2nm8C8iiN9OzgxBRsljuEqkFdiEh5wkAHhqnQd54bITs2k4M6p9ePfRV5-8qtsXVkUp-Q"; http_req.url = strdup("https://ca.shaken.signalwire.com/sti-ca/acme/cert"); http_req.remote_port = 8082; status = stir_shaken_sp_cert_req_ex(&ss, &http_req, NULL, NULL, sp.csr.req, "20 Apr 2020", "20 Apr 2040", "1", sp.keys.priv_raw, sp.keys.priv_raw_len, NULL, spc_token); if (status != STIR_SHAKEN_STATUS_OK) { printf("Cannot obtain certificate\n"); goto exit; } printf("Loading certificate into X509...\n"); if (STIR_SHAKEN_STATUS_OK != stir_shaken_load_x509_from_mem(&ss, &sp.cert.x, NULL, http_req.response.mem.mem)) { printf("Failed to load SP certificate into X509"); goto exit; } printf("Saving certificate as sp_test.pem...\n"); if (STIR_SHAKEN_STATUS_OK != stir_shaken_x509_to_disk(&ss, sp.cert.x, "sp_test.pem")) { printf("Failed to save SP certificate"); goto exit; } exit: if (stir_shaken_is_error_set(&ss)) { error_description = stir_shaken_get_error(&ss, &error_code); printf("Error description is:\n%s\n", error_description); printf("Error code is: %d\n", error_code); } stir_shaken_sp_destroy(&sp); stir_shaken_destroy_http_request(&http_req); stir_shaken_do_deinit(); return 0; }

36.442308

356

0.747757

83cd59da24df22dc19c15a54d72990dbe4d95511

604,445

h

C

Include/v7.1/FaxComEx.h

sezero/windows-sdk-headers

e8e9d4d50769ded01a2df905c6bf4355eb3fa8b5

[ "MIT" ]

27

2020-11-12T19:24:54.000Z

2022-03-27T23:10:45.000Z

Include/v7.1/FaxComEx.h

sezero/windows-sdk-headers

e8e9d4d50769ded01a2df905c6bf4355eb3fa8b5

[ "MIT" ]

2

2020-11-02T06:30:39.000Z

2022-02-23T18:39:55.000Z

Include/v7.1/FaxComEx.h

sezero/windows-sdk-headers

e8e9d4d50769ded01a2df905c6bf4355eb3fa8b5

[ "MIT" ]

5

2020-05-30T04:15:11.000Z

2021-11-28T08:48:56.000Z

/* this ALWAYS GENERATED file contains the definitions for the interfaces */ /* File created by MIDL compiler version 7.00.0555 */ /* Compiler settings for faxcomex.idl: Oicf, W1, Zp8, env=Win32 (32b run), target_arch=X86 7.00.0555 protocol : dce , ms_ext, c_ext, robust error checks: allocation ref bounds_check enum stub_data VC __declspec() decoration level: __declspec(uuid()), __declspec(selectany), __declspec(novtable) DECLSPEC_UUID(), MIDL_INTERFACE() */ /* @@MIDL_FILE_HEADING( ) */ #pragma warning( disable: 4049 ) /* more than 64k source lines */ /* verify that the <rpcndr.h> version is high enough to compile this file*/ #ifndef __REQUIRED_RPCNDR_H_VERSION__ #define __REQUIRED_RPCNDR_H_VERSION__ 500 #endif /* verify that the <rpcsal.h> version is high enough to compile this file*/ #ifndef __REQUIRED_RPCSAL_H_VERSION__ #define __REQUIRED_RPCSAL_H_VERSION__ 100 #endif #include "rpc.h" #include "rpcndr.h" #ifndef __RPCNDR_H_VERSION__ #error this stub requires an updated version of <rpcndr.h> #endif // __RPCNDR_H_VERSION__ #ifndef COM_NO_WINDOWS_H #include "windows.h" #include "ole2.h" #endif /*COM_NO_WINDOWS_H*/ #ifndef __faxcomex_h__ #define __faxcomex_h__ #if defined(_MSC_VER) && (_MSC_VER >= 1020) #pragma once #endif /* Forward Declarations */ #ifndef __IFaxJobStatus_FWD_DEFINED__ #define __IFaxJobStatus_FWD_DEFINED__ typedef interface IFaxJobStatus IFaxJobStatus; #endif /* __IFaxJobStatus_FWD_DEFINED__ */ #ifndef __IFaxServer_FWD_DEFINED__ #define __IFaxServer_FWD_DEFINED__ typedef interface IFaxServer IFaxServer; #endif /* __IFaxServer_FWD_DEFINED__ */ #ifndef __IFaxDeviceProviders_FWD_DEFINED__ #define __IFaxDeviceProviders_FWD_DEFINED__ typedef interface IFaxDeviceProviders IFaxDeviceProviders; #endif /* __IFaxDeviceProviders_FWD_DEFINED__ */ #ifndef __IFaxDevices_FWD_DEFINED__ #define __IFaxDevices_FWD_DEFINED__ typedef interface IFaxDevices IFaxDevices; #endif /* __IFaxDevices_FWD_DEFINED__ */ #ifndef __IFaxInboundRouting_FWD_DEFINED__ #define __IFaxInboundRouting_FWD_DEFINED__ typedef interface IFaxInboundRouting IFaxInboundRouting; #endif /* __IFaxInboundRouting_FWD_DEFINED__ */ #ifndef __IFaxFolders_FWD_DEFINED__ #define __IFaxFolders_FWD_DEFINED__ typedef interface IFaxFolders IFaxFolders; #endif /* __IFaxFolders_FWD_DEFINED__ */ #ifndef __IFaxLoggingOptions_FWD_DEFINED__ #define __IFaxLoggingOptions_FWD_DEFINED__ typedef interface IFaxLoggingOptions IFaxLoggingOptions; #endif /* __IFaxLoggingOptions_FWD_DEFINED__ */ #ifndef __IFaxActivity_FWD_DEFINED__ #define __IFaxActivity_FWD_DEFINED__ typedef interface IFaxActivity IFaxActivity; #endif /* __IFaxActivity_FWD_DEFINED__ */ #ifndef __IFaxOutboundRouting_FWD_DEFINED__ #define __IFaxOutboundRouting_FWD_DEFINED__ typedef interface IFaxOutboundRouting IFaxOutboundRouting; #endif /* __IFaxOutboundRouting_FWD_DEFINED__ */ #ifndef __IFaxReceiptOptions_FWD_DEFINED__ #define __IFaxReceiptOptions_FWD_DEFINED__ typedef interface IFaxReceiptOptions IFaxReceiptOptions; #endif /* __IFaxReceiptOptions_FWD_DEFINED__ */ #ifndef __IFaxSecurity_FWD_DEFINED__ #define __IFaxSecurity_FWD_DEFINED__ typedef interface IFaxSecurity IFaxSecurity; #endif /* __IFaxSecurity_FWD_DEFINED__ */ #ifndef __IFaxDocument_FWD_DEFINED__ #define __IFaxDocument_FWD_DEFINED__ typedef interface IFaxDocument IFaxDocument; #endif /* __IFaxDocument_FWD_DEFINED__ */ #ifndef __IFaxSender_FWD_DEFINED__ #define __IFaxSender_FWD_DEFINED__ typedef interface IFaxSender IFaxSender; #endif /* __IFaxSender_FWD_DEFINED__ */ #ifndef __IFaxRecipient_FWD_DEFINED__ #define __IFaxRecipient_FWD_DEFINED__ typedef interface IFaxRecipient IFaxRecipient; #endif /* __IFaxRecipient_FWD_DEFINED__ */ #ifndef __IFaxRecipients_FWD_DEFINED__ #define __IFaxRecipients_FWD_DEFINED__ typedef interface IFaxRecipients IFaxRecipients; #endif /* __IFaxRecipients_FWD_DEFINED__ */ #ifndef __IFaxIncomingArchive_FWD_DEFINED__ #define __IFaxIncomingArchive_FWD_DEFINED__ typedef interface IFaxIncomingArchive IFaxIncomingArchive; #endif /* __IFaxIncomingArchive_FWD_DEFINED__ */ #ifndef __IFaxIncomingQueue_FWD_DEFINED__ #define __IFaxIncomingQueue_FWD_DEFINED__ typedef interface IFaxIncomingQueue IFaxIncomingQueue; #endif /* __IFaxIncomingQueue_FWD_DEFINED__ */ #ifndef __IFaxOutgoingArchive_FWD_DEFINED__ #define __IFaxOutgoingArchive_FWD_DEFINED__ typedef interface IFaxOutgoingArchive IFaxOutgoingArchive; #endif /* __IFaxOutgoingArchive_FWD_DEFINED__ */ #ifndef __IFaxOutgoingQueue_FWD_DEFINED__ #define __IFaxOutgoingQueue_FWD_DEFINED__ typedef interface IFaxOutgoingQueue IFaxOutgoingQueue; #endif /* __IFaxOutgoingQueue_FWD_DEFINED__ */ #ifndef __IFaxIncomingMessageIterator_FWD_DEFINED__ #define __IFaxIncomingMessageIterator_FWD_DEFINED__ typedef interface IFaxIncomingMessageIterator IFaxIncomingMessageIterator; #endif /* __IFaxIncomingMessageIterator_FWD_DEFINED__ */ #ifndef __IFaxIncomingMessage_FWD_DEFINED__ #define __IFaxIncomingMessage_FWD_DEFINED__ typedef interface IFaxIncomingMessage IFaxIncomingMessage; #endif /* __IFaxIncomingMessage_FWD_DEFINED__ */ #ifndef __IFaxOutgoingJobs_FWD_DEFINED__ #define __IFaxOutgoingJobs_FWD_DEFINED__ typedef interface IFaxOutgoingJobs IFaxOutgoingJobs; #endif /* __IFaxOutgoingJobs_FWD_DEFINED__ */ #ifndef __IFaxOutgoingJob_FWD_DEFINED__ #define __IFaxOutgoingJob_FWD_DEFINED__ typedef interface IFaxOutgoingJob IFaxOutgoingJob; #endif /* __IFaxOutgoingJob_FWD_DEFINED__ */ #ifndef __IFaxOutgoingMessageIterator_FWD_DEFINED__ #define __IFaxOutgoingMessageIterator_FWD_DEFINED__ typedef interface IFaxOutgoingMessageIterator IFaxOutgoingMessageIterator; #endif /* __IFaxOutgoingMessageIterator_FWD_DEFINED__ */ #ifndef __IFaxOutgoingMessage_FWD_DEFINED__ #define __IFaxOutgoingMessage_FWD_DEFINED__ typedef interface IFaxOutgoingMessage IFaxOutgoingMessage; #endif /* __IFaxOutgoingMessage_FWD_DEFINED__ */ #ifndef __IFaxIncomingJobs_FWD_DEFINED__ #define __IFaxIncomingJobs_FWD_DEFINED__ typedef interface IFaxIncomingJobs IFaxIncomingJobs; #endif /* __IFaxIncomingJobs_FWD_DEFINED__ */ #ifndef __IFaxIncomingJob_FWD_DEFINED__ #define __IFaxIncomingJob_FWD_DEFINED__ typedef interface IFaxIncomingJob IFaxIncomingJob; #endif /* __IFaxIncomingJob_FWD_DEFINED__ */ #ifndef __IFaxDeviceProvider_FWD_DEFINED__ #define __IFaxDeviceProvider_FWD_DEFINED__ typedef interface IFaxDeviceProvider IFaxDeviceProvider; #endif /* __IFaxDeviceProvider_FWD_DEFINED__ */ #ifndef __IFaxDevice_FWD_DEFINED__ #define __IFaxDevice_FWD_DEFINED__ typedef interface IFaxDevice IFaxDevice; #endif /* __IFaxDevice_FWD_DEFINED__ */ #ifndef __IFaxActivityLogging_FWD_DEFINED__ #define __IFaxActivityLogging_FWD_DEFINED__ typedef interface IFaxActivityLogging IFaxActivityLogging; #endif /* __IFaxActivityLogging_FWD_DEFINED__ */ #ifndef __IFaxEventLogging_FWD_DEFINED__ #define __IFaxEventLogging_FWD_DEFINED__ typedef interface IFaxEventLogging IFaxEventLogging; #endif /* __IFaxEventLogging_FWD_DEFINED__ */ #ifndef __IFaxOutboundRoutingGroups_FWD_DEFINED__ #define __IFaxOutboundRoutingGroups_FWD_DEFINED__ typedef interface IFaxOutboundRoutingGroups IFaxOutboundRoutingGroups; #endif /* __IFaxOutboundRoutingGroups_FWD_DEFINED__ */ #ifndef __IFaxOutboundRoutingGroup_FWD_DEFINED__ #define __IFaxOutboundRoutingGroup_FWD_DEFINED__ typedef interface IFaxOutboundRoutingGroup IFaxOutboundRoutingGroup; #endif /* __IFaxOutboundRoutingGroup_FWD_DEFINED__ */ #ifndef __IFaxDeviceIds_FWD_DEFINED__ #define __IFaxDeviceIds_FWD_DEFINED__ typedef interface IFaxDeviceIds IFaxDeviceIds; #endif /* __IFaxDeviceIds_FWD_DEFINED__ */ #ifndef __IFaxOutboundRoutingRules_FWD_DEFINED__ #define __IFaxOutboundRoutingRules_FWD_DEFINED__ typedef interface IFaxOutboundRoutingRules IFaxOutboundRoutingRules; #endif /* __IFaxOutboundRoutingRules_FWD_DEFINED__ */ #ifndef __IFaxOutboundRoutingRule_FWD_DEFINED__ #define __IFaxOutboundRoutingRule_FWD_DEFINED__ typedef interface IFaxOutboundRoutingRule IFaxOutboundRoutingRule; #endif /* __IFaxOutboundRoutingRule_FWD_DEFINED__ */ #ifndef __IFaxInboundRoutingExtensions_FWD_DEFINED__ #define __IFaxInboundRoutingExtensions_FWD_DEFINED__ typedef interface IFaxInboundRoutingExtensions IFaxInboundRoutingExtensions; #endif /* __IFaxInboundRoutingExtensions_FWD_DEFINED__ */ #ifndef __IFaxInboundRoutingExtension_FWD_DEFINED__ #define __IFaxInboundRoutingExtension_FWD_DEFINED__ typedef interface IFaxInboundRoutingExtension IFaxInboundRoutingExtension; #endif /* __IFaxInboundRoutingExtension_FWD_DEFINED__ */ #ifndef __IFaxInboundRoutingMethods_FWD_DEFINED__ #define __IFaxInboundRoutingMethods_FWD_DEFINED__ typedef interface IFaxInboundRoutingMethods IFaxInboundRoutingMethods; #endif /* __IFaxInboundRoutingMethods_FWD_DEFINED__ */ #ifndef __IFaxInboundRoutingMethod_FWD_DEFINED__ #define __IFaxInboundRoutingMethod_FWD_DEFINED__ typedef interface IFaxInboundRoutingMethod IFaxInboundRoutingMethod; #endif /* __IFaxInboundRoutingMethod_FWD_DEFINED__ */ #ifndef __IFaxDocument2_FWD_DEFINED__ #define __IFaxDocument2_FWD_DEFINED__ typedef interface IFaxDocument2 IFaxDocument2; #endif /* __IFaxDocument2_FWD_DEFINED__ */ #ifndef __IFaxConfiguration_FWD_DEFINED__ #define __IFaxConfiguration_FWD_DEFINED__ typedef interface IFaxConfiguration IFaxConfiguration; #endif /* __IFaxConfiguration_FWD_DEFINED__ */ #ifndef __IFaxServer2_FWD_DEFINED__ #define __IFaxServer2_FWD_DEFINED__ typedef interface IFaxServer2 IFaxServer2; #endif /* __IFaxServer2_FWD_DEFINED__ */ #ifndef __IFaxAccountSet_FWD_DEFINED__ #define __IFaxAccountSet_FWD_DEFINED__ typedef interface IFaxAccountSet IFaxAccountSet; #endif /* __IFaxAccountSet_FWD_DEFINED__ */ #ifndef __IFaxAccounts_FWD_DEFINED__ #define __IFaxAccounts_FWD_DEFINED__ typedef interface IFaxAccounts IFaxAccounts; #endif /* __IFaxAccounts_FWD_DEFINED__ */ #ifndef __IFaxAccount_FWD_DEFINED__ #define __IFaxAccount_FWD_DEFINED__ typedef interface IFaxAccount IFaxAccount; #endif /* __IFaxAccount_FWD_DEFINED__ */ #ifndef __IFaxOutgoingJob2_FWD_DEFINED__ #define __IFaxOutgoingJob2_FWD_DEFINED__ typedef interface IFaxOutgoingJob2 IFaxOutgoingJob2; #endif /* __IFaxOutgoingJob2_FWD_DEFINED__ */ #ifndef __IFaxAccountFolders_FWD_DEFINED__ #define __IFaxAccountFolders_FWD_DEFINED__ typedef interface IFaxAccountFolders IFaxAccountFolders; #endif /* __IFaxAccountFolders_FWD_DEFINED__ */ #ifndef __IFaxAccountIncomingQueue_FWD_DEFINED__ #define __IFaxAccountIncomingQueue_FWD_DEFINED__ typedef interface IFaxAccountIncomingQueue IFaxAccountIncomingQueue; #endif /* __IFaxAccountIncomingQueue_FWD_DEFINED__ */ #ifndef __IFaxAccountOutgoingQueue_FWD_DEFINED__ #define __IFaxAccountOutgoingQueue_FWD_DEFINED__ typedef interface IFaxAccountOutgoingQueue IFaxAccountOutgoingQueue; #endif /* __IFaxAccountOutgoingQueue_FWD_DEFINED__ */ #ifndef __IFaxOutgoingMessage2_FWD_DEFINED__ #define __IFaxOutgoingMessage2_FWD_DEFINED__ typedef interface IFaxOutgoingMessage2 IFaxOutgoingMessage2; #endif /* __IFaxOutgoingMessage2_FWD_DEFINED__ */ #ifndef __IFaxAccountIncomingArchive_FWD_DEFINED__ #define __IFaxAccountIncomingArchive_FWD_DEFINED__ typedef interface IFaxAccountIncomingArchive IFaxAccountIncomingArchive; #endif /* __IFaxAccountIncomingArchive_FWD_DEFINED__ */ #ifndef __IFaxAccountOutgoingArchive_FWD_DEFINED__ #define __IFaxAccountOutgoingArchive_FWD_DEFINED__ typedef interface IFaxAccountOutgoingArchive IFaxAccountOutgoingArchive; #endif /* __IFaxAccountOutgoingArchive_FWD_DEFINED__ */ #ifndef __IFaxSecurity2_FWD_DEFINED__ #define __IFaxSecurity2_FWD_DEFINED__ typedef interface IFaxSecurity2 IFaxSecurity2; #endif /* __IFaxSecurity2_FWD_DEFINED__ */ #ifndef __IFaxIncomingMessage2_FWD_DEFINED__ #define __IFaxIncomingMessage2_FWD_DEFINED__ typedef interface IFaxIncomingMessage2 IFaxIncomingMessage2; #endif /* __IFaxIncomingMessage2_FWD_DEFINED__ */ #ifndef __IFaxServerNotify_FWD_DEFINED__ #define __IFaxServerNotify_FWD_DEFINED__ typedef interface IFaxServerNotify IFaxServerNotify; #endif /* __IFaxServerNotify_FWD_DEFINED__ */ #ifndef ___IFaxServerNotify2_FWD_DEFINED__ #define ___IFaxServerNotify2_FWD_DEFINED__ typedef interface _IFaxServerNotify2 _IFaxServerNotify2; #endif /* ___IFaxServerNotify2_FWD_DEFINED__ */ #ifndef __IFaxServerNotify2_FWD_DEFINED__ #define __IFaxServerNotify2_FWD_DEFINED__ typedef interface IFaxServerNotify2 IFaxServerNotify2; #endif /* __IFaxServerNotify2_FWD_DEFINED__ */ #ifndef ___IFaxAccountNotify_FWD_DEFINED__ #define ___IFaxAccountNotify_FWD_DEFINED__ typedef interface _IFaxAccountNotify _IFaxAccountNotify; #endif /* ___IFaxAccountNotify_FWD_DEFINED__ */ #ifndef __IFaxAccountNotify_FWD_DEFINED__ #define __IFaxAccountNotify_FWD_DEFINED__ typedef interface IFaxAccountNotify IFaxAccountNotify; #endif /* __IFaxAccountNotify_FWD_DEFINED__ */ #ifndef __FaxServer_FWD_DEFINED__ #define __FaxServer_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxServer FaxServer; #else typedef struct FaxServer FaxServer; #endif /* __cplusplus */ #endif /* __FaxServer_FWD_DEFINED__ */ #ifndef __FaxDeviceProviders_FWD_DEFINED__ #define __FaxDeviceProviders_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDeviceProviders FaxDeviceProviders; #else typedef struct FaxDeviceProviders FaxDeviceProviders; #endif /* __cplusplus */ #endif /* __FaxDeviceProviders_FWD_DEFINED__ */ #ifndef __FaxDevices_FWD_DEFINED__ #define __FaxDevices_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDevices FaxDevices; #else typedef struct FaxDevices FaxDevices; #endif /* __cplusplus */ #endif /* __FaxDevices_FWD_DEFINED__ */ #ifndef __FaxInboundRouting_FWD_DEFINED__ #define __FaxInboundRouting_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxInboundRouting FaxInboundRouting; #else typedef struct FaxInboundRouting FaxInboundRouting; #endif /* __cplusplus */ #endif /* __FaxInboundRouting_FWD_DEFINED__ */ #ifndef __FaxFolders_FWD_DEFINED__ #define __FaxFolders_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxFolders FaxFolders; #else typedef struct FaxFolders FaxFolders; #endif /* __cplusplus */ #endif /* __FaxFolders_FWD_DEFINED__ */ #ifndef __FaxLoggingOptions_FWD_DEFINED__ #define __FaxLoggingOptions_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxLoggingOptions FaxLoggingOptions; #else typedef struct FaxLoggingOptions FaxLoggingOptions; #endif /* __cplusplus */ #endif /* __FaxLoggingOptions_FWD_DEFINED__ */ #ifndef __FaxActivity_FWD_DEFINED__ #define __FaxActivity_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxActivity FaxActivity; #else typedef struct FaxActivity FaxActivity; #endif /* __cplusplus */ #endif /* __FaxActivity_FWD_DEFINED__ */ #ifndef __FaxOutboundRouting_FWD_DEFINED__ #define __FaxOutboundRouting_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutboundRouting FaxOutboundRouting; #else typedef struct FaxOutboundRouting FaxOutboundRouting; #endif /* __cplusplus */ #endif /* __FaxOutboundRouting_FWD_DEFINED__ */ #ifndef __FaxReceiptOptions_FWD_DEFINED__ #define __FaxReceiptOptions_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxReceiptOptions FaxReceiptOptions; #else typedef struct FaxReceiptOptions FaxReceiptOptions; #endif /* __cplusplus */ #endif /* __FaxReceiptOptions_FWD_DEFINED__ */ #ifndef __FaxSecurity_FWD_DEFINED__ #define __FaxSecurity_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxSecurity FaxSecurity; #else typedef struct FaxSecurity FaxSecurity; #endif /* __cplusplus */ #endif /* __FaxSecurity_FWD_DEFINED__ */ #ifndef __FaxDocument_FWD_DEFINED__ #define __FaxDocument_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDocument FaxDocument; #else typedef struct FaxDocument FaxDocument; #endif /* __cplusplus */ #endif /* __FaxDocument_FWD_DEFINED__ */ #ifndef __FaxSender_FWD_DEFINED__ #define __FaxSender_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxSender FaxSender; #else typedef struct FaxSender FaxSender; #endif /* __cplusplus */ #endif /* __FaxSender_FWD_DEFINED__ */ #ifndef __FaxRecipients_FWD_DEFINED__ #define __FaxRecipients_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxRecipients FaxRecipients; #else typedef struct FaxRecipients FaxRecipients; #endif /* __cplusplus */ #endif /* __FaxRecipients_FWD_DEFINED__ */ #ifndef __FaxIncomingArchive_FWD_DEFINED__ #define __FaxIncomingArchive_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingArchive FaxIncomingArchive; #else typedef struct FaxIncomingArchive FaxIncomingArchive; #endif /* __cplusplus */ #endif /* __FaxIncomingArchive_FWD_DEFINED__ */ #ifndef __FaxIncomingQueue_FWD_DEFINED__ #define __FaxIncomingQueue_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingQueue FaxIncomingQueue; #else typedef struct FaxIncomingQueue FaxIncomingQueue; #endif /* __cplusplus */ #endif /* __FaxIncomingQueue_FWD_DEFINED__ */ #ifndef __FaxOutgoingArchive_FWD_DEFINED__ #define __FaxOutgoingArchive_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingArchive FaxOutgoingArchive; #else typedef struct FaxOutgoingArchive FaxOutgoingArchive; #endif /* __cplusplus */ #endif /* __FaxOutgoingArchive_FWD_DEFINED__ */ #ifndef __FaxOutgoingQueue_FWD_DEFINED__ #define __FaxOutgoingQueue_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingQueue FaxOutgoingQueue; #else typedef struct FaxOutgoingQueue FaxOutgoingQueue; #endif /* __cplusplus */ #endif /* __FaxOutgoingQueue_FWD_DEFINED__ */ #ifndef __FaxIncomingMessageIterator_FWD_DEFINED__ #define __FaxIncomingMessageIterator_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingMessageIterator FaxIncomingMessageIterator; #else typedef struct FaxIncomingMessageIterator FaxIncomingMessageIterator; #endif /* __cplusplus */ #endif /* __FaxIncomingMessageIterator_FWD_DEFINED__ */ #ifndef __FaxIncomingMessage_FWD_DEFINED__ #define __FaxIncomingMessage_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingMessage FaxIncomingMessage; #else typedef struct FaxIncomingMessage FaxIncomingMessage; #endif /* __cplusplus */ #endif /* __FaxIncomingMessage_FWD_DEFINED__ */ #ifndef __FaxOutgoingJobs_FWD_DEFINED__ #define __FaxOutgoingJobs_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingJobs FaxOutgoingJobs; #else typedef struct FaxOutgoingJobs FaxOutgoingJobs; #endif /* __cplusplus */ #endif /* __FaxOutgoingJobs_FWD_DEFINED__ */ #ifndef __FaxOutgoingJob_FWD_DEFINED__ #define __FaxOutgoingJob_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingJob FaxOutgoingJob; #else typedef struct FaxOutgoingJob FaxOutgoingJob; #endif /* __cplusplus */ #endif /* __FaxOutgoingJob_FWD_DEFINED__ */ #ifndef __FaxOutgoingMessageIterator_FWD_DEFINED__ #define __FaxOutgoingMessageIterator_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingMessageIterator FaxOutgoingMessageIterator; #else typedef struct FaxOutgoingMessageIterator FaxOutgoingMessageIterator; #endif /* __cplusplus */ #endif /* __FaxOutgoingMessageIterator_FWD_DEFINED__ */ #ifndef __FaxOutgoingMessage_FWD_DEFINED__ #define __FaxOutgoingMessage_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutgoingMessage FaxOutgoingMessage; #else typedef struct FaxOutgoingMessage FaxOutgoingMessage; #endif /* __cplusplus */ #endif /* __FaxOutgoingMessage_FWD_DEFINED__ */ #ifndef __FaxIncomingJobs_FWD_DEFINED__ #define __FaxIncomingJobs_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingJobs FaxIncomingJobs; #else typedef struct FaxIncomingJobs FaxIncomingJobs; #endif /* __cplusplus */ #endif /* __FaxIncomingJobs_FWD_DEFINED__ */ #ifndef __FaxIncomingJob_FWD_DEFINED__ #define __FaxIncomingJob_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxIncomingJob FaxIncomingJob; #else typedef struct FaxIncomingJob FaxIncomingJob; #endif /* __cplusplus */ #endif /* __FaxIncomingJob_FWD_DEFINED__ */ #ifndef __FaxDeviceProvider_FWD_DEFINED__ #define __FaxDeviceProvider_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDeviceProvider FaxDeviceProvider; #else typedef struct FaxDeviceProvider FaxDeviceProvider; #endif /* __cplusplus */ #endif /* __FaxDeviceProvider_FWD_DEFINED__ */ #ifndef __FaxDevice_FWD_DEFINED__ #define __FaxDevice_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDevice FaxDevice; #else typedef struct FaxDevice FaxDevice; #endif /* __cplusplus */ #endif /* __FaxDevice_FWD_DEFINED__ */ #ifndef __FaxActivityLogging_FWD_DEFINED__ #define __FaxActivityLogging_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxActivityLogging FaxActivityLogging; #else typedef struct FaxActivityLogging FaxActivityLogging; #endif /* __cplusplus */ #endif /* __FaxActivityLogging_FWD_DEFINED__ */ #ifndef __FaxEventLogging_FWD_DEFINED__ #define __FaxEventLogging_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxEventLogging FaxEventLogging; #else typedef struct FaxEventLogging FaxEventLogging; #endif /* __cplusplus */ #endif /* __FaxEventLogging_FWD_DEFINED__ */ #ifndef __FaxOutboundRoutingGroups_FWD_DEFINED__ #define __FaxOutboundRoutingGroups_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutboundRoutingGroups FaxOutboundRoutingGroups; #else typedef struct FaxOutboundRoutingGroups FaxOutboundRoutingGroups; #endif /* __cplusplus */ #endif /* __FaxOutboundRoutingGroups_FWD_DEFINED__ */ #ifndef __FaxOutboundRoutingGroup_FWD_DEFINED__ #define __FaxOutboundRoutingGroup_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutboundRoutingGroup FaxOutboundRoutingGroup; #else typedef struct FaxOutboundRoutingGroup FaxOutboundRoutingGroup; #endif /* __cplusplus */ #endif /* __FaxOutboundRoutingGroup_FWD_DEFINED__ */ #ifndef __FaxDeviceIds_FWD_DEFINED__ #define __FaxDeviceIds_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxDeviceIds FaxDeviceIds; #else typedef struct FaxDeviceIds FaxDeviceIds; #endif /* __cplusplus */ #endif /* __FaxDeviceIds_FWD_DEFINED__ */ #ifndef __FaxOutboundRoutingRules_FWD_DEFINED__ #define __FaxOutboundRoutingRules_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutboundRoutingRules FaxOutboundRoutingRules; #else typedef struct FaxOutboundRoutingRules FaxOutboundRoutingRules; #endif /* __cplusplus */ #endif /* __FaxOutboundRoutingRules_FWD_DEFINED__ */ #ifndef __FaxOutboundRoutingRule_FWD_DEFINED__ #define __FaxOutboundRoutingRule_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxOutboundRoutingRule FaxOutboundRoutingRule; #else typedef struct FaxOutboundRoutingRule FaxOutboundRoutingRule; #endif /* __cplusplus */ #endif /* __FaxOutboundRoutingRule_FWD_DEFINED__ */ #ifndef __FaxInboundRoutingExtensions_FWD_DEFINED__ #define __FaxInboundRoutingExtensions_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxInboundRoutingExtensions FaxInboundRoutingExtensions; #else typedef struct FaxInboundRoutingExtensions FaxInboundRoutingExtensions; #endif /* __cplusplus */ #endif /* __FaxInboundRoutingExtensions_FWD_DEFINED__ */ #ifndef __FaxInboundRoutingExtension_FWD_DEFINED__ #define __FaxInboundRoutingExtension_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxInboundRoutingExtension FaxInboundRoutingExtension; #else typedef struct FaxInboundRoutingExtension FaxInboundRoutingExtension; #endif /* __cplusplus */ #endif /* __FaxInboundRoutingExtension_FWD_DEFINED__ */ #ifndef __FaxInboundRoutingMethods_FWD_DEFINED__ #define __FaxInboundRoutingMethods_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxInboundRoutingMethods FaxInboundRoutingMethods; #else typedef struct FaxInboundRoutingMethods FaxInboundRoutingMethods; #endif /* __cplusplus */ #endif /* __FaxInboundRoutingMethods_FWD_DEFINED__ */ #ifndef __FaxInboundRoutingMethod_FWD_DEFINED__ #define __FaxInboundRoutingMethod_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxInboundRoutingMethod FaxInboundRoutingMethod; #else typedef struct FaxInboundRoutingMethod FaxInboundRoutingMethod; #endif /* __cplusplus */ #endif /* __FaxInboundRoutingMethod_FWD_DEFINED__ */ #ifndef __FaxJobStatus_FWD_DEFINED__ #define __FaxJobStatus_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxJobStatus FaxJobStatus; #else typedef struct FaxJobStatus FaxJobStatus; #endif /* __cplusplus */ #endif /* __FaxJobStatus_FWD_DEFINED__ */ #ifndef __FaxRecipient_FWD_DEFINED__ #define __FaxRecipient_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxRecipient FaxRecipient; #else typedef struct FaxRecipient FaxRecipient; #endif /* __cplusplus */ #endif /* __FaxRecipient_FWD_DEFINED__ */ #ifndef __FaxConfiguration_FWD_DEFINED__ #define __FaxConfiguration_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxConfiguration FaxConfiguration; #else typedef struct FaxConfiguration FaxConfiguration; #endif /* __cplusplus */ #endif /* __FaxConfiguration_FWD_DEFINED__ */ #ifndef __FaxAccountSet_FWD_DEFINED__ #define __FaxAccountSet_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountSet FaxAccountSet; #else typedef struct FaxAccountSet FaxAccountSet; #endif /* __cplusplus */ #endif /* __FaxAccountSet_FWD_DEFINED__ */ #ifndef __FaxAccounts_FWD_DEFINED__ #define __FaxAccounts_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccounts FaxAccounts; #else typedef struct FaxAccounts FaxAccounts; #endif /* __cplusplus */ #endif /* __FaxAccounts_FWD_DEFINED__ */ #ifndef __FaxAccount_FWD_DEFINED__ #define __FaxAccount_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccount FaxAccount; #else typedef struct FaxAccount FaxAccount; #endif /* __cplusplus */ #endif /* __FaxAccount_FWD_DEFINED__ */ #ifndef __FaxAccountFolders_FWD_DEFINED__ #define __FaxAccountFolders_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountFolders FaxAccountFolders; #else typedef struct FaxAccountFolders FaxAccountFolders; #endif /* __cplusplus */ #endif /* __FaxAccountFolders_FWD_DEFINED__ */ #ifndef __FaxAccountIncomingQueue_FWD_DEFINED__ #define __FaxAccountIncomingQueue_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountIncomingQueue FaxAccountIncomingQueue; #else typedef struct FaxAccountIncomingQueue FaxAccountIncomingQueue; #endif /* __cplusplus */ #endif /* __FaxAccountIncomingQueue_FWD_DEFINED__ */ #ifndef __FaxAccountOutgoingQueue_FWD_DEFINED__ #define __FaxAccountOutgoingQueue_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountOutgoingQueue FaxAccountOutgoingQueue; #else typedef struct FaxAccountOutgoingQueue FaxAccountOutgoingQueue; #endif /* __cplusplus */ #endif /* __FaxAccountOutgoingQueue_FWD_DEFINED__ */ #ifndef __FaxAccountIncomingArchive_FWD_DEFINED__ #define __FaxAccountIncomingArchive_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountIncomingArchive FaxAccountIncomingArchive; #else typedef struct FaxAccountIncomingArchive FaxAccountIncomingArchive; #endif /* __cplusplus */ #endif /* __FaxAccountIncomingArchive_FWD_DEFINED__ */ #ifndef __FaxAccountOutgoingArchive_FWD_DEFINED__ #define __FaxAccountOutgoingArchive_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxAccountOutgoingArchive FaxAccountOutgoingArchive; #else typedef struct FaxAccountOutgoingArchive FaxAccountOutgoingArchive; #endif /* __cplusplus */ #endif /* __FaxAccountOutgoingArchive_FWD_DEFINED__ */ #ifndef __FaxSecurity2_FWD_DEFINED__ #define __FaxSecurity2_FWD_DEFINED__ #ifdef __cplusplus typedef class FaxSecurity2 FaxSecurity2; #else typedef struct FaxSecurity2 FaxSecurity2; #endif /* __cplusplus */ #endif /* __FaxSecurity2_FWD_DEFINED__ */ /* header files for imported files */ #include "oaidl.h" #include "ocidl.h" #ifdef __cplusplus extern "C"{ #endif /* interface __MIDL_itf_faxcomex_0000_0000 */ /* [local] */ #define prv_DEFAULT_PREFETCH_SIZE ( 100 ) extern RPC_IF_HANDLE __MIDL_itf_faxcomex_0000_0000_v0_0_c_ifspec; extern RPC_IF_HANDLE __MIDL_itf_faxcomex_0000_0000_v0_0_s_ifspec; #ifndef __IFaxJobStatus_INTERFACE_DEFINED__ #define __IFaxJobStatus_INTERFACE_DEFINED__ /* interface IFaxJobStatus */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_JOB_STATUS_ENUM { fjsPENDING = 0x1, fjsINPROGRESS = 0x2, fjsFAILED = 0x8, fjsPAUSED = 0x10, fjsNOLINE = 0x20, fjsRETRYING = 0x40, fjsRETRIES_EXCEEDED = 0x80, fjsCOMPLETED = 0x100, fjsCANCELED = 0x200, fjsCANCELING = 0x400, fjsROUTING = 0x800 } FAX_JOB_STATUS_ENUM; typedef enum FAX_JOB_EXTENDED_STATUS_ENUM { fjesNONE = 0, fjesDISCONNECTED = ( fjesNONE + 1 ) , fjesINITIALIZING = ( fjesDISCONNECTED + 1 ) , fjesDIALING = ( fjesINITIALIZING + 1 ) , fjesTRANSMITTING = ( fjesDIALING + 1 ) , fjesANSWERED = ( fjesTRANSMITTING + 1 ) , fjesRECEIVING = ( fjesANSWERED + 1 ) , fjesLINE_UNAVAILABLE = ( fjesRECEIVING + 1 ) , fjesBUSY = ( fjesLINE_UNAVAILABLE + 1 ) , fjesNO_ANSWER = ( fjesBUSY + 1 ) , fjesBAD_ADDRESS = ( fjesNO_ANSWER + 1 ) , fjesNO_DIAL_TONE = ( fjesBAD_ADDRESS + 1 ) , fjesFATAL_ERROR = ( fjesNO_DIAL_TONE + 1 ) , fjesCALL_DELAYED = ( fjesFATAL_ERROR + 1 ) , fjesCALL_BLACKLISTED = ( fjesCALL_DELAYED + 1 ) , fjesNOT_FAX_CALL = ( fjesCALL_BLACKLISTED + 1 ) , fjesPARTIALLY_RECEIVED = ( fjesNOT_FAX_CALL + 1 ) , fjesHANDLED = ( fjesPARTIALLY_RECEIVED + 1 ) , fjesCALL_COMPLETED = ( fjesHANDLED + 1 ) , fjesCALL_ABORTED = ( fjesCALL_COMPLETED + 1 ) , fjesPROPRIETARY = 0x1000000 } FAX_JOB_EXTENDED_STATUS_ENUM; typedef enum FAX_JOB_OPERATIONS_ENUM { fjoVIEW = 0x1, fjoPAUSE = 0x2, fjoRESUME = 0x4, fjoRESTART = 0x8, fjoDELETE = 0x10, fjoRECIPIENT_INFO = 0x20, fjoSENDER_INFO = 0x40 } FAX_JOB_OPERATIONS_ENUM; typedef enum FAX_JOB_TYPE_ENUM { fjtSEND = 0, fjtRECEIVE = ( fjtSEND + 1 ) , fjtROUTING = ( fjtRECEIVE + 1 ) } FAX_JOB_TYPE_ENUM; EXTERN_C const IID IID_IFaxJobStatus; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("8B86F485-FD7F-4824-886B-40C5CAA617CC") IFaxJobStatus : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Pages( /* [retval][out] */ __RPC__out long *plPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Size( /* [retval][out] */ __RPC__out long *plSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CurrentPage( /* [retval][out] */ __RPC__out long *plCurrentPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceId( /* [retval][out] */ __RPC__out long *plDeviceId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatusCode( /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatus( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AvailableOperations( /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_JobType( /* [retval][out] */ __RPC__out FAX_JOB_TYPE_ENUM *pJobType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ScheduledTime( /* [retval][out] */ __RPC__out DATE *pdateScheduledTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionStart( /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionEnd( /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CallerId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RoutingInformation( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation) = 0; }; #else /* C style interface */ typedef struct IFaxJobStatusVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxJobStatus * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxJobStatus * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxJobStatus * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxJobStatus * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxJobStatus * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxJobStatus * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxJobStatus * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CurrentPage )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out long *plCurrentPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceId )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out long *plDeviceId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatusCode )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatus )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AvailableOperations )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_JobType )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out FAX_JOB_TYPE_ENUM *pJobType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduledTime )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out DATE *pdateScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallerId )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RoutingInformation )( __RPC__in IFaxJobStatus * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation); END_INTERFACE } IFaxJobStatusVtbl; interface IFaxJobStatus { CONST_VTBL struct IFaxJobStatusVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxJobStatus_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxJobStatus_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxJobStatus_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxJobStatus_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxJobStatus_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxJobStatus_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxJobStatus_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxJobStatus_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxJobStatus_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxJobStatus_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxJobStatus_get_CurrentPage(This,plCurrentPage) \ ( (This)->lpVtbl -> get_CurrentPage(This,plCurrentPage) ) #define IFaxJobStatus_get_DeviceId(This,plDeviceId) \ ( (This)->lpVtbl -> get_DeviceId(This,plDeviceId) ) #define IFaxJobStatus_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxJobStatus_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxJobStatus_get_ExtendedStatusCode(This,pExtendedStatusCode) \ ( (This)->lpVtbl -> get_ExtendedStatusCode(This,pExtendedStatusCode) ) #define IFaxJobStatus_get_ExtendedStatus(This,pbstrExtendedStatus) \ ( (This)->lpVtbl -> get_ExtendedStatus(This,pbstrExtendedStatus) ) #define IFaxJobStatus_get_AvailableOperations(This,pAvailableOperations) \ ( (This)->lpVtbl -> get_AvailableOperations(This,pAvailableOperations) ) #define IFaxJobStatus_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxJobStatus_get_JobType(This,pJobType) \ ( (This)->lpVtbl -> get_JobType(This,pJobType) ) #define IFaxJobStatus_get_ScheduledTime(This,pdateScheduledTime) \ ( (This)->lpVtbl -> get_ScheduledTime(This,pdateScheduledTime) ) #define IFaxJobStatus_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxJobStatus_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxJobStatus_get_CallerId(This,pbstrCallerId) \ ( (This)->lpVtbl -> get_CallerId(This,pbstrCallerId) ) #define IFaxJobStatus_get_RoutingInformation(This,pbstrRoutingInformation) \ ( (This)->lpVtbl -> get_RoutingInformation(This,pbstrRoutingInformation) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxJobStatus_INTERFACE_DEFINED__ */ #ifndef __IFaxServer_INTERFACE_DEFINED__ #define __IFaxServer_INTERFACE_DEFINED__ /* interface IFaxServer */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ typedef enum FAX_SERVER_EVENTS_TYPE_ENUM { fsetNONE = 0, fsetIN_QUEUE = 0x1, fsetOUT_QUEUE = 0x2, fsetCONFIG = 0x4, fsetACTIVITY = 0x8, fsetQUEUE_STATE = 0x10, fsetIN_ARCHIVE = 0x20, fsetOUT_ARCHIVE = 0x40, fsetFXSSVC_ENDED = 0x80, fsetDEVICE_STATUS = 0x100, fsetINCOMING_CALL = 0x200 } FAX_SERVER_EVENTS_TYPE_ENUM; typedef enum FAX_SERVER_APIVERSION_ENUM { fsAPI_VERSION_0 = 0, fsAPI_VERSION_1 = 0x10000, fsAPI_VERSION_2 = 0x20000, fsAPI_VERSION_3 = 0x30000 } FAX_SERVER_APIVERSION_ENUM; EXTERN_C const IID IID_IFaxServer; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("475B6469-90A5-4878-A577-17A86E8E3462") IFaxServer : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Connect( /* [in] */ __RPC__in BSTR bstrServerName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ServerName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrServerName) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetDeviceProviders( /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceProviders **ppFaxDeviceProviders) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetDevices( /* [retval][out] */ __RPC__deref_out_opt IFaxDevices **ppFaxDevices) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InboundRouting( /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRouting **ppFaxInboundRouting) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Folders( /* [retval][out] */ __RPC__deref_out_opt IFaxFolders **pFaxFolders) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LoggingOptions( /* [retval][out] */ __RPC__deref_out_opt IFaxLoggingOptions **ppFaxLoggingOptions) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorVersion( /* [retval][out] */ __RPC__out long *plMajorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorVersion( /* [retval][out] */ __RPC__out long *plMinorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorBuild( /* [retval][out] */ __RPC__out long *plMajorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorBuild( /* [retval][out] */ __RPC__out long *plMinorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Debug( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Activity( /* [retval][out] */ __RPC__deref_out_opt IFaxActivity **ppFaxActivity) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutboundRouting( /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRouting **ppFaxOutboundRouting) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptOptions( /* [retval][out] */ __RPC__deref_out_opt IFaxReceiptOptions **ppFaxReceiptOptions) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Security( /* [retval][out] */ __RPC__deref_out_opt IFaxSecurity **ppFaxSecurity) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Disconnect( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetExtensionProperty( /* [in] */ __RPC__in BSTR bstrGUID, /* [retval][out] */ __RPC__out VARIANT *pvProperty) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE SetExtensionProperty( /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ VARIANT vProperty) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ListenToServerEvents( /* [in] */ FAX_SERVER_EVENTS_TYPE_ENUM EventTypes) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE RegisterDeviceProvider( /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ __RPC__in BSTR TspName, /* [in] */ long lFSPIVersion) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE UnregisterDeviceProvider( /* [in] */ __RPC__in BSTR bstrUniqueName) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE RegisterInboundRoutingExtension( /* [in] */ __RPC__in BSTR bstrExtensionName, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ VARIANT vMethods) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE UnregisterInboundRoutingExtension( /* [in] */ __RPC__in BSTR bstrExtensionUniqueName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RegisteredEvents( /* [retval][out] */ __RPC__out FAX_SERVER_EVENTS_TYPE_ENUM *pEventTypes) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_APIVersion( /* [retval][out] */ __RPC__out FAX_SERVER_APIVERSION_ENUM *pAPIVersion) = 0; }; #else /* C style interface */ typedef struct IFaxServerVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxServer * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxServer * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxServer * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxServer * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxServer * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Connect )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrServerName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ServerName )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrServerName); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetDeviceProviders )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceProviders **ppFaxDeviceProviders); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetDevices )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxDevices **ppFaxDevices); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InboundRouting )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRouting **ppFaxInboundRouting); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Folders )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxFolders **pFaxFolders); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LoggingOptions )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxLoggingOptions **ppFaxLoggingOptions); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorVersion )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out long *plMajorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorVersion )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out long *plMinorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorBuild )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out long *plMajorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorBuild )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out long *plMinorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Debug )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Activity )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxActivity **ppFaxActivity); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutboundRouting )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRouting **ppFaxOutboundRouting); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptOptions )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxReceiptOptions **ppFaxReceiptOptions); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Security )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSecurity **ppFaxSecurity); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Disconnect )( __RPC__in IFaxServer * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetExtensionProperty )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [retval][out] */ __RPC__out VARIANT *pvProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *SetExtensionProperty )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ VARIANT vProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ListenToServerEvents )( __RPC__in IFaxServer * This, /* [in] */ FAX_SERVER_EVENTS_TYPE_ENUM EventTypes); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RegisterDeviceProvider )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ __RPC__in BSTR TspName, /* [in] */ long lFSPIVersion); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *UnregisterDeviceProvider )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrUniqueName); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RegisterInboundRoutingExtension )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrExtensionName, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ VARIANT vMethods); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *UnregisterInboundRoutingExtension )( __RPC__in IFaxServer * This, /* [in] */ __RPC__in BSTR bstrExtensionUniqueName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RegisteredEvents )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out FAX_SERVER_EVENTS_TYPE_ENUM *pEventTypes); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_APIVersion )( __RPC__in IFaxServer * This, /* [retval][out] */ __RPC__out FAX_SERVER_APIVERSION_ENUM *pAPIVersion); END_INTERFACE } IFaxServerVtbl; interface IFaxServer { CONST_VTBL struct IFaxServerVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxServer_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxServer_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxServer_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxServer_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxServer_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxServer_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxServer_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxServer_Connect(This,bstrServerName) \ ( (This)->lpVtbl -> Connect(This,bstrServerName) ) #define IFaxServer_get_ServerName(This,pbstrServerName) \ ( (This)->lpVtbl -> get_ServerName(This,pbstrServerName) ) #define IFaxServer_GetDeviceProviders(This,ppFaxDeviceProviders) \ ( (This)->lpVtbl -> GetDeviceProviders(This,ppFaxDeviceProviders) ) #define IFaxServer_GetDevices(This,ppFaxDevices) \ ( (This)->lpVtbl -> GetDevices(This,ppFaxDevices) ) #define IFaxServer_get_InboundRouting(This,ppFaxInboundRouting) \ ( (This)->lpVtbl -> get_InboundRouting(This,ppFaxInboundRouting) ) #define IFaxServer_get_Folders(This,pFaxFolders) \ ( (This)->lpVtbl -> get_Folders(This,pFaxFolders) ) #define IFaxServer_get_LoggingOptions(This,ppFaxLoggingOptions) \ ( (This)->lpVtbl -> get_LoggingOptions(This,ppFaxLoggingOptions) ) #define IFaxServer_get_MajorVersion(This,plMajorVersion) \ ( (This)->lpVtbl -> get_MajorVersion(This,plMajorVersion) ) #define IFaxServer_get_MinorVersion(This,plMinorVersion) \ ( (This)->lpVtbl -> get_MinorVersion(This,plMinorVersion) ) #define IFaxServer_get_MajorBuild(This,plMajorBuild) \ ( (This)->lpVtbl -> get_MajorBuild(This,plMajorBuild) ) #define IFaxServer_get_MinorBuild(This,plMinorBuild) \ ( (This)->lpVtbl -> get_MinorBuild(This,plMinorBuild) ) #define IFaxServer_get_Debug(This,pbDebug) \ ( (This)->lpVtbl -> get_Debug(This,pbDebug) ) #define IFaxServer_get_Activity(This,ppFaxActivity) \ ( (This)->lpVtbl -> get_Activity(This,ppFaxActivity) ) #define IFaxServer_get_OutboundRouting(This,ppFaxOutboundRouting) \ ( (This)->lpVtbl -> get_OutboundRouting(This,ppFaxOutboundRouting) ) #define IFaxServer_get_ReceiptOptions(This,ppFaxReceiptOptions) \ ( (This)->lpVtbl -> get_ReceiptOptions(This,ppFaxReceiptOptions) ) #define IFaxServer_get_Security(This,ppFaxSecurity) \ ( (This)->lpVtbl -> get_Security(This,ppFaxSecurity) ) #define IFaxServer_Disconnect(This) \ ( (This)->lpVtbl -> Disconnect(This) ) #define IFaxServer_GetExtensionProperty(This,bstrGUID,pvProperty) \ ( (This)->lpVtbl -> GetExtensionProperty(This,bstrGUID,pvProperty) ) #define IFaxServer_SetExtensionProperty(This,bstrGUID,vProperty) \ ( (This)->lpVtbl -> SetExtensionProperty(This,bstrGUID,vProperty) ) #define IFaxServer_ListenToServerEvents(This,EventTypes) \ ( (This)->lpVtbl -> ListenToServerEvents(This,EventTypes) ) #define IFaxServer_RegisterDeviceProvider(This,bstrGUID,bstrFriendlyName,bstrImageName,TspName,lFSPIVersion) \ ( (This)->lpVtbl -> RegisterDeviceProvider(This,bstrGUID,bstrFriendlyName,bstrImageName,TspName,lFSPIVersion) ) #define IFaxServer_UnregisterDeviceProvider(This,bstrUniqueName) \ ( (This)->lpVtbl -> UnregisterDeviceProvider(This,bstrUniqueName) ) #define IFaxServer_RegisterInboundRoutingExtension(This,bstrExtensionName,bstrFriendlyName,bstrImageName,vMethods) \ ( (This)->lpVtbl -> RegisterInboundRoutingExtension(This,bstrExtensionName,bstrFriendlyName,bstrImageName,vMethods) ) #define IFaxServer_UnregisterInboundRoutingExtension(This,bstrExtensionUniqueName) \ ( (This)->lpVtbl -> UnregisterInboundRoutingExtension(This,bstrExtensionUniqueName) ) #define IFaxServer_get_RegisteredEvents(This,pEventTypes) \ ( (This)->lpVtbl -> get_RegisteredEvents(This,pEventTypes) ) #define IFaxServer_get_APIVersion(This,pAPIVersion) \ ( (This)->lpVtbl -> get_APIVersion(This,pAPIVersion) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxServer_INTERFACE_DEFINED__ */ #ifndef __IFaxDeviceProviders_INTERFACE_DEFINED__ #define __IFaxDeviceProviders_INTERFACE_DEFINED__ /* interface IFaxDeviceProviders */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxDeviceProviders; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("9FB76F62-4C7E-43A5-B6FD-502893F7E13E") IFaxDeviceProviders : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceProvider **pFaxDeviceProvider) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxDeviceProvidersVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDeviceProviders * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDeviceProviders * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDeviceProviders * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDeviceProviders * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDeviceProviders * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDeviceProviders * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDeviceProviders * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxDeviceProviders * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxDeviceProviders * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceProvider **pFaxDeviceProvider); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxDeviceProviders * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxDeviceProvidersVtbl; interface IFaxDeviceProviders { CONST_VTBL struct IFaxDeviceProvidersVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDeviceProviders_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDeviceProviders_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDeviceProviders_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDeviceProviders_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDeviceProviders_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDeviceProviders_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDeviceProviders_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDeviceProviders_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxDeviceProviders_get_Item(This,vIndex,pFaxDeviceProvider) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxDeviceProvider) ) #define IFaxDeviceProviders_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDeviceProviders_INTERFACE_DEFINED__ */ #ifndef __IFaxDevices_INTERFACE_DEFINED__ #define __IFaxDevices_INTERFACE_DEFINED__ /* interface IFaxDevices */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxDevices; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("9E46783E-F34F-482E-A360-0416BECBBD96") IFaxDevices : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxDevice **pFaxDevice) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; virtual /* [propget][helpstring][id] */ HRESULT STDMETHODCALLTYPE get_ItemById( /* [in] */ long lId, /* [retval][out] */ __RPC__deref_out_opt IFaxDevice **ppFaxDevice) = 0; }; #else /* C style interface */ typedef struct IFaxDevicesVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDevices * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDevices * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDevices * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDevices * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDevices * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDevices * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDevices * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxDevices * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxDevices * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxDevice **pFaxDevice); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxDevices * This, /* [retval][out] */ __RPC__out long *plCount); /* [propget][helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *get_ItemById )( __RPC__in IFaxDevices * This, /* [in] */ long lId, /* [retval][out] */ __RPC__deref_out_opt IFaxDevice **ppFaxDevice); END_INTERFACE } IFaxDevicesVtbl; interface IFaxDevices { CONST_VTBL struct IFaxDevicesVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDevices_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDevices_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDevices_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDevices_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDevices_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDevices_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDevices_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDevices_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxDevices_get_Item(This,vIndex,pFaxDevice) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxDevice) ) #define IFaxDevices_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #define IFaxDevices_get_ItemById(This,lId,ppFaxDevice) \ ( (This)->lpVtbl -> get_ItemById(This,lId,ppFaxDevice) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDevices_INTERFACE_DEFINED__ */ #ifndef __IFaxInboundRouting_INTERFACE_DEFINED__ #define __IFaxInboundRouting_INTERFACE_DEFINED__ /* interface IFaxInboundRouting */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxInboundRouting; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("8148C20F-9D52-45B1-BF96-38FC12713527") IFaxInboundRouting : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetExtensions( /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingExtensions **pFaxInboundRoutingExtensions) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMethods( /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingMethods **pFaxInboundRoutingMethods) = 0; }; #else /* C style interface */ typedef struct IFaxInboundRoutingVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxInboundRouting * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxInboundRouting * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxInboundRouting * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxInboundRouting * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxInboundRouting * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxInboundRouting * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxInboundRouting * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetExtensions )( __RPC__in IFaxInboundRouting * This, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingExtensions **pFaxInboundRoutingExtensions); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMethods )( __RPC__in IFaxInboundRouting * This, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingMethods **pFaxInboundRoutingMethods); END_INTERFACE } IFaxInboundRoutingVtbl; interface IFaxInboundRouting { CONST_VTBL struct IFaxInboundRoutingVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxInboundRouting_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxInboundRouting_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxInboundRouting_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxInboundRouting_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxInboundRouting_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxInboundRouting_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxInboundRouting_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxInboundRouting_GetExtensions(This,pFaxInboundRoutingExtensions) \ ( (This)->lpVtbl -> GetExtensions(This,pFaxInboundRoutingExtensions) ) #define IFaxInboundRouting_GetMethods(This,pFaxInboundRoutingMethods) \ ( (This)->lpVtbl -> GetMethods(This,pFaxInboundRoutingMethods) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxInboundRouting_INTERFACE_DEFINED__ */ #ifndef __IFaxFolders_INTERFACE_DEFINED__ #define __IFaxFolders_INTERFACE_DEFINED__ /* interface IFaxFolders */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxFolders; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("DCE3B2A8-A7AB-42BC-9D0A-3149457261A0") IFaxFolders : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingQueue( /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingQueue **pFaxOutgoingQueue) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingQueue( /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingQueue **pFaxIncomingQueue) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingArchive( /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingArchive **pFaxIncomingArchive) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingArchive( /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingArchive **pFaxOutgoingArchive) = 0; }; #else /* C style interface */ typedef struct IFaxFoldersVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxFolders * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxFolders * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxFolders * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxFolders * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxFolders * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxFolders * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxFolders * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingQueue )( __RPC__in IFaxFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingQueue **pFaxOutgoingQueue); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingQueue )( __RPC__in IFaxFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingQueue **pFaxIncomingQueue); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingArchive )( __RPC__in IFaxFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingArchive **pFaxIncomingArchive); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingArchive )( __RPC__in IFaxFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingArchive **pFaxOutgoingArchive); END_INTERFACE } IFaxFoldersVtbl; interface IFaxFolders { CONST_VTBL struct IFaxFoldersVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxFolders_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxFolders_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxFolders_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxFolders_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxFolders_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxFolders_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxFolders_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxFolders_get_OutgoingQueue(This,pFaxOutgoingQueue) \ ( (This)->lpVtbl -> get_OutgoingQueue(This,pFaxOutgoingQueue) ) #define IFaxFolders_get_IncomingQueue(This,pFaxIncomingQueue) \ ( (This)->lpVtbl -> get_IncomingQueue(This,pFaxIncomingQueue) ) #define IFaxFolders_get_IncomingArchive(This,pFaxIncomingArchive) \ ( (This)->lpVtbl -> get_IncomingArchive(This,pFaxIncomingArchive) ) #define IFaxFolders_get_OutgoingArchive(This,pFaxOutgoingArchive) \ ( (This)->lpVtbl -> get_OutgoingArchive(This,pFaxOutgoingArchive) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxFolders_INTERFACE_DEFINED__ */ #ifndef __IFaxLoggingOptions_INTERFACE_DEFINED__ #define __IFaxLoggingOptions_INTERFACE_DEFINED__ /* interface IFaxLoggingOptions */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxLoggingOptions; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("34E64FB9-6B31-4D32-8B27-D286C0C33606") IFaxLoggingOptions : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_EventLogging( /* [retval][out] */ __RPC__deref_out_opt IFaxEventLogging **pFaxEventLogging) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ActivityLogging( /* [retval][out] */ __RPC__deref_out_opt IFaxActivityLogging **pFaxActivityLogging) = 0; }; #else /* C style interface */ typedef struct IFaxLoggingOptionsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxLoggingOptions * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxLoggingOptions * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxLoggingOptions * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxLoggingOptions * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxLoggingOptions * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxLoggingOptions * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxLoggingOptions * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_EventLogging )( __RPC__in IFaxLoggingOptions * This, /* [retval][out] */ __RPC__deref_out_opt IFaxEventLogging **pFaxEventLogging); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ActivityLogging )( __RPC__in IFaxLoggingOptions * This, /* [retval][out] */ __RPC__deref_out_opt IFaxActivityLogging **pFaxActivityLogging); END_INTERFACE } IFaxLoggingOptionsVtbl; interface IFaxLoggingOptions { CONST_VTBL struct IFaxLoggingOptionsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxLoggingOptions_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxLoggingOptions_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxLoggingOptions_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxLoggingOptions_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxLoggingOptions_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxLoggingOptions_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxLoggingOptions_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxLoggingOptions_get_EventLogging(This,pFaxEventLogging) \ ( (This)->lpVtbl -> get_EventLogging(This,pFaxEventLogging) ) #define IFaxLoggingOptions_get_ActivityLogging(This,pFaxActivityLogging) \ ( (This)->lpVtbl -> get_ActivityLogging(This,pFaxActivityLogging) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxLoggingOptions_INTERFACE_DEFINED__ */ #ifndef __IFaxActivity_INTERFACE_DEFINED__ #define __IFaxActivity_INTERFACE_DEFINED__ /* interface IFaxActivity */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxActivity; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("4B106F97-3DF5-40F2-BC3C-44CB8115EBDF") IFaxActivity : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingMessages( /* [retval][out] */ __RPC__out long *plIncomingMessages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RoutingMessages( /* [retval][out] */ __RPC__out long *plRoutingMessages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingMessages( /* [retval][out] */ __RPC__out long *plOutgoingMessages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_QueuedMessages( /* [retval][out] */ __RPC__out long *plQueuedMessages) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; }; #else /* C style interface */ typedef struct IFaxActivityVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxActivity * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxActivity * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxActivity * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxActivity * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxActivity * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxActivity * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxActivity * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingMessages )( __RPC__in IFaxActivity * This, /* [retval][out] */ __RPC__out long *plIncomingMessages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RoutingMessages )( __RPC__in IFaxActivity * This, /* [retval][out] */ __RPC__out long *plRoutingMessages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingMessages )( __RPC__in IFaxActivity * This, /* [retval][out] */ __RPC__out long *plOutgoingMessages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_QueuedMessages )( __RPC__in IFaxActivity * This, /* [retval][out] */ __RPC__out long *plQueuedMessages); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxActivity * This); END_INTERFACE } IFaxActivityVtbl; interface IFaxActivity { CONST_VTBL struct IFaxActivityVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxActivity_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxActivity_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxActivity_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxActivity_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxActivity_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxActivity_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxActivity_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxActivity_get_IncomingMessages(This,plIncomingMessages) \ ( (This)->lpVtbl -> get_IncomingMessages(This,plIncomingMessages) ) #define IFaxActivity_get_RoutingMessages(This,plRoutingMessages) \ ( (This)->lpVtbl -> get_RoutingMessages(This,plRoutingMessages) ) #define IFaxActivity_get_OutgoingMessages(This,plOutgoingMessages) \ ( (This)->lpVtbl -> get_OutgoingMessages(This,plOutgoingMessages) ) #define IFaxActivity_get_QueuedMessages(This,plQueuedMessages) \ ( (This)->lpVtbl -> get_QueuedMessages(This,plQueuedMessages) ) #define IFaxActivity_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxActivity_INTERFACE_DEFINED__ */ #ifndef __IFaxOutboundRouting_INTERFACE_DEFINED__ #define __IFaxOutboundRouting_INTERFACE_DEFINED__ /* interface IFaxOutboundRouting */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutboundRouting; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("25DC05A4-9909-41BD-A95B-7E5D1DEC1D43") IFaxOutboundRouting : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetGroups( /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroups **pFaxOutboundRoutingGroups) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetRules( /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRules **pFaxOutboundRoutingRules) = 0; }; #else /* C style interface */ typedef struct IFaxOutboundRoutingVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutboundRouting * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutboundRouting * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutboundRouting * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutboundRouting * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutboundRouting * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutboundRouting * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutboundRouting * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetGroups )( __RPC__in IFaxOutboundRouting * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroups **pFaxOutboundRoutingGroups); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetRules )( __RPC__in IFaxOutboundRouting * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRules **pFaxOutboundRoutingRules); END_INTERFACE } IFaxOutboundRoutingVtbl; interface IFaxOutboundRouting { CONST_VTBL struct IFaxOutboundRoutingVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutboundRouting_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutboundRouting_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutboundRouting_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutboundRouting_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutboundRouting_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutboundRouting_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutboundRouting_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutboundRouting_GetGroups(This,pFaxOutboundRoutingGroups) \ ( (This)->lpVtbl -> GetGroups(This,pFaxOutboundRoutingGroups) ) #define IFaxOutboundRouting_GetRules(This,pFaxOutboundRoutingRules) \ ( (This)->lpVtbl -> GetRules(This,pFaxOutboundRoutingRules) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutboundRouting_INTERFACE_DEFINED__ */ #ifndef __IFaxReceiptOptions_INTERFACE_DEFINED__ #define __IFaxReceiptOptions_INTERFACE_DEFINED__ /* interface IFaxReceiptOptions */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ typedef enum FAX_SMTP_AUTHENTICATION_TYPE_ENUM { fsatANONYMOUS = 0, fsatBASIC = ( fsatANONYMOUS + 1 ) , fsatNTLM = ( fsatBASIC + 1 ) } FAX_SMTP_AUTHENTICATION_TYPE_ENUM; typedef enum FAX_RECEIPT_TYPE_ENUM { frtNONE = 0, frtMAIL = 0x1, frtMSGBOX = 0x4 } FAX_RECEIPT_TYPE_ENUM; EXTERN_C const IID IID_IFaxReceiptOptions; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("378EFAEB-5FCB-4AFB-B2EE-E16E80614487") IFaxReceiptOptions : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AuthenticationType( /* [retval][out] */ __RPC__out FAX_SMTP_AUTHENTICATION_TYPE_ENUM *pType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AuthenticationType( /* [in] */ FAX_SMTP_AUTHENTICATION_TYPE_ENUM Type) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SMTPServer( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPServer) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SMTPServer( /* [in] */ __RPC__in BSTR bstrSMTPServer) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SMTPPort( /* [retval][out] */ __RPC__out long *plSMTPPort) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SMTPPort( /* [in] */ long lSMTPPort) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SMTPSender( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPSender) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SMTPSender( /* [in] */ __RPC__in BSTR bstrSMTPSender) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SMTPUser( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPUser) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SMTPUser( /* [in] */ __RPC__in BSTR bstrSMTPUser) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AllowedReceipts( /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pAllowedReceipts) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AllowedReceipts( /* [in] */ FAX_RECEIPT_TYPE_ENUM AllowedReceipts) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SMTPPassword( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPPassword) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SMTPPassword( /* [in] */ __RPC__in BSTR bstrSMTPPassword) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseForInboundRouting( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseForInboundRouting) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseForInboundRouting( /* [in] */ VARIANT_BOOL bUseForInboundRouting) = 0; }; #else /* C style interface */ typedef struct IFaxReceiptOptionsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxReceiptOptions * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxReceiptOptions * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxReceiptOptions * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxReceiptOptions * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxReceiptOptions * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AuthenticationType )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__out FAX_SMTP_AUTHENTICATION_TYPE_ENUM *pType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AuthenticationType )( __RPC__in IFaxReceiptOptions * This, /* [in] */ FAX_SMTP_AUTHENTICATION_TYPE_ENUM Type); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SMTPServer )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPServer); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SMTPServer )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in BSTR bstrSMTPServer); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SMTPPort )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__out long *plSMTPPort); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SMTPPort )( __RPC__in IFaxReceiptOptions * This, /* [in] */ long lSMTPPort); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SMTPSender )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPSender); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SMTPSender )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in BSTR bstrSMTPSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SMTPUser )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPUser); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SMTPUser )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in BSTR bstrSMTPUser); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AllowedReceipts )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pAllowedReceipts); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AllowedReceipts )( __RPC__in IFaxReceiptOptions * This, /* [in] */ FAX_RECEIPT_TYPE_ENUM AllowedReceipts); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SMTPPassword )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSMTPPassword); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SMTPPassword )( __RPC__in IFaxReceiptOptions * This, /* [in] */ __RPC__in BSTR bstrSMTPPassword); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxReceiptOptions * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxReceiptOptions * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseForInboundRouting )( __RPC__in IFaxReceiptOptions * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseForInboundRouting); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseForInboundRouting )( __RPC__in IFaxReceiptOptions * This, /* [in] */ VARIANT_BOOL bUseForInboundRouting); END_INTERFACE } IFaxReceiptOptionsVtbl; interface IFaxReceiptOptions { CONST_VTBL struct IFaxReceiptOptionsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxReceiptOptions_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxReceiptOptions_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxReceiptOptions_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxReceiptOptions_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxReceiptOptions_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxReceiptOptions_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxReceiptOptions_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxReceiptOptions_get_AuthenticationType(This,pType) \ ( (This)->lpVtbl -> get_AuthenticationType(This,pType) ) #define IFaxReceiptOptions_put_AuthenticationType(This,Type) \ ( (This)->lpVtbl -> put_AuthenticationType(This,Type) ) #define IFaxReceiptOptions_get_SMTPServer(This,pbstrSMTPServer) \ ( (This)->lpVtbl -> get_SMTPServer(This,pbstrSMTPServer) ) #define IFaxReceiptOptions_put_SMTPServer(This,bstrSMTPServer) \ ( (This)->lpVtbl -> put_SMTPServer(This,bstrSMTPServer) ) #define IFaxReceiptOptions_get_SMTPPort(This,plSMTPPort) \ ( (This)->lpVtbl -> get_SMTPPort(This,plSMTPPort) ) #define IFaxReceiptOptions_put_SMTPPort(This,lSMTPPort) \ ( (This)->lpVtbl -> put_SMTPPort(This,lSMTPPort) ) #define IFaxReceiptOptions_get_SMTPSender(This,pbstrSMTPSender) \ ( (This)->lpVtbl -> get_SMTPSender(This,pbstrSMTPSender) ) #define IFaxReceiptOptions_put_SMTPSender(This,bstrSMTPSender) \ ( (This)->lpVtbl -> put_SMTPSender(This,bstrSMTPSender) ) #define IFaxReceiptOptions_get_SMTPUser(This,pbstrSMTPUser) \ ( (This)->lpVtbl -> get_SMTPUser(This,pbstrSMTPUser) ) #define IFaxReceiptOptions_put_SMTPUser(This,bstrSMTPUser) \ ( (This)->lpVtbl -> put_SMTPUser(This,bstrSMTPUser) ) #define IFaxReceiptOptions_get_AllowedReceipts(This,pAllowedReceipts) \ ( (This)->lpVtbl -> get_AllowedReceipts(This,pAllowedReceipts) ) #define IFaxReceiptOptions_put_AllowedReceipts(This,AllowedReceipts) \ ( (This)->lpVtbl -> put_AllowedReceipts(This,AllowedReceipts) ) #define IFaxReceiptOptions_get_SMTPPassword(This,pbstrSMTPPassword) \ ( (This)->lpVtbl -> get_SMTPPassword(This,pbstrSMTPPassword) ) #define IFaxReceiptOptions_put_SMTPPassword(This,bstrSMTPPassword) \ ( (This)->lpVtbl -> put_SMTPPassword(This,bstrSMTPPassword) ) #define IFaxReceiptOptions_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxReceiptOptions_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxReceiptOptions_get_UseForInboundRouting(This,pbUseForInboundRouting) \ ( (This)->lpVtbl -> get_UseForInboundRouting(This,pbUseForInboundRouting) ) #define IFaxReceiptOptions_put_UseForInboundRouting(This,bUseForInboundRouting) \ ( (This)->lpVtbl -> put_UseForInboundRouting(This,bUseForInboundRouting) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxReceiptOptions_INTERFACE_DEFINED__ */ #ifndef __IFaxSecurity_INTERFACE_DEFINED__ #define __IFaxSecurity_INTERFACE_DEFINED__ /* interface IFaxSecurity */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ typedef enum FAX_ACCESS_RIGHTS_ENUM { farSUBMIT_LOW = 0x1, farSUBMIT_NORMAL = 0x2, farSUBMIT_HIGH = 0x4, farQUERY_JOBS = 0x8, farMANAGE_JOBS = 0x10, farQUERY_CONFIG = 0x20, farMANAGE_CONFIG = 0x40, farQUERY_IN_ARCHIVE = 0x80, farMANAGE_IN_ARCHIVE = 0x100, farQUERY_OUT_ARCHIVE = 0x200, farMANAGE_OUT_ARCHIVE = 0x400 } FAX_ACCESS_RIGHTS_ENUM; EXTERN_C const IID IID_IFaxSecurity; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("77B508C1-09C0-47A2-91EB-FCE7FDF2690E") IFaxSecurity : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Descriptor( /* [retval][out] */ __RPC__out VARIANT *pvDescriptor) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Descriptor( /* [in] */ VARIANT vDescriptor) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GrantedRights( /* [retval][out] */ __RPC__out FAX_ACCESS_RIGHTS_ENUM *pGrantedRights) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InformationType( /* [retval][out] */ __RPC__out long *plInformationType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_InformationType( /* [in] */ long lInformationType) = 0; }; #else /* C style interface */ typedef struct IFaxSecurityVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxSecurity * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxSecurity * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxSecurity * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxSecurity * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxSecurity * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxSecurity * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxSecurity * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Descriptor )( __RPC__in IFaxSecurity * This, /* [retval][out] */ __RPC__out VARIANT *pvDescriptor); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Descriptor )( __RPC__in IFaxSecurity * This, /* [in] */ VARIANT vDescriptor); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GrantedRights )( __RPC__in IFaxSecurity * This, /* [retval][out] */ __RPC__out FAX_ACCESS_RIGHTS_ENUM *pGrantedRights); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxSecurity * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxSecurity * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InformationType )( __RPC__in IFaxSecurity * This, /* [retval][out] */ __RPC__out long *plInformationType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_InformationType )( __RPC__in IFaxSecurity * This, /* [in] */ long lInformationType); END_INTERFACE } IFaxSecurityVtbl; interface IFaxSecurity { CONST_VTBL struct IFaxSecurityVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxSecurity_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxSecurity_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxSecurity_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxSecurity_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxSecurity_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxSecurity_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxSecurity_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxSecurity_get_Descriptor(This,pvDescriptor) \ ( (This)->lpVtbl -> get_Descriptor(This,pvDescriptor) ) #define IFaxSecurity_put_Descriptor(This,vDescriptor) \ ( (This)->lpVtbl -> put_Descriptor(This,vDescriptor) ) #define IFaxSecurity_get_GrantedRights(This,pGrantedRights) \ ( (This)->lpVtbl -> get_GrantedRights(This,pGrantedRights) ) #define IFaxSecurity_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxSecurity_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxSecurity_get_InformationType(This,plInformationType) \ ( (This)->lpVtbl -> get_InformationType(This,plInformationType) ) #define IFaxSecurity_put_InformationType(This,lInformationType) \ ( (This)->lpVtbl -> put_InformationType(This,lInformationType) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxSecurity_INTERFACE_DEFINED__ */ #ifndef __IFaxDocument_INTERFACE_DEFINED__ #define __IFaxDocument_INTERFACE_DEFINED__ /* interface IFaxDocument */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ typedef enum FAX_PRIORITY_TYPE_ENUM { fptLOW = 0, fptNORMAL = ( fptLOW + 1 ) , fptHIGH = ( fptNORMAL + 1 ) } FAX_PRIORITY_TYPE_ENUM; typedef enum FAX_COVERPAGE_TYPE_ENUM { fcptNONE = 0, fcptLOCAL = ( fcptNONE + 1 ) , fcptSERVER = ( fcptLOCAL + 1 ) } FAX_COVERPAGE_TYPE_ENUM; typedef enum FAX_SCHEDULE_TYPE_ENUM { fstNOW = 0, fstSPECIFIC_TIME = ( fstNOW + 1 ) , fstDISCOUNT_PERIOD = ( fstSPECIFIC_TIME + 1 ) } FAX_SCHEDULE_TYPE_ENUM; EXTERN_C const IID IID_IFaxDocument; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("B207A246-09E3-4A4E-A7DC-FEA31D29458F") IFaxDocument : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Body( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrBody) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Body( /* [in] */ __RPC__in BSTR bstrBody) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Sender( /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Recipients( /* [retval][out] */ __RPC__deref_out_opt IFaxRecipients **ppFaxRecipients) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CoverPage( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCoverPage) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_CoverPage( /* [in] */ __RPC__in BSTR bstrCoverPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Subject( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Subject( /* [in] */ __RPC__in BSTR bstrSubject) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Note( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrNote) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Note( /* [in] */ __RPC__in BSTR bstrNote) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ScheduleTime( /* [retval][out] */ __RPC__out DATE *pdateScheduleTime) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ScheduleTime( /* [in] */ DATE dateScheduleTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptAddress( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ReceiptAddress( /* [in] */ __RPC__in BSTR bstrReceiptAddress) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DocumentName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DocumentName( /* [in] */ __RPC__in BSTR bstrDocumentName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CallHandle( /* [retval][out] */ __RPC__out long *plCallHandle) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_CallHandle( /* [in] */ long lCallHandle) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CoverPageType( /* [retval][out] */ __RPC__out FAX_COVERPAGE_TYPE_ENUM *pCoverPageType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_CoverPageType( /* [in] */ FAX_COVERPAGE_TYPE_ENUM CoverPageType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ScheduleType( /* [retval][out] */ __RPC__out FAX_SCHEDULE_TYPE_ENUM *pScheduleType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ScheduleType( /* [in] */ FAX_SCHEDULE_TYPE_ENUM ScheduleType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptType( /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ReceiptType( /* [in] */ FAX_RECEIPT_TYPE_ENUM ReceiptType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GroupBroadcastReceipts( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseGrouping) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_GroupBroadcastReceipts( /* [in] */ VARIANT_BOOL bUseGrouping) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Priority( /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Priority( /* [in] */ FAX_PRIORITY_TYPE_ENUM Priority) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TapiConnection( /* [retval][out] */ __RPC__deref_out_opt IDispatch **ppTapiConnection) = 0; virtual /* [helpstring][id][propputref] */ HRESULT STDMETHODCALLTYPE putref_TapiConnection( /* [in] */ __RPC__in_opt IDispatch *pTapiConnection) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Submit( /* [in] */ __RPC__in BSTR bstrFaxServerName, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ConnectedSubmit( /* [in] */ __RPC__in_opt IFaxServer *pFaxServer, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AttachFaxToReceipt( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAttachFax) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AttachFaxToReceipt( /* [in] */ VARIANT_BOOL bAttachFax) = 0; }; #else /* C style interface */ typedef struct IFaxDocumentVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDocument * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDocument * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDocument * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDocument * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDocument * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Body )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrBody); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Body )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrBody); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipients )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipients **ppFaxRecipients); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CoverPage )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCoverPage); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CoverPage )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrCoverPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Subject )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Note )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrNote); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Note )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrNote); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduleTime )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out DATE *pdateScheduleTime); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ScheduleTime )( __RPC__in IFaxDocument * This, /* [in] */ DATE dateScheduleTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptAddress )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ReceiptAddress )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrReceiptAddress); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DocumentName )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallHandle )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out long *plCallHandle); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CallHandle )( __RPC__in IFaxDocument * This, /* [in] */ long lCallHandle); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CoverPageType )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out FAX_COVERPAGE_TYPE_ENUM *pCoverPageType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CoverPageType )( __RPC__in IFaxDocument * This, /* [in] */ FAX_COVERPAGE_TYPE_ENUM CoverPageType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduleType )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out FAX_SCHEDULE_TYPE_ENUM *pScheduleType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ScheduleType )( __RPC__in IFaxDocument * This, /* [in] */ FAX_SCHEDULE_TYPE_ENUM ScheduleType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptType )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ReceiptType )( __RPC__in IFaxDocument * This, /* [in] */ FAX_RECEIPT_TYPE_ENUM ReceiptType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GroupBroadcastReceipts )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseGrouping); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_GroupBroadcastReceipts )( __RPC__in IFaxDocument * This, /* [in] */ VARIANT_BOOL bUseGrouping); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Priority )( __RPC__in IFaxDocument * This, /* [in] */ FAX_PRIORITY_TYPE_ENUM Priority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TapiConnection )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__deref_out_opt IDispatch **ppTapiConnection); /* [helpstring][id][propputref] */ HRESULT ( STDMETHODCALLTYPE *putref_TapiConnection )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in_opt IDispatch *pTapiConnection); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Submit )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in BSTR bstrFaxServerName, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ConnectedSubmit )( __RPC__in IFaxDocument * This, /* [in] */ __RPC__in_opt IFaxServer *pFaxServer, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AttachFaxToReceipt )( __RPC__in IFaxDocument * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAttachFax); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AttachFaxToReceipt )( __RPC__in IFaxDocument * This, /* [in] */ VARIANT_BOOL bAttachFax); END_INTERFACE } IFaxDocumentVtbl; interface IFaxDocument { CONST_VTBL struct IFaxDocumentVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDocument_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDocument_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDocument_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDocument_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDocument_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDocument_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDocument_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDocument_get_Body(This,pbstrBody) \ ( (This)->lpVtbl -> get_Body(This,pbstrBody) ) #define IFaxDocument_put_Body(This,bstrBody) \ ( (This)->lpVtbl -> put_Body(This,bstrBody) ) #define IFaxDocument_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxDocument_get_Recipients(This,ppFaxRecipients) \ ( (This)->lpVtbl -> get_Recipients(This,ppFaxRecipients) ) #define IFaxDocument_get_CoverPage(This,pbstrCoverPage) \ ( (This)->lpVtbl -> get_CoverPage(This,pbstrCoverPage) ) #define IFaxDocument_put_CoverPage(This,bstrCoverPage) \ ( (This)->lpVtbl -> put_CoverPage(This,bstrCoverPage) ) #define IFaxDocument_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxDocument_put_Subject(This,bstrSubject) \ ( (This)->lpVtbl -> put_Subject(This,bstrSubject) ) #define IFaxDocument_get_Note(This,pbstrNote) \ ( (This)->lpVtbl -> get_Note(This,pbstrNote) ) #define IFaxDocument_put_Note(This,bstrNote) \ ( (This)->lpVtbl -> put_Note(This,bstrNote) ) #define IFaxDocument_get_ScheduleTime(This,pdateScheduleTime) \ ( (This)->lpVtbl -> get_ScheduleTime(This,pdateScheduleTime) ) #define IFaxDocument_put_ScheduleTime(This,dateScheduleTime) \ ( (This)->lpVtbl -> put_ScheduleTime(This,dateScheduleTime) ) #define IFaxDocument_get_ReceiptAddress(This,pbstrReceiptAddress) \ ( (This)->lpVtbl -> get_ReceiptAddress(This,pbstrReceiptAddress) ) #define IFaxDocument_put_ReceiptAddress(This,bstrReceiptAddress) \ ( (This)->lpVtbl -> put_ReceiptAddress(This,bstrReceiptAddress) ) #define IFaxDocument_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxDocument_put_DocumentName(This,bstrDocumentName) \ ( (This)->lpVtbl -> put_DocumentName(This,bstrDocumentName) ) #define IFaxDocument_get_CallHandle(This,plCallHandle) \ ( (This)->lpVtbl -> get_CallHandle(This,plCallHandle) ) #define IFaxDocument_put_CallHandle(This,lCallHandle) \ ( (This)->lpVtbl -> put_CallHandle(This,lCallHandle) ) #define IFaxDocument_get_CoverPageType(This,pCoverPageType) \ ( (This)->lpVtbl -> get_CoverPageType(This,pCoverPageType) ) #define IFaxDocument_put_CoverPageType(This,CoverPageType) \ ( (This)->lpVtbl -> put_CoverPageType(This,CoverPageType) ) #define IFaxDocument_get_ScheduleType(This,pScheduleType) \ ( (This)->lpVtbl -> get_ScheduleType(This,pScheduleType) ) #define IFaxDocument_put_ScheduleType(This,ScheduleType) \ ( (This)->lpVtbl -> put_ScheduleType(This,ScheduleType) ) #define IFaxDocument_get_ReceiptType(This,pReceiptType) \ ( (This)->lpVtbl -> get_ReceiptType(This,pReceiptType) ) #define IFaxDocument_put_ReceiptType(This,ReceiptType) \ ( (This)->lpVtbl -> put_ReceiptType(This,ReceiptType) ) #define IFaxDocument_get_GroupBroadcastReceipts(This,pbUseGrouping) \ ( (This)->lpVtbl -> get_GroupBroadcastReceipts(This,pbUseGrouping) ) #define IFaxDocument_put_GroupBroadcastReceipts(This,bUseGrouping) \ ( (This)->lpVtbl -> put_GroupBroadcastReceipts(This,bUseGrouping) ) #define IFaxDocument_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxDocument_put_Priority(This,Priority) \ ( (This)->lpVtbl -> put_Priority(This,Priority) ) #define IFaxDocument_get_TapiConnection(This,ppTapiConnection) \ ( (This)->lpVtbl -> get_TapiConnection(This,ppTapiConnection) ) #define IFaxDocument_putref_TapiConnection(This,pTapiConnection) \ ( (This)->lpVtbl -> putref_TapiConnection(This,pTapiConnection) ) #define IFaxDocument_Submit(This,bstrFaxServerName,pvFaxOutgoingJobIDs) \ ( (This)->lpVtbl -> Submit(This,bstrFaxServerName,pvFaxOutgoingJobIDs) ) #define IFaxDocument_ConnectedSubmit(This,pFaxServer,pvFaxOutgoingJobIDs) \ ( (This)->lpVtbl -> ConnectedSubmit(This,pFaxServer,pvFaxOutgoingJobIDs) ) #define IFaxDocument_get_AttachFaxToReceipt(This,pbAttachFax) \ ( (This)->lpVtbl -> get_AttachFaxToReceipt(This,pbAttachFax) ) #define IFaxDocument_put_AttachFaxToReceipt(This,bAttachFax) \ ( (This)->lpVtbl -> put_AttachFaxToReceipt(This,bAttachFax) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDocument_INTERFACE_DEFINED__ */ #ifndef __IFaxSender_INTERFACE_DEFINED__ #define __IFaxSender_INTERFACE_DEFINED__ /* interface IFaxSender */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxSender; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("0D879D7D-F57A-4CC6-A6F9-3EE5D527B46A") IFaxSender : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_BillingCode( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrBillingCode) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_BillingCode( /* [in] */ __RPC__in BSTR bstrBillingCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_City( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCity) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_City( /* [in] */ __RPC__in BSTR bstrCity) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Company( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCompany) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Company( /* [in] */ __RPC__in BSTR bstrCompany) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Country( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCountry) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Country( /* [in] */ __RPC__in BSTR bstrCountry) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Department( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDepartment) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Department( /* [in] */ __RPC__in BSTR bstrDepartment) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Email( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrEmail) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Email( /* [in] */ __RPC__in BSTR bstrEmail) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FaxNumber( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFaxNumber) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_FaxNumber( /* [in] */ __RPC__in BSTR bstrFaxNumber) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HomePhone( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrHomePhone) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_HomePhone( /* [in] */ __RPC__in BSTR bstrHomePhone) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Name( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Name( /* [in] */ __RPC__in BSTR bstrName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_TSID( /* [in] */ __RPC__in BSTR bstrTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OfficePhone( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrOfficePhone) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OfficePhone( /* [in] */ __RPC__in BSTR bstrOfficePhone) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OfficeLocation( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrOfficeLocation) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OfficeLocation( /* [in] */ __RPC__in BSTR bstrOfficeLocation) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_State( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrState) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_State( /* [in] */ __RPC__in BSTR bstrState) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_StreetAddress( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrStreetAddress) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_StreetAddress( /* [in] */ __RPC__in BSTR bstrStreetAddress) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Title( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTitle) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Title( /* [in] */ __RPC__in BSTR bstrTitle) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ZipCode( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrZipCode) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ZipCode( /* [in] */ __RPC__in BSTR bstrZipCode) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE LoadDefaultSender( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE SaveDefaultSender( void) = 0; }; #else /* C style interface */ typedef struct IFaxSenderVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxSender * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxSender * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxSender * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxSender * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxSender * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_BillingCode )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrBillingCode); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_BillingCode )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrBillingCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_City )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCity); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_City )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrCity); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Company )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCompany); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Company )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrCompany); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Country )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCountry); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Country )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrCountry); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Department )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDepartment); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Department )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrDepartment); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Email )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrEmail); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Email )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrEmail); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FaxNumber )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFaxNumber); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_FaxNumber )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrFaxNumber); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HomePhone )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrHomePhone); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_HomePhone )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrHomePhone); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Name )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Name )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_TSID )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OfficePhone )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrOfficePhone); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OfficePhone )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrOfficePhone); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OfficeLocation )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrOfficeLocation); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OfficeLocation )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrOfficeLocation); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_State )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrState); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_State )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrState); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_StreetAddress )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrStreetAddress); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_StreetAddress )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrStreetAddress); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Title )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTitle); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Title )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrTitle); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ZipCode )( __RPC__in IFaxSender * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrZipCode); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ZipCode )( __RPC__in IFaxSender * This, /* [in] */ __RPC__in BSTR bstrZipCode); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *LoadDefaultSender )( __RPC__in IFaxSender * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *SaveDefaultSender )( __RPC__in IFaxSender * This); END_INTERFACE } IFaxSenderVtbl; interface IFaxSender { CONST_VTBL struct IFaxSenderVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxSender_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxSender_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxSender_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxSender_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxSender_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxSender_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxSender_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxSender_get_BillingCode(This,pbstrBillingCode) \ ( (This)->lpVtbl -> get_BillingCode(This,pbstrBillingCode) ) #define IFaxSender_put_BillingCode(This,bstrBillingCode) \ ( (This)->lpVtbl -> put_BillingCode(This,bstrBillingCode) ) #define IFaxSender_get_City(This,pbstrCity) \ ( (This)->lpVtbl -> get_City(This,pbstrCity) ) #define IFaxSender_put_City(This,bstrCity) \ ( (This)->lpVtbl -> put_City(This,bstrCity) ) #define IFaxSender_get_Company(This,pbstrCompany) \ ( (This)->lpVtbl -> get_Company(This,pbstrCompany) ) #define IFaxSender_put_Company(This,bstrCompany) \ ( (This)->lpVtbl -> put_Company(This,bstrCompany) ) #define IFaxSender_get_Country(This,pbstrCountry) \ ( (This)->lpVtbl -> get_Country(This,pbstrCountry) ) #define IFaxSender_put_Country(This,bstrCountry) \ ( (This)->lpVtbl -> put_Country(This,bstrCountry) ) #define IFaxSender_get_Department(This,pbstrDepartment) \ ( (This)->lpVtbl -> get_Department(This,pbstrDepartment) ) #define IFaxSender_put_Department(This,bstrDepartment) \ ( (This)->lpVtbl -> put_Department(This,bstrDepartment) ) #define IFaxSender_get_Email(This,pbstrEmail) \ ( (This)->lpVtbl -> get_Email(This,pbstrEmail) ) #define IFaxSender_put_Email(This,bstrEmail) \ ( (This)->lpVtbl -> put_Email(This,bstrEmail) ) #define IFaxSender_get_FaxNumber(This,pbstrFaxNumber) \ ( (This)->lpVtbl -> get_FaxNumber(This,pbstrFaxNumber) ) #define IFaxSender_put_FaxNumber(This,bstrFaxNumber) \ ( (This)->lpVtbl -> put_FaxNumber(This,bstrFaxNumber) ) #define IFaxSender_get_HomePhone(This,pbstrHomePhone) \ ( (This)->lpVtbl -> get_HomePhone(This,pbstrHomePhone) ) #define IFaxSender_put_HomePhone(This,bstrHomePhone) \ ( (This)->lpVtbl -> put_HomePhone(This,bstrHomePhone) ) #define IFaxSender_get_Name(This,pbstrName) \ ( (This)->lpVtbl -> get_Name(This,pbstrName) ) #define IFaxSender_put_Name(This,bstrName) \ ( (This)->lpVtbl -> put_Name(This,bstrName) ) #define IFaxSender_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxSender_put_TSID(This,bstrTSID) \ ( (This)->lpVtbl -> put_TSID(This,bstrTSID) ) #define IFaxSender_get_OfficePhone(This,pbstrOfficePhone) \ ( (This)->lpVtbl -> get_OfficePhone(This,pbstrOfficePhone) ) #define IFaxSender_put_OfficePhone(This,bstrOfficePhone) \ ( (This)->lpVtbl -> put_OfficePhone(This,bstrOfficePhone) ) #define IFaxSender_get_OfficeLocation(This,pbstrOfficeLocation) \ ( (This)->lpVtbl -> get_OfficeLocation(This,pbstrOfficeLocation) ) #define IFaxSender_put_OfficeLocation(This,bstrOfficeLocation) \ ( (This)->lpVtbl -> put_OfficeLocation(This,bstrOfficeLocation) ) #define IFaxSender_get_State(This,pbstrState) \ ( (This)->lpVtbl -> get_State(This,pbstrState) ) #define IFaxSender_put_State(This,bstrState) \ ( (This)->lpVtbl -> put_State(This,bstrState) ) #define IFaxSender_get_StreetAddress(This,pbstrStreetAddress) \ ( (This)->lpVtbl -> get_StreetAddress(This,pbstrStreetAddress) ) #define IFaxSender_put_StreetAddress(This,bstrStreetAddress) \ ( (This)->lpVtbl -> put_StreetAddress(This,bstrStreetAddress) ) #define IFaxSender_get_Title(This,pbstrTitle) \ ( (This)->lpVtbl -> get_Title(This,pbstrTitle) ) #define IFaxSender_put_Title(This,bstrTitle) \ ( (This)->lpVtbl -> put_Title(This,bstrTitle) ) #define IFaxSender_get_ZipCode(This,pbstrZipCode) \ ( (This)->lpVtbl -> get_ZipCode(This,pbstrZipCode) ) #define IFaxSender_put_ZipCode(This,bstrZipCode) \ ( (This)->lpVtbl -> put_ZipCode(This,bstrZipCode) ) #define IFaxSender_LoadDefaultSender(This) \ ( (This)->lpVtbl -> LoadDefaultSender(This) ) #define IFaxSender_SaveDefaultSender(This) \ ( (This)->lpVtbl -> SaveDefaultSender(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxSender_INTERFACE_DEFINED__ */ #ifndef __IFaxRecipient_INTERFACE_DEFINED__ #define __IFaxRecipient_INTERFACE_DEFINED__ /* interface IFaxRecipient */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxRecipient; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("9A3DA3A0-538D-42b6-9444-AAA57D0CE2BC") IFaxRecipient : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FaxNumber( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFaxNumber) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_FaxNumber( /* [in] */ __RPC__in BSTR bstrFaxNumber) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Name( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Name( /* [in] */ __RPC__in BSTR bstrName) = 0; }; #else /* C style interface */ typedef struct IFaxRecipientVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxRecipient * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxRecipient * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxRecipient * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxRecipient * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxRecipient * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxRecipient * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxRecipient * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FaxNumber )( __RPC__in IFaxRecipient * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFaxNumber); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_FaxNumber )( __RPC__in IFaxRecipient * This, /* [in] */ __RPC__in BSTR bstrFaxNumber); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Name )( __RPC__in IFaxRecipient * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Name )( __RPC__in IFaxRecipient * This, /* [in] */ __RPC__in BSTR bstrName); END_INTERFACE } IFaxRecipientVtbl; interface IFaxRecipient { CONST_VTBL struct IFaxRecipientVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxRecipient_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxRecipient_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxRecipient_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxRecipient_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxRecipient_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxRecipient_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxRecipient_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxRecipient_get_FaxNumber(This,pbstrFaxNumber) \ ( (This)->lpVtbl -> get_FaxNumber(This,pbstrFaxNumber) ) #define IFaxRecipient_put_FaxNumber(This,bstrFaxNumber) \ ( (This)->lpVtbl -> put_FaxNumber(This,bstrFaxNumber) ) #define IFaxRecipient_get_Name(This,pbstrName) \ ( (This)->lpVtbl -> get_Name(This,pbstrName) ) #define IFaxRecipient_put_Name(This,bstrName) \ ( (This)->lpVtbl -> put_Name(This,bstrName) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxRecipient_INTERFACE_DEFINED__ */ #ifndef __IFaxRecipients_INTERFACE_DEFINED__ #define __IFaxRecipients_INTERFACE_DEFINED__ /* interface IFaxRecipients */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxRecipients; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("B9C9DE5A-894E-4492-9FA3-08C627C11D5D") IFaxRecipients : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ long lIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Add( /* [in] */ __RPC__in BSTR bstrFaxNumber, /* [defaultvalue][in] */ __RPC__in BSTR bstrRecipientName, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Remove( /* [in] */ long lIndex) = 0; }; #else /* C style interface */ typedef struct IFaxRecipientsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxRecipients * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxRecipients * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxRecipients * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxRecipients * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxRecipients * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxRecipients * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxRecipients * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxRecipients * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxRecipients * This, /* [in] */ long lIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxRecipients * This, /* [retval][out] */ __RPC__out long *plCount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Add )( __RPC__in IFaxRecipients * This, /* [in] */ __RPC__in BSTR bstrFaxNumber, /* [defaultvalue][in] */ __RPC__in BSTR bstrRecipientName, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Remove )( __RPC__in IFaxRecipients * This, /* [in] */ long lIndex); END_INTERFACE } IFaxRecipientsVtbl; interface IFaxRecipients { CONST_VTBL struct IFaxRecipientsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxRecipients_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxRecipients_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxRecipients_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxRecipients_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxRecipients_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxRecipients_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxRecipients_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxRecipients_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxRecipients_get_Item(This,lIndex,ppFaxRecipient) \ ( (This)->lpVtbl -> get_Item(This,lIndex,ppFaxRecipient) ) #define IFaxRecipients_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #define IFaxRecipients_Add(This,bstrFaxNumber,bstrRecipientName,ppFaxRecipient) \ ( (This)->lpVtbl -> Add(This,bstrFaxNumber,bstrRecipientName,ppFaxRecipient) ) #define IFaxRecipients_Remove(This,lIndex) \ ( (This)->lpVtbl -> Remove(This,lIndex) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxRecipients_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingArchive_INTERFACE_DEFINED__ #define __IFaxIncomingArchive_INTERFACE_DEFINED__ /* interface IFaxIncomingArchive */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingArchive; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("76062CC7-F714-4FBD-AA06-ED6E4A4B70F3") IFaxIncomingArchive : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseArchive( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseArchive( /* [in] */ VARIANT_BOOL bUseArchive) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveFolder( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveFolder) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ArchiveFolder( /* [in] */ __RPC__in BSTR bstrArchiveFolder) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeQuotaWarning( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SizeQuotaWarning( /* [in] */ VARIANT_BOOL bSizeQuotaWarning) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HighQuotaWaterMark( /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_HighQuotaWaterMark( /* [in] */ long lHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LowQuotaWaterMark( /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_LowQuotaWaterMark( /* [in] */ long lLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AgeLimit( /* [retval][out] */ __RPC__out long *plAgeLimit) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AgeLimit( /* [in] */ long lAgeLimit) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeLow( /* [retval][out] */ __RPC__out long *plSizeLow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeHigh( /* [retval][out] */ __RPC__out long *plSizeHigh) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessages( /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessageIterator **pFaxIncomingMessageIterator) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessage( /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingArchiveVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingArchive * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingArchive * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingArchive * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingArchive * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingArchive * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseArchive )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseArchive )( __RPC__in IFaxIncomingArchive * This, /* [in] */ VARIANT_BOOL bUseArchive); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveFolder )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveFolder); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ArchiveFolder )( __RPC__in IFaxIncomingArchive * This, /* [in] */ __RPC__in BSTR bstrArchiveFolder); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeQuotaWarning )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SizeQuotaWarning )( __RPC__in IFaxIncomingArchive * This, /* [in] */ VARIANT_BOOL bSizeQuotaWarning); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HighQuotaWaterMark )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_HighQuotaWaterMark )( __RPC__in IFaxIncomingArchive * This, /* [in] */ long lHighQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LowQuotaWaterMark )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_LowQuotaWaterMark )( __RPC__in IFaxIncomingArchive * This, /* [in] */ long lLowQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AgeLimit )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out long *plAgeLimit); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AgeLimit )( __RPC__in IFaxIncomingArchive * This, /* [in] */ long lAgeLimit); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeLow )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out long *plSizeLow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeHigh )( __RPC__in IFaxIncomingArchive * This, /* [retval][out] */ __RPC__out long *plSizeHigh); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxIncomingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxIncomingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessages )( __RPC__in IFaxIncomingArchive * This, /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessageIterator **pFaxIncomingMessageIterator); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessage )( __RPC__in IFaxIncomingArchive * This, /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage); END_INTERFACE } IFaxIncomingArchiveVtbl; interface IFaxIncomingArchive { CONST_VTBL struct IFaxIncomingArchiveVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingArchive_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingArchive_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingArchive_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingArchive_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingArchive_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingArchive_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingArchive_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingArchive_get_UseArchive(This,pbUseArchive) \ ( (This)->lpVtbl -> get_UseArchive(This,pbUseArchive) ) #define IFaxIncomingArchive_put_UseArchive(This,bUseArchive) \ ( (This)->lpVtbl -> put_UseArchive(This,bUseArchive) ) #define IFaxIncomingArchive_get_ArchiveFolder(This,pbstrArchiveFolder) \ ( (This)->lpVtbl -> get_ArchiveFolder(This,pbstrArchiveFolder) ) #define IFaxIncomingArchive_put_ArchiveFolder(This,bstrArchiveFolder) \ ( (This)->lpVtbl -> put_ArchiveFolder(This,bstrArchiveFolder) ) #define IFaxIncomingArchive_get_SizeQuotaWarning(This,pbSizeQuotaWarning) \ ( (This)->lpVtbl -> get_SizeQuotaWarning(This,pbSizeQuotaWarning) ) #define IFaxIncomingArchive_put_SizeQuotaWarning(This,bSizeQuotaWarning) \ ( (This)->lpVtbl -> put_SizeQuotaWarning(This,bSizeQuotaWarning) ) #define IFaxIncomingArchive_get_HighQuotaWaterMark(This,plHighQuotaWaterMark) \ ( (This)->lpVtbl -> get_HighQuotaWaterMark(This,plHighQuotaWaterMark) ) #define IFaxIncomingArchive_put_HighQuotaWaterMark(This,lHighQuotaWaterMark) \ ( (This)->lpVtbl -> put_HighQuotaWaterMark(This,lHighQuotaWaterMark) ) #define IFaxIncomingArchive_get_LowQuotaWaterMark(This,plLowQuotaWaterMark) \ ( (This)->lpVtbl -> get_LowQuotaWaterMark(This,plLowQuotaWaterMark) ) #define IFaxIncomingArchive_put_LowQuotaWaterMark(This,lLowQuotaWaterMark) \ ( (This)->lpVtbl -> put_LowQuotaWaterMark(This,lLowQuotaWaterMark) ) #define IFaxIncomingArchive_get_AgeLimit(This,plAgeLimit) \ ( (This)->lpVtbl -> get_AgeLimit(This,plAgeLimit) ) #define IFaxIncomingArchive_put_AgeLimit(This,lAgeLimit) \ ( (This)->lpVtbl -> put_AgeLimit(This,lAgeLimit) ) #define IFaxIncomingArchive_get_SizeLow(This,plSizeLow) \ ( (This)->lpVtbl -> get_SizeLow(This,plSizeLow) ) #define IFaxIncomingArchive_get_SizeHigh(This,plSizeHigh) \ ( (This)->lpVtbl -> get_SizeHigh(This,plSizeHigh) ) #define IFaxIncomingArchive_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxIncomingArchive_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxIncomingArchive_GetMessages(This,lPrefetchSize,pFaxIncomingMessageIterator) \ ( (This)->lpVtbl -> GetMessages(This,lPrefetchSize,pFaxIncomingMessageIterator) ) #define IFaxIncomingArchive_GetMessage(This,bstrMessageId,pFaxIncomingMessage) \ ( (This)->lpVtbl -> GetMessage(This,bstrMessageId,pFaxIncomingMessage) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingArchive_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingQueue_INTERFACE_DEFINED__ #define __IFaxIncomingQueue_INTERFACE_DEFINED__ /* interface IFaxIncomingQueue */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingQueue; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("902E64EF-8FD8-4B75-9725-6014DF161545") IFaxIncomingQueue : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Blocked( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBlocked) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Blocked( /* [in] */ VARIANT_BOOL bBlocked) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJobs( /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJobs **pFaxIncomingJobs) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJob( /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingQueueVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingQueue * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingQueue * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingQueue * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingQueue * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingQueue * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Blocked )( __RPC__in IFaxIncomingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBlocked); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Blocked )( __RPC__in IFaxIncomingQueue * This, /* [in] */ VARIANT_BOOL bBlocked); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxIncomingQueue * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxIncomingQueue * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJobs )( __RPC__in IFaxIncomingQueue * This, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJobs **pFaxIncomingJobs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJob )( __RPC__in IFaxIncomingQueue * This, /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob); END_INTERFACE } IFaxIncomingQueueVtbl; interface IFaxIncomingQueue { CONST_VTBL struct IFaxIncomingQueueVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingQueue_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingQueue_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingQueue_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingQueue_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingQueue_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingQueue_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingQueue_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingQueue_get_Blocked(This,pbBlocked) \ ( (This)->lpVtbl -> get_Blocked(This,pbBlocked) ) #define IFaxIncomingQueue_put_Blocked(This,bBlocked) \ ( (This)->lpVtbl -> put_Blocked(This,bBlocked) ) #define IFaxIncomingQueue_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxIncomingQueue_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxIncomingQueue_GetJobs(This,pFaxIncomingJobs) \ ( (This)->lpVtbl -> GetJobs(This,pFaxIncomingJobs) ) #define IFaxIncomingQueue_GetJob(This,bstrJobId,pFaxIncomingJob) \ ( (This)->lpVtbl -> GetJob(This,bstrJobId,pFaxIncomingJob) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingQueue_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingArchive_INTERFACE_DEFINED__ #define __IFaxOutgoingArchive_INTERFACE_DEFINED__ /* interface IFaxOutgoingArchive */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingArchive; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("C9C28F40-8D80-4E53-810F-9A79919B49FD") IFaxOutgoingArchive : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseArchive( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseArchive( /* [in] */ VARIANT_BOOL bUseArchive) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveFolder( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveFolder) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ArchiveFolder( /* [in] */ __RPC__in BSTR bstrArchiveFolder) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeQuotaWarning( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SizeQuotaWarning( /* [in] */ VARIANT_BOOL bSizeQuotaWarning) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HighQuotaWaterMark( /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_HighQuotaWaterMark( /* [in] */ long lHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LowQuotaWaterMark( /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_LowQuotaWaterMark( /* [in] */ long lLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AgeLimit( /* [retval][out] */ __RPC__out long *plAgeLimit) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AgeLimit( /* [in] */ long lAgeLimit) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeLow( /* [retval][out] */ __RPC__out long *plSizeLow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeHigh( /* [retval][out] */ __RPC__out long *plSizeHigh) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessages( /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessageIterator **pFaxOutgoingMessageIterator) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessage( /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingArchiveVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingArchive * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingArchive * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingArchive * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingArchive * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseArchive )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseArchive )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ VARIANT_BOOL bUseArchive); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveFolder )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveFolder); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ArchiveFolder )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ __RPC__in BSTR bstrArchiveFolder); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeQuotaWarning )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SizeQuotaWarning )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ VARIANT_BOOL bSizeQuotaWarning); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HighQuotaWaterMark )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_HighQuotaWaterMark )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ long lHighQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LowQuotaWaterMark )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_LowQuotaWaterMark )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ long lLowQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AgeLimit )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plAgeLimit); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AgeLimit )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ long lAgeLimit); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeLow )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plSizeLow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeHigh )( __RPC__in IFaxOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plSizeHigh); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutgoingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxOutgoingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessages )( __RPC__in IFaxOutgoingArchive * This, /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessageIterator **pFaxOutgoingMessageIterator); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessage )( __RPC__in IFaxOutgoingArchive * This, /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage); END_INTERFACE } IFaxOutgoingArchiveVtbl; interface IFaxOutgoingArchive { CONST_VTBL struct IFaxOutgoingArchiveVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingArchive_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingArchive_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingArchive_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingArchive_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingArchive_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingArchive_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingArchive_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingArchive_get_UseArchive(This,pbUseArchive) \ ( (This)->lpVtbl -> get_UseArchive(This,pbUseArchive) ) #define IFaxOutgoingArchive_put_UseArchive(This,bUseArchive) \ ( (This)->lpVtbl -> put_UseArchive(This,bUseArchive) ) #define IFaxOutgoingArchive_get_ArchiveFolder(This,pbstrArchiveFolder) \ ( (This)->lpVtbl -> get_ArchiveFolder(This,pbstrArchiveFolder) ) #define IFaxOutgoingArchive_put_ArchiveFolder(This,bstrArchiveFolder) \ ( (This)->lpVtbl -> put_ArchiveFolder(This,bstrArchiveFolder) ) #define IFaxOutgoingArchive_get_SizeQuotaWarning(This,pbSizeQuotaWarning) \ ( (This)->lpVtbl -> get_SizeQuotaWarning(This,pbSizeQuotaWarning) ) #define IFaxOutgoingArchive_put_SizeQuotaWarning(This,bSizeQuotaWarning) \ ( (This)->lpVtbl -> put_SizeQuotaWarning(This,bSizeQuotaWarning) ) #define IFaxOutgoingArchive_get_HighQuotaWaterMark(This,plHighQuotaWaterMark) \ ( (This)->lpVtbl -> get_HighQuotaWaterMark(This,plHighQuotaWaterMark) ) #define IFaxOutgoingArchive_put_HighQuotaWaterMark(This,lHighQuotaWaterMark) \ ( (This)->lpVtbl -> put_HighQuotaWaterMark(This,lHighQuotaWaterMark) ) #define IFaxOutgoingArchive_get_LowQuotaWaterMark(This,plLowQuotaWaterMark) \ ( (This)->lpVtbl -> get_LowQuotaWaterMark(This,plLowQuotaWaterMark) ) #define IFaxOutgoingArchive_put_LowQuotaWaterMark(This,lLowQuotaWaterMark) \ ( (This)->lpVtbl -> put_LowQuotaWaterMark(This,lLowQuotaWaterMark) ) #define IFaxOutgoingArchive_get_AgeLimit(This,plAgeLimit) \ ( (This)->lpVtbl -> get_AgeLimit(This,plAgeLimit) ) #define IFaxOutgoingArchive_put_AgeLimit(This,lAgeLimit) \ ( (This)->lpVtbl -> put_AgeLimit(This,lAgeLimit) ) #define IFaxOutgoingArchive_get_SizeLow(This,plSizeLow) \ ( (This)->lpVtbl -> get_SizeLow(This,plSizeLow) ) #define IFaxOutgoingArchive_get_SizeHigh(This,plSizeHigh) \ ( (This)->lpVtbl -> get_SizeHigh(This,plSizeHigh) ) #define IFaxOutgoingArchive_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxOutgoingArchive_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxOutgoingArchive_GetMessages(This,lPrefetchSize,pFaxOutgoingMessageIterator) \ ( (This)->lpVtbl -> GetMessages(This,lPrefetchSize,pFaxOutgoingMessageIterator) ) #define IFaxOutgoingArchive_GetMessage(This,bstrMessageId,pFaxOutgoingMessage) \ ( (This)->lpVtbl -> GetMessage(This,bstrMessageId,pFaxOutgoingMessage) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingArchive_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingQueue_INTERFACE_DEFINED__ #define __IFaxOutgoingQueue_INTERFACE_DEFINED__ /* interface IFaxOutgoingQueue */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingQueue; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("80B1DF24-D9AC-4333-B373-487CEDC80CE5") IFaxOutgoingQueue : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Blocked( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBlocked) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Blocked( /* [in] */ VARIANT_BOOL bBlocked) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Paused( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbPaused) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Paused( /* [in] */ VARIANT_BOOL bPaused) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AllowPersonalCoverPages( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAllowPersonalCoverPages) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AllowPersonalCoverPages( /* [in] */ VARIANT_BOOL bAllowPersonalCoverPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseDeviceTSID( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDeviceTSID) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseDeviceTSID( /* [in] */ VARIANT_BOOL bUseDeviceTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Retries( /* [in] */ long lRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RetryDelay( /* [retval][out] */ __RPC__out long *plRetryDelay) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_RetryDelay( /* [in] */ long lRetryDelay) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DiscountRateStart( /* [retval][out] */ __RPC__out DATE *pdateDiscountRateStart) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DiscountRateStart( /* [in] */ DATE dateDiscountRateStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DiscountRateEnd( /* [retval][out] */ __RPC__out DATE *pdateDiscountRateEnd) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DiscountRateEnd( /* [in] */ DATE dateDiscountRateEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AgeLimit( /* [retval][out] */ __RPC__out long *plAgeLimit) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AgeLimit( /* [in] */ long lAgeLimit) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Branding( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBranding) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Branding( /* [in] */ VARIANT_BOOL bBranding) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJobs( /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJobs **pFaxOutgoingJobs) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJob( /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingQueueVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingQueue * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingQueue * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingQueue * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingQueue * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Blocked )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBlocked); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Blocked )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ VARIANT_BOOL bBlocked); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Paused )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbPaused); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Paused )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ VARIANT_BOOL bPaused); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AllowPersonalCoverPages )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAllowPersonalCoverPages); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AllowPersonalCoverPages )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ VARIANT_BOOL bAllowPersonalCoverPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseDeviceTSID )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDeviceTSID); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseDeviceTSID )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ VARIANT_BOOL bUseDeviceTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Retries )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ long lRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RetryDelay )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out long *plRetryDelay); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_RetryDelay )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ long lRetryDelay); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DiscountRateStart )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out DATE *pdateDiscountRateStart); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DiscountRateStart )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ DATE dateDiscountRateStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DiscountRateEnd )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out DATE *pdateDiscountRateEnd); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DiscountRateEnd )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ DATE dateDiscountRateEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AgeLimit )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out long *plAgeLimit); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AgeLimit )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ long lAgeLimit); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Branding )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBranding); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Branding )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ VARIANT_BOOL bBranding); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutgoingQueue * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxOutgoingQueue * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJobs )( __RPC__in IFaxOutgoingQueue * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJobs **pFaxOutgoingJobs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJob )( __RPC__in IFaxOutgoingQueue * This, /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob); END_INTERFACE } IFaxOutgoingQueueVtbl; interface IFaxOutgoingQueue { CONST_VTBL struct IFaxOutgoingQueueVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingQueue_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingQueue_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingQueue_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingQueue_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingQueue_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingQueue_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingQueue_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingQueue_get_Blocked(This,pbBlocked) \ ( (This)->lpVtbl -> get_Blocked(This,pbBlocked) ) #define IFaxOutgoingQueue_put_Blocked(This,bBlocked) \ ( (This)->lpVtbl -> put_Blocked(This,bBlocked) ) #define IFaxOutgoingQueue_get_Paused(This,pbPaused) \ ( (This)->lpVtbl -> get_Paused(This,pbPaused) ) #define IFaxOutgoingQueue_put_Paused(This,bPaused) \ ( (This)->lpVtbl -> put_Paused(This,bPaused) ) #define IFaxOutgoingQueue_get_AllowPersonalCoverPages(This,pbAllowPersonalCoverPages) \ ( (This)->lpVtbl -> get_AllowPersonalCoverPages(This,pbAllowPersonalCoverPages) ) #define IFaxOutgoingQueue_put_AllowPersonalCoverPages(This,bAllowPersonalCoverPages) \ ( (This)->lpVtbl -> put_AllowPersonalCoverPages(This,bAllowPersonalCoverPages) ) #define IFaxOutgoingQueue_get_UseDeviceTSID(This,pbUseDeviceTSID) \ ( (This)->lpVtbl -> get_UseDeviceTSID(This,pbUseDeviceTSID) ) #define IFaxOutgoingQueue_put_UseDeviceTSID(This,bUseDeviceTSID) \ ( (This)->lpVtbl -> put_UseDeviceTSID(This,bUseDeviceTSID) ) #define IFaxOutgoingQueue_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxOutgoingQueue_put_Retries(This,lRetries) \ ( (This)->lpVtbl -> put_Retries(This,lRetries) ) #define IFaxOutgoingQueue_get_RetryDelay(This,plRetryDelay) \ ( (This)->lpVtbl -> get_RetryDelay(This,plRetryDelay) ) #define IFaxOutgoingQueue_put_RetryDelay(This,lRetryDelay) \ ( (This)->lpVtbl -> put_RetryDelay(This,lRetryDelay) ) #define IFaxOutgoingQueue_get_DiscountRateStart(This,pdateDiscountRateStart) \ ( (This)->lpVtbl -> get_DiscountRateStart(This,pdateDiscountRateStart) ) #define IFaxOutgoingQueue_put_DiscountRateStart(This,dateDiscountRateStart) \ ( (This)->lpVtbl -> put_DiscountRateStart(This,dateDiscountRateStart) ) #define IFaxOutgoingQueue_get_DiscountRateEnd(This,pdateDiscountRateEnd) \ ( (This)->lpVtbl -> get_DiscountRateEnd(This,pdateDiscountRateEnd) ) #define IFaxOutgoingQueue_put_DiscountRateEnd(This,dateDiscountRateEnd) \ ( (This)->lpVtbl -> put_DiscountRateEnd(This,dateDiscountRateEnd) ) #define IFaxOutgoingQueue_get_AgeLimit(This,plAgeLimit) \ ( (This)->lpVtbl -> get_AgeLimit(This,plAgeLimit) ) #define IFaxOutgoingQueue_put_AgeLimit(This,lAgeLimit) \ ( (This)->lpVtbl -> put_AgeLimit(This,lAgeLimit) ) #define IFaxOutgoingQueue_get_Branding(This,pbBranding) \ ( (This)->lpVtbl -> get_Branding(This,pbBranding) ) #define IFaxOutgoingQueue_put_Branding(This,bBranding) \ ( (This)->lpVtbl -> put_Branding(This,bBranding) ) #define IFaxOutgoingQueue_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxOutgoingQueue_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxOutgoingQueue_GetJobs(This,pFaxOutgoingJobs) \ ( (This)->lpVtbl -> GetJobs(This,pFaxOutgoingJobs) ) #define IFaxOutgoingQueue_GetJob(This,bstrJobId,pFaxOutgoingJob) \ ( (This)->lpVtbl -> GetJob(This,bstrJobId,pFaxOutgoingJob) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingQueue_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingMessageIterator_INTERFACE_DEFINED__ #define __IFaxIncomingMessageIterator_INTERFACE_DEFINED__ /* interface IFaxIncomingMessageIterator */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingMessageIterator; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("FD73ECC4-6F06-4F52-82A8-F7BA06AE3108") IFaxIncomingMessageIterator : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Message( /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_PrefetchSize( /* [retval][out] */ __RPC__out long *plPrefetchSize) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_PrefetchSize( /* [in] */ long lPrefetchSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AtEOF( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbEOF) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE MoveFirst( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE MoveNext( void) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingMessageIteratorVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingMessageIterator * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingMessageIterator * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingMessageIterator * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingMessageIterator * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingMessageIterator * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingMessageIterator * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingMessageIterator * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Message )( __RPC__in IFaxIncomingMessageIterator * This, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_PrefetchSize )( __RPC__in IFaxIncomingMessageIterator * This, /* [retval][out] */ __RPC__out long *plPrefetchSize); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_PrefetchSize )( __RPC__in IFaxIncomingMessageIterator * This, /* [in] */ long lPrefetchSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AtEOF )( __RPC__in IFaxIncomingMessageIterator * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbEOF); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *MoveFirst )( __RPC__in IFaxIncomingMessageIterator * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *MoveNext )( __RPC__in IFaxIncomingMessageIterator * This); END_INTERFACE } IFaxIncomingMessageIteratorVtbl; interface IFaxIncomingMessageIterator { CONST_VTBL struct IFaxIncomingMessageIteratorVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingMessageIterator_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingMessageIterator_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingMessageIterator_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingMessageIterator_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingMessageIterator_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingMessageIterator_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingMessageIterator_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingMessageIterator_get_Message(This,pFaxIncomingMessage) \ ( (This)->lpVtbl -> get_Message(This,pFaxIncomingMessage) ) #define IFaxIncomingMessageIterator_get_PrefetchSize(This,plPrefetchSize) \ ( (This)->lpVtbl -> get_PrefetchSize(This,plPrefetchSize) ) #define IFaxIncomingMessageIterator_put_PrefetchSize(This,lPrefetchSize) \ ( (This)->lpVtbl -> put_PrefetchSize(This,lPrefetchSize) ) #define IFaxIncomingMessageIterator_get_AtEOF(This,pbEOF) \ ( (This)->lpVtbl -> get_AtEOF(This,pbEOF) ) #define IFaxIncomingMessageIterator_MoveFirst(This) \ ( (This)->lpVtbl -> MoveFirst(This) ) #define IFaxIncomingMessageIterator_MoveNext(This) \ ( (This)->lpVtbl -> MoveNext(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingMessageIterator_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingMessage_INTERFACE_DEFINED__ #define __IFaxIncomingMessage_INTERFACE_DEFINED__ /* interface IFaxIncomingMessage */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingMessage; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("7CAB88FA-2EF9-4851-B2F3-1D148FED8447") IFaxIncomingMessage : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Id( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Pages( /* [retval][out] */ __RPC__out long *plPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Size( /* [retval][out] */ __RPC__out long *plSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionStart( /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionEnd( /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CallerId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RoutingInformation( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE CopyTiff( /* [in] */ __RPC__in BSTR bstrTiffPath) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Delete( void) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingMessageVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingMessage * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingMessage * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingMessage * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingMessage * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingMessage * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingMessage * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingMessage * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceName )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallerId )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RoutingInformation )( __RPC__in IFaxIncomingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxIncomingMessage * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Delete )( __RPC__in IFaxIncomingMessage * This); END_INTERFACE } IFaxIncomingMessageVtbl; interface IFaxIncomingMessage { CONST_VTBL struct IFaxIncomingMessageVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingMessage_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingMessage_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingMessage_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingMessage_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingMessage_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingMessage_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingMessage_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingMessage_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxIncomingMessage_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxIncomingMessage_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxIncomingMessage_get_DeviceName(This,pbstrDeviceName) \ ( (This)->lpVtbl -> get_DeviceName(This,pbstrDeviceName) ) #define IFaxIncomingMessage_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxIncomingMessage_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxIncomingMessage_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxIncomingMessage_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxIncomingMessage_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxIncomingMessage_get_CallerId(This,pbstrCallerId) \ ( (This)->lpVtbl -> get_CallerId(This,pbstrCallerId) ) #define IFaxIncomingMessage_get_RoutingInformation(This,pbstrRoutingInformation) \ ( (This)->lpVtbl -> get_RoutingInformation(This,pbstrRoutingInformation) ) #define IFaxIncomingMessage_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxIncomingMessage_Delete(This) \ ( (This)->lpVtbl -> Delete(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingMessage_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingJobs_INTERFACE_DEFINED__ #define __IFaxOutgoingJobs_INTERFACE_DEFINED__ /* interface IFaxOutgoingJobs */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingJobs; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("2C56D8E6-8C2F-4573-944C-E505F8F5AEED") IFaxOutgoingJobs : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingJobsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingJobs * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingJobs * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingJobs * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingJobs * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingJobs * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingJobs * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingJobs * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxOutgoingJobs * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxOutgoingJobs * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxOutgoingJobs * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxOutgoingJobsVtbl; interface IFaxOutgoingJobs { CONST_VTBL struct IFaxOutgoingJobsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingJobs_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingJobs_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingJobs_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingJobs_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingJobs_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingJobs_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingJobs_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingJobs_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxOutgoingJobs_get_Item(This,vIndex,pFaxOutgoingJob) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxOutgoingJob) ) #define IFaxOutgoingJobs_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingJobs_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingJob_INTERFACE_DEFINED__ #define __IFaxOutgoingJob_INTERFACE_DEFINED__ /* interface IFaxOutgoingJob */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingJob; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("6356DAAD-6614-4583-BF7A-3AD67BBFC71C") IFaxOutgoingJob : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Subject( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DocumentName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Pages( /* [retval][out] */ __RPC__out long *plPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Size( /* [retval][out] */ __RPC__out long *plSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SubmissionId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Id( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OriginalScheduledTime( /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SubmissionTime( /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptType( /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Priority( /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Sender( /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Recipient( /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CurrentPage( /* [retval][out] */ __RPC__out long *plCurrentPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceId( /* [retval][out] */ __RPC__out long *plDeviceId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatusCode( /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatus( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AvailableOperations( /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ScheduledTime( /* [retval][out] */ __RPC__out DATE *pdateScheduledTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionStart( /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionEnd( /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GroupBroadcastReceipts( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbGroupBroadcastReceipts) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Pause( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Resume( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Restart( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE CopyTiff( /* [in] */ __RPC__in BSTR bstrTiffPath) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Cancel( void) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingJobVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingJob * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingJob * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingJob * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingJob * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingJob * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingJob * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingJob * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionId )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OriginalScheduledTime )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionTime )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptType )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipient )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CurrentPage )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out long *plCurrentPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceId )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out long *plDeviceId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatusCode )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatus )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AvailableOperations )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduledTime )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out DATE *pdateScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GroupBroadcastReceipts )( __RPC__in IFaxOutgoingJob * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbGroupBroadcastReceipts); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Pause )( __RPC__in IFaxOutgoingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Resume )( __RPC__in IFaxOutgoingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Restart )( __RPC__in IFaxOutgoingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxOutgoingJob * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutgoingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Cancel )( __RPC__in IFaxOutgoingJob * This); END_INTERFACE } IFaxOutgoingJobVtbl; interface IFaxOutgoingJob { CONST_VTBL struct IFaxOutgoingJobVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingJob_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingJob_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingJob_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingJob_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingJob_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingJob_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingJob_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingJob_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxOutgoingJob_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxOutgoingJob_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxOutgoingJob_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxOutgoingJob_get_SubmissionId(This,pbstrSubmissionId) \ ( (This)->lpVtbl -> get_SubmissionId(This,pbstrSubmissionId) ) #define IFaxOutgoingJob_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxOutgoingJob_get_OriginalScheduledTime(This,pdateOriginalScheduledTime) \ ( (This)->lpVtbl -> get_OriginalScheduledTime(This,pdateOriginalScheduledTime) ) #define IFaxOutgoingJob_get_SubmissionTime(This,pdateSubmissionTime) \ ( (This)->lpVtbl -> get_SubmissionTime(This,pdateSubmissionTime) ) #define IFaxOutgoingJob_get_ReceiptType(This,pReceiptType) \ ( (This)->lpVtbl -> get_ReceiptType(This,pReceiptType) ) #define IFaxOutgoingJob_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxOutgoingJob_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxOutgoingJob_get_Recipient(This,ppFaxRecipient) \ ( (This)->lpVtbl -> get_Recipient(This,ppFaxRecipient) ) #define IFaxOutgoingJob_get_CurrentPage(This,plCurrentPage) \ ( (This)->lpVtbl -> get_CurrentPage(This,plCurrentPage) ) #define IFaxOutgoingJob_get_DeviceId(This,plDeviceId) \ ( (This)->lpVtbl -> get_DeviceId(This,plDeviceId) ) #define IFaxOutgoingJob_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxOutgoingJob_get_ExtendedStatusCode(This,pExtendedStatusCode) \ ( (This)->lpVtbl -> get_ExtendedStatusCode(This,pExtendedStatusCode) ) #define IFaxOutgoingJob_get_ExtendedStatus(This,pbstrExtendedStatus) \ ( (This)->lpVtbl -> get_ExtendedStatus(This,pbstrExtendedStatus) ) #define IFaxOutgoingJob_get_AvailableOperations(This,pAvailableOperations) \ ( (This)->lpVtbl -> get_AvailableOperations(This,pAvailableOperations) ) #define IFaxOutgoingJob_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxOutgoingJob_get_ScheduledTime(This,pdateScheduledTime) \ ( (This)->lpVtbl -> get_ScheduledTime(This,pdateScheduledTime) ) #define IFaxOutgoingJob_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxOutgoingJob_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxOutgoingJob_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxOutgoingJob_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxOutgoingJob_get_GroupBroadcastReceipts(This,pbGroupBroadcastReceipts) \ ( (This)->lpVtbl -> get_GroupBroadcastReceipts(This,pbGroupBroadcastReceipts) ) #define IFaxOutgoingJob_Pause(This) \ ( (This)->lpVtbl -> Pause(This) ) #define IFaxOutgoingJob_Resume(This) \ ( (This)->lpVtbl -> Resume(This) ) #define IFaxOutgoingJob_Restart(This) \ ( (This)->lpVtbl -> Restart(This) ) #define IFaxOutgoingJob_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxOutgoingJob_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxOutgoingJob_Cancel(This) \ ( (This)->lpVtbl -> Cancel(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingJob_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingMessageIterator_INTERFACE_DEFINED__ #define __IFaxOutgoingMessageIterator_INTERFACE_DEFINED__ /* interface IFaxOutgoingMessageIterator */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingMessageIterator; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("F5EC5D4F-B840-432F-9980-112FE42A9B7A") IFaxOutgoingMessageIterator : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Message( /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AtEOF( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbEOF) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_PrefetchSize( /* [retval][out] */ __RPC__out long *plPrefetchSize) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_PrefetchSize( /* [in] */ long lPrefetchSize) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE MoveFirst( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE MoveNext( void) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingMessageIteratorVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingMessageIterator * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingMessageIterator * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingMessageIterator * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingMessageIterator * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingMessageIterator * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingMessageIterator * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingMessageIterator * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Message )( __RPC__in IFaxOutgoingMessageIterator * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AtEOF )( __RPC__in IFaxOutgoingMessageIterator * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbEOF); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_PrefetchSize )( __RPC__in IFaxOutgoingMessageIterator * This, /* [retval][out] */ __RPC__out long *plPrefetchSize); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_PrefetchSize )( __RPC__in IFaxOutgoingMessageIterator * This, /* [in] */ long lPrefetchSize); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *MoveFirst )( __RPC__in IFaxOutgoingMessageIterator * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *MoveNext )( __RPC__in IFaxOutgoingMessageIterator * This); END_INTERFACE } IFaxOutgoingMessageIteratorVtbl; interface IFaxOutgoingMessageIterator { CONST_VTBL struct IFaxOutgoingMessageIteratorVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingMessageIterator_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingMessageIterator_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingMessageIterator_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingMessageIterator_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingMessageIterator_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingMessageIterator_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingMessageIterator_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingMessageIterator_get_Message(This,pFaxOutgoingMessage) \ ( (This)->lpVtbl -> get_Message(This,pFaxOutgoingMessage) ) #define IFaxOutgoingMessageIterator_get_AtEOF(This,pbEOF) \ ( (This)->lpVtbl -> get_AtEOF(This,pbEOF) ) #define IFaxOutgoingMessageIterator_get_PrefetchSize(This,plPrefetchSize) \ ( (This)->lpVtbl -> get_PrefetchSize(This,plPrefetchSize) ) #define IFaxOutgoingMessageIterator_put_PrefetchSize(This,lPrefetchSize) \ ( (This)->lpVtbl -> put_PrefetchSize(This,lPrefetchSize) ) #define IFaxOutgoingMessageIterator_MoveFirst(This) \ ( (This)->lpVtbl -> MoveFirst(This) ) #define IFaxOutgoingMessageIterator_MoveNext(This) \ ( (This)->lpVtbl -> MoveNext(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingMessageIterator_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingMessage_INTERFACE_DEFINED__ #define __IFaxOutgoingMessage_INTERFACE_DEFINED__ /* interface IFaxOutgoingMessage */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingMessage; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("F0EA35DE-CAA5-4A7C-82C7-2B60BA5F2BE2") IFaxOutgoingMessage : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SubmissionId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Id( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Subject( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DocumentName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Pages( /* [retval][out] */ __RPC__out long *plPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Size( /* [retval][out] */ __RPC__out long *plSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OriginalScheduledTime( /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SubmissionTime( /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Priority( /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Sender( /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Recipient( /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionStart( /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionEnd( /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE CopyTiff( /* [in] */ __RPC__in BSTR bstrTiffPath) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Delete( void) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingMessageVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingMessage * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingMessage * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingMessage * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingMessage * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingMessage * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingMessage * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingMessage * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionId )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OriginalScheduledTime )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionTime )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipient )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceName )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxOutgoingMessage * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxOutgoingMessage * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Delete )( __RPC__in IFaxOutgoingMessage * This); END_INTERFACE } IFaxOutgoingMessageVtbl; interface IFaxOutgoingMessage { CONST_VTBL struct IFaxOutgoingMessageVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingMessage_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingMessage_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingMessage_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingMessage_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingMessage_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingMessage_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingMessage_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingMessage_get_SubmissionId(This,pbstrSubmissionId) \ ( (This)->lpVtbl -> get_SubmissionId(This,pbstrSubmissionId) ) #define IFaxOutgoingMessage_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxOutgoingMessage_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxOutgoingMessage_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxOutgoingMessage_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxOutgoingMessage_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxOutgoingMessage_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxOutgoingMessage_get_OriginalScheduledTime(This,pdateOriginalScheduledTime) \ ( (This)->lpVtbl -> get_OriginalScheduledTime(This,pdateOriginalScheduledTime) ) #define IFaxOutgoingMessage_get_SubmissionTime(This,pdateSubmissionTime) \ ( (This)->lpVtbl -> get_SubmissionTime(This,pdateSubmissionTime) ) #define IFaxOutgoingMessage_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxOutgoingMessage_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxOutgoingMessage_get_Recipient(This,ppFaxRecipient) \ ( (This)->lpVtbl -> get_Recipient(This,ppFaxRecipient) ) #define IFaxOutgoingMessage_get_DeviceName(This,pbstrDeviceName) \ ( (This)->lpVtbl -> get_DeviceName(This,pbstrDeviceName) ) #define IFaxOutgoingMessage_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxOutgoingMessage_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxOutgoingMessage_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxOutgoingMessage_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxOutgoingMessage_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxOutgoingMessage_Delete(This) \ ( (This)->lpVtbl -> Delete(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingMessage_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingJobs_INTERFACE_DEFINED__ #define __IFaxIncomingJobs_INTERFACE_DEFINED__ /* interface IFaxIncomingJobs */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingJobs; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("011F04E9-4FD6-4C23-9513-B6B66BB26BE9") IFaxIncomingJobs : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingJobsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingJobs * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingJobs * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingJobs * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingJobs * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingJobs * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingJobs * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingJobs * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxIncomingJobs * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxIncomingJobs * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxIncomingJobs * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxIncomingJobsVtbl; interface IFaxIncomingJobs { CONST_VTBL struct IFaxIncomingJobsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingJobs_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingJobs_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingJobs_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingJobs_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingJobs_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingJobs_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingJobs_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingJobs_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxIncomingJobs_get_Item(This,vIndex,pFaxIncomingJob) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxIncomingJob) ) #define IFaxIncomingJobs_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingJobs_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingJob_INTERFACE_DEFINED__ #define __IFaxIncomingJob_INTERFACE_DEFINED__ /* interface IFaxIncomingJob */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingJob; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("207529E6-654A-4916-9F88-4D232EE8A107") IFaxIncomingJob : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Size( /* [retval][out] */ __RPC__out long *plSize) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Id( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CurrentPage( /* [retval][out] */ __RPC__out long *plCurrentPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceId( /* [retval][out] */ __RPC__out long *plDeviceId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatusCode( /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtendedStatus( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AvailableOperations( /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionStart( /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TransmissionEnd( /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CallerId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RoutingInformation( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_JobType( /* [retval][out] */ __RPC__out FAX_JOB_TYPE_ENUM *pJobType) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Cancel( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE CopyTiff( /* [in] */ __RPC__in BSTR bstrTiffPath) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingJobVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingJob * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingJob * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingJob * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingJob * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingJob * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingJob * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingJob * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CurrentPage )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out long *plCurrentPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceId )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out long *plDeviceId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatusCode )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatus )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AvailableOperations )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallerId )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RoutingInformation )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_JobType )( __RPC__in IFaxIncomingJob * This, /* [retval][out] */ __RPC__out FAX_JOB_TYPE_ENUM *pJobType); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Cancel )( __RPC__in IFaxIncomingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxIncomingJob * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxIncomingJob * This, /* [in] */ __RPC__in BSTR bstrTiffPath); END_INTERFACE } IFaxIncomingJobVtbl; interface IFaxIncomingJob { CONST_VTBL struct IFaxIncomingJobVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingJob_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingJob_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingJob_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingJob_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingJob_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingJob_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingJob_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingJob_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxIncomingJob_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxIncomingJob_get_CurrentPage(This,plCurrentPage) \ ( (This)->lpVtbl -> get_CurrentPage(This,plCurrentPage) ) #define IFaxIncomingJob_get_DeviceId(This,plDeviceId) \ ( (This)->lpVtbl -> get_DeviceId(This,plDeviceId) ) #define IFaxIncomingJob_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxIncomingJob_get_ExtendedStatusCode(This,pExtendedStatusCode) \ ( (This)->lpVtbl -> get_ExtendedStatusCode(This,pExtendedStatusCode) ) #define IFaxIncomingJob_get_ExtendedStatus(This,pbstrExtendedStatus) \ ( (This)->lpVtbl -> get_ExtendedStatus(This,pbstrExtendedStatus) ) #define IFaxIncomingJob_get_AvailableOperations(This,pAvailableOperations) \ ( (This)->lpVtbl -> get_AvailableOperations(This,pAvailableOperations) ) #define IFaxIncomingJob_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxIncomingJob_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxIncomingJob_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxIncomingJob_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxIncomingJob_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxIncomingJob_get_CallerId(This,pbstrCallerId) \ ( (This)->lpVtbl -> get_CallerId(This,pbstrCallerId) ) #define IFaxIncomingJob_get_RoutingInformation(This,pbstrRoutingInformation) \ ( (This)->lpVtbl -> get_RoutingInformation(This,pbstrRoutingInformation) ) #define IFaxIncomingJob_get_JobType(This,pJobType) \ ( (This)->lpVtbl -> get_JobType(This,pJobType) ) #define IFaxIncomingJob_Cancel(This) \ ( (This)->lpVtbl -> Cancel(This) ) #define IFaxIncomingJob_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxIncomingJob_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingJob_INTERFACE_DEFINED__ */ #ifndef __IFaxDeviceProvider_INTERFACE_DEFINED__ #define __IFaxDeviceProvider_INTERFACE_DEFINED__ /* interface IFaxDeviceProvider */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_PROVIDER_STATUS_ENUM { fpsSUCCESS = 0, fpsSERVER_ERROR = ( fpsSUCCESS + 1 ) , fpsBAD_GUID = ( fpsSERVER_ERROR + 1 ) , fpsBAD_VERSION = ( fpsBAD_GUID + 1 ) , fpsCANT_LOAD = ( fpsBAD_VERSION + 1 ) , fpsCANT_LINK = ( fpsCANT_LOAD + 1 ) , fpsCANT_INIT = ( fpsCANT_LINK + 1 ) } FAX_PROVIDER_STATUS_ENUM; EXTERN_C const IID IID_IFaxDeviceProvider; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("290EAC63-83EC-449C-8417-F148DF8C682A") IFaxDeviceProvider : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FriendlyName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFriendlyName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ImageName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrImageName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UniqueName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrUniqueName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TapiProviderName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTapiProviderName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorVersion( /* [retval][out] */ __RPC__out long *plMajorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorVersion( /* [retval][out] */ __RPC__out long *plMinorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorBuild( /* [retval][out] */ __RPC__out long *plMajorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorBuild( /* [retval][out] */ __RPC__out long *plMinorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Debug( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_PROVIDER_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InitErrorCode( /* [retval][out] */ __RPC__out long *plInitErrorCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceIds( /* [retval][out] */ __RPC__out VARIANT *pvDeviceIds) = 0; }; #else /* C style interface */ typedef struct IFaxDeviceProviderVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDeviceProvider * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDeviceProvider * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDeviceProvider * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDeviceProvider * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDeviceProvider * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDeviceProvider * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDeviceProvider * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FriendlyName )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFriendlyName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ImageName )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrImageName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UniqueName )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrUniqueName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TapiProviderName )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTapiProviderName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorVersion )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out long *plMajorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorVersion )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out long *plMinorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorBuild )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out long *plMajorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorBuild )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out long *plMinorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Debug )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out FAX_PROVIDER_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InitErrorCode )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out long *plInitErrorCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceIds )( __RPC__in IFaxDeviceProvider * This, /* [retval][out] */ __RPC__out VARIANT *pvDeviceIds); END_INTERFACE } IFaxDeviceProviderVtbl; interface IFaxDeviceProvider { CONST_VTBL struct IFaxDeviceProviderVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDeviceProvider_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDeviceProvider_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDeviceProvider_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDeviceProvider_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDeviceProvider_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDeviceProvider_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDeviceProvider_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDeviceProvider_get_FriendlyName(This,pbstrFriendlyName) \ ( (This)->lpVtbl -> get_FriendlyName(This,pbstrFriendlyName) ) #define IFaxDeviceProvider_get_ImageName(This,pbstrImageName) \ ( (This)->lpVtbl -> get_ImageName(This,pbstrImageName) ) #define IFaxDeviceProvider_get_UniqueName(This,pbstrUniqueName) \ ( (This)->lpVtbl -> get_UniqueName(This,pbstrUniqueName) ) #define IFaxDeviceProvider_get_TapiProviderName(This,pbstrTapiProviderName) \ ( (This)->lpVtbl -> get_TapiProviderName(This,pbstrTapiProviderName) ) #define IFaxDeviceProvider_get_MajorVersion(This,plMajorVersion) \ ( (This)->lpVtbl -> get_MajorVersion(This,plMajorVersion) ) #define IFaxDeviceProvider_get_MinorVersion(This,plMinorVersion) \ ( (This)->lpVtbl -> get_MinorVersion(This,plMinorVersion) ) #define IFaxDeviceProvider_get_MajorBuild(This,plMajorBuild) \ ( (This)->lpVtbl -> get_MajorBuild(This,plMajorBuild) ) #define IFaxDeviceProvider_get_MinorBuild(This,plMinorBuild) \ ( (This)->lpVtbl -> get_MinorBuild(This,plMinorBuild) ) #define IFaxDeviceProvider_get_Debug(This,pbDebug) \ ( (This)->lpVtbl -> get_Debug(This,pbDebug) ) #define IFaxDeviceProvider_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxDeviceProvider_get_InitErrorCode(This,plInitErrorCode) \ ( (This)->lpVtbl -> get_InitErrorCode(This,plInitErrorCode) ) #define IFaxDeviceProvider_get_DeviceIds(This,pvDeviceIds) \ ( (This)->lpVtbl -> get_DeviceIds(This,pvDeviceIds) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDeviceProvider_INTERFACE_DEFINED__ */ #ifndef __IFaxDevice_INTERFACE_DEFINED__ #define __IFaxDevice_INTERFACE_DEFINED__ /* interface IFaxDevice */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_DEVICE_RECEIVE_MODE_ENUM { fdrmNO_ANSWER = 0, fdrmAUTO_ANSWER = ( fdrmNO_ANSWER + 1 ) , fdrmMANUAL_ANSWER = ( fdrmAUTO_ANSWER + 1 ) } FAX_DEVICE_RECEIVE_MODE_ENUM; EXTERN_C const IID IID_IFaxDevice; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("49306C59-B52E-4867-9DF4-CA5841C956D0") IFaxDevice : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Id( /* [retval][out] */ __RPC__out long *plId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ProviderUniqueName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrProviderUniqueName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_PoweredOff( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbPoweredOff) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceivingNow( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbReceivingNow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SendingNow( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSendingNow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UsedRoutingMethods( /* [retval][out] */ __RPC__out VARIANT *pvUsedRoutingMethods) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Description( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDescription) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Description( /* [in] */ __RPC__in BSTR bstrDescription) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SendEnabled( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSendEnabled) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SendEnabled( /* [in] */ VARIANT_BOOL bSendEnabled) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiveMode( /* [retval][out] */ __RPC__out FAX_DEVICE_RECEIVE_MODE_ENUM *pReceiveMode) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ReceiveMode( /* [in] */ FAX_DEVICE_RECEIVE_MODE_ENUM ReceiveMode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RingsBeforeAnswer( /* [retval][out] */ __RPC__out long *plRingsBeforeAnswer) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_RingsBeforeAnswer( /* [in] */ long lRingsBeforeAnswer) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_CSID( /* [in] */ __RPC__in BSTR bstrCSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_TSID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_TSID( /* [in] */ __RPC__in BSTR bstrTSID) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetExtensionProperty( /* [in] */ __RPC__in BSTR bstrGUID, /* [retval][out] */ __RPC__out VARIANT *pvProperty) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE SetExtensionProperty( /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ VARIANT vProperty) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE UseRoutingMethod( /* [in] */ __RPC__in BSTR bstrMethodGUID, /* [in] */ VARIANT_BOOL bUse) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RingingNow( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRingingNow) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE AnswerCall( void) = 0; }; #else /* C style interface */ typedef struct IFaxDeviceVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDevice * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDevice * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDevice * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDevice * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDevice * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out long *plId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceName )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ProviderUniqueName )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrProviderUniqueName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_PoweredOff )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbPoweredOff); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceivingNow )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbReceivingNow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SendingNow )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSendingNow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UsedRoutingMethods )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT *pvUsedRoutingMethods); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Description )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDescription); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Description )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrDescription); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SendEnabled )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSendEnabled); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SendEnabled )( __RPC__in IFaxDevice * This, /* [in] */ VARIANT_BOOL bSendEnabled); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiveMode )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out FAX_DEVICE_RECEIVE_MODE_ENUM *pReceiveMode); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ReceiveMode )( __RPC__in IFaxDevice * This, /* [in] */ FAX_DEVICE_RECEIVE_MODE_ENUM ReceiveMode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RingsBeforeAnswer )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out long *plRingsBeforeAnswer); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_RingsBeforeAnswer )( __RPC__in IFaxDevice * This, /* [in] */ long lRingsBeforeAnswer); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CSID )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_TSID )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrTSID); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxDevice * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxDevice * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetExtensionProperty )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [retval][out] */ __RPC__out VARIANT *pvProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *SetExtensionProperty )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ VARIANT vProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *UseRoutingMethod )( __RPC__in IFaxDevice * This, /* [in] */ __RPC__in BSTR bstrMethodGUID, /* [in] */ VARIANT_BOOL bUse); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RingingNow )( __RPC__in IFaxDevice * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRingingNow); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *AnswerCall )( __RPC__in IFaxDevice * This); END_INTERFACE } IFaxDeviceVtbl; interface IFaxDevice { CONST_VTBL struct IFaxDeviceVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDevice_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDevice_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDevice_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDevice_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDevice_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDevice_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDevice_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDevice_get_Id(This,plId) \ ( (This)->lpVtbl -> get_Id(This,plId) ) #define IFaxDevice_get_DeviceName(This,pbstrDeviceName) \ ( (This)->lpVtbl -> get_DeviceName(This,pbstrDeviceName) ) #define IFaxDevice_get_ProviderUniqueName(This,pbstrProviderUniqueName) \ ( (This)->lpVtbl -> get_ProviderUniqueName(This,pbstrProviderUniqueName) ) #define IFaxDevice_get_PoweredOff(This,pbPoweredOff) \ ( (This)->lpVtbl -> get_PoweredOff(This,pbPoweredOff) ) #define IFaxDevice_get_ReceivingNow(This,pbReceivingNow) \ ( (This)->lpVtbl -> get_ReceivingNow(This,pbReceivingNow) ) #define IFaxDevice_get_SendingNow(This,pbSendingNow) \ ( (This)->lpVtbl -> get_SendingNow(This,pbSendingNow) ) #define IFaxDevice_get_UsedRoutingMethods(This,pvUsedRoutingMethods) \ ( (This)->lpVtbl -> get_UsedRoutingMethods(This,pvUsedRoutingMethods) ) #define IFaxDevice_get_Description(This,pbstrDescription) \ ( (This)->lpVtbl -> get_Description(This,pbstrDescription) ) #define IFaxDevice_put_Description(This,bstrDescription) \ ( (This)->lpVtbl -> put_Description(This,bstrDescription) ) #define IFaxDevice_get_SendEnabled(This,pbSendEnabled) \ ( (This)->lpVtbl -> get_SendEnabled(This,pbSendEnabled) ) #define IFaxDevice_put_SendEnabled(This,bSendEnabled) \ ( (This)->lpVtbl -> put_SendEnabled(This,bSendEnabled) ) #define IFaxDevice_get_ReceiveMode(This,pReceiveMode) \ ( (This)->lpVtbl -> get_ReceiveMode(This,pReceiveMode) ) #define IFaxDevice_put_ReceiveMode(This,ReceiveMode) \ ( (This)->lpVtbl -> put_ReceiveMode(This,ReceiveMode) ) #define IFaxDevice_get_RingsBeforeAnswer(This,plRingsBeforeAnswer) \ ( (This)->lpVtbl -> get_RingsBeforeAnswer(This,plRingsBeforeAnswer) ) #define IFaxDevice_put_RingsBeforeAnswer(This,lRingsBeforeAnswer) \ ( (This)->lpVtbl -> put_RingsBeforeAnswer(This,lRingsBeforeAnswer) ) #define IFaxDevice_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxDevice_put_CSID(This,bstrCSID) \ ( (This)->lpVtbl -> put_CSID(This,bstrCSID) ) #define IFaxDevice_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxDevice_put_TSID(This,bstrTSID) \ ( (This)->lpVtbl -> put_TSID(This,bstrTSID) ) #define IFaxDevice_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxDevice_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxDevice_GetExtensionProperty(This,bstrGUID,pvProperty) \ ( (This)->lpVtbl -> GetExtensionProperty(This,bstrGUID,pvProperty) ) #define IFaxDevice_SetExtensionProperty(This,bstrGUID,vProperty) \ ( (This)->lpVtbl -> SetExtensionProperty(This,bstrGUID,vProperty) ) #define IFaxDevice_UseRoutingMethod(This,bstrMethodGUID,bUse) \ ( (This)->lpVtbl -> UseRoutingMethod(This,bstrMethodGUID,bUse) ) #define IFaxDevice_get_RingingNow(This,pbRingingNow) \ ( (This)->lpVtbl -> get_RingingNow(This,pbRingingNow) ) #define IFaxDevice_AnswerCall(This) \ ( (This)->lpVtbl -> AnswerCall(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDevice_INTERFACE_DEFINED__ */ #ifndef __IFaxActivityLogging_INTERFACE_DEFINED__ #define __IFaxActivityLogging_INTERFACE_DEFINED__ /* interface IFaxActivityLogging */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxActivityLogging; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("1E29078B-5A69-497B-9592-49B7E7FADDB5") IFaxActivityLogging : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LogIncoming( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbLogIncoming) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_LogIncoming( /* [in] */ VARIANT_BOOL bLogIncoming) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LogOutgoing( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbLogOutgoing) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_LogOutgoing( /* [in] */ VARIANT_BOOL bLogOutgoing) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DatabasePath( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDatabasePath) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DatabasePath( /* [in] */ __RPC__in BSTR bstrDatabasePath) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; }; #else /* C style interface */ typedef struct IFaxActivityLoggingVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxActivityLogging * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxActivityLogging * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxActivityLogging * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxActivityLogging * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxActivityLogging * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxActivityLogging * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxActivityLogging * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LogIncoming )( __RPC__in IFaxActivityLogging * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbLogIncoming); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_LogIncoming )( __RPC__in IFaxActivityLogging * This, /* [in] */ VARIANT_BOOL bLogIncoming); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LogOutgoing )( __RPC__in IFaxActivityLogging * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbLogOutgoing); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_LogOutgoing )( __RPC__in IFaxActivityLogging * This, /* [in] */ VARIANT_BOOL bLogOutgoing); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DatabasePath )( __RPC__in IFaxActivityLogging * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDatabasePath); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DatabasePath )( __RPC__in IFaxActivityLogging * This, /* [in] */ __RPC__in BSTR bstrDatabasePath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxActivityLogging * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxActivityLogging * This); END_INTERFACE } IFaxActivityLoggingVtbl; interface IFaxActivityLogging { CONST_VTBL struct IFaxActivityLoggingVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxActivityLogging_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxActivityLogging_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxActivityLogging_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxActivityLogging_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxActivityLogging_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxActivityLogging_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxActivityLogging_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxActivityLogging_get_LogIncoming(This,pbLogIncoming) \ ( (This)->lpVtbl -> get_LogIncoming(This,pbLogIncoming) ) #define IFaxActivityLogging_put_LogIncoming(This,bLogIncoming) \ ( (This)->lpVtbl -> put_LogIncoming(This,bLogIncoming) ) #define IFaxActivityLogging_get_LogOutgoing(This,pbLogOutgoing) \ ( (This)->lpVtbl -> get_LogOutgoing(This,pbLogOutgoing) ) #define IFaxActivityLogging_put_LogOutgoing(This,bLogOutgoing) \ ( (This)->lpVtbl -> put_LogOutgoing(This,bLogOutgoing) ) #define IFaxActivityLogging_get_DatabasePath(This,pbstrDatabasePath) \ ( (This)->lpVtbl -> get_DatabasePath(This,pbstrDatabasePath) ) #define IFaxActivityLogging_put_DatabasePath(This,bstrDatabasePath) \ ( (This)->lpVtbl -> put_DatabasePath(This,bstrDatabasePath) ) #define IFaxActivityLogging_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxActivityLogging_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxActivityLogging_INTERFACE_DEFINED__ */ #ifndef __IFaxEventLogging_INTERFACE_DEFINED__ #define __IFaxEventLogging_INTERFACE_DEFINED__ /* interface IFaxEventLogging */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_LOG_LEVEL_ENUM { fllNONE = 0, fllMIN = ( fllNONE + 1 ) , fllMED = ( fllMIN + 1 ) , fllMAX = ( fllMED + 1 ) } FAX_LOG_LEVEL_ENUM; EXTERN_C const IID IID_IFaxEventLogging; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("0880D965-20E8-42E4-8E17-944F192CAAD4") IFaxEventLogging : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InitEventsLevel( /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pInitEventLevel) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_InitEventsLevel( /* [in] */ FAX_LOG_LEVEL_ENUM InitEventLevel) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InboundEventsLevel( /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pInboundEventLevel) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_InboundEventsLevel( /* [in] */ FAX_LOG_LEVEL_ENUM InboundEventLevel) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutboundEventsLevel( /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pOutboundEventLevel) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OutboundEventsLevel( /* [in] */ FAX_LOG_LEVEL_ENUM OutboundEventLevel) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GeneralEventsLevel( /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pGeneralEventLevel) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_GeneralEventsLevel( /* [in] */ FAX_LOG_LEVEL_ENUM GeneralEventLevel) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; }; #else /* C style interface */ typedef struct IFaxEventLoggingVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxEventLogging * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxEventLogging * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxEventLogging * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxEventLogging * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxEventLogging * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxEventLogging * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxEventLogging * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InitEventsLevel )( __RPC__in IFaxEventLogging * This, /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pInitEventLevel); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_InitEventsLevel )( __RPC__in IFaxEventLogging * This, /* [in] */ FAX_LOG_LEVEL_ENUM InitEventLevel); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InboundEventsLevel )( __RPC__in IFaxEventLogging * This, /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pInboundEventLevel); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_InboundEventsLevel )( __RPC__in IFaxEventLogging * This, /* [in] */ FAX_LOG_LEVEL_ENUM InboundEventLevel); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutboundEventsLevel )( __RPC__in IFaxEventLogging * This, /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pOutboundEventLevel); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OutboundEventsLevel )( __RPC__in IFaxEventLogging * This, /* [in] */ FAX_LOG_LEVEL_ENUM OutboundEventLevel); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GeneralEventsLevel )( __RPC__in IFaxEventLogging * This, /* [retval][out] */ __RPC__out FAX_LOG_LEVEL_ENUM *pGeneralEventLevel); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_GeneralEventsLevel )( __RPC__in IFaxEventLogging * This, /* [in] */ FAX_LOG_LEVEL_ENUM GeneralEventLevel); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxEventLogging * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxEventLogging * This); END_INTERFACE } IFaxEventLoggingVtbl; interface IFaxEventLogging { CONST_VTBL struct IFaxEventLoggingVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxEventLogging_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxEventLogging_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxEventLogging_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxEventLogging_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxEventLogging_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxEventLogging_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxEventLogging_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxEventLogging_get_InitEventsLevel(This,pInitEventLevel) \ ( (This)->lpVtbl -> get_InitEventsLevel(This,pInitEventLevel) ) #define IFaxEventLogging_put_InitEventsLevel(This,InitEventLevel) \ ( (This)->lpVtbl -> put_InitEventsLevel(This,InitEventLevel) ) #define IFaxEventLogging_get_InboundEventsLevel(This,pInboundEventLevel) \ ( (This)->lpVtbl -> get_InboundEventsLevel(This,pInboundEventLevel) ) #define IFaxEventLogging_put_InboundEventsLevel(This,InboundEventLevel) \ ( (This)->lpVtbl -> put_InboundEventsLevel(This,InboundEventLevel) ) #define IFaxEventLogging_get_OutboundEventsLevel(This,pOutboundEventLevel) \ ( (This)->lpVtbl -> get_OutboundEventsLevel(This,pOutboundEventLevel) ) #define IFaxEventLogging_put_OutboundEventsLevel(This,OutboundEventLevel) \ ( (This)->lpVtbl -> put_OutboundEventsLevel(This,OutboundEventLevel) ) #define IFaxEventLogging_get_GeneralEventsLevel(This,pGeneralEventLevel) \ ( (This)->lpVtbl -> get_GeneralEventsLevel(This,pGeneralEventLevel) ) #define IFaxEventLogging_put_GeneralEventsLevel(This,GeneralEventLevel) \ ( (This)->lpVtbl -> put_GeneralEventsLevel(This,GeneralEventLevel) ) #define IFaxEventLogging_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxEventLogging_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxEventLogging_INTERFACE_DEFINED__ */ #ifndef __IFaxOutboundRoutingGroups_INTERFACE_DEFINED__ #define __IFaxOutboundRoutingGroups_INTERFACE_DEFINED__ /* interface IFaxOutboundRoutingGroups */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutboundRoutingGroups; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("235CBEF7-C2DE-4BFD-B8DA-75097C82C87F") IFaxOutboundRoutingGroups : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroup **pFaxOutboundRoutingGroup) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Add( /* [in] */ __RPC__in BSTR bstrName, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroup **pFaxOutboundRoutingGroup) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Remove( /* [in] */ VARIANT vIndex) = 0; }; #else /* C style interface */ typedef struct IFaxOutboundRoutingGroupsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutboundRoutingGroups * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutboundRoutingGroups * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutboundRoutingGroups * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutboundRoutingGroups * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxOutboundRoutingGroups * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroup **pFaxOutboundRoutingGroup); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxOutboundRoutingGroups * This, /* [retval][out] */ __RPC__out long *plCount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Add )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ __RPC__in BSTR bstrName, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingGroup **pFaxOutboundRoutingGroup); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Remove )( __RPC__in IFaxOutboundRoutingGroups * This, /* [in] */ VARIANT vIndex); END_INTERFACE } IFaxOutboundRoutingGroupsVtbl; interface IFaxOutboundRoutingGroups { CONST_VTBL struct IFaxOutboundRoutingGroupsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutboundRoutingGroups_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutboundRoutingGroups_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutboundRoutingGroups_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutboundRoutingGroups_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutboundRoutingGroups_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutboundRoutingGroups_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutboundRoutingGroups_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutboundRoutingGroups_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxOutboundRoutingGroups_get_Item(This,vIndex,pFaxOutboundRoutingGroup) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxOutboundRoutingGroup) ) #define IFaxOutboundRoutingGroups_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #define IFaxOutboundRoutingGroups_Add(This,bstrName,pFaxOutboundRoutingGroup) \ ( (This)->lpVtbl -> Add(This,bstrName,pFaxOutboundRoutingGroup) ) #define IFaxOutboundRoutingGroups_Remove(This,vIndex) \ ( (This)->lpVtbl -> Remove(This,vIndex) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutboundRoutingGroups_INTERFACE_DEFINED__ */ #ifndef __IFaxOutboundRoutingGroup_INTERFACE_DEFINED__ #define __IFaxOutboundRoutingGroup_INTERFACE_DEFINED__ /* interface IFaxOutboundRoutingGroup */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_GROUP_STATUS_ENUM { fgsALL_DEV_VALID = 0, fgsEMPTY = ( fgsALL_DEV_VALID + 1 ) , fgsALL_DEV_NOT_VALID = ( fgsEMPTY + 1 ) , fgsSOME_DEV_NOT_VALID = ( fgsALL_DEV_NOT_VALID + 1 ) } FAX_GROUP_STATUS_ENUM; EXTERN_C const IID IID_IFaxOutboundRoutingGroup; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("CA6289A1-7E25-4F87-9A0B-93365734962C") IFaxOutboundRoutingGroup : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Name( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_GROUP_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceIds( /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceIds **pFaxDeviceIds) = 0; }; #else /* C style interface */ typedef struct IFaxOutboundRoutingGroupVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutboundRoutingGroup * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutboundRoutingGroup * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutboundRoutingGroup * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutboundRoutingGroup * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutboundRoutingGroup * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutboundRoutingGroup * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutboundRoutingGroup * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Name )( __RPC__in IFaxOutboundRoutingGroup * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxOutboundRoutingGroup * This, /* [retval][out] */ __RPC__out FAX_GROUP_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceIds )( __RPC__in IFaxOutboundRoutingGroup * This, /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceIds **pFaxDeviceIds); END_INTERFACE } IFaxOutboundRoutingGroupVtbl; interface IFaxOutboundRoutingGroup { CONST_VTBL struct IFaxOutboundRoutingGroupVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutboundRoutingGroup_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutboundRoutingGroup_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutboundRoutingGroup_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutboundRoutingGroup_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutboundRoutingGroup_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutboundRoutingGroup_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutboundRoutingGroup_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutboundRoutingGroup_get_Name(This,pbstrName) \ ( (This)->lpVtbl -> get_Name(This,pbstrName) ) #define IFaxOutboundRoutingGroup_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxOutboundRoutingGroup_get_DeviceIds(This,pFaxDeviceIds) \ ( (This)->lpVtbl -> get_DeviceIds(This,pFaxDeviceIds) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutboundRoutingGroup_INTERFACE_DEFINED__ */ #ifndef __IFaxDeviceIds_INTERFACE_DEFINED__ #define __IFaxDeviceIds_INTERFACE_DEFINED__ /* interface IFaxDeviceIds */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxDeviceIds; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("2F0F813F-4CE9-443E-8CA1-738CFAEEE149") IFaxDeviceIds : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ long lIndex, /* [retval][out] */ __RPC__out long *plDeviceId) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Add( /* [in] */ long lDeviceId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Remove( /* [in] */ long lIndex) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE SetOrder( /* [in] */ long lDeviceId, /* [in] */ long lNewOrder) = 0; }; #else /* C style interface */ typedef struct IFaxDeviceIdsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDeviceIds * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDeviceIds * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDeviceIds * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDeviceIds * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDeviceIds * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDeviceIds * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDeviceIds * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxDeviceIds * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxDeviceIds * This, /* [in] */ long lIndex, /* [retval][out] */ __RPC__out long *plDeviceId); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxDeviceIds * This, /* [retval][out] */ __RPC__out long *plCount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Add )( __RPC__in IFaxDeviceIds * This, /* [in] */ long lDeviceId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Remove )( __RPC__in IFaxDeviceIds * This, /* [in] */ long lIndex); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *SetOrder )( __RPC__in IFaxDeviceIds * This, /* [in] */ long lDeviceId, /* [in] */ long lNewOrder); END_INTERFACE } IFaxDeviceIdsVtbl; interface IFaxDeviceIds { CONST_VTBL struct IFaxDeviceIdsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDeviceIds_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDeviceIds_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDeviceIds_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDeviceIds_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDeviceIds_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDeviceIds_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDeviceIds_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDeviceIds_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxDeviceIds_get_Item(This,lIndex,plDeviceId) \ ( (This)->lpVtbl -> get_Item(This,lIndex,plDeviceId) ) #define IFaxDeviceIds_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #define IFaxDeviceIds_Add(This,lDeviceId) \ ( (This)->lpVtbl -> Add(This,lDeviceId) ) #define IFaxDeviceIds_Remove(This,lIndex) \ ( (This)->lpVtbl -> Remove(This,lIndex) ) #define IFaxDeviceIds_SetOrder(This,lDeviceId,lNewOrder) \ ( (This)->lpVtbl -> SetOrder(This,lDeviceId,lNewOrder) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDeviceIds_INTERFACE_DEFINED__ */ #ifndef __IFaxOutboundRoutingRules_INTERFACE_DEFINED__ #define __IFaxOutboundRoutingRules_INTERFACE_DEFINED__ /* interface IFaxOutboundRoutingRules */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutboundRoutingRules; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("DCEFA1E7-AE7D-4ED6-8521-369EDCCA5120") IFaxOutboundRoutingRules : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ long lIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ItemByCountryAndArea( /* [in] */ long lCountryCode, /* [in] */ long lAreaCode, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE RemoveByCountryAndArea( /* [in] */ long lCountryCode, /* [in] */ long lAreaCode) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Remove( /* [in] */ long lIndex) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Add( /* [in] */ long lCountryCode, /* [in] */ long lAreaCode, /* [in] */ VARIANT_BOOL bUseDevice, /* [in] */ __RPC__in BSTR bstrGroupName, /* [in] */ long lDeviceId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule) = 0; }; #else /* C style interface */ typedef struct IFaxOutboundRoutingRulesVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutboundRoutingRules * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutboundRoutingRules * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutboundRoutingRules * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutboundRoutingRules * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxOutboundRoutingRules * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ long lIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxOutboundRoutingRules * This, /* [retval][out] */ __RPC__out long *plCount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ItemByCountryAndArea )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ long lCountryCode, /* [in] */ long lAreaCode, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RemoveByCountryAndArea )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ long lCountryCode, /* [in] */ long lAreaCode); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Remove )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ long lIndex); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Add )( __RPC__in IFaxOutboundRoutingRules * This, /* [in] */ long lCountryCode, /* [in] */ long lAreaCode, /* [in] */ VARIANT_BOOL bUseDevice, /* [in] */ __RPC__in BSTR bstrGroupName, /* [in] */ long lDeviceId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRoutingRule **pFaxOutboundRoutingRule); END_INTERFACE } IFaxOutboundRoutingRulesVtbl; interface IFaxOutboundRoutingRules { CONST_VTBL struct IFaxOutboundRoutingRulesVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutboundRoutingRules_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutboundRoutingRules_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutboundRoutingRules_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutboundRoutingRules_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutboundRoutingRules_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutboundRoutingRules_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutboundRoutingRules_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutboundRoutingRules_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxOutboundRoutingRules_get_Item(This,lIndex,pFaxOutboundRoutingRule) \ ( (This)->lpVtbl -> get_Item(This,lIndex,pFaxOutboundRoutingRule) ) #define IFaxOutboundRoutingRules_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #define IFaxOutboundRoutingRules_ItemByCountryAndArea(This,lCountryCode,lAreaCode,pFaxOutboundRoutingRule) \ ( (This)->lpVtbl -> ItemByCountryAndArea(This,lCountryCode,lAreaCode,pFaxOutboundRoutingRule) ) #define IFaxOutboundRoutingRules_RemoveByCountryAndArea(This,lCountryCode,lAreaCode) \ ( (This)->lpVtbl -> RemoveByCountryAndArea(This,lCountryCode,lAreaCode) ) #define IFaxOutboundRoutingRules_Remove(This,lIndex) \ ( (This)->lpVtbl -> Remove(This,lIndex) ) #define IFaxOutboundRoutingRules_Add(This,lCountryCode,lAreaCode,bUseDevice,bstrGroupName,lDeviceId,pFaxOutboundRoutingRule) \ ( (This)->lpVtbl -> Add(This,lCountryCode,lAreaCode,bUseDevice,bstrGroupName,lDeviceId,pFaxOutboundRoutingRule) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutboundRoutingRules_INTERFACE_DEFINED__ */ #ifndef __IFaxOutboundRoutingRule_INTERFACE_DEFINED__ #define __IFaxOutboundRoutingRule_INTERFACE_DEFINED__ /* interface IFaxOutboundRoutingRule */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_RULE_STATUS_ENUM { frsVALID = 0, frsEMPTY_GROUP = ( frsVALID + 1 ) , frsALL_GROUP_DEV_NOT_VALID = ( frsEMPTY_GROUP + 1 ) , frsSOME_GROUP_DEV_NOT_VALID = ( frsALL_GROUP_DEV_NOT_VALID + 1 ) , frsBAD_DEVICE = ( frsSOME_GROUP_DEV_NOT_VALID + 1 ) } FAX_RULE_STATUS_ENUM; EXTERN_C const IID IID_IFaxOutboundRoutingRule; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("E1F795D5-07C2-469F-B027-ACACC23219DA") IFaxOutboundRoutingRule : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CountryCode( /* [retval][out] */ __RPC__out long *plCountryCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AreaCode( /* [retval][out] */ __RPC__out long *plAreaCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_RULE_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseDevice( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDevice) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseDevice( /* [in] */ VARIANT_BOOL bUseDevice) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DeviceId( /* [retval][out] */ __RPC__out long *plDeviceId) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DeviceId( /* [in] */ long DeviceId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GroupName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrGroupName) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_GroupName( /* [in] */ __RPC__in BSTR bstrGroupName) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; }; #else /* C style interface */ typedef struct IFaxOutboundRoutingRuleVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutboundRoutingRule * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutboundRoutingRule * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutboundRoutingRule * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutboundRoutingRule * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CountryCode )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__out long *plCountryCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AreaCode )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__out long *plAreaCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__out FAX_RULE_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseDevice )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDevice); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseDevice )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ VARIANT_BOOL bUseDevice); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceId )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__out long *plDeviceId); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DeviceId )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ long DeviceId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GroupName )( __RPC__in IFaxOutboundRoutingRule * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrGroupName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_GroupName )( __RPC__in IFaxOutboundRoutingRule * This, /* [in] */ __RPC__in BSTR bstrGroupName); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutboundRoutingRule * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxOutboundRoutingRule * This); END_INTERFACE } IFaxOutboundRoutingRuleVtbl; interface IFaxOutboundRoutingRule { CONST_VTBL struct IFaxOutboundRoutingRuleVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutboundRoutingRule_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutboundRoutingRule_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutboundRoutingRule_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutboundRoutingRule_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutboundRoutingRule_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutboundRoutingRule_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutboundRoutingRule_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutboundRoutingRule_get_CountryCode(This,plCountryCode) \ ( (This)->lpVtbl -> get_CountryCode(This,plCountryCode) ) #define IFaxOutboundRoutingRule_get_AreaCode(This,plAreaCode) \ ( (This)->lpVtbl -> get_AreaCode(This,plAreaCode) ) #define IFaxOutboundRoutingRule_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxOutboundRoutingRule_get_UseDevice(This,pbUseDevice) \ ( (This)->lpVtbl -> get_UseDevice(This,pbUseDevice) ) #define IFaxOutboundRoutingRule_put_UseDevice(This,bUseDevice) \ ( (This)->lpVtbl -> put_UseDevice(This,bUseDevice) ) #define IFaxOutboundRoutingRule_get_DeviceId(This,plDeviceId) \ ( (This)->lpVtbl -> get_DeviceId(This,plDeviceId) ) #define IFaxOutboundRoutingRule_put_DeviceId(This,DeviceId) \ ( (This)->lpVtbl -> put_DeviceId(This,DeviceId) ) #define IFaxOutboundRoutingRule_get_GroupName(This,pbstrGroupName) \ ( (This)->lpVtbl -> get_GroupName(This,pbstrGroupName) ) #define IFaxOutboundRoutingRule_put_GroupName(This,bstrGroupName) \ ( (This)->lpVtbl -> put_GroupName(This,bstrGroupName) ) #define IFaxOutboundRoutingRule_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxOutboundRoutingRule_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutboundRoutingRule_INTERFACE_DEFINED__ */ #ifndef __IFaxInboundRoutingExtensions_INTERFACE_DEFINED__ #define __IFaxInboundRoutingExtensions_INTERFACE_DEFINED__ /* interface IFaxInboundRoutingExtensions */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxInboundRoutingExtensions; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("2F6C9673-7B26-42DE-8EB0-915DCD2A4F4C") IFaxInboundRoutingExtensions : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingExtension **pFaxInboundRoutingExtension) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxInboundRoutingExtensionsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxInboundRoutingExtensions * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxInboundRoutingExtensions * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxInboundRoutingExtensions * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxInboundRoutingExtensions * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxInboundRoutingExtensions * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxInboundRoutingExtensions * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxInboundRoutingExtensions * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxInboundRoutingExtensions * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxInboundRoutingExtensions * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingExtension **pFaxInboundRoutingExtension); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxInboundRoutingExtensions * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxInboundRoutingExtensionsVtbl; interface IFaxInboundRoutingExtensions { CONST_VTBL struct IFaxInboundRoutingExtensionsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxInboundRoutingExtensions_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxInboundRoutingExtensions_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxInboundRoutingExtensions_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxInboundRoutingExtensions_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxInboundRoutingExtensions_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxInboundRoutingExtensions_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxInboundRoutingExtensions_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxInboundRoutingExtensions_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxInboundRoutingExtensions_get_Item(This,vIndex,pFaxInboundRoutingExtension) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxInboundRoutingExtension) ) #define IFaxInboundRoutingExtensions_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxInboundRoutingExtensions_INTERFACE_DEFINED__ */ #ifndef __IFaxInboundRoutingExtension_INTERFACE_DEFINED__ #define __IFaxInboundRoutingExtension_INTERFACE_DEFINED__ /* interface IFaxInboundRoutingExtension */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxInboundRoutingExtension; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("885B5E08-C26C-4EF9-AF83-51580A750BE1") IFaxInboundRoutingExtension : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FriendlyName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFriendlyName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ImageName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrImageName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UniqueName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrUniqueName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorVersion( /* [retval][out] */ __RPC__out long *plMajorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorVersion( /* [retval][out] */ __RPC__out long *plMinorVersion) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MajorBuild( /* [retval][out] */ __RPC__out long *plMajorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_MinorBuild( /* [retval][out] */ __RPC__out long *plMinorBuild) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Debug( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Status( /* [retval][out] */ __RPC__out FAX_PROVIDER_STATUS_ENUM *pStatus) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InitErrorCode( /* [retval][out] */ __RPC__out long *plInitErrorCode) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Methods( /* [retval][out] */ __RPC__out VARIANT *pvMethods) = 0; }; #else /* C style interface */ typedef struct IFaxInboundRoutingExtensionVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxInboundRoutingExtension * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxInboundRoutingExtension * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxInboundRoutingExtension * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxInboundRoutingExtension * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxInboundRoutingExtension * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxInboundRoutingExtension * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxInboundRoutingExtension * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FriendlyName )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFriendlyName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ImageName )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrImageName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UniqueName )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrUniqueName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorVersion )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out long *plMajorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorVersion )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out long *plMinorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorBuild )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out long *plMajorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorBuild )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out long *plMinorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Debug )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out FAX_PROVIDER_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InitErrorCode )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out long *plInitErrorCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Methods )( __RPC__in IFaxInboundRoutingExtension * This, /* [retval][out] */ __RPC__out VARIANT *pvMethods); END_INTERFACE } IFaxInboundRoutingExtensionVtbl; interface IFaxInboundRoutingExtension { CONST_VTBL struct IFaxInboundRoutingExtensionVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxInboundRoutingExtension_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxInboundRoutingExtension_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxInboundRoutingExtension_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxInboundRoutingExtension_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxInboundRoutingExtension_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxInboundRoutingExtension_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxInboundRoutingExtension_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxInboundRoutingExtension_get_FriendlyName(This,pbstrFriendlyName) \ ( (This)->lpVtbl -> get_FriendlyName(This,pbstrFriendlyName) ) #define IFaxInboundRoutingExtension_get_ImageName(This,pbstrImageName) \ ( (This)->lpVtbl -> get_ImageName(This,pbstrImageName) ) #define IFaxInboundRoutingExtension_get_UniqueName(This,pbstrUniqueName) \ ( (This)->lpVtbl -> get_UniqueName(This,pbstrUniqueName) ) #define IFaxInboundRoutingExtension_get_MajorVersion(This,plMajorVersion) \ ( (This)->lpVtbl -> get_MajorVersion(This,plMajorVersion) ) #define IFaxInboundRoutingExtension_get_MinorVersion(This,plMinorVersion) \ ( (This)->lpVtbl -> get_MinorVersion(This,plMinorVersion) ) #define IFaxInboundRoutingExtension_get_MajorBuild(This,plMajorBuild) \ ( (This)->lpVtbl -> get_MajorBuild(This,plMajorBuild) ) #define IFaxInboundRoutingExtension_get_MinorBuild(This,plMinorBuild) \ ( (This)->lpVtbl -> get_MinorBuild(This,plMinorBuild) ) #define IFaxInboundRoutingExtension_get_Debug(This,pbDebug) \ ( (This)->lpVtbl -> get_Debug(This,pbDebug) ) #define IFaxInboundRoutingExtension_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxInboundRoutingExtension_get_InitErrorCode(This,plInitErrorCode) \ ( (This)->lpVtbl -> get_InitErrorCode(This,plInitErrorCode) ) #define IFaxInboundRoutingExtension_get_Methods(This,pvMethods) \ ( (This)->lpVtbl -> get_Methods(This,pvMethods) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxInboundRoutingExtension_INTERFACE_DEFINED__ */ #ifndef __IFaxInboundRoutingMethods_INTERFACE_DEFINED__ #define __IFaxInboundRoutingMethods_INTERFACE_DEFINED__ /* interface IFaxInboundRoutingMethods */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxInboundRoutingMethods; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("783FCA10-8908-4473-9D69-F67FBEA0C6B9") IFaxInboundRoutingMethods : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingMethod **pFaxInboundRoutingMethod) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxInboundRoutingMethodsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxInboundRoutingMethods * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxInboundRoutingMethods * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxInboundRoutingMethods * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxInboundRoutingMethods * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxInboundRoutingMethods * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxInboundRoutingMethods * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxInboundRoutingMethods * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxInboundRoutingMethods * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxInboundRoutingMethods * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRoutingMethod **pFaxInboundRoutingMethod); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxInboundRoutingMethods * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxInboundRoutingMethodsVtbl; interface IFaxInboundRoutingMethods { CONST_VTBL struct IFaxInboundRoutingMethodsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxInboundRoutingMethods_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxInboundRoutingMethods_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxInboundRoutingMethods_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxInboundRoutingMethods_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxInboundRoutingMethods_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxInboundRoutingMethods_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxInboundRoutingMethods_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxInboundRoutingMethods_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxInboundRoutingMethods_get_Item(This,vIndex,pFaxInboundRoutingMethod) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxInboundRoutingMethod) ) #define IFaxInboundRoutingMethods_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxInboundRoutingMethods_INTERFACE_DEFINED__ */ #ifndef __IFaxInboundRoutingMethod_INTERFACE_DEFINED__ #define __IFaxInboundRoutingMethod_INTERFACE_DEFINED__ /* interface IFaxInboundRoutingMethod */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxInboundRoutingMethod; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("45700061-AD9D-4776-A8C4-64065492CF4B") IFaxInboundRoutingMethod : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Name( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GUID( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrGUID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FunctionName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFunctionName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtensionFriendlyName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtensionFriendlyName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ExtensionImageName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtensionImageName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Priority( /* [retval][out] */ __RPC__out long *plPriority) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Priority( /* [in] */ long lPriority) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; }; #else /* C style interface */ typedef struct IFaxInboundRoutingMethodVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxInboundRoutingMethod * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxInboundRoutingMethod * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxInboundRoutingMethod * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxInboundRoutingMethod * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxInboundRoutingMethod * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxInboundRoutingMethod * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxInboundRoutingMethod * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Name )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GUID )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrGUID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FunctionName )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrFunctionName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtensionFriendlyName )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtensionFriendlyName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtensionImageName )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtensionImageName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxInboundRoutingMethod * This, /* [retval][out] */ __RPC__out long *plPriority); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Priority )( __RPC__in IFaxInboundRoutingMethod * This, /* [in] */ long lPriority); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxInboundRoutingMethod * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxInboundRoutingMethod * This); END_INTERFACE } IFaxInboundRoutingMethodVtbl; interface IFaxInboundRoutingMethod { CONST_VTBL struct IFaxInboundRoutingMethodVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxInboundRoutingMethod_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxInboundRoutingMethod_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxInboundRoutingMethod_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxInboundRoutingMethod_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxInboundRoutingMethod_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxInboundRoutingMethod_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxInboundRoutingMethod_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxInboundRoutingMethod_get_Name(This,pbstrName) \ ( (This)->lpVtbl -> get_Name(This,pbstrName) ) #define IFaxInboundRoutingMethod_get_GUID(This,pbstrGUID) \ ( (This)->lpVtbl -> get_GUID(This,pbstrGUID) ) #define IFaxInboundRoutingMethod_get_FunctionName(This,pbstrFunctionName) \ ( (This)->lpVtbl -> get_FunctionName(This,pbstrFunctionName) ) #define IFaxInboundRoutingMethod_get_ExtensionFriendlyName(This,pbstrExtensionFriendlyName) \ ( (This)->lpVtbl -> get_ExtensionFriendlyName(This,pbstrExtensionFriendlyName) ) #define IFaxInboundRoutingMethod_get_ExtensionImageName(This,pbstrExtensionImageName) \ ( (This)->lpVtbl -> get_ExtensionImageName(This,pbstrExtensionImageName) ) #define IFaxInboundRoutingMethod_get_Priority(This,plPriority) \ ( (This)->lpVtbl -> get_Priority(This,plPriority) ) #define IFaxInboundRoutingMethod_put_Priority(This,lPriority) \ ( (This)->lpVtbl -> put_Priority(This,lPriority) ) #define IFaxInboundRoutingMethod_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxInboundRoutingMethod_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxInboundRoutingMethod_INTERFACE_DEFINED__ */ #ifndef __IFaxDocument2_INTERFACE_DEFINED__ #define __IFaxDocument2_INTERFACE_DEFINED__ /* interface IFaxDocument2 */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxDocument2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("e1347661-f9ef-4d6d-b4a5-c0a068b65cff") IFaxDocument2 : public IFaxDocument { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SubmissionId( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Bodies( /* [retval][out] */ __RPC__out VARIANT *pvBodies) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Bodies( /* [in] */ VARIANT vBodies) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Submit2( /* [in] */ __RPC__in BSTR bstrFaxServerName, /* [out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs, /* [retval][out] */ __RPC__out long *plErrorBodyFile) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ConnectedSubmit2( /* [in] */ __RPC__in_opt IFaxServer *pFaxServer, /* [out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs, /* [retval][out] */ __RPC__out long *plErrorBodyFile) = 0; }; #else /* C style interface */ typedef struct IFaxDocument2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxDocument2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxDocument2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxDocument2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxDocument2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxDocument2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Body )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrBody); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Body )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrBody); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipients )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipients **ppFaxRecipients); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CoverPage )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCoverPage); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CoverPage )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrCoverPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Subject )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Note )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrNote); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Note )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrNote); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduleTime )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out DATE *pdateScheduleTime); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ScheduleTime )( __RPC__in IFaxDocument2 * This, /* [in] */ DATE dateScheduleTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptAddress )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ReceiptAddress )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrReceiptAddress); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DocumentName )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallHandle )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out long *plCallHandle); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CallHandle )( __RPC__in IFaxDocument2 * This, /* [in] */ long lCallHandle); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CoverPageType )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out FAX_COVERPAGE_TYPE_ENUM *pCoverPageType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_CoverPageType )( __RPC__in IFaxDocument2 * This, /* [in] */ FAX_COVERPAGE_TYPE_ENUM CoverPageType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduleType )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out FAX_SCHEDULE_TYPE_ENUM *pScheduleType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ScheduleType )( __RPC__in IFaxDocument2 * This, /* [in] */ FAX_SCHEDULE_TYPE_ENUM ScheduleType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptType )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ReceiptType )( __RPC__in IFaxDocument2 * This, /* [in] */ FAX_RECEIPT_TYPE_ENUM ReceiptType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GroupBroadcastReceipts )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseGrouping); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_GroupBroadcastReceipts )( __RPC__in IFaxDocument2 * This, /* [in] */ VARIANT_BOOL bUseGrouping); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Priority )( __RPC__in IFaxDocument2 * This, /* [in] */ FAX_PRIORITY_TYPE_ENUM Priority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TapiConnection )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt IDispatch **ppTapiConnection); /* [helpstring][id][propputref] */ HRESULT ( STDMETHODCALLTYPE *putref_TapiConnection )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in_opt IDispatch *pTapiConnection); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Submit )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrFaxServerName, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ConnectedSubmit )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in_opt IFaxServer *pFaxServer, /* [retval][out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AttachFaxToReceipt )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAttachFax); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AttachFaxToReceipt )( __RPC__in IFaxDocument2 * This, /* [in] */ VARIANT_BOOL bAttachFax); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionId )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Bodies )( __RPC__in IFaxDocument2 * This, /* [retval][out] */ __RPC__out VARIANT *pvBodies); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Bodies )( __RPC__in IFaxDocument2 * This, /* [in] */ VARIANT vBodies); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Submit2 )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in BSTR bstrFaxServerName, /* [out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs, /* [retval][out] */ __RPC__out long *plErrorBodyFile); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ConnectedSubmit2 )( __RPC__in IFaxDocument2 * This, /* [in] */ __RPC__in_opt IFaxServer *pFaxServer, /* [out] */ __RPC__out VARIANT *pvFaxOutgoingJobIDs, /* [retval][out] */ __RPC__out long *plErrorBodyFile); END_INTERFACE } IFaxDocument2Vtbl; interface IFaxDocument2 { CONST_VTBL struct IFaxDocument2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxDocument2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxDocument2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxDocument2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxDocument2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxDocument2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxDocument2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxDocument2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxDocument2_get_Body(This,pbstrBody) \ ( (This)->lpVtbl -> get_Body(This,pbstrBody) ) #define IFaxDocument2_put_Body(This,bstrBody) \ ( (This)->lpVtbl -> put_Body(This,bstrBody) ) #define IFaxDocument2_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxDocument2_get_Recipients(This,ppFaxRecipients) \ ( (This)->lpVtbl -> get_Recipients(This,ppFaxRecipients) ) #define IFaxDocument2_get_CoverPage(This,pbstrCoverPage) \ ( (This)->lpVtbl -> get_CoverPage(This,pbstrCoverPage) ) #define IFaxDocument2_put_CoverPage(This,bstrCoverPage) \ ( (This)->lpVtbl -> put_CoverPage(This,bstrCoverPage) ) #define IFaxDocument2_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxDocument2_put_Subject(This,bstrSubject) \ ( (This)->lpVtbl -> put_Subject(This,bstrSubject) ) #define IFaxDocument2_get_Note(This,pbstrNote) \ ( (This)->lpVtbl -> get_Note(This,pbstrNote) ) #define IFaxDocument2_put_Note(This,bstrNote) \ ( (This)->lpVtbl -> put_Note(This,bstrNote) ) #define IFaxDocument2_get_ScheduleTime(This,pdateScheduleTime) \ ( (This)->lpVtbl -> get_ScheduleTime(This,pdateScheduleTime) ) #define IFaxDocument2_put_ScheduleTime(This,dateScheduleTime) \ ( (This)->lpVtbl -> put_ScheduleTime(This,dateScheduleTime) ) #define IFaxDocument2_get_ReceiptAddress(This,pbstrReceiptAddress) \ ( (This)->lpVtbl -> get_ReceiptAddress(This,pbstrReceiptAddress) ) #define IFaxDocument2_put_ReceiptAddress(This,bstrReceiptAddress) \ ( (This)->lpVtbl -> put_ReceiptAddress(This,bstrReceiptAddress) ) #define IFaxDocument2_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxDocument2_put_DocumentName(This,bstrDocumentName) \ ( (This)->lpVtbl -> put_DocumentName(This,bstrDocumentName) ) #define IFaxDocument2_get_CallHandle(This,plCallHandle) \ ( (This)->lpVtbl -> get_CallHandle(This,plCallHandle) ) #define IFaxDocument2_put_CallHandle(This,lCallHandle) \ ( (This)->lpVtbl -> put_CallHandle(This,lCallHandle) ) #define IFaxDocument2_get_CoverPageType(This,pCoverPageType) \ ( (This)->lpVtbl -> get_CoverPageType(This,pCoverPageType) ) #define IFaxDocument2_put_CoverPageType(This,CoverPageType) \ ( (This)->lpVtbl -> put_CoverPageType(This,CoverPageType) ) #define IFaxDocument2_get_ScheduleType(This,pScheduleType) \ ( (This)->lpVtbl -> get_ScheduleType(This,pScheduleType) ) #define IFaxDocument2_put_ScheduleType(This,ScheduleType) \ ( (This)->lpVtbl -> put_ScheduleType(This,ScheduleType) ) #define IFaxDocument2_get_ReceiptType(This,pReceiptType) \ ( (This)->lpVtbl -> get_ReceiptType(This,pReceiptType) ) #define IFaxDocument2_put_ReceiptType(This,ReceiptType) \ ( (This)->lpVtbl -> put_ReceiptType(This,ReceiptType) ) #define IFaxDocument2_get_GroupBroadcastReceipts(This,pbUseGrouping) \ ( (This)->lpVtbl -> get_GroupBroadcastReceipts(This,pbUseGrouping) ) #define IFaxDocument2_put_GroupBroadcastReceipts(This,bUseGrouping) \ ( (This)->lpVtbl -> put_GroupBroadcastReceipts(This,bUseGrouping) ) #define IFaxDocument2_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxDocument2_put_Priority(This,Priority) \ ( (This)->lpVtbl -> put_Priority(This,Priority) ) #define IFaxDocument2_get_TapiConnection(This,ppTapiConnection) \ ( (This)->lpVtbl -> get_TapiConnection(This,ppTapiConnection) ) #define IFaxDocument2_putref_TapiConnection(This,pTapiConnection) \ ( (This)->lpVtbl -> putref_TapiConnection(This,pTapiConnection) ) #define IFaxDocument2_Submit(This,bstrFaxServerName,pvFaxOutgoingJobIDs) \ ( (This)->lpVtbl -> Submit(This,bstrFaxServerName,pvFaxOutgoingJobIDs) ) #define IFaxDocument2_ConnectedSubmit(This,pFaxServer,pvFaxOutgoingJobIDs) \ ( (This)->lpVtbl -> ConnectedSubmit(This,pFaxServer,pvFaxOutgoingJobIDs) ) #define IFaxDocument2_get_AttachFaxToReceipt(This,pbAttachFax) \ ( (This)->lpVtbl -> get_AttachFaxToReceipt(This,pbAttachFax) ) #define IFaxDocument2_put_AttachFaxToReceipt(This,bAttachFax) \ ( (This)->lpVtbl -> put_AttachFaxToReceipt(This,bAttachFax) ) #define IFaxDocument2_get_SubmissionId(This,pbstrSubmissionId) \ ( (This)->lpVtbl -> get_SubmissionId(This,pbstrSubmissionId) ) #define IFaxDocument2_get_Bodies(This,pvBodies) \ ( (This)->lpVtbl -> get_Bodies(This,pvBodies) ) #define IFaxDocument2_put_Bodies(This,vBodies) \ ( (This)->lpVtbl -> put_Bodies(This,vBodies) ) #define IFaxDocument2_Submit2(This,bstrFaxServerName,pvFaxOutgoingJobIDs,plErrorBodyFile) \ ( (This)->lpVtbl -> Submit2(This,bstrFaxServerName,pvFaxOutgoingJobIDs,plErrorBodyFile) ) #define IFaxDocument2_ConnectedSubmit2(This,pFaxServer,pvFaxOutgoingJobIDs,plErrorBodyFile) \ ( (This)->lpVtbl -> ConnectedSubmit2(This,pFaxServer,pvFaxOutgoingJobIDs,plErrorBodyFile) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxDocument2_INTERFACE_DEFINED__ */ #ifndef __IFaxConfiguration_INTERFACE_DEFINED__ #define __IFaxConfiguration_INTERFACE_DEFINED__ /* interface IFaxConfiguration */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxConfiguration; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("10f4d0f7-0994-4543-ab6e-506949128c40") IFaxConfiguration : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseArchive( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseArchive( /* [in] */ VARIANT_BOOL bUseArchive) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveLocation( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveLocation) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ArchiveLocation( /* [in] */ __RPC__in BSTR bstrArchiveLocation) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeQuotaWarning( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SizeQuotaWarning( /* [in] */ VARIANT_BOOL bSizeQuotaWarning) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HighQuotaWaterMark( /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_HighQuotaWaterMark( /* [in] */ long lHighQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_LowQuotaWaterMark( /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_LowQuotaWaterMark( /* [in] */ long lLowQuotaWaterMark) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveAgeLimit( /* [retval][out] */ __RPC__out long *plArchiveAgeLimit) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_ArchiveAgeLimit( /* [in] */ long lArchiveAgeLimit) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveSizeLow( /* [retval][out] */ __RPC__out long *plSizeLow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ArchiveSizeHigh( /* [retval][out] */ __RPC__out long *plSizeHigh) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingQueueBlocked( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbOutgoingBlocked) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OutgoingQueueBlocked( /* [in] */ VARIANT_BOOL bOutgoingBlocked) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingQueuePaused( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbOutgoingPaused) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OutgoingQueuePaused( /* [in] */ VARIANT_BOOL bOutgoingPaused) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AllowPersonalCoverPages( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAllowPersonalCoverPages) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AllowPersonalCoverPages( /* [in] */ VARIANT_BOOL bAllowPersonalCoverPages) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_UseDeviceTSID( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDeviceTSID) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_UseDeviceTSID( /* [in] */ VARIANT_BOOL bUseDeviceTSID) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Retries( /* [retval][out] */ __RPC__out long *plRetries) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Retries( /* [in] */ long lRetries) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RetryDelay( /* [retval][out] */ __RPC__out long *plRetryDelay) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_RetryDelay( /* [in] */ long lRetryDelay) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DiscountRateStart( /* [retval][out] */ __RPC__out DATE *pdateDiscountRateStart) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DiscountRateStart( /* [in] */ DATE dateDiscountRateStart) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_DiscountRateEnd( /* [retval][out] */ __RPC__out DATE *pdateDiscountRateEnd) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_DiscountRateEnd( /* [in] */ DATE dateDiscountRateEnd) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingQueueAgeLimit( /* [retval][out] */ __RPC__out long *plOutgoingQueueAgeLimit) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_OutgoingQueueAgeLimit( /* [in] */ long lOutgoingQueueAgeLimit) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Branding( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBranding) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Branding( /* [in] */ VARIANT_BOOL bBranding) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingQueueBlocked( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbIncomingBlocked) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_IncomingQueueBlocked( /* [in] */ VARIANT_BOOL bIncomingBlocked) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AutoCreateAccountOnConnect( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAutoCreateAccountOnConnect) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_AutoCreateAccountOnConnect( /* [in] */ VARIANT_BOOL bAutoCreateAccountOnConnect) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingFaxesArePublic( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbIncomingFaxesArePublic) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_IncomingFaxesArePublic( /* [in] */ VARIANT_BOOL bIncomingFaxesArePublic) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; }; #else /* C style interface */ typedef struct IFaxConfigurationVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxConfiguration * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxConfiguration * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxConfiguration * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxConfiguration * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxConfiguration * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxConfiguration * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxConfiguration * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseArchive )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseArchive); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseArchive )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bUseArchive); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveLocation )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrArchiveLocation); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ArchiveLocation )( __RPC__in IFaxConfiguration * This, /* [in] */ __RPC__in BSTR bstrArchiveLocation); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeQuotaWarning )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbSizeQuotaWarning); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SizeQuotaWarning )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bSizeQuotaWarning); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HighQuotaWaterMark )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plHighQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_HighQuotaWaterMark )( __RPC__in IFaxConfiguration * This, /* [in] */ long lHighQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LowQuotaWaterMark )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plLowQuotaWaterMark); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_LowQuotaWaterMark )( __RPC__in IFaxConfiguration * This, /* [in] */ long lLowQuotaWaterMark); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveAgeLimit )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plArchiveAgeLimit); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_ArchiveAgeLimit )( __RPC__in IFaxConfiguration * This, /* [in] */ long lArchiveAgeLimit); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveSizeLow )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plSizeLow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ArchiveSizeHigh )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plSizeHigh); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingQueueBlocked )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbOutgoingBlocked); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OutgoingQueueBlocked )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bOutgoingBlocked); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingQueuePaused )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbOutgoingPaused); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OutgoingQueuePaused )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bOutgoingPaused); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AllowPersonalCoverPages )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAllowPersonalCoverPages); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AllowPersonalCoverPages )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bAllowPersonalCoverPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_UseDeviceTSID )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbUseDeviceTSID); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_UseDeviceTSID )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bUseDeviceTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Retries )( __RPC__in IFaxConfiguration * This, /* [in] */ long lRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RetryDelay )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plRetryDelay); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_RetryDelay )( __RPC__in IFaxConfiguration * This, /* [in] */ long lRetryDelay); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DiscountRateStart )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out DATE *pdateDiscountRateStart); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DiscountRateStart )( __RPC__in IFaxConfiguration * This, /* [in] */ DATE dateDiscountRateStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DiscountRateEnd )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out DATE *pdateDiscountRateEnd); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_DiscountRateEnd )( __RPC__in IFaxConfiguration * This, /* [in] */ DATE dateDiscountRateEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingQueueAgeLimit )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out long *plOutgoingQueueAgeLimit); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_OutgoingQueueAgeLimit )( __RPC__in IFaxConfiguration * This, /* [in] */ long lOutgoingQueueAgeLimit); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Branding )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbBranding); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Branding )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bBranding); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingQueueBlocked )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbIncomingBlocked); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_IncomingQueueBlocked )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bIncomingBlocked); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AutoCreateAccountOnConnect )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbAutoCreateAccountOnConnect); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_AutoCreateAccountOnConnect )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bAutoCreateAccountOnConnect); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingFaxesArePublic )( __RPC__in IFaxConfiguration * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbIncomingFaxesArePublic); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_IncomingFaxesArePublic )( __RPC__in IFaxConfiguration * This, /* [in] */ VARIANT_BOOL bIncomingFaxesArePublic); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxConfiguration * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxConfiguration * This); END_INTERFACE } IFaxConfigurationVtbl; interface IFaxConfiguration { CONST_VTBL struct IFaxConfigurationVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxConfiguration_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxConfiguration_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxConfiguration_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxConfiguration_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxConfiguration_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxConfiguration_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxConfiguration_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxConfiguration_get_UseArchive(This,pbUseArchive) \ ( (This)->lpVtbl -> get_UseArchive(This,pbUseArchive) ) #define IFaxConfiguration_put_UseArchive(This,bUseArchive) \ ( (This)->lpVtbl -> put_UseArchive(This,bUseArchive) ) #define IFaxConfiguration_get_ArchiveLocation(This,pbstrArchiveLocation) \ ( (This)->lpVtbl -> get_ArchiveLocation(This,pbstrArchiveLocation) ) #define IFaxConfiguration_put_ArchiveLocation(This,bstrArchiveLocation) \ ( (This)->lpVtbl -> put_ArchiveLocation(This,bstrArchiveLocation) ) #define IFaxConfiguration_get_SizeQuotaWarning(This,pbSizeQuotaWarning) \ ( (This)->lpVtbl -> get_SizeQuotaWarning(This,pbSizeQuotaWarning) ) #define IFaxConfiguration_put_SizeQuotaWarning(This,bSizeQuotaWarning) \ ( (This)->lpVtbl -> put_SizeQuotaWarning(This,bSizeQuotaWarning) ) #define IFaxConfiguration_get_HighQuotaWaterMark(This,plHighQuotaWaterMark) \ ( (This)->lpVtbl -> get_HighQuotaWaterMark(This,plHighQuotaWaterMark) ) #define IFaxConfiguration_put_HighQuotaWaterMark(This,lHighQuotaWaterMark) \ ( (This)->lpVtbl -> put_HighQuotaWaterMark(This,lHighQuotaWaterMark) ) #define IFaxConfiguration_get_LowQuotaWaterMark(This,plLowQuotaWaterMark) \ ( (This)->lpVtbl -> get_LowQuotaWaterMark(This,plLowQuotaWaterMark) ) #define IFaxConfiguration_put_LowQuotaWaterMark(This,lLowQuotaWaterMark) \ ( (This)->lpVtbl -> put_LowQuotaWaterMark(This,lLowQuotaWaterMark) ) #define IFaxConfiguration_get_ArchiveAgeLimit(This,plArchiveAgeLimit) \ ( (This)->lpVtbl -> get_ArchiveAgeLimit(This,plArchiveAgeLimit) ) #define IFaxConfiguration_put_ArchiveAgeLimit(This,lArchiveAgeLimit) \ ( (This)->lpVtbl -> put_ArchiveAgeLimit(This,lArchiveAgeLimit) ) #define IFaxConfiguration_get_ArchiveSizeLow(This,plSizeLow) \ ( (This)->lpVtbl -> get_ArchiveSizeLow(This,plSizeLow) ) #define IFaxConfiguration_get_ArchiveSizeHigh(This,plSizeHigh) \ ( (This)->lpVtbl -> get_ArchiveSizeHigh(This,plSizeHigh) ) #define IFaxConfiguration_get_OutgoingQueueBlocked(This,pbOutgoingBlocked) \ ( (This)->lpVtbl -> get_OutgoingQueueBlocked(This,pbOutgoingBlocked) ) #define IFaxConfiguration_put_OutgoingQueueBlocked(This,bOutgoingBlocked) \ ( (This)->lpVtbl -> put_OutgoingQueueBlocked(This,bOutgoingBlocked) ) #define IFaxConfiguration_get_OutgoingQueuePaused(This,pbOutgoingPaused) \ ( (This)->lpVtbl -> get_OutgoingQueuePaused(This,pbOutgoingPaused) ) #define IFaxConfiguration_put_OutgoingQueuePaused(This,bOutgoingPaused) \ ( (This)->lpVtbl -> put_OutgoingQueuePaused(This,bOutgoingPaused) ) #define IFaxConfiguration_get_AllowPersonalCoverPages(This,pbAllowPersonalCoverPages) \ ( (This)->lpVtbl -> get_AllowPersonalCoverPages(This,pbAllowPersonalCoverPages) ) #define IFaxConfiguration_put_AllowPersonalCoverPages(This,bAllowPersonalCoverPages) \ ( (This)->lpVtbl -> put_AllowPersonalCoverPages(This,bAllowPersonalCoverPages) ) #define IFaxConfiguration_get_UseDeviceTSID(This,pbUseDeviceTSID) \ ( (This)->lpVtbl -> get_UseDeviceTSID(This,pbUseDeviceTSID) ) #define IFaxConfiguration_put_UseDeviceTSID(This,bUseDeviceTSID) \ ( (This)->lpVtbl -> put_UseDeviceTSID(This,bUseDeviceTSID) ) #define IFaxConfiguration_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxConfiguration_put_Retries(This,lRetries) \ ( (This)->lpVtbl -> put_Retries(This,lRetries) ) #define IFaxConfiguration_get_RetryDelay(This,plRetryDelay) \ ( (This)->lpVtbl -> get_RetryDelay(This,plRetryDelay) ) #define IFaxConfiguration_put_RetryDelay(This,lRetryDelay) \ ( (This)->lpVtbl -> put_RetryDelay(This,lRetryDelay) ) #define IFaxConfiguration_get_DiscountRateStart(This,pdateDiscountRateStart) \ ( (This)->lpVtbl -> get_DiscountRateStart(This,pdateDiscountRateStart) ) #define IFaxConfiguration_put_DiscountRateStart(This,dateDiscountRateStart) \ ( (This)->lpVtbl -> put_DiscountRateStart(This,dateDiscountRateStart) ) #define IFaxConfiguration_get_DiscountRateEnd(This,pdateDiscountRateEnd) \ ( (This)->lpVtbl -> get_DiscountRateEnd(This,pdateDiscountRateEnd) ) #define IFaxConfiguration_put_DiscountRateEnd(This,dateDiscountRateEnd) \ ( (This)->lpVtbl -> put_DiscountRateEnd(This,dateDiscountRateEnd) ) #define IFaxConfiguration_get_OutgoingQueueAgeLimit(This,plOutgoingQueueAgeLimit) \ ( (This)->lpVtbl -> get_OutgoingQueueAgeLimit(This,plOutgoingQueueAgeLimit) ) #define IFaxConfiguration_put_OutgoingQueueAgeLimit(This,lOutgoingQueueAgeLimit) \ ( (This)->lpVtbl -> put_OutgoingQueueAgeLimit(This,lOutgoingQueueAgeLimit) ) #define IFaxConfiguration_get_Branding(This,pbBranding) \ ( (This)->lpVtbl -> get_Branding(This,pbBranding) ) #define IFaxConfiguration_put_Branding(This,bBranding) \ ( (This)->lpVtbl -> put_Branding(This,bBranding) ) #define IFaxConfiguration_get_IncomingQueueBlocked(This,pbIncomingBlocked) \ ( (This)->lpVtbl -> get_IncomingQueueBlocked(This,pbIncomingBlocked) ) #define IFaxConfiguration_put_IncomingQueueBlocked(This,bIncomingBlocked) \ ( (This)->lpVtbl -> put_IncomingQueueBlocked(This,bIncomingBlocked) ) #define IFaxConfiguration_get_AutoCreateAccountOnConnect(This,pbAutoCreateAccountOnConnect) \ ( (This)->lpVtbl -> get_AutoCreateAccountOnConnect(This,pbAutoCreateAccountOnConnect) ) #define IFaxConfiguration_put_AutoCreateAccountOnConnect(This,bAutoCreateAccountOnConnect) \ ( (This)->lpVtbl -> put_AutoCreateAccountOnConnect(This,bAutoCreateAccountOnConnect) ) #define IFaxConfiguration_get_IncomingFaxesArePublic(This,pbIncomingFaxesArePublic) \ ( (This)->lpVtbl -> get_IncomingFaxesArePublic(This,pbIncomingFaxesArePublic) ) #define IFaxConfiguration_put_IncomingFaxesArePublic(This,bIncomingFaxesArePublic) \ ( (This)->lpVtbl -> put_IncomingFaxesArePublic(This,bIncomingFaxesArePublic) ) #define IFaxConfiguration_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxConfiguration_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxConfiguration_INTERFACE_DEFINED__ */ #ifndef __IFaxServer2_INTERFACE_DEFINED__ #define __IFaxServer2_INTERFACE_DEFINED__ /* interface IFaxServer2 */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxServer2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("571ced0f-5609-4f40-9176-547e3a72ca7c") IFaxServer2 : public IFaxServer { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Configuration( /* [retval][out] */ __RPC__deref_out_opt IFaxConfiguration **ppFaxConfiguration) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_CurrentAccount( /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **ppCurrentAccount) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_FaxAccountSet( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountSet **ppFaxAccountSet) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Security2( /* [retval][out] */ __RPC__deref_out_opt IFaxSecurity2 **ppFaxSecurity2) = 0; }; #else /* C style interface */ typedef struct IFaxServer2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxServer2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxServer2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxServer2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxServer2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxServer2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Connect )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrServerName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ServerName )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrServerName); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetDeviceProviders )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxDeviceProviders **ppFaxDeviceProviders); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetDevices )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxDevices **ppFaxDevices); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InboundRouting )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxInboundRouting **ppFaxInboundRouting); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Folders )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxFolders **pFaxFolders); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_LoggingOptions )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxLoggingOptions **ppFaxLoggingOptions); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorVersion )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out long *plMajorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorVersion )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out long *plMinorVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MajorBuild )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out long *plMajorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_MinorBuild )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out long *plMinorBuild); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Debug )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbDebug); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Activity )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxActivity **ppFaxActivity); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutboundRouting )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutboundRouting **ppFaxOutboundRouting); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptOptions )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxReceiptOptions **ppFaxReceiptOptions); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Security )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSecurity **ppFaxSecurity); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Disconnect )( __RPC__in IFaxServer2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetExtensionProperty )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [retval][out] */ __RPC__out VARIANT *pvProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *SetExtensionProperty )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ VARIANT vProperty); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ListenToServerEvents )( __RPC__in IFaxServer2 * This, /* [in] */ FAX_SERVER_EVENTS_TYPE_ENUM EventTypes); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RegisterDeviceProvider )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrGUID, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ __RPC__in BSTR TspName, /* [in] */ long lFSPIVersion); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *UnregisterDeviceProvider )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrUniqueName); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RegisterInboundRoutingExtension )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrExtensionName, /* [in] */ __RPC__in BSTR bstrFriendlyName, /* [in] */ __RPC__in BSTR bstrImageName, /* [in] */ VARIANT vMethods); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *UnregisterInboundRoutingExtension )( __RPC__in IFaxServer2 * This, /* [in] */ __RPC__in BSTR bstrExtensionUniqueName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RegisteredEvents )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out FAX_SERVER_EVENTS_TYPE_ENUM *pEventTypes); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_APIVersion )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__out FAX_SERVER_APIVERSION_ENUM *pAPIVersion); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Configuration )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxConfiguration **ppFaxConfiguration); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CurrentAccount )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **ppCurrentAccount); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_FaxAccountSet )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountSet **ppFaxAccountSet); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Security2 )( __RPC__in IFaxServer2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSecurity2 **ppFaxSecurity2); END_INTERFACE } IFaxServer2Vtbl; interface IFaxServer2 { CONST_VTBL struct IFaxServer2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxServer2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxServer2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxServer2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxServer2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxServer2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxServer2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxServer2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxServer2_Connect(This,bstrServerName) \ ( (This)->lpVtbl -> Connect(This,bstrServerName) ) #define IFaxServer2_get_ServerName(This,pbstrServerName) \ ( (This)->lpVtbl -> get_ServerName(This,pbstrServerName) ) #define IFaxServer2_GetDeviceProviders(This,ppFaxDeviceProviders) \ ( (This)->lpVtbl -> GetDeviceProviders(This,ppFaxDeviceProviders) ) #define IFaxServer2_GetDevices(This,ppFaxDevices) \ ( (This)->lpVtbl -> GetDevices(This,ppFaxDevices) ) #define IFaxServer2_get_InboundRouting(This,ppFaxInboundRouting) \ ( (This)->lpVtbl -> get_InboundRouting(This,ppFaxInboundRouting) ) #define IFaxServer2_get_Folders(This,pFaxFolders) \ ( (This)->lpVtbl -> get_Folders(This,pFaxFolders) ) #define IFaxServer2_get_LoggingOptions(This,ppFaxLoggingOptions) \ ( (This)->lpVtbl -> get_LoggingOptions(This,ppFaxLoggingOptions) ) #define IFaxServer2_get_MajorVersion(This,plMajorVersion) \ ( (This)->lpVtbl -> get_MajorVersion(This,plMajorVersion) ) #define IFaxServer2_get_MinorVersion(This,plMinorVersion) \ ( (This)->lpVtbl -> get_MinorVersion(This,plMinorVersion) ) #define IFaxServer2_get_MajorBuild(This,plMajorBuild) \ ( (This)->lpVtbl -> get_MajorBuild(This,plMajorBuild) ) #define IFaxServer2_get_MinorBuild(This,plMinorBuild) \ ( (This)->lpVtbl -> get_MinorBuild(This,plMinorBuild) ) #define IFaxServer2_get_Debug(This,pbDebug) \ ( (This)->lpVtbl -> get_Debug(This,pbDebug) ) #define IFaxServer2_get_Activity(This,ppFaxActivity) \ ( (This)->lpVtbl -> get_Activity(This,ppFaxActivity) ) #define IFaxServer2_get_OutboundRouting(This,ppFaxOutboundRouting) \ ( (This)->lpVtbl -> get_OutboundRouting(This,ppFaxOutboundRouting) ) #define IFaxServer2_get_ReceiptOptions(This,ppFaxReceiptOptions) \ ( (This)->lpVtbl -> get_ReceiptOptions(This,ppFaxReceiptOptions) ) #define IFaxServer2_get_Security(This,ppFaxSecurity) \ ( (This)->lpVtbl -> get_Security(This,ppFaxSecurity) ) #define IFaxServer2_Disconnect(This) \ ( (This)->lpVtbl -> Disconnect(This) ) #define IFaxServer2_GetExtensionProperty(This,bstrGUID,pvProperty) \ ( (This)->lpVtbl -> GetExtensionProperty(This,bstrGUID,pvProperty) ) #define IFaxServer2_SetExtensionProperty(This,bstrGUID,vProperty) \ ( (This)->lpVtbl -> SetExtensionProperty(This,bstrGUID,vProperty) ) #define IFaxServer2_ListenToServerEvents(This,EventTypes) \ ( (This)->lpVtbl -> ListenToServerEvents(This,EventTypes) ) #define IFaxServer2_RegisterDeviceProvider(This,bstrGUID,bstrFriendlyName,bstrImageName,TspName,lFSPIVersion) \ ( (This)->lpVtbl -> RegisterDeviceProvider(This,bstrGUID,bstrFriendlyName,bstrImageName,TspName,lFSPIVersion) ) #define IFaxServer2_UnregisterDeviceProvider(This,bstrUniqueName) \ ( (This)->lpVtbl -> UnregisterDeviceProvider(This,bstrUniqueName) ) #define IFaxServer2_RegisterInboundRoutingExtension(This,bstrExtensionName,bstrFriendlyName,bstrImageName,vMethods) \ ( (This)->lpVtbl -> RegisterInboundRoutingExtension(This,bstrExtensionName,bstrFriendlyName,bstrImageName,vMethods) ) #define IFaxServer2_UnregisterInboundRoutingExtension(This,bstrExtensionUniqueName) \ ( (This)->lpVtbl -> UnregisterInboundRoutingExtension(This,bstrExtensionUniqueName) ) #define IFaxServer2_get_RegisteredEvents(This,pEventTypes) \ ( (This)->lpVtbl -> get_RegisteredEvents(This,pEventTypes) ) #define IFaxServer2_get_APIVersion(This,pAPIVersion) \ ( (This)->lpVtbl -> get_APIVersion(This,pAPIVersion) ) #define IFaxServer2_get_Configuration(This,ppFaxConfiguration) \ ( (This)->lpVtbl -> get_Configuration(This,ppFaxConfiguration) ) #define IFaxServer2_get_CurrentAccount(This,ppCurrentAccount) \ ( (This)->lpVtbl -> get_CurrentAccount(This,ppCurrentAccount) ) #define IFaxServer2_get_FaxAccountSet(This,ppFaxAccountSet) \ ( (This)->lpVtbl -> get_FaxAccountSet(This,ppFaxAccountSet) ) #define IFaxServer2_get_Security2(This,ppFaxSecurity2) \ ( (This)->lpVtbl -> get_Security2(This,ppFaxSecurity2) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxServer2_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountSet_INTERFACE_DEFINED__ #define __IFaxAccountSet_INTERFACE_DEFINED__ /* interface IFaxAccountSet */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountSet; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("7428fbae-841e-47b8-86f4-2288946dca1b") IFaxAccountSet : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetAccounts( /* [retval][out] */ __RPC__deref_out_opt IFaxAccounts **ppFaxAccounts) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetAccount( /* [in] */ __RPC__in BSTR bstrAccountName, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE AddAccount( /* [in] */ __RPC__in BSTR bstrAccountName, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE RemoveAccount( /* [in] */ __RPC__in BSTR bstrAccountName) = 0; }; #else /* C style interface */ typedef struct IFaxAccountSetVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountSet * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountSet * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountSet * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountSet * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountSet * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountSet * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountSet * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetAccounts )( __RPC__in IFaxAccountSet * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccounts **ppFaxAccounts); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetAccount )( __RPC__in IFaxAccountSet * This, /* [in] */ __RPC__in BSTR bstrAccountName, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *AddAccount )( __RPC__in IFaxAccountSet * This, /* [in] */ __RPC__in BSTR bstrAccountName, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *RemoveAccount )( __RPC__in IFaxAccountSet * This, /* [in] */ __RPC__in BSTR bstrAccountName); END_INTERFACE } IFaxAccountSetVtbl; interface IFaxAccountSet { CONST_VTBL struct IFaxAccountSetVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountSet_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountSet_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountSet_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountSet_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountSet_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountSet_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountSet_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountSet_GetAccounts(This,ppFaxAccounts) \ ( (This)->lpVtbl -> GetAccounts(This,ppFaxAccounts) ) #define IFaxAccountSet_GetAccount(This,bstrAccountName,pFaxAccount) \ ( (This)->lpVtbl -> GetAccount(This,bstrAccountName,pFaxAccount) ) #define IFaxAccountSet_AddAccount(This,bstrAccountName,pFaxAccount) \ ( (This)->lpVtbl -> AddAccount(This,bstrAccountName,pFaxAccount) ) #define IFaxAccountSet_RemoveAccount(This,bstrAccountName) \ ( (This)->lpVtbl -> RemoveAccount(This,bstrAccountName) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountSet_INTERFACE_DEFINED__ */ #ifndef __IFaxAccounts_INTERFACE_DEFINED__ #define __IFaxAccounts_INTERFACE_DEFINED__ /* interface IFaxAccounts */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccounts; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("93ea8162-8be7-42d1-ae7b-ec74e2d989da") IFaxAccounts : public IDispatch { public: virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get__NewEnum( /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Item( /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount) = 0; virtual /* [propget][id] */ HRESULT STDMETHODCALLTYPE get_Count( /* [retval][out] */ __RPC__out long *plCount) = 0; }; #else /* C style interface */ typedef struct IFaxAccountsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccounts * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccounts * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccounts * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccounts * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccounts * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccounts * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccounts * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get__NewEnum )( __RPC__in IFaxAccounts * This, /* [retval][out] */ __RPC__deref_out_opt IUnknown **ppUnk); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Item )( __RPC__in IFaxAccounts * This, /* [in] */ VARIANT vIndex, /* [retval][out] */ __RPC__deref_out_opt IFaxAccount **pFaxAccount); /* [propget][id] */ HRESULT ( STDMETHODCALLTYPE *get_Count )( __RPC__in IFaxAccounts * This, /* [retval][out] */ __RPC__out long *plCount); END_INTERFACE } IFaxAccountsVtbl; interface IFaxAccounts { CONST_VTBL struct IFaxAccountsVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccounts_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccounts_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccounts_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccounts_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccounts_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccounts_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccounts_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccounts_get__NewEnum(This,ppUnk) \ ( (This)->lpVtbl -> get__NewEnum(This,ppUnk) ) #define IFaxAccounts_get_Item(This,vIndex,pFaxAccount) \ ( (This)->lpVtbl -> get_Item(This,vIndex,pFaxAccount) ) #define IFaxAccounts_get_Count(This,plCount) \ ( (This)->lpVtbl -> get_Count(This,plCount) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccounts_INTERFACE_DEFINED__ */ #ifndef __IFaxAccount_INTERFACE_DEFINED__ #define __IFaxAccount_INTERFACE_DEFINED__ /* interface IFaxAccount */ /* [unique][helpstring][dual][uuid][object] */ typedef enum FAX_ACCOUNT_EVENTS_TYPE_ENUM { faetNONE = 0, faetIN_QUEUE = 0x1, faetOUT_QUEUE = 0x2, faetIN_ARCHIVE = 0x4, faetOUT_ARCHIVE = 0x8, faetFXSSVC_ENDED = 0x10 } FAX_ACCOUNT_EVENTS_TYPE_ENUM; EXTERN_C const IID IID_IFaxAccount; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("68535b33-5dc4-4086-be26-b76f9b711006") IFaxAccount : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_AccountName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrAccountName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Folders( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountFolders **ppFolders) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ListenToAccountEvents( /* [in] */ FAX_ACCOUNT_EVENTS_TYPE_ENUM EventTypes) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_RegisteredEvents( /* [retval][out] */ __RPC__out FAX_ACCOUNT_EVENTS_TYPE_ENUM *pRegisteredEvents) = 0; }; #else /* C style interface */ typedef struct IFaxAccountVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccount * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccount * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccount * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccount * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccount * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccount * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccount * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AccountName )( __RPC__in IFaxAccount * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrAccountName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Folders )( __RPC__in IFaxAccount * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountFolders **ppFolders); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ListenToAccountEvents )( __RPC__in IFaxAccount * This, /* [in] */ FAX_ACCOUNT_EVENTS_TYPE_ENUM EventTypes); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RegisteredEvents )( __RPC__in IFaxAccount * This, /* [retval][out] */ __RPC__out FAX_ACCOUNT_EVENTS_TYPE_ENUM *pRegisteredEvents); END_INTERFACE } IFaxAccountVtbl; interface IFaxAccount { CONST_VTBL struct IFaxAccountVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccount_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccount_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccount_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccount_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccount_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccount_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccount_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccount_get_AccountName(This,pbstrAccountName) \ ( (This)->lpVtbl -> get_AccountName(This,pbstrAccountName) ) #define IFaxAccount_get_Folders(This,ppFolders) \ ( (This)->lpVtbl -> get_Folders(This,ppFolders) ) #define IFaxAccount_ListenToAccountEvents(This,EventTypes) \ ( (This)->lpVtbl -> ListenToAccountEvents(This,EventTypes) ) #define IFaxAccount_get_RegisteredEvents(This,pRegisteredEvents) \ ( (This)->lpVtbl -> get_RegisteredEvents(This,pRegisteredEvents) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccount_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingJob2_INTERFACE_DEFINED__ #define __IFaxOutgoingJob2_INTERFACE_DEFINED__ /* interface IFaxOutgoingJob2 */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingJob2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("418a8d96-59a0-4789-b176-edf3dc8fa8f7") IFaxOutgoingJob2 : public IFaxOutgoingJob { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HasCoverPage( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptAddress( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ScheduleType( /* [retval][out] */ __RPC__out FAX_SCHEDULE_TYPE_ENUM *pScheduleType) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingJob2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingJob2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingJob2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingJob2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingJob2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingJob2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingJob2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingJob2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionId )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OriginalScheduledTime )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionTime )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptType )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipient )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CurrentPage )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out long *plCurrentPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceId )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out long *plDeviceId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Status )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_JOB_STATUS_ENUM *pStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatusCode )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_JOB_EXTENDED_STATUS_ENUM *pExtendedStatusCode); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ExtendedStatus )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrExtendedStatus); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_AvailableOperations )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_JOB_OPERATIONS_ENUM *pAvailableOperations); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduledTime )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out DATE *pdateScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GroupBroadcastReceipts )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbGroupBroadcastReceipts); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Pause )( __RPC__in IFaxOutgoingJob2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Resume )( __RPC__in IFaxOutgoingJob2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Restart )( __RPC__in IFaxOutgoingJob2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxOutgoingJob2 * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutgoingJob2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Cancel )( __RPC__in IFaxOutgoingJob2 * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HasCoverPage )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptAddress )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ScheduleType )( __RPC__in IFaxOutgoingJob2 * This, /* [retval][out] */ __RPC__out FAX_SCHEDULE_TYPE_ENUM *pScheduleType); END_INTERFACE } IFaxOutgoingJob2Vtbl; interface IFaxOutgoingJob2 { CONST_VTBL struct IFaxOutgoingJob2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingJob2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingJob2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingJob2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingJob2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingJob2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingJob2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingJob2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingJob2_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxOutgoingJob2_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxOutgoingJob2_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxOutgoingJob2_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxOutgoingJob2_get_SubmissionId(This,pbstrSubmissionId) \ ( (This)->lpVtbl -> get_SubmissionId(This,pbstrSubmissionId) ) #define IFaxOutgoingJob2_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxOutgoingJob2_get_OriginalScheduledTime(This,pdateOriginalScheduledTime) \ ( (This)->lpVtbl -> get_OriginalScheduledTime(This,pdateOriginalScheduledTime) ) #define IFaxOutgoingJob2_get_SubmissionTime(This,pdateSubmissionTime) \ ( (This)->lpVtbl -> get_SubmissionTime(This,pdateSubmissionTime) ) #define IFaxOutgoingJob2_get_ReceiptType(This,pReceiptType) \ ( (This)->lpVtbl -> get_ReceiptType(This,pReceiptType) ) #define IFaxOutgoingJob2_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxOutgoingJob2_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxOutgoingJob2_get_Recipient(This,ppFaxRecipient) \ ( (This)->lpVtbl -> get_Recipient(This,ppFaxRecipient) ) #define IFaxOutgoingJob2_get_CurrentPage(This,plCurrentPage) \ ( (This)->lpVtbl -> get_CurrentPage(This,plCurrentPage) ) #define IFaxOutgoingJob2_get_DeviceId(This,plDeviceId) \ ( (This)->lpVtbl -> get_DeviceId(This,plDeviceId) ) #define IFaxOutgoingJob2_get_Status(This,pStatus) \ ( (This)->lpVtbl -> get_Status(This,pStatus) ) #define IFaxOutgoingJob2_get_ExtendedStatusCode(This,pExtendedStatusCode) \ ( (This)->lpVtbl -> get_ExtendedStatusCode(This,pExtendedStatusCode) ) #define IFaxOutgoingJob2_get_ExtendedStatus(This,pbstrExtendedStatus) \ ( (This)->lpVtbl -> get_ExtendedStatus(This,pbstrExtendedStatus) ) #define IFaxOutgoingJob2_get_AvailableOperations(This,pAvailableOperations) \ ( (This)->lpVtbl -> get_AvailableOperations(This,pAvailableOperations) ) #define IFaxOutgoingJob2_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxOutgoingJob2_get_ScheduledTime(This,pdateScheduledTime) \ ( (This)->lpVtbl -> get_ScheduledTime(This,pdateScheduledTime) ) #define IFaxOutgoingJob2_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxOutgoingJob2_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxOutgoingJob2_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxOutgoingJob2_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxOutgoingJob2_get_GroupBroadcastReceipts(This,pbGroupBroadcastReceipts) \ ( (This)->lpVtbl -> get_GroupBroadcastReceipts(This,pbGroupBroadcastReceipts) ) #define IFaxOutgoingJob2_Pause(This) \ ( (This)->lpVtbl -> Pause(This) ) #define IFaxOutgoingJob2_Resume(This) \ ( (This)->lpVtbl -> Resume(This) ) #define IFaxOutgoingJob2_Restart(This) \ ( (This)->lpVtbl -> Restart(This) ) #define IFaxOutgoingJob2_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxOutgoingJob2_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxOutgoingJob2_Cancel(This) \ ( (This)->lpVtbl -> Cancel(This) ) #define IFaxOutgoingJob2_get_HasCoverPage(This,pbHasCoverPage) \ ( (This)->lpVtbl -> get_HasCoverPage(This,pbHasCoverPage) ) #define IFaxOutgoingJob2_get_ReceiptAddress(This,pbstrReceiptAddress) \ ( (This)->lpVtbl -> get_ReceiptAddress(This,pbstrReceiptAddress) ) #define IFaxOutgoingJob2_get_ScheduleType(This,pScheduleType) \ ( (This)->lpVtbl -> get_ScheduleType(This,pScheduleType) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingJob2_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountFolders_INTERFACE_DEFINED__ #define __IFaxAccountFolders_INTERFACE_DEFINED__ /* interface IFaxAccountFolders */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountFolders; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("6463f89d-23d8-46a9-8f86-c47b77ca7926") IFaxAccountFolders : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingQueue( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountOutgoingQueue **pFaxOutgoingQueue) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingQueue( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountIncomingQueue **pFaxIncomingQueue) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_IncomingArchive( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountIncomingArchive **pFaxIncomingArchive) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_OutgoingArchive( /* [retval][out] */ __RPC__deref_out_opt IFaxAccountOutgoingArchive **pFaxOutgoingArchive) = 0; }; #else /* C style interface */ typedef struct IFaxAccountFoldersVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountFolders * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountFolders * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountFolders * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountFolders * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountFolders * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountFolders * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountFolders * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingQueue )( __RPC__in IFaxAccountFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountOutgoingQueue **pFaxOutgoingQueue); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingQueue )( __RPC__in IFaxAccountFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountIncomingQueue **pFaxIncomingQueue); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_IncomingArchive )( __RPC__in IFaxAccountFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountIncomingArchive **pFaxIncomingArchive); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OutgoingArchive )( __RPC__in IFaxAccountFolders * This, /* [retval][out] */ __RPC__deref_out_opt IFaxAccountOutgoingArchive **pFaxOutgoingArchive); END_INTERFACE } IFaxAccountFoldersVtbl; interface IFaxAccountFolders { CONST_VTBL struct IFaxAccountFoldersVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountFolders_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountFolders_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountFolders_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountFolders_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountFolders_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountFolders_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountFolders_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountFolders_get_OutgoingQueue(This,pFaxOutgoingQueue) \ ( (This)->lpVtbl -> get_OutgoingQueue(This,pFaxOutgoingQueue) ) #define IFaxAccountFolders_get_IncomingQueue(This,pFaxIncomingQueue) \ ( (This)->lpVtbl -> get_IncomingQueue(This,pFaxIncomingQueue) ) #define IFaxAccountFolders_get_IncomingArchive(This,pFaxIncomingArchive) \ ( (This)->lpVtbl -> get_IncomingArchive(This,pFaxIncomingArchive) ) #define IFaxAccountFolders_get_OutgoingArchive(This,pFaxOutgoingArchive) \ ( (This)->lpVtbl -> get_OutgoingArchive(This,pFaxOutgoingArchive) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountFolders_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountIncomingQueue_INTERFACE_DEFINED__ #define __IFaxAccountIncomingQueue_INTERFACE_DEFINED__ /* interface IFaxAccountIncomingQueue */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountIncomingQueue; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("dd142d92-0186-4a95-a090-cbc3eadba6b4") IFaxAccountIncomingQueue : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJobs( /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJobs **pFaxIncomingJobs) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJob( /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob) = 0; }; #else /* C style interface */ typedef struct IFaxAccountIncomingQueueVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountIncomingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountIncomingQueue * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountIncomingQueue * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountIncomingQueue * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountIncomingQueue * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountIncomingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountIncomingQueue * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJobs )( __RPC__in IFaxAccountIncomingQueue * This, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJobs **pFaxIncomingJobs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJob )( __RPC__in IFaxAccountIncomingQueue * This, /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingJob **pFaxIncomingJob); END_INTERFACE } IFaxAccountIncomingQueueVtbl; interface IFaxAccountIncomingQueue { CONST_VTBL struct IFaxAccountIncomingQueueVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountIncomingQueue_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountIncomingQueue_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountIncomingQueue_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountIncomingQueue_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountIncomingQueue_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountIncomingQueue_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountIncomingQueue_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountIncomingQueue_GetJobs(This,pFaxIncomingJobs) \ ( (This)->lpVtbl -> GetJobs(This,pFaxIncomingJobs) ) #define IFaxAccountIncomingQueue_GetJob(This,bstrJobId,pFaxIncomingJob) \ ( (This)->lpVtbl -> GetJob(This,bstrJobId,pFaxIncomingJob) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountIncomingQueue_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountOutgoingQueue_INTERFACE_DEFINED__ #define __IFaxAccountOutgoingQueue_INTERFACE_DEFINED__ /* interface IFaxAccountOutgoingQueue */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountOutgoingQueue; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("0f1424e9-f22d-4553-b7a5-0d24bd0d7e46") IFaxAccountOutgoingQueue : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJobs( /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJobs **pFaxOutgoingJobs) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetJob( /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob) = 0; }; #else /* C style interface */ typedef struct IFaxAccountOutgoingQueueVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountOutgoingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountOutgoingQueue * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountOutgoingQueue * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountOutgoingQueue * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountOutgoingQueue * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountOutgoingQueue * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountOutgoingQueue * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJobs )( __RPC__in IFaxAccountOutgoingQueue * This, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJobs **pFaxOutgoingJobs); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetJob )( __RPC__in IFaxAccountOutgoingQueue * This, /* [in] */ __RPC__in BSTR bstrJobId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingJob **pFaxOutgoingJob); END_INTERFACE } IFaxAccountOutgoingQueueVtbl; interface IFaxAccountOutgoingQueue { CONST_VTBL struct IFaxAccountOutgoingQueueVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountOutgoingQueue_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountOutgoingQueue_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountOutgoingQueue_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountOutgoingQueue_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountOutgoingQueue_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountOutgoingQueue_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountOutgoingQueue_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountOutgoingQueue_GetJobs(This,pFaxOutgoingJobs) \ ( (This)->lpVtbl -> GetJobs(This,pFaxOutgoingJobs) ) #define IFaxAccountOutgoingQueue_GetJob(This,bstrJobId,pFaxOutgoingJob) \ ( (This)->lpVtbl -> GetJob(This,bstrJobId,pFaxOutgoingJob) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountOutgoingQueue_INTERFACE_DEFINED__ */ #ifndef __IFaxOutgoingMessage2_INTERFACE_DEFINED__ #define __IFaxOutgoingMessage2_INTERFACE_DEFINED__ /* interface IFaxOutgoingMessage2 */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxOutgoingMessage2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("b37df687-bc88-4b46-b3be-b458b3ea9e7f") IFaxOutgoingMessage2 : public IFaxOutgoingMessage { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HasCoverPage( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptType( /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_ReceiptAddress( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Read( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRead) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Read( /* [in] */ VARIANT_BOOL bRead) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; }; #else /* C style interface */ typedef struct IFaxOutgoingMessage2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxOutgoingMessage2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxOutgoingMessage2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxOutgoingMessage2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxOutgoingMessage2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxOutgoingMessage2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxOutgoingMessage2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxOutgoingMessage2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionId )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubmissionId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DocumentName )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDocumentName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_OriginalScheduledTime )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateOriginalScheduledTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SubmissionTime )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateSubmissionTime); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Priority )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out FAX_PRIORITY_TYPE_ENUM *pPriority); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Sender )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxSender **ppFaxSender); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipient )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt IFaxRecipient **ppFaxRecipient); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceName )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxOutgoingMessage2 * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Delete )( __RPC__in IFaxOutgoingMessage2 * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HasCoverPage )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptType )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out FAX_RECEIPT_TYPE_ENUM *pReceiptType); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_ReceiptAddress )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrReceiptAddress); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Read )( __RPC__in IFaxOutgoingMessage2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRead); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Read )( __RPC__in IFaxOutgoingMessage2 * This, /* [in] */ VARIANT_BOOL bRead); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxOutgoingMessage2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxOutgoingMessage2 * This); END_INTERFACE } IFaxOutgoingMessage2Vtbl; interface IFaxOutgoingMessage2 { CONST_VTBL struct IFaxOutgoingMessage2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxOutgoingMessage2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxOutgoingMessage2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxOutgoingMessage2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxOutgoingMessage2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxOutgoingMessage2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxOutgoingMessage2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxOutgoingMessage2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxOutgoingMessage2_get_SubmissionId(This,pbstrSubmissionId) \ ( (This)->lpVtbl -> get_SubmissionId(This,pbstrSubmissionId) ) #define IFaxOutgoingMessage2_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxOutgoingMessage2_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxOutgoingMessage2_get_DocumentName(This,pbstrDocumentName) \ ( (This)->lpVtbl -> get_DocumentName(This,pbstrDocumentName) ) #define IFaxOutgoingMessage2_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxOutgoingMessage2_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxOutgoingMessage2_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxOutgoingMessage2_get_OriginalScheduledTime(This,pdateOriginalScheduledTime) \ ( (This)->lpVtbl -> get_OriginalScheduledTime(This,pdateOriginalScheduledTime) ) #define IFaxOutgoingMessage2_get_SubmissionTime(This,pdateSubmissionTime) \ ( (This)->lpVtbl -> get_SubmissionTime(This,pdateSubmissionTime) ) #define IFaxOutgoingMessage2_get_Priority(This,pPriority) \ ( (This)->lpVtbl -> get_Priority(This,pPriority) ) #define IFaxOutgoingMessage2_get_Sender(This,ppFaxSender) \ ( (This)->lpVtbl -> get_Sender(This,ppFaxSender) ) #define IFaxOutgoingMessage2_get_Recipient(This,ppFaxRecipient) \ ( (This)->lpVtbl -> get_Recipient(This,ppFaxRecipient) ) #define IFaxOutgoingMessage2_get_DeviceName(This,pbstrDeviceName) \ ( (This)->lpVtbl -> get_DeviceName(This,pbstrDeviceName) ) #define IFaxOutgoingMessage2_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxOutgoingMessage2_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxOutgoingMessage2_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxOutgoingMessage2_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxOutgoingMessage2_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxOutgoingMessage2_Delete(This) \ ( (This)->lpVtbl -> Delete(This) ) #define IFaxOutgoingMessage2_get_HasCoverPage(This,pbHasCoverPage) \ ( (This)->lpVtbl -> get_HasCoverPage(This,pbHasCoverPage) ) #define IFaxOutgoingMessage2_get_ReceiptType(This,pReceiptType) \ ( (This)->lpVtbl -> get_ReceiptType(This,pReceiptType) ) #define IFaxOutgoingMessage2_get_ReceiptAddress(This,pbstrReceiptAddress) \ ( (This)->lpVtbl -> get_ReceiptAddress(This,pbstrReceiptAddress) ) #define IFaxOutgoingMessage2_get_Read(This,pbRead) \ ( (This)->lpVtbl -> get_Read(This,pbRead) ) #define IFaxOutgoingMessage2_put_Read(This,bRead) \ ( (This)->lpVtbl -> put_Read(This,bRead) ) #define IFaxOutgoingMessage2_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxOutgoingMessage2_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxOutgoingMessage2_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountIncomingArchive_INTERFACE_DEFINED__ #define __IFaxAccountIncomingArchive_INTERFACE_DEFINED__ /* interface IFaxAccountIncomingArchive */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountIncomingArchive; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("a8a5b6ef-e0d6-4aee-955c-91625bec9db4") IFaxAccountIncomingArchive : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeLow( /* [retval][out] */ __RPC__out long *plSizeLow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeHigh( /* [retval][out] */ __RPC__out long *plSizeHigh) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessages( /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessageIterator **pFaxIncomingMessageIterator) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessage( /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage) = 0; }; #else /* C style interface */ typedef struct IFaxAccountIncomingArchiveVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountIncomingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountIncomingArchive * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountIncomingArchive * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountIncomingArchive * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountIncomingArchive * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountIncomingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountIncomingArchive * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeLow )( __RPC__in IFaxAccountIncomingArchive * This, /* [retval][out] */ __RPC__out long *plSizeLow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeHigh )( __RPC__in IFaxAccountIncomingArchive * This, /* [retval][out] */ __RPC__out long *plSizeHigh); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxAccountIncomingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessages )( __RPC__in IFaxAccountIncomingArchive * This, /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessageIterator **pFaxIncomingMessageIterator); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessage )( __RPC__in IFaxAccountIncomingArchive * This, /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxIncomingMessage **pFaxIncomingMessage); END_INTERFACE } IFaxAccountIncomingArchiveVtbl; interface IFaxAccountIncomingArchive { CONST_VTBL struct IFaxAccountIncomingArchiveVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountIncomingArchive_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountIncomingArchive_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountIncomingArchive_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountIncomingArchive_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountIncomingArchive_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountIncomingArchive_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountIncomingArchive_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountIncomingArchive_get_SizeLow(This,plSizeLow) \ ( (This)->lpVtbl -> get_SizeLow(This,plSizeLow) ) #define IFaxAccountIncomingArchive_get_SizeHigh(This,plSizeHigh) \ ( (This)->lpVtbl -> get_SizeHigh(This,plSizeHigh) ) #define IFaxAccountIncomingArchive_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxAccountIncomingArchive_GetMessages(This,lPrefetchSize,pFaxIncomingMessageIterator) \ ( (This)->lpVtbl -> GetMessages(This,lPrefetchSize,pFaxIncomingMessageIterator) ) #define IFaxAccountIncomingArchive_GetMessage(This,bstrMessageId,pFaxIncomingMessage) \ ( (This)->lpVtbl -> GetMessage(This,bstrMessageId,pFaxIncomingMessage) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountIncomingArchive_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountOutgoingArchive_INTERFACE_DEFINED__ #define __IFaxAccountOutgoingArchive_INTERFACE_DEFINED__ /* interface IFaxAccountOutgoingArchive */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxAccountOutgoingArchive; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("5463076d-ec14-491f-926e-b3ceda5e5662") IFaxAccountOutgoingArchive : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeLow( /* [retval][out] */ __RPC__out long *plSizeLow) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SizeHigh( /* [retval][out] */ __RPC__out long *plSizeHigh) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessages( /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessageIterator **pFaxOutgoingMessageIterator) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE GetMessage( /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage) = 0; }; #else /* C style interface */ typedef struct IFaxAccountOutgoingArchiveVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountOutgoingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountOutgoingArchive * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountOutgoingArchive * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountOutgoingArchive * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountOutgoingArchive * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountOutgoingArchive * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountOutgoingArchive * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeLow )( __RPC__in IFaxAccountOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plSizeLow); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SizeHigh )( __RPC__in IFaxAccountOutgoingArchive * This, /* [retval][out] */ __RPC__out long *plSizeHigh); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxAccountOutgoingArchive * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessages )( __RPC__in IFaxAccountOutgoingArchive * This, /* [defaultvalue][in] */ long lPrefetchSize, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessageIterator **pFaxOutgoingMessageIterator); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *GetMessage )( __RPC__in IFaxAccountOutgoingArchive * This, /* [in] */ __RPC__in BSTR bstrMessageId, /* [retval][out] */ __RPC__deref_out_opt IFaxOutgoingMessage **pFaxOutgoingMessage); END_INTERFACE } IFaxAccountOutgoingArchiveVtbl; interface IFaxAccountOutgoingArchive { CONST_VTBL struct IFaxAccountOutgoingArchiveVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountOutgoingArchive_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountOutgoingArchive_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountOutgoingArchive_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountOutgoingArchive_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountOutgoingArchive_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountOutgoingArchive_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountOutgoingArchive_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxAccountOutgoingArchive_get_SizeLow(This,plSizeLow) \ ( (This)->lpVtbl -> get_SizeLow(This,plSizeLow) ) #define IFaxAccountOutgoingArchive_get_SizeHigh(This,plSizeHigh) \ ( (This)->lpVtbl -> get_SizeHigh(This,plSizeHigh) ) #define IFaxAccountOutgoingArchive_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxAccountOutgoingArchive_GetMessages(This,lPrefetchSize,pFaxOutgoingMessageIterator) \ ( (This)->lpVtbl -> GetMessages(This,lPrefetchSize,pFaxOutgoingMessageIterator) ) #define IFaxAccountOutgoingArchive_GetMessage(This,bstrMessageId,pFaxOutgoingMessage) \ ( (This)->lpVtbl -> GetMessage(This,bstrMessageId,pFaxOutgoingMessage) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountOutgoingArchive_INTERFACE_DEFINED__ */ #ifndef __IFaxSecurity2_INTERFACE_DEFINED__ #define __IFaxSecurity2_INTERFACE_DEFINED__ /* interface IFaxSecurity2 */ /* [nonextensible][unique][helpstring][dual][uuid][object] */ typedef enum FAX_ACCESS_RIGHTS_ENUM_2 { far2SUBMIT_LOW = 0x1, far2SUBMIT_NORMAL = 0x2, far2SUBMIT_HIGH = 0x4, far2QUERY_OUT_JOBS = 0x8, far2MANAGE_OUT_JOBS = 0x10, far2QUERY_CONFIG = 0x20, far2MANAGE_CONFIG = 0x40, far2QUERY_ARCHIVES = 0x80, far2MANAGE_ARCHIVES = 0x100, far2MANAGE_RECEIVE_FOLDER = 0x200 } FAX_ACCESS_RIGHTS_ENUM_2; EXTERN_C const IID IID_IFaxSecurity2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("17d851f4-d09b-48fc-99c9-8f24c4db9ab1") IFaxSecurity2 : public IDispatch { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Descriptor( /* [retval][out] */ __RPC__out VARIANT *pvDescriptor) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Descriptor( /* [in] */ VARIANT vDescriptor) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_GrantedRights( /* [retval][out] */ __RPC__out FAX_ACCESS_RIGHTS_ENUM_2 *pGrantedRights) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_InformationType( /* [retval][out] */ __RPC__out long *plInformationType) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_InformationType( /* [in] */ long lInformationType) = 0; }; #else /* C style interface */ typedef struct IFaxSecurity2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxSecurity2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxSecurity2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxSecurity2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxSecurity2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxSecurity2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxSecurity2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxSecurity2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Descriptor )( __RPC__in IFaxSecurity2 * This, /* [retval][out] */ __RPC__out VARIANT *pvDescriptor); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Descriptor )( __RPC__in IFaxSecurity2 * This, /* [in] */ VARIANT vDescriptor); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_GrantedRights )( __RPC__in IFaxSecurity2 * This, /* [retval][out] */ __RPC__out FAX_ACCESS_RIGHTS_ENUM_2 *pGrantedRights); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxSecurity2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxSecurity2 * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_InformationType )( __RPC__in IFaxSecurity2 * This, /* [retval][out] */ __RPC__out long *plInformationType); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_InformationType )( __RPC__in IFaxSecurity2 * This, /* [in] */ long lInformationType); END_INTERFACE } IFaxSecurity2Vtbl; interface IFaxSecurity2 { CONST_VTBL struct IFaxSecurity2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxSecurity2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxSecurity2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxSecurity2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxSecurity2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxSecurity2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxSecurity2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxSecurity2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxSecurity2_get_Descriptor(This,pvDescriptor) \ ( (This)->lpVtbl -> get_Descriptor(This,pvDescriptor) ) #define IFaxSecurity2_put_Descriptor(This,vDescriptor) \ ( (This)->lpVtbl -> put_Descriptor(This,vDescriptor) ) #define IFaxSecurity2_get_GrantedRights(This,pGrantedRights) \ ( (This)->lpVtbl -> get_GrantedRights(This,pGrantedRights) ) #define IFaxSecurity2_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #define IFaxSecurity2_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxSecurity2_get_InformationType(This,plInformationType) \ ( (This)->lpVtbl -> get_InformationType(This,plInformationType) ) #define IFaxSecurity2_put_InformationType(This,lInformationType) \ ( (This)->lpVtbl -> put_InformationType(This,lInformationType) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxSecurity2_INTERFACE_DEFINED__ */ #ifndef __IFaxIncomingMessage2_INTERFACE_DEFINED__ #define __IFaxIncomingMessage2_INTERFACE_DEFINED__ /* interface IFaxIncomingMessage2 */ /* [unique][helpstring][dual][uuid][object] */ EXTERN_C const IID IID_IFaxIncomingMessage2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("f9208503-e2bc-48f3-9ec0-e6236f9b509a") IFaxIncomingMessage2 : public IFaxIncomingMessage { public: virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Subject( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Subject( /* [in] */ __RPC__in BSTR bstrSubject) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SenderName( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSenderName) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SenderName( /* [in] */ __RPC__in BSTR bstrSenderName) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_SenderFaxNumber( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSenderFaxNumber) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_SenderFaxNumber( /* [in] */ __RPC__in BSTR bstrSenderFaxNumber) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_HasCoverPage( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_HasCoverPage( /* [in] */ VARIANT_BOOL bHasCoverPage) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Recipients( /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRecipients) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Recipients( /* [in] */ __RPC__in BSTR bstrRecipients) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_WasReAssigned( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbWasReAssigned) = 0; virtual /* [helpstring][id][propget] */ HRESULT STDMETHODCALLTYPE get_Read( /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRead) = 0; virtual /* [helpstring][id][propput] */ HRESULT STDMETHODCALLTYPE put_Read( /* [in] */ VARIANT_BOOL bRead) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE ReAssign( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Save( void) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE Refresh( void) = 0; }; #else /* C style interface */ typedef struct IFaxIncomingMessage2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxIncomingMessage2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxIncomingMessage2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxIncomingMessage2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxIncomingMessage2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Id )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Pages )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out long *plPages); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Size )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out long *plSize); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_DeviceName )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrDeviceName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Retries )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out long *plRetries); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionStart )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionStart); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TransmissionEnd )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out DATE *pdateTransmissionEnd); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CSID )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_TSID )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrTSID); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_CallerId )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrCallerId); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_RoutingInformation )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRoutingInformation); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *CopyTiff )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in BSTR bstrTiffPath); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Delete )( __RPC__in IFaxIncomingMessage2 * This); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Subject )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSubject); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Subject )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in BSTR bstrSubject); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SenderName )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSenderName); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SenderName )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in BSTR bstrSenderName); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_SenderFaxNumber )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrSenderFaxNumber); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_SenderFaxNumber )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in BSTR bstrSenderFaxNumber); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_HasCoverPage )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbHasCoverPage); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_HasCoverPage )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ VARIANT_BOOL bHasCoverPage); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Recipients )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__deref_out_opt BSTR *pbstrRecipients); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Recipients )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ __RPC__in BSTR bstrRecipients); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_WasReAssigned )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbWasReAssigned); /* [helpstring][id][propget] */ HRESULT ( STDMETHODCALLTYPE *get_Read )( __RPC__in IFaxIncomingMessage2 * This, /* [retval][out] */ __RPC__out VARIANT_BOOL *pbRead); /* [helpstring][id][propput] */ HRESULT ( STDMETHODCALLTYPE *put_Read )( __RPC__in IFaxIncomingMessage2 * This, /* [in] */ VARIANT_BOOL bRead); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *ReAssign )( __RPC__in IFaxIncomingMessage2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Save )( __RPC__in IFaxIncomingMessage2 * This); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *Refresh )( __RPC__in IFaxIncomingMessage2 * This); END_INTERFACE } IFaxIncomingMessage2Vtbl; interface IFaxIncomingMessage2 { CONST_VTBL struct IFaxIncomingMessage2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxIncomingMessage2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxIncomingMessage2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxIncomingMessage2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxIncomingMessage2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxIncomingMessage2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxIncomingMessage2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxIncomingMessage2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define IFaxIncomingMessage2_get_Id(This,pbstrId) \ ( (This)->lpVtbl -> get_Id(This,pbstrId) ) #define IFaxIncomingMessage2_get_Pages(This,plPages) \ ( (This)->lpVtbl -> get_Pages(This,plPages) ) #define IFaxIncomingMessage2_get_Size(This,plSize) \ ( (This)->lpVtbl -> get_Size(This,plSize) ) #define IFaxIncomingMessage2_get_DeviceName(This,pbstrDeviceName) \ ( (This)->lpVtbl -> get_DeviceName(This,pbstrDeviceName) ) #define IFaxIncomingMessage2_get_Retries(This,plRetries) \ ( (This)->lpVtbl -> get_Retries(This,plRetries) ) #define IFaxIncomingMessage2_get_TransmissionStart(This,pdateTransmissionStart) \ ( (This)->lpVtbl -> get_TransmissionStart(This,pdateTransmissionStart) ) #define IFaxIncomingMessage2_get_TransmissionEnd(This,pdateTransmissionEnd) \ ( (This)->lpVtbl -> get_TransmissionEnd(This,pdateTransmissionEnd) ) #define IFaxIncomingMessage2_get_CSID(This,pbstrCSID) \ ( (This)->lpVtbl -> get_CSID(This,pbstrCSID) ) #define IFaxIncomingMessage2_get_TSID(This,pbstrTSID) \ ( (This)->lpVtbl -> get_TSID(This,pbstrTSID) ) #define IFaxIncomingMessage2_get_CallerId(This,pbstrCallerId) \ ( (This)->lpVtbl -> get_CallerId(This,pbstrCallerId) ) #define IFaxIncomingMessage2_get_RoutingInformation(This,pbstrRoutingInformation) \ ( (This)->lpVtbl -> get_RoutingInformation(This,pbstrRoutingInformation) ) #define IFaxIncomingMessage2_CopyTiff(This,bstrTiffPath) \ ( (This)->lpVtbl -> CopyTiff(This,bstrTiffPath) ) #define IFaxIncomingMessage2_Delete(This) \ ( (This)->lpVtbl -> Delete(This) ) #define IFaxIncomingMessage2_get_Subject(This,pbstrSubject) \ ( (This)->lpVtbl -> get_Subject(This,pbstrSubject) ) #define IFaxIncomingMessage2_put_Subject(This,bstrSubject) \ ( (This)->lpVtbl -> put_Subject(This,bstrSubject) ) #define IFaxIncomingMessage2_get_SenderName(This,pbstrSenderName) \ ( (This)->lpVtbl -> get_SenderName(This,pbstrSenderName) ) #define IFaxIncomingMessage2_put_SenderName(This,bstrSenderName) \ ( (This)->lpVtbl -> put_SenderName(This,bstrSenderName) ) #define IFaxIncomingMessage2_get_SenderFaxNumber(This,pbstrSenderFaxNumber) \ ( (This)->lpVtbl -> get_SenderFaxNumber(This,pbstrSenderFaxNumber) ) #define IFaxIncomingMessage2_put_SenderFaxNumber(This,bstrSenderFaxNumber) \ ( (This)->lpVtbl -> put_SenderFaxNumber(This,bstrSenderFaxNumber) ) #define IFaxIncomingMessage2_get_HasCoverPage(This,pbHasCoverPage) \ ( (This)->lpVtbl -> get_HasCoverPage(This,pbHasCoverPage) ) #define IFaxIncomingMessage2_put_HasCoverPage(This,bHasCoverPage) \ ( (This)->lpVtbl -> put_HasCoverPage(This,bHasCoverPage) ) #define IFaxIncomingMessage2_get_Recipients(This,pbstrRecipients) \ ( (This)->lpVtbl -> get_Recipients(This,pbstrRecipients) ) #define IFaxIncomingMessage2_put_Recipients(This,bstrRecipients) \ ( (This)->lpVtbl -> put_Recipients(This,bstrRecipients) ) #define IFaxIncomingMessage2_get_WasReAssigned(This,pbWasReAssigned) \ ( (This)->lpVtbl -> get_WasReAssigned(This,pbWasReAssigned) ) #define IFaxIncomingMessage2_get_Read(This,pbRead) \ ( (This)->lpVtbl -> get_Read(This,pbRead) ) #define IFaxIncomingMessage2_put_Read(This,bRead) \ ( (This)->lpVtbl -> put_Read(This,bRead) ) #define IFaxIncomingMessage2_ReAssign(This) \ ( (This)->lpVtbl -> ReAssign(This) ) #define IFaxIncomingMessage2_Save(This) \ ( (This)->lpVtbl -> Save(This) ) #define IFaxIncomingMessage2_Refresh(This) \ ( (This)->lpVtbl -> Refresh(This) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxIncomingMessage2_INTERFACE_DEFINED__ */ #ifndef __FAXCOMEXLib_LIBRARY_DEFINED__ #define __FAXCOMEXLib_LIBRARY_DEFINED__ /* library FAXCOMEXLib */ /* [helpstring][version][uuid] */ typedef enum FAX_ROUTING_RULE_CODE_ENUM { frrcANY_CODE = 0 } FAX_ROUTING_RULE_CODE_ENUM; EXTERN_C const IID LIBID_FAXCOMEXLib; #ifndef __IFaxServerNotify_DISPINTERFACE_DEFINED__ #define __IFaxServerNotify_DISPINTERFACE_DEFINED__ /* dispinterface IFaxServerNotify */ /* [helpstring][uuid] */ EXTERN_C const IID DIID_IFaxServerNotify; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("2E037B27-CF8A-4abd-B1E0-5704943BEA6F") IFaxServerNotify : public IDispatch { }; #else /* C style interface */ typedef struct IFaxServerNotifyVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxServerNotify * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxServerNotify * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxServerNotify * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxServerNotify * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxServerNotify * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxServerNotify * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxServerNotify * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); END_INTERFACE } IFaxServerNotifyVtbl; interface IFaxServerNotify { CONST_VTBL struct IFaxServerNotifyVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxServerNotify_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxServerNotify_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxServerNotify_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxServerNotify_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxServerNotify_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxServerNotify_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxServerNotify_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxServerNotify_DISPINTERFACE_DEFINED__ */ #ifndef ___IFaxServerNotify2_INTERFACE_DEFINED__ #define ___IFaxServerNotify2_INTERFACE_DEFINED__ /* interface _IFaxServerNotify2 */ /* [unique][uuid][object] */ EXTERN_C const IID IID__IFaxServerNotify2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("ec9c69b9-5fe7-4805-9467-82fcd96af903") _IFaxServerNotify2 : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobAdded( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobRemoved( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobChanged( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobAdded( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobRemoved( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobChanged( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingMessageAdded( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingMessageRemoved( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingMessageAdded( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingMessageRemoved( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnReceiptOptionsChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnActivityLoggingConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnSecurityConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnEventLoggingConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingQueueConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingArchiveConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingArchiveConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnDevicesConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutboundRoutingGroupsConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutboundRoutingRulesConfigChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnServerActivityChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lIncomingMessages, /* [in] */ long lRoutingMessages, /* [in] */ long lOutgoingMessages, /* [in] */ long lQueuedMessages) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnQueuesStatusChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ VARIANT_BOOL bOutgoingQueueBlocked, /* [in] */ VARIANT_BOOL bOutgoingQueuePaused, /* [in] */ VARIANT_BOOL bIncomingQueueBlocked) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnNewCall( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lCallId, /* [in] */ long lDeviceId, /* [in] */ __RPC__in BSTR bstrCallerId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnServerShutDown( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnDeviceStatusChange( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lDeviceId, /* [in] */ VARIANT_BOOL bPoweredOff, /* [in] */ VARIANT_BOOL bSending, /* [in] */ VARIANT_BOOL bReceiving, /* [in] */ VARIANT_BOOL bRinging) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnGeneralServerConfigChanged( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; }; #else /* C style interface */ typedef struct _IFaxServerNotify2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in _IFaxServerNotify2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in _IFaxServerNotify2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in _IFaxServerNotify2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( _IFaxServerNotify2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobAdded )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobRemoved )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobChanged )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobAdded )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobRemoved )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobChanged )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingMessageAdded )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingMessageRemoved )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingMessageAdded )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingMessageRemoved )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnReceiptOptionsChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnActivityLoggingConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnSecurityConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnEventLoggingConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingQueueConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingArchiveConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingArchiveConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnDevicesConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutboundRoutingGroupsConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutboundRoutingRulesConfigChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnServerActivityChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lIncomingMessages, /* [in] */ long lRoutingMessages, /* [in] */ long lOutgoingMessages, /* [in] */ long lQueuedMessages); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnQueuesStatusChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ VARIANT_BOOL bOutgoingQueueBlocked, /* [in] */ VARIANT_BOOL bOutgoingQueuePaused, /* [in] */ VARIANT_BOOL bIncomingQueueBlocked); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnNewCall )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lCallId, /* [in] */ long lDeviceId, /* [in] */ __RPC__in BSTR bstrCallerId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnServerShutDown )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnDeviceStatusChange )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer, /* [in] */ long lDeviceId, /* [in] */ VARIANT_BOOL bPoweredOff, /* [in] */ VARIANT_BOOL bSending, /* [in] */ VARIANT_BOOL bReceiving, /* [in] */ VARIANT_BOOL bRinging); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnGeneralServerConfigChanged )( __RPC__in _IFaxServerNotify2 * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); END_INTERFACE } _IFaxServerNotify2Vtbl; interface _IFaxServerNotify2 { CONST_VTBL struct _IFaxServerNotify2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define _IFaxServerNotify2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define _IFaxServerNotify2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define _IFaxServerNotify2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define _IFaxServerNotify2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define _IFaxServerNotify2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define _IFaxServerNotify2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define _IFaxServerNotify2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define _IFaxServerNotify2_OnIncomingJobAdded(This,pFaxServer,bstrJobId) \ ( (This)->lpVtbl -> OnIncomingJobAdded(This,pFaxServer,bstrJobId) ) #define _IFaxServerNotify2_OnIncomingJobRemoved(This,pFaxServer,bstrJobId) \ ( (This)->lpVtbl -> OnIncomingJobRemoved(This,pFaxServer,bstrJobId) ) #define _IFaxServerNotify2_OnIncomingJobChanged(This,pFaxServer,bstrJobId,pJobStatus) \ ( (This)->lpVtbl -> OnIncomingJobChanged(This,pFaxServer,bstrJobId,pJobStatus) ) #define _IFaxServerNotify2_OnOutgoingJobAdded(This,pFaxServer,bstrJobId) \ ( (This)->lpVtbl -> OnOutgoingJobAdded(This,pFaxServer,bstrJobId) ) #define _IFaxServerNotify2_OnOutgoingJobRemoved(This,pFaxServer,bstrJobId) \ ( (This)->lpVtbl -> OnOutgoingJobRemoved(This,pFaxServer,bstrJobId) ) #define _IFaxServerNotify2_OnOutgoingJobChanged(This,pFaxServer,bstrJobId,pJobStatus) \ ( (This)->lpVtbl -> OnOutgoingJobChanged(This,pFaxServer,bstrJobId,pJobStatus) ) #define _IFaxServerNotify2_OnIncomingMessageAdded(This,pFaxServer,bstrMessageId) \ ( (This)->lpVtbl -> OnIncomingMessageAdded(This,pFaxServer,bstrMessageId) ) #define _IFaxServerNotify2_OnIncomingMessageRemoved(This,pFaxServer,bstrMessageId) \ ( (This)->lpVtbl -> OnIncomingMessageRemoved(This,pFaxServer,bstrMessageId) ) #define _IFaxServerNotify2_OnOutgoingMessageAdded(This,pFaxServer,bstrMessageId) \ ( (This)->lpVtbl -> OnOutgoingMessageAdded(This,pFaxServer,bstrMessageId) ) #define _IFaxServerNotify2_OnOutgoingMessageRemoved(This,pFaxServer,bstrMessageId) \ ( (This)->lpVtbl -> OnOutgoingMessageRemoved(This,pFaxServer,bstrMessageId) ) #define _IFaxServerNotify2_OnReceiptOptionsChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnReceiptOptionsChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnActivityLoggingConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnActivityLoggingConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnSecurityConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnSecurityConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnEventLoggingConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnEventLoggingConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnOutgoingQueueConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnOutgoingQueueConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnOutgoingArchiveConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnOutgoingArchiveConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnIncomingArchiveConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnIncomingArchiveConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnDevicesConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnDevicesConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnOutboundRoutingGroupsConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnOutboundRoutingGroupsConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnOutboundRoutingRulesConfigChange(This,pFaxServer) \ ( (This)->lpVtbl -> OnOutboundRoutingRulesConfigChange(This,pFaxServer) ) #define _IFaxServerNotify2_OnServerActivityChange(This,pFaxServer,lIncomingMessages,lRoutingMessages,lOutgoingMessages,lQueuedMessages) \ ( (This)->lpVtbl -> OnServerActivityChange(This,pFaxServer,lIncomingMessages,lRoutingMessages,lOutgoingMessages,lQueuedMessages) ) #define _IFaxServerNotify2_OnQueuesStatusChange(This,pFaxServer,bOutgoingQueueBlocked,bOutgoingQueuePaused,bIncomingQueueBlocked) \ ( (This)->lpVtbl -> OnQueuesStatusChange(This,pFaxServer,bOutgoingQueueBlocked,bOutgoingQueuePaused,bIncomingQueueBlocked) ) #define _IFaxServerNotify2_OnNewCall(This,pFaxServer,lCallId,lDeviceId,bstrCallerId) \ ( (This)->lpVtbl -> OnNewCall(This,pFaxServer,lCallId,lDeviceId,bstrCallerId) ) #define _IFaxServerNotify2_OnServerShutDown(This,pFaxServer) \ ( (This)->lpVtbl -> OnServerShutDown(This,pFaxServer) ) #define _IFaxServerNotify2_OnDeviceStatusChange(This,pFaxServer,lDeviceId,bPoweredOff,bSending,bReceiving,bRinging) \ ( (This)->lpVtbl -> OnDeviceStatusChange(This,pFaxServer,lDeviceId,bPoweredOff,bSending,bReceiving,bRinging) ) #define _IFaxServerNotify2_OnGeneralServerConfigChanged(This,pFaxServer) \ ( (This)->lpVtbl -> OnGeneralServerConfigChanged(This,pFaxServer) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* ___IFaxServerNotify2_INTERFACE_DEFINED__ */ #ifndef __IFaxServerNotify2_DISPINTERFACE_DEFINED__ #define __IFaxServerNotify2_DISPINTERFACE_DEFINED__ /* dispinterface IFaxServerNotify2 */ /* [helpstring][uuid] */ EXTERN_C const IID DIID_IFaxServerNotify2; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("616ca8d6-a77a-4062-abfd-0e471241c7aa") IFaxServerNotify2 : public IDispatch { }; #else /* C style interface */ typedef struct IFaxServerNotify2Vtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxServerNotify2 * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxServerNotify2 * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxServerNotify2 * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxServerNotify2 * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxServerNotify2 * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxServerNotify2 * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxServerNotify2 * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); END_INTERFACE } IFaxServerNotify2Vtbl; interface IFaxServerNotify2 { CONST_VTBL struct IFaxServerNotify2Vtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxServerNotify2_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxServerNotify2_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxServerNotify2_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxServerNotify2_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxServerNotify2_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxServerNotify2_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxServerNotify2_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxServerNotify2_DISPINTERFACE_DEFINED__ */ #ifndef ___IFaxAccountNotify_INTERFACE_DEFINED__ #define ___IFaxAccountNotify_INTERFACE_DEFINED__ /* interface _IFaxAccountNotify */ /* [unique][uuid][object] */ EXTERN_C const IID IID__IFaxAccountNotify; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("b9b3bc81-ac1b-46f3-b39d-0adc30e1b788") _IFaxAccountNotify : public IDispatch { public: virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobAdded( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobRemoved( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingJobChanged( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobAdded( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobRemoved( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingJobChanged( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingMessageAdded( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId, /* [in] */ VARIANT_BOOL fAddedToReceiveFolder) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnIncomingMessageRemoved( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId, /* [in] */ VARIANT_BOOL fRemovedFromReceiveFolder) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingMessageAdded( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnOutgoingMessageRemoved( /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId) = 0; virtual /* [helpstring][id] */ HRESULT STDMETHODCALLTYPE OnServerShutDown( /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer) = 0; }; #else /* C style interface */ typedef struct _IFaxAccountNotifyVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in _IFaxAccountNotify * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in _IFaxAccountNotify * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in _IFaxAccountNotify * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in _IFaxAccountNotify * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( _IFaxAccountNotify * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobAdded )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobRemoved )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingJobChanged )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobAdded )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobRemoved )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingJobChanged )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrJobId, /* [in] */ __RPC__in_opt IFaxJobStatus *pJobStatus); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingMessageAdded )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId, /* [in] */ VARIANT_BOOL fAddedToReceiveFolder); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnIncomingMessageRemoved )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId, /* [in] */ VARIANT_BOOL fRemovedFromReceiveFolder); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingMessageAdded )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnOutgoingMessageRemoved )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxAccount *pFaxAccount, /* [in] */ __RPC__in BSTR bstrMessageId); /* [helpstring][id] */ HRESULT ( STDMETHODCALLTYPE *OnServerShutDown )( __RPC__in _IFaxAccountNotify * This, /* [in] */ __RPC__in_opt IFaxServer2 *pFaxServer); END_INTERFACE } _IFaxAccountNotifyVtbl; interface _IFaxAccountNotify { CONST_VTBL struct _IFaxAccountNotifyVtbl *lpVtbl; }; #ifdef COBJMACROS #define _IFaxAccountNotify_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define _IFaxAccountNotify_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define _IFaxAccountNotify_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define _IFaxAccountNotify_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define _IFaxAccountNotify_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define _IFaxAccountNotify_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define _IFaxAccountNotify_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #define _IFaxAccountNotify_OnIncomingJobAdded(This,pFaxAccount,bstrJobId) \ ( (This)->lpVtbl -> OnIncomingJobAdded(This,pFaxAccount,bstrJobId) ) #define _IFaxAccountNotify_OnIncomingJobRemoved(This,pFaxAccount,bstrJobId) \ ( (This)->lpVtbl -> OnIncomingJobRemoved(This,pFaxAccount,bstrJobId) ) #define _IFaxAccountNotify_OnIncomingJobChanged(This,pFaxAccount,bstrJobId,pJobStatus) \ ( (This)->lpVtbl -> OnIncomingJobChanged(This,pFaxAccount,bstrJobId,pJobStatus) ) #define _IFaxAccountNotify_OnOutgoingJobAdded(This,pFaxAccount,bstrJobId) \ ( (This)->lpVtbl -> OnOutgoingJobAdded(This,pFaxAccount,bstrJobId) ) #define _IFaxAccountNotify_OnOutgoingJobRemoved(This,pFaxAccount,bstrJobId) \ ( (This)->lpVtbl -> OnOutgoingJobRemoved(This,pFaxAccount,bstrJobId) ) #define _IFaxAccountNotify_OnOutgoingJobChanged(This,pFaxAccount,bstrJobId,pJobStatus) \ ( (This)->lpVtbl -> OnOutgoingJobChanged(This,pFaxAccount,bstrJobId,pJobStatus) ) #define _IFaxAccountNotify_OnIncomingMessageAdded(This,pFaxAccount,bstrMessageId,fAddedToReceiveFolder) \ ( (This)->lpVtbl -> OnIncomingMessageAdded(This,pFaxAccount,bstrMessageId,fAddedToReceiveFolder) ) #define _IFaxAccountNotify_OnIncomingMessageRemoved(This,pFaxAccount,bstrMessageId,fRemovedFromReceiveFolder) \ ( (This)->lpVtbl -> OnIncomingMessageRemoved(This,pFaxAccount,bstrMessageId,fRemovedFromReceiveFolder) ) #define _IFaxAccountNotify_OnOutgoingMessageAdded(This,pFaxAccount,bstrMessageId) \ ( (This)->lpVtbl -> OnOutgoingMessageAdded(This,pFaxAccount,bstrMessageId) ) #define _IFaxAccountNotify_OnOutgoingMessageRemoved(This,pFaxAccount,bstrMessageId) \ ( (This)->lpVtbl -> OnOutgoingMessageRemoved(This,pFaxAccount,bstrMessageId) ) #define _IFaxAccountNotify_OnServerShutDown(This,pFaxServer) \ ( (This)->lpVtbl -> OnServerShutDown(This,pFaxServer) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* ___IFaxAccountNotify_INTERFACE_DEFINED__ */ #ifndef __IFaxAccountNotify_DISPINTERFACE_DEFINED__ #define __IFaxAccountNotify_DISPINTERFACE_DEFINED__ /* dispinterface IFaxAccountNotify */ /* [helpstring][uuid] */ EXTERN_C const IID DIID_IFaxAccountNotify; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("0b5e5bd1-b8a9-47a0-a323-ef4a293ba06a") IFaxAccountNotify : public IDispatch { }; #else /* C style interface */ typedef struct IFaxAccountNotifyVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IFaxAccountNotify * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IFaxAccountNotify * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IFaxAccountNotify * This); HRESULT ( STDMETHODCALLTYPE *GetTypeInfoCount )( __RPC__in IFaxAccountNotify * This, /* [out] */ __RPC__out UINT *pctinfo); HRESULT ( STDMETHODCALLTYPE *GetTypeInfo )( __RPC__in IFaxAccountNotify * This, /* [in] */ UINT iTInfo, /* [in] */ LCID lcid, /* [out] */ __RPC__deref_out_opt ITypeInfo **ppTInfo); HRESULT ( STDMETHODCALLTYPE *GetIDsOfNames )( __RPC__in IFaxAccountNotify * This, /* [in] */ __RPC__in REFIID riid, /* [size_is][in] */ __RPC__in_ecount_full(cNames) LPOLESTR *rgszNames, /* [range][in] */ __RPC__in_range(0,16384) UINT cNames, /* [in] */ LCID lcid, /* [size_is][out] */ __RPC__out_ecount_full(cNames) DISPID *rgDispId); /* [local] */ HRESULT ( STDMETHODCALLTYPE *Invoke )( IFaxAccountNotify * This, /* [in] */ DISPID dispIdMember, /* [in] */ REFIID riid, /* [in] */ LCID lcid, /* [in] */ WORD wFlags, /* [out][in] */ DISPPARAMS *pDispParams, /* [out] */ VARIANT *pVarResult, /* [out] */ EXCEPINFO *pExcepInfo, /* [out] */ UINT *puArgErr); END_INTERFACE } IFaxAccountNotifyVtbl; interface IFaxAccountNotify { CONST_VTBL struct IFaxAccountNotifyVtbl *lpVtbl; }; #ifdef COBJMACROS #define IFaxAccountNotify_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IFaxAccountNotify_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IFaxAccountNotify_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IFaxAccountNotify_GetTypeInfoCount(This,pctinfo) \ ( (This)->lpVtbl -> GetTypeInfoCount(This,pctinfo) ) #define IFaxAccountNotify_GetTypeInfo(This,iTInfo,lcid,ppTInfo) \ ( (This)->lpVtbl -> GetTypeInfo(This,iTInfo,lcid,ppTInfo) ) #define IFaxAccountNotify_GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) \ ( (This)->lpVtbl -> GetIDsOfNames(This,riid,rgszNames,cNames,lcid,rgDispId) ) #define IFaxAccountNotify_Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) \ ( (This)->lpVtbl -> Invoke(This,dispIdMember,riid,lcid,wFlags,pDispParams,pVarResult,pExcepInfo,puArgErr) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IFaxAccountNotify_DISPINTERFACE_DEFINED__ */ EXTERN_C const CLSID CLSID_FaxServer; #ifdef __cplusplus class DECLSPEC_UUID("CDA8ACB0-8CF5-4F6C-9BA2-5931D40C8CAE") FaxServer; #endif EXTERN_C const CLSID CLSID_FaxDeviceProviders; #ifdef __cplusplus class DECLSPEC_UUID("EB8FE768-875A-4F5F-82C5-03F23AAC1BD7") FaxDeviceProviders; #endif EXTERN_C const CLSID CLSID_FaxDevices; #ifdef __cplusplus class DECLSPEC_UUID("5589E28E-23CB-4919-8808-E6101846E80D") FaxDevices; #endif EXTERN_C const CLSID CLSID_FaxInboundRouting; #ifdef __cplusplus class DECLSPEC_UUID("E80248ED-AD65-4218-8108-991924D4E7ED") FaxInboundRouting; #endif EXTERN_C const CLSID CLSID_FaxFolders; #ifdef __cplusplus class DECLSPEC_UUID("C35211D7-5776-48CB-AF44-C31BE3B2CFE5") FaxFolders; #endif EXTERN_C const CLSID CLSID_FaxLoggingOptions; #ifdef __cplusplus class DECLSPEC_UUID("1BF9EEA6-ECE0-4785-A18B-DE56E9EEF96A") FaxLoggingOptions; #endif EXTERN_C const CLSID CLSID_FaxActivity; #ifdef __cplusplus class DECLSPEC_UUID("CFEF5D0E-E84D-462E-AABB-87D31EB04FEF") FaxActivity; #endif EXTERN_C const CLSID CLSID_FaxOutboundRouting; #ifdef __cplusplus class DECLSPEC_UUID("C81B385E-B869-4AFD-86C0-616498ED9BE2") FaxOutboundRouting; #endif EXTERN_C const CLSID CLSID_FaxReceiptOptions; #ifdef __cplusplus class DECLSPEC_UUID("6982487B-227B-4C96-A61C-248348B05AB6") FaxReceiptOptions; #endif EXTERN_C const CLSID CLSID_FaxSecurity; #ifdef __cplusplus class DECLSPEC_UUID("10C4DDDE-ABF0-43DF-964F-7F3AC21A4C7B") FaxSecurity; #endif EXTERN_C const CLSID CLSID_FaxDocument; #ifdef __cplusplus class DECLSPEC_UUID("0F3F9F91-C838-415E-A4F3-3E828CA445E0") FaxDocument; #endif EXTERN_C const CLSID CLSID_FaxSender; #ifdef __cplusplus class DECLSPEC_UUID("265D84D0-1850-4360-B7C8-758BBB5F0B96") FaxSender; #endif EXTERN_C const CLSID CLSID_FaxRecipients; #ifdef __cplusplus class DECLSPEC_UUID("EA9BDF53-10A9-4D4F-A067-63C8F84F01B0") FaxRecipients; #endif EXTERN_C const CLSID CLSID_FaxIncomingArchive; #ifdef __cplusplus class DECLSPEC_UUID("8426C56A-35A1-4C6F-AF93-FC952422E2C2") FaxIncomingArchive; #endif EXTERN_C const CLSID CLSID_FaxIncomingQueue; #ifdef __cplusplus class DECLSPEC_UUID("69131717-F3F1-40E3-809D-A6CBF7BD85E5") FaxIncomingQueue; #endif EXTERN_C const CLSID CLSID_FaxOutgoingArchive; #ifdef __cplusplus class DECLSPEC_UUID("43C28403-E04F-474D-990C-B94669148F59") FaxOutgoingArchive; #endif EXTERN_C const CLSID CLSID_FaxOutgoingQueue; #ifdef __cplusplus class DECLSPEC_UUID("7421169E-8C43-4B0D-BB16-645C8FA40357") FaxOutgoingQueue; #endif EXTERN_C const CLSID CLSID_FaxIncomingMessageIterator; #ifdef __cplusplus class DECLSPEC_UUID("6088E1D8-3FC8-45C2-87B1-909A29607EA9") FaxIncomingMessageIterator; #endif EXTERN_C const CLSID CLSID_FaxIncomingMessage; #ifdef __cplusplus class DECLSPEC_UUID("1932FCF7-9D43-4D5A-89FF-03861B321736") FaxIncomingMessage; #endif EXTERN_C const CLSID CLSID_FaxOutgoingJobs; #ifdef __cplusplus class DECLSPEC_UUID("92BF2A6C-37BE-43FA-A37D-CB0E5F753B35") FaxOutgoingJobs; #endif EXTERN_C const CLSID CLSID_FaxOutgoingJob; #ifdef __cplusplus class DECLSPEC_UUID("71BB429C-0EF9-4915-BEC5-A5D897A3E924") FaxOutgoingJob; #endif EXTERN_C const CLSID CLSID_FaxOutgoingMessageIterator; #ifdef __cplusplus class DECLSPEC_UUID("8A3224D0-D30B-49DE-9813-CB385790FBBB") FaxOutgoingMessageIterator; #endif EXTERN_C const CLSID CLSID_FaxOutgoingMessage; #ifdef __cplusplus class DECLSPEC_UUID("91B4A378-4AD8-4AEF-A4DC-97D96E939A3A") FaxOutgoingMessage; #endif EXTERN_C const CLSID CLSID_FaxIncomingJobs; #ifdef __cplusplus class DECLSPEC_UUID("A1BB8A43-8866-4FB7-A15D-6266C875A5CC") FaxIncomingJobs; #endif EXTERN_C const CLSID CLSID_FaxIncomingJob; #ifdef __cplusplus class DECLSPEC_UUID("C47311EC-AE32-41B8-AE4B-3EAE0629D0C9") FaxIncomingJob; #endif EXTERN_C const CLSID CLSID_FaxDeviceProvider; #ifdef __cplusplus class DECLSPEC_UUID("17CF1AA3-F5EB-484A-9C9A-4440A5BAABFC") FaxDeviceProvider; #endif EXTERN_C const CLSID CLSID_FaxDevice; #ifdef __cplusplus class DECLSPEC_UUID("59E3A5B2-D676-484B-A6DE-720BFA89B5AF") FaxDevice; #endif EXTERN_C const CLSID CLSID_FaxActivityLogging; #ifdef __cplusplus class DECLSPEC_UUID("F0A0294E-3BBD-48B8-8F13-8C591A55BDBC") FaxActivityLogging; #endif EXTERN_C const CLSID CLSID_FaxEventLogging; #ifdef __cplusplus class DECLSPEC_UUID("A6850930-A0F6-4A6F-95B7-DB2EBF3D02E3") FaxEventLogging; #endif EXTERN_C const CLSID CLSID_FaxOutboundRoutingGroups; #ifdef __cplusplus class DECLSPEC_UUID("CCBEA1A5-E2B4-4B57-9421-B04B6289464B") FaxOutboundRoutingGroups; #endif EXTERN_C const CLSID CLSID_FaxOutboundRoutingGroup; #ifdef __cplusplus class DECLSPEC_UUID("0213F3E0-6791-4D77-A271-04D2357C50D6") FaxOutboundRoutingGroup; #endif EXTERN_C const CLSID CLSID_FaxDeviceIds; #ifdef __cplusplus class DECLSPEC_UUID("CDC539EA-7277-460E-8DE0-48A0A5760D1F") FaxDeviceIds; #endif EXTERN_C const CLSID CLSID_FaxOutboundRoutingRules; #ifdef __cplusplus class DECLSPEC_UUID("D385BECA-E624-4473-BFAA-9F4000831F54") FaxOutboundRoutingRules; #endif EXTERN_C const CLSID CLSID_FaxOutboundRoutingRule; #ifdef __cplusplus class DECLSPEC_UUID("6549EEBF-08D1-475A-828B-3BF105952FA0") FaxOutboundRoutingRule; #endif EXTERN_C const CLSID CLSID_FaxInboundRoutingExtensions; #ifdef __cplusplus class DECLSPEC_UUID("189A48ED-623C-4C0D-80F2-D66C7B9EFEC2") FaxInboundRoutingExtensions; #endif EXTERN_C const CLSID CLSID_FaxInboundRoutingExtension; #ifdef __cplusplus class DECLSPEC_UUID("1D7DFB51-7207-4436-A0D9-24E32EE56988") FaxInboundRoutingExtension; #endif EXTERN_C const CLSID CLSID_FaxInboundRoutingMethods; #ifdef __cplusplus class DECLSPEC_UUID("25FCB76A-B750-4B82-9266-FBBBAE8922BA") FaxInboundRoutingMethods; #endif EXTERN_C const CLSID CLSID_FaxInboundRoutingMethod; #ifdef __cplusplus class DECLSPEC_UUID("4B9FD75C-0194-4B72-9CE5-02A8205AC7D4") FaxInboundRoutingMethod; #endif EXTERN_C const CLSID CLSID_FaxJobStatus; #ifdef __cplusplus class DECLSPEC_UUID("7BF222F4-BE8D-442f-841D-6132742423BB") FaxJobStatus; #endif EXTERN_C const CLSID CLSID_FaxRecipient; #ifdef __cplusplus class DECLSPEC_UUID("60BF3301-7DF8-4bd8-9148-7B5801F9EFDF") FaxRecipient; #endif EXTERN_C const CLSID CLSID_FaxConfiguration; #ifdef __cplusplus class DECLSPEC_UUID("5857326f-e7b3-41a7-9c19-a91b463e2d56") FaxConfiguration; #endif EXTERN_C const CLSID CLSID_FaxAccountSet; #ifdef __cplusplus class DECLSPEC_UUID("fbc23c4b-79e0-4291-bc56-c12e253bbf3a") FaxAccountSet; #endif EXTERN_C const CLSID CLSID_FaxAccounts; #ifdef __cplusplus class DECLSPEC_UUID("da1f94aa-ee2c-47c0-8f4f-2a217075b76e") FaxAccounts; #endif EXTERN_C const CLSID CLSID_FaxAccount; #ifdef __cplusplus class DECLSPEC_UUID("a7e0647f-4524-4464-a56d-b9fe666f715e") FaxAccount; #endif EXTERN_C const CLSID CLSID_FaxAccountFolders; #ifdef __cplusplus class DECLSPEC_UUID("85398f49-c034-4a3f-821c-db7d685e8129") FaxAccountFolders; #endif EXTERN_C const CLSID CLSID_FaxAccountIncomingQueue; #ifdef __cplusplus class DECLSPEC_UUID("9bcf6094-b4da-45f4-b8d6-ddeb2186652c") FaxAccountIncomingQueue; #endif EXTERN_C const CLSID CLSID_FaxAccountOutgoingQueue; #ifdef __cplusplus class DECLSPEC_UUID("feeceefb-c149-48ba-bab8-b791e101f62f") FaxAccountOutgoingQueue; #endif EXTERN_C const CLSID CLSID_FaxAccountIncomingArchive; #ifdef __cplusplus class DECLSPEC_UUID("14b33db5-4c40-4ecf-9ef8-a360cbe809ed") FaxAccountIncomingArchive; #endif EXTERN_C const CLSID CLSID_FaxAccountOutgoingArchive; #ifdef __cplusplus class DECLSPEC_UUID("851e7af5-433a-4739-a2df-ad245c2cb98e") FaxAccountOutgoingArchive; #endif EXTERN_C const CLSID CLSID_FaxSecurity2; #ifdef __cplusplus class DECLSPEC_UUID("735c1248-ec89-4c30-a127-656e92e3c4ea") FaxSecurity2; #endif #ifndef __FaxConstants_MODULE_DEFINED__ #define __FaxConstants_MODULE_DEFINED__ /* module FaxConstants */ /* [dllname] */ /* [helpstring] */ const long lDEFAULT_PREFETCH_SIZE = prv_DEFAULT_PREFETCH_SIZE; /* [helpstring] */ const BSTR bstrGROUPNAME_ALLDEVICES = L"<All Devices>"; /* [helpstring] */ const wchar_t wcharREASSIGN_RECIPIENTS_DELIMITER = L';'; #endif /* __FaxConstants_MODULE_DEFINED__ */ #endif /* __FAXCOMEXLib_LIBRARY_DEFINED__ */ /* Additional Prototypes for ALL interfaces */ unsigned long __RPC_USER BSTR_UserSize( __RPC__in unsigned long *, unsigned long , __RPC__in BSTR * ); unsigned char * __RPC_USER BSTR_UserMarshal( __RPC__in unsigned long *, __RPC__inout_xcount(0) unsigned char *, __RPC__in BSTR * ); unsigned char * __RPC_USER BSTR_UserUnmarshal(__RPC__in unsigned long *, __RPC__in_xcount(0) unsigned char *, __RPC__out BSTR * ); void __RPC_USER BSTR_UserFree( __RPC__in unsigned long *, __RPC__in BSTR * ); unsigned long __RPC_USER VARIANT_UserSize( __RPC__in unsigned long *, unsigned long , __RPC__in VARIANT * ); unsigned char * __RPC_USER VARIANT_UserMarshal( __RPC__in unsigned long *, __RPC__inout_xcount(0) unsigned char *, __RPC__in VARIANT * ); unsigned char * __RPC_USER VARIANT_UserUnmarshal(__RPC__in unsigned long *, __RPC__in_xcount(0) unsigned char *, __RPC__out VARIANT * ); void __RPC_USER VARIANT_UserFree( __RPC__in unsigned long *, __RPC__in VARIANT * ); unsigned long __RPC_USER BSTR_UserSize64( __RPC__in unsigned long *, unsigned long , __RPC__in BSTR * ); unsigned char * __RPC_USER BSTR_UserMarshal64( __RPC__in unsigned long *, __RPC__inout_xcount(0) unsigned char *, __RPC__in BSTR * ); unsigned char * __RPC_USER BSTR_UserUnmarshal64(__RPC__in unsigned long *, __RPC__in_xcount(0) unsigned char *, __RPC__out BSTR * ); void __RPC_USER BSTR_UserFree64( __RPC__in unsigned long *, __RPC__in BSTR * ); unsigned long __RPC_USER VARIANT_UserSize64( __RPC__in unsigned long *, unsigned long , __RPC__in VARIANT * ); unsigned char * __RPC_USER VARIANT_UserMarshal64( __RPC__in unsigned long *, __RPC__inout_xcount(0) unsigned char *, __RPC__in VARIANT * ); unsigned char * __RPC_USER VARIANT_UserUnmarshal64(__RPC__in unsigned long *, __RPC__in_xcount(0) unsigned char *, __RPC__out VARIANT * ); void __RPC_USER VARIANT_UserFree64( __RPC__in unsigned long *, __RPC__in VARIANT * ); /* end of Additional Prototypes */ #ifdef __cplusplus } #endif #endif

39.449484

142

0.648959

83cd77438dab85d27470569a06a3b4aace8dafc4

971

h

C

include/deccanengine/renderer/generic_pipeline.h

deccanengine/DeccanEngine

1d9a646e9b015fed2a25e88bc588f87fa457bc00

[ "MIT" ]

21

2020-12-13T06:16:44.000Z

2021-12-03T17:32:53.000Z

include/deccanengine/renderer/generic_pipeline.h

iddev5/DeccanEngine

1d9a646e9b015fed2a25e88bc588f87fa457bc00

[ "MIT" ]

null

include/deccanengine/renderer/generic_pipeline.h

iddev5/DeccanEngine

1d9a646e9b015fed2a25e88bc588f87fa457bc00

[ "MIT" ]

3

2020-06-07T19:35:23.000Z

2020-10-23T11:44:07.000Z

/* Deccan Game Engine - C11 2D SDL Game Engine. * Copyright 2020, 2021 Ayush Bardhan Tripathy * * This software is licensed under MIT License. * See LICENSE.md included with this package for more info. */ #pragma once #include "../config.h" #include "render_types.h" #include "../world/camera.h" //////////////////////////////////////////////////////////////////////////////// // Pipeline constructor/destructor //////////////////////////////////////////////////////////////////////////////// DE_API void deccan_generic_pipeline_create(void); DE_API void deccan_generic_pipeline_destroy(void); //////////////////////////////////////////////////////////////////////////////// // Pipeline action //////////////////////////////////////////////////////////////////////////////// DE_API void deccan_generic_pipeline_begin(deccan_camera_t *camera); DE_API void deccan_generic_pipeline_draw(deccan_draw_action_t action); DE_API void deccan_generic_pipeline_end(void);

35.962963

80

0.529351

83cda73185bcaa783795bbf61818d97d2a755b76

3,776

h

C

src/runtime_src/xdp/profile/plugin/aie_trace/aie_trace_plugin.h

ycsos/XRT

59e45200ee9d549a23937f4087b676fc6e8d38d6

[ "Apache-2.0" ]

1

2022-02-22T22:33:48.000Z

src/runtime_src/xdp/profile/plugin/aie_trace/aie_trace_plugin.h

kbhardwa-xilinx/XRT

9cadec73f5211577c7d5c408a4a7fee0eed23b70

[ "Apache-2.0" ]

null

src/runtime_src/xdp/profile/plugin/aie_trace/aie_trace_plugin.h

kbhardwa-xilinx/XRT

9cadec73f5211577c7d5c408a4a7fee0eed23b70

[ "Apache-2.0" ]

1

2021-10-05T19:59:26.000Z

/** * Copyright (C) 2020 Xilinx, Inc * * Licensed under the Apache License, Version 2.0 (the "License"). You may * not use this file except in compliance with the License. A copy of the * License is located at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. */ #ifndef AIE_TRACE_PLUGIN_H #define AIE_TRACE_PLUGIN_H #include "xdp/profile/plugin/vp_base/vp_base_plugin.h" #include "core/edge/common/aie_parser.h" #include "xaiefal/xaiefal.hpp" extern "C" { #include <xaiengine.h> } namespace xdp { class DeviceIntf; class AIETraceOffload; class AIETraceLogger; using tile_type = xrt_core::edge::aie::tile_type; class AieTracePlugin : public XDPPlugin { public: XDP_EXPORT AieTracePlugin(); XDP_EXPORT ~AieTracePlugin(); XDP_EXPORT void updateAIEDevice(void* handle); XDP_EXPORT void flushAIEDevice(void* handle); XDP_EXPORT void finishFlushAIEDevice(void* handle); XDP_EXPORT virtual void writeAll(bool openNewFiles); XDP_EXPORT static bool alive(); private: inline uint32_t bcIdToEvent(int bcId); void releaseCurrentTileCounters(int numCoreCounters, int numMemoryCounters); bool setMetrics(uint64_t deviceId, void* handle); void setFlushMetrics(uint64_t deviceId, void* handle); uint64_t getTraceStartDelayCycles(void* handle); // Aie resource manager utility functions bool tileHasFreeRsc(xaiefal::XAieDev* aieDevice, XAie_LocType& loc, const std::string& metricSet, bool useDelay); void printTileStats(xaiefal::XAieDev* aieDevice, const tile_type& tile); // Utility functions std::string getMetricSet(void* handle); std::vector<tile_type> getTilesForTracing(void* handle); private: // Indicate whether the Aie Trace Plugin is in valid state static bool live; // Runtime or compile-time specified trace metrics? bool runtimeMetrics = true; bool continuousTrace; uint64_t offloadIntervalms; // Trace Runtime Status AieRC mConfigStatus = XAIE_OK; std::vector<void*> deviceHandles; std::map<uint64_t, void*> deviceIdToHandle; typedef std::tuple<AIETraceOffload*, AIETraceLogger*, DeviceIntf*> AIEData; std::map<uint32_t, AIEData> aieOffloaders; // Types typedef XAie_Events EventType; typedef std::vector<EventType> EventVector; typedef std::vector<uint32_t> ValueVector; // Trace metrics std::string metricSet; std::set<std::string> metricSets; std::map<std::string, EventVector> coreEventSets; std::map<std::string, EventVector> memoryEventSets; // AIE profile counters std::vector<xrt_core::edge::aie::tile_type> mCoreCounterTiles; std::vector<std::shared_ptr<xaiefal::XAiePerfCounter>> mCoreCounters; std::vector<std::shared_ptr<xaiefal::XAiePerfCounter>> mMemoryCounters; // Counter metrics (same for all sets) EventType coreTraceStartEvent; EventType coreTraceEndEvent; EventVector coreCounterStartEvents; EventVector coreCounterEndEvents; ValueVector coreCounterEventValues; EventVector memoryCounterStartEvents; EventVector memoryCounterEndEvents; EventVector memoryCounterResetEvents; ValueVector memoryCounterEventValues; }; } #endif

29.046154

119

0.693591

83cde6fc4c5799caec3c2b3315b076c947dbc0f0

37,614

c

C

drivers/usb/usb_device/Class/VIDEO/Src/usbd_video.c

flyghost/OneOS-V2.1.0

6fedab0558c07fe679d63ba1eb8ee9992c044d86

[ "Apache-2.0" ]

null

drivers/usb/usb_device/Class/VIDEO/Src/usbd_video.c

flyghost/OneOS-V2.1.0

6fedab0558c07fe679d63ba1eb8ee9992c044d86

[ "Apache-2.0" ]

null

drivers/usb/usb_device/Class/VIDEO/Src/usbd_video.c

flyghost/OneOS-V2.1.0

6fedab0558c07fe679d63ba1eb8ee9992c044d86

[ "Apache-2.0" ]

null

/** ****************************************************************************** * @file usbd_video.c * @author MCD Application Team * @brief This file provides the Video core functions. * * @verbatim * * =================================================================== * VIDEO Class Description * =================================================================== * This driver manages the Video Class 1.1 following the "USB Device Class Definition for * Video Devices V1.0 Mar 18, 98". * This driver implements the following aspects of the specification: * - Device descriptor management * - Configuration descriptor management * - Interface Association Descriptor * -Standard VC Interface Descriptor = interface 0 * -Standard Vs Interface Descriptor = interface 1 * - 1 Video Streaming Interface * - 1 Video Streaming Endpoint * - 1 Video Terminal Input (camera) * - Video Class-Specific AC Interfaces * - Video Class-Specific AS Interfaces * - VideoControl Requests * - Video Synchronization type: Asynchronous * The current Video class version supports the following Video features: * - image JPEG format * - Asynchronous Endpoints * * @note In HS mode and when the USB DMA is used, all variables and data structures * dealing with the DMA during the transaction process should be 32-bit aligned. * * * @endverbatim * ****************************************************************************** * @attention * * <h2><center>© Copyright (c) 2020 STMicroelectronics. * All rights reserved.</center></h2> * * This software component is licensed by ST under Ultimate Liberty license * SLA0044, the "License"; You may not use this file except in compliance with * the License. You may obtain a copy of the License at: * www.st.com/SLA0044 * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "usbd_video.h" #include "usbd_ctlreq.h" #include "usbd_core.h" /** @addtogroup STM32_USB_DEVICE_LIBRARY * @{ */ /** @defgroup USBD_VIDEO * @brief USB Device Video Class core module * @{ */ /** @defgroup USBD_VIDEO_Private_TypesDefinitions * @{ */ /** * @} */ /** @defgroup USBD_VIDEO_Private_Defines * @{ */ /** * @} */ /** @defgroup USBD_VIDEO_Private_Macros * @{ */ /* VIDEO Device library callbacks */ static uint8_t USBD_VIDEO_Init(USBD_HandleTypeDef *pdev, uint8_t cfgidx); static uint8_t USBD_VIDEO_DeInit(USBD_HandleTypeDef *pdev, uint8_t cfgidx); static uint8_t USBD_VIDEO_Setup(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req); static uint8_t *USBD_VIDEO_GetFSCfgDesc(uint16_t *length); static uint8_t *USBD_VIDEO_GetHSCfgDesc(uint16_t *length); static uint8_t *USBD_VIDEO_GetOtherSpeedCfgDesc(uint16_t *length); static uint8_t *USBD_VIDEO_GetDeviceQualifierDesc(uint16_t *length); static uint8_t USBD_VIDEO_DataIn(USBD_HandleTypeDef *pdev, uint8_t epnum); static uint8_t USBD_VIDEO_SOF(USBD_HandleTypeDef *pdev); static uint8_t USBD_VIDEO_IsoINIncomplete(USBD_HandleTypeDef *pdev, uint8_t epnum); /* VIDEO Requests management functions */ static void VIDEO_REQ_GetCurrent(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req); static void VIDEO_REQ_SetCurrent(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req); static USBD_VIDEO_DescHeader_t *USBD_VIDEO_GetNextDesc(uint8_t *pbuf, uint16_t *ptr); static void *USBD_VIDEO_GetEpDesc(uint8_t *pConfDesc, uint8_t EpAddr); static void *USBD_VIDEO_GetVSFrameDesc(uint8_t *pConfDesc); /** * @} */ /** @defgroup USBD_VIDEO_Private_Variables * @{ */ USBD_ClassTypeDef USBD_VIDEO = { USBD_VIDEO_Init, USBD_VIDEO_DeInit, USBD_VIDEO_Setup, NULL, NULL, USBD_VIDEO_DataIn, NULL, USBD_VIDEO_SOF, USBD_VIDEO_IsoINIncomplete, NULL, USBD_VIDEO_GetHSCfgDesc, USBD_VIDEO_GetFSCfgDesc, USBD_VIDEO_GetOtherSpeedCfgDesc, USBD_VIDEO_GetDeviceQualifierDesc, }; /* USB VIDEO device Configuration Descriptor (same for all speeds thanks to user defines) */ __ALIGN_BEGIN static uint8_t USBD_VIDEO_CfgDesc[] __ALIGN_END = { /* Configuration 1 */ USB_CONF_DESC_SIZE, /* bLength: Configuration Descriptor size */ USB_DESC_TYPE_CONFIGURATION, /* bDescriptorType: Configuration */ LOBYTE(UVC_CONFIG_DESC_SIZ), /* wTotalLength: no of returned bytes */ HIBYTE(UVC_CONFIG_DESC_SIZ), 0x02, /* bNumInterfaces: 2 interface */ 0x01, /* bConfigurationValue: Configuration value */ 0x00, /* iConfiguration: Index of string descriptor describing the configuration */ #if (USBD_SELF_POWERED == 1U) 0xC0, /* bmAttributes: Bus Powered according to user configuration */ #else 0x80, /* bmAttributes: Bus Powered according to user configuration */ #endif USBD_MAX_POWER, /* bMaxPower in mA according to user configuration */ /* Interface Association Descriptor */ USB_IAD_DESC_SIZE, /* bLength: Interface Association Descriptor size */ USB_DESC_TYPE_IAD, /* bDescriptorType: interface association */ 0x00, /* bFirstInterface */ 0x02, /* bInterfaceCount */ UVC_CC_VIDEO, /* bFunctionClass: Video class */ SC_VIDEO_INTERFACE_COLLECTION, /* bFunctionSubClass: Video Interface Collection */ PC_PROTOCOL_UNDEFINED, /* bInterfaceProtocol: protocol undefined */ 0x00, /* iFunction */ /* Standard VC (Video Control) Interface Descriptor = interface 0 */ USB_IF_DESC_SIZE, /* bLength: interface descriptor size */ USB_DESC_TYPE_INTERFACE, /* bDescriptorType: interface */ UVC_VC_IF_NUM, /* bInterfaceNumber: interface number */ 0x00, /* bAlternateSetting: index of this alternate setting */ 0x00, /* bNumEndpoints: No endpoints used for this interface */ UVC_CC_VIDEO, /* bInterfaceClass: Video Class */ SC_VIDEOCONTROL, /* bInterfaceSubClass: Video Control */ PC_PROTOCOL_UNDEFINED, /* bInterfaceProtocol: protocol is undefined */ 0x00, /* iFunction: index of string descriptor relative to this item */ /* Class-specific VC Interface Descriptor */ VIDEO_VC_IF_HEADER_DESC_SIZE, /* bLength */ CS_INTERFACE, /* bDescriptorType */ VC_HEADER, /* bDescriptorSubtype */ LOBYTE(UVC_VERSION), HIBYTE(UVC_VERSION), /* bcdUVC: UVC1.0 or UVC1.1 revision */ VS_FRAME_DESC_SIZE, /* wTotalLength: total size of class-specific descriptors */ 0x00, 0x00, /* dwClockFrequency: not used. 48 Mhz value is set, but not used */ 0x6C, 0xDC, 0x02, 0x01, /* bInCollection: number of streaming interfaces */ 0x01, /* baInterfaceNr(1): VideoStreaming interface 1 is part of VC interface */ /* Input Terminal Descriptor */ VIDEO_IN_TERMINAL_DESC_SIZE, /* bLength: Input terminal descriptor size */ CS_INTERFACE, /* bDescriptorType: INTERFACE */ VC_INPUT_TERMINAL, /* bDescriptorSubtype: INPUT_TERMINAL */ 0x01, /* bTerminalID: ID of this Terminal */ LOBYTE(ITT_VENDOR_SPECIFIC), /* wTerminalType: 0x0200 ITT_VENDOR_SPECIFIC */ HIBYTE(ITT_VENDOR_SPECIFIC), 0x00, /* bAssocTerminal: no Terminal is associated */ 0x00, /* iTerminal: index of string descriptor relative to this item */ /* Output Terminal Descriptor */ VIDEO_OUT_TERMINAL_DESC_SIZE, /* bLength: output terminal descriptor size */ CS_INTERFACE, /* bDescriptorType */ VC_OUTPUT_TERMINAL, /* bDescriptorSubtype */ 0x02, /* bTerminalID */ LOBYTE(TT_STREAMING), /* wTerminalType: USB streaming terminal */ HIBYTE(TT_STREAMING), 0x00, /* bAssocTerminal: no Terminal is associated */ 0x01, /* bSourceID: input is connected to output unit ID 1 */ 0x00, /* iTerminal: index of string descriptor relative to this item */ /* Standard VS (Video Streaming) Interface Descriptor = interface 1, alternate setting 0 = Zero Bandwidth (when no data are sent from the device) */ USB_IF_DESC_SIZE, /* bLength: interface descriptor size */ USB_DESC_TYPE_INTERFACE, /* bDescriptorType */ UVC_VS_IF_NUM, /* bInterfaceNumber */ 0x00, /* bAlternateSetting */ 0x00, /* bNumEndpoints: no endpoints used for alternate setting 0 */ UVC_CC_VIDEO, /* bInterfaceClass */ SC_VIDEOSTREAMING, /* bInterfaceSubClass */ PC_PROTOCOL_UNDEFINED, /* bInterfaceProtocol */ 0x00, /* iInterface: index of string descriptor relative to this item */ /* Class-specific VS Header Descriptor (Input) */ VIDEO_VS_IF_IN_HEADER_DESC_SIZE, /* bLength */ CS_INTERFACE, /* bDescriptorType */ VS_INPUT_HEADER, /* bDescriptorSubtype */ 0x01, /* bNumFormats: 1 format descriptor is used */ VC_HEADER_SIZE, 0x00, /* Total size of Video Control Specific Descriptors */ UVC_IN_EP, /* bEndPointAddress: In endpoint is used for the alternate setting */ 0x00, /* bmInfo: dynamic format change not supported */ 0x02, /* bTerminalLink: output to terminal ID 2 */ 0x00, /* bStillCaptureMethod: not supported */ 0x00, /* bTriggerSupport: not supported */ 0x00, /* bTriggerUsage: not supported */ 0x01, /* bControlSize: 1 byte field size */ 0x00, /* bmaControls: No specific controls used */ /* Payload Format Descriptor */ VS_FORMAT_DESC_SIZE, /* blength */ CS_INTERFACE, /* bDescriptorType */ VS_FORMAT_SUBTYPE, /* bDescriptorSubType */ 0x01, /* bFormatIndex */ 0x01, /* bNumFrameDescriptor */ #ifdef USBD_UVC_FORMAT_UNCOMPRESSED DBVAL(UVC_UNCOMPRESSED_GUID), /* Giud Format: YUY2 {32595559-0000-0010-8000-00AA00389B71} */ 0x00, 0x00, 0x10, 0x00, 0x80, 0x00, 0x00, 0xAA, 0x00, 0x38, 0x9B, 0x71, UVC_BITS_PER_PIXEL, /* bBitsPerPixel : Number of bits per pixel */ #else 0x01, /* bmFlags: FixedSizeSamples */ #endif 0x01, /* bDefaultFrameIndex: default frame used is frame 1 (only one frame used) */ 0x00, /* bAspectRatioX: not required by specification */ 0x00, /* bAspectRatioY: not required by specification */ 0x00, /* bInterlaceFlags: non interlaced stream */ 0x00, /* bCopyProtect: no protection restrictions */ /* Class-specific VS (Video Streaming) Frame Descriptor */ VS_FRAME_DESC_SIZE, /* bLength */ CS_INTERFACE, /* bDescriptorType */ VS_FRAME_SUBTYPE, /* bDescriptorSubType */ 0x01, /* bFrameIndex */ 0x02, /* bmCapabilities: fixed frame rate supported */ WBVAL(UVC_WIDTH), /* wWidth: Image Frame Width */ WBVAL(UVC_HEIGHT), /* wHeight: Image Frame Height */ DBVAL(UVC_MIN_BIT_RATE(UVC_CAM_FPS_FS)), /* dwMinBitRate: Minimum supported bit rate in bits/s */ DBVAL(UVC_MAX_BIT_RATE(UVC_CAM_FPS_FS)), /* dwMaxBitRate: Maximum supported bit rate in bits/s */ DBVAL(UVC_MAX_FRAME_SIZE), /* dwMaxVideoFrameBufSize: Maximum video frame size, in bytes */ DBVAL(UVC_INTERVAL(UVC_CAM_FPS_FS)), /* dwDefaultFrameInterval: following number of FPS */ 0x01, /* bFrameIntervalType: Discrete frame interval type */ DBVAL(UVC_INTERVAL(UVC_CAM_FPS_FS)), /* dwMinFrameInterval: One supported value of interval (FPS) */ #ifdef USBD_UVC_FORMAT_UNCOMPRESSED /* Color Matching Descriptor */ VS_COLOR_MATCHING_DESC_SIZE, /* bLength */ CS_INTERFACE, /* bDescriptorType: CS_INTERFACE */ VS_COLORFORMAT, /* bDescriptorSubType: VS_COLORFORMAT */ UVC_COLOR_PRIMARIE, /* bColorPrimarie: 1: BT.709, sRGB (default) */ UVC_TFR_CHARACTERISTICS, /* bTransferCharacteristics: 1: BT.709 (default) */ UVC_MATRIX_COEFFICIENTS, /* bMatrixCoefficients: 4: BT.601, (default) */ #endif /* Standard VS Interface Descriptor = interface 1, alternate setting 1 = data transfer mode */ USB_IF_DESC_SIZE, /* bLength */ USB_DESC_TYPE_INTERFACE, /* bDescriptorType */ UVC_VS_IF_NUM, /* bInterfaceNumber */ 0x01, /* bAlternateSetting */ 0x01, /* bNumEndpoints: one endpoint is used */ UVC_CC_VIDEO, /* bInterfaceClass */ SC_VIDEOSTREAMING, /* bInterfaceSubClass */ PC_PROTOCOL_UNDEFINED, /* bInterfaceProtocol */ 0x00, /* iInterface: index of string descriptor relative to this item */ /* Standard VS (Video Streaming) data Endpoint */ USB_EP_DESC_SIZE, /* bLength */ USB_DESC_TYPE_ENDPOINT, /* bDescriptorType */ UVC_IN_EP, /* bEndpointAddress */ 0x05, /* bmAttributes: ISO transfer */ LOBYTE(UVC_ISO_FS_MPS), /* wMaxPacketSize */ LOBYTE(UVC_ISO_FS_MPS), 0x01, /* bInterval: 1 frame interval */ }; /* USB Standard Device Descriptor */ __ALIGN_BEGIN static uint8_t USBD_VIDEO_DeviceQualifierDesc[USB_LEN_DEV_QUALIFIER_DESC] __ALIGN_END = { USB_LEN_DEV_QUALIFIER_DESC, USB_DESC_TYPE_DEVICE_QUALIFIER, 0x00, 0x02, 0xEF, 0x02, 0x01, 0x40, 0x01, 0x00, }; /* Video Commit data structure */ static USBD_VideoControlTypeDef video_Commit_Control = { .bmHint = 0x0000U, .bFormatIndex = 0x01U, .bFrameIndex = 0x01U, .dwFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS), .wKeyFrameRate = 0x0000U, .wPFrameRate = 0x0000U, .wCompQuality = 0x0000U, .wCompWindowSize = 0x0000U, .wDelay = 0x0000U, .dwMaxVideoFrameSize = 0x0000U, .dwMaxPayloadTransferSize = 0x00000000U, .dwClockFrequency = 0x00000000U, .bmFramingInfo = 0x00U, .bPreferedVersion = 0x00U, .bMinVersion = 0x00U, .bMaxVersion = 0x00U, }; /* Video Probe data structure */ static USBD_VideoControlTypeDef video_Probe_Control = { .bmHint = 0x0000U, .bFormatIndex = 0x01U, .bFrameIndex = 0x01U, .dwFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS), .wKeyFrameRate = 0x0000U, .wPFrameRate = 0x0000U, .wCompQuality = 0x0000U, .wCompWindowSize = 0x0000U, .wDelay = 0x0000U, .dwMaxVideoFrameSize = 0x0000U, .dwMaxPayloadTransferSize = 0x00000000U, .dwClockFrequency = 0x00000000U, .bmFramingInfo = 0x00U, .bPreferedVersion = 0x00U, .bMinVersion = 0x00U, .bMaxVersion = 0x00U, }; /** * @} */ /** @defgroup USBD_VIDEO_Private_Functions * @{ */ /** * @brief USBD_VIDEO_Init * Initialize the VIDEO interface * @param pdev: device instance * @param cfgidx: Configuration index * @retval status */ static uint8_t USBD_VIDEO_Init(USBD_HandleTypeDef *pdev, uint8_t cfgidx) { USBD_VIDEO_HandleTypeDef *hVIDEO; /* Allocate memory for the video control structure */ hVIDEO = USBD_malloc(sizeof(USBD_VIDEO_HandleTypeDef)); /* Check if allocated point is NULL, then exit with error code */ if (hVIDEO == NULL) { return (uint8_t)USBD_FAIL; } /* Assign the pClassData pointer to the allocated structure */ pdev->pClassData = (void *)hVIDEO; /* Open EP IN */ if (pdev->dev_speed == USBD_SPEED_HIGH) { (void)USBD_LL_OpenEP(pdev, UVC_IN_EP, USBD_EP_TYPE_ISOC, UVC_ISO_HS_MPS); pdev->ep_in[UVC_IN_EP & 0xFU].is_used = 1U; pdev->ep_in[UVC_IN_EP & 0xFU].maxpacket = UVC_ISO_HS_MPS; } else { (void)USBD_LL_OpenEP(pdev, UVC_IN_EP, USBD_EP_TYPE_ISOC, UVC_ISO_FS_MPS); pdev->ep_in[UVC_IN_EP & 0xFU].is_used = 1U; pdev->ep_in[UVC_IN_EP & 0xFU].maxpacket = UVC_ISO_FS_MPS; } /* Init physical Interface components */ ((USBD_VIDEO_ItfTypeDef *)pdev->pUserData)->Init(); /* Init Xfer states */ hVIDEO->interface = 0U; /* Some calls to unused variables, to comply with MISRA-C 2012 rules */ UNUSED(USBD_VIDEO_CfgDesc); UNUSED(cfgidx); /* Exit with no error code */ return (uint8_t)USBD_OK; } /** * @brief USBD_VIDEO_DeInit * DeInitialize the VIDEO layer * @param pdev: device instance * @param cfgidx: Configuration index * @retval status */ static uint8_t USBD_VIDEO_DeInit(USBD_HandleTypeDef *pdev, uint8_t cfgidx) { UNUSED(cfgidx); /* Check if the video structure pointer is valid */ if (pdev->pClassData == NULL) { return (uint8_t)USBD_FAIL; } /* Close EP IN */ (void)USBD_LL_CloseEP(pdev, UVC_IN_EP); pdev->ep_in[UVC_IN_EP & 0xFU].is_used = 0U; /* DeInit physical Interface components */ ((USBD_VIDEO_ItfTypeDef *)pdev->pUserData)->DeInit(); USBD_free(pdev->pClassData); pdev->pClassData = NULL; /* Exit with no error code */ return (uint8_t)USBD_OK; } /** * @brief USBD_VIDEO_Setup * Handle the VIDEO specific requests * @param pdev: instance * @param req: usb requests * @retval status */ static uint8_t USBD_VIDEO_Setup(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req) { USBD_VIDEO_HandleTypeDef *hVIDEO = (USBD_VIDEO_HandleTypeDef *) pdev->pClassData; uint8_t ret = (uint8_t)USBD_OK; uint16_t len = 0U; uint8_t *pbuf = NULL; uint16_t status_info = 0U; switch (req->bmRequest & USB_REQ_TYPE_MASK) { /* Class Requests -------------------------------*/ case USB_REQ_TYPE_CLASS: switch (req->bRequest) { case UVC_GET_CUR: case UVC_GET_DEF: case UVC_GET_MIN: case UVC_GET_MAX: VIDEO_REQ_GetCurrent(pdev, req); break; case UVC_GET_RES: case UVC_GET_LEN: case UVC_GET_INFO: break; case UVC_SET_CUR: VIDEO_REQ_SetCurrent(pdev, req); break; default: (void) USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; break; } break; /* Standard Requests -------------------------------*/ case USB_REQ_TYPE_STANDARD: switch (req->bRequest) { case USB_REQ_GET_STATUS: if (pdev->dev_state == USBD_STATE_CONFIGURED) { (void) USBD_CtlSendData(pdev, (uint8_t *)&status_info, 2U); } else { USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; } break; case USB_REQ_GET_DESCRIPTOR: if ((req->wValue >> 8) == CS_DEVICE) { pbuf = USBD_VIDEO_CfgDesc + 18; len = MIN((uint16_t)USB_CONF_DESC_SIZE, (uint16_t)req->wLength); } (void)USBD_CtlSendData(pdev, pbuf, len); break; case USB_REQ_GET_INTERFACE : if (pdev->dev_state == USBD_STATE_CONFIGURED) { (void) USBD_CtlSendData(pdev, (uint8_t *)&hVIDEO->interface, 1); } else { USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; } break; case USB_REQ_SET_INTERFACE : if (pdev->dev_state == USBD_STATE_CONFIGURED) { if (req->wValue <= USBD_MAX_NUM_INTERFACES) { hVIDEO->interface = LOBYTE(req->wValue); if (hVIDEO->interface == 1U) { /* Start Streaming (First endpoint writing will be done on next SOF) */ (void)USBD_LL_FlushEP(pdev, UVC_IN_EP); hVIDEO->uvc_state = UVC_PLAY_STATUS_READY; } else { /* Stop Streaming */ hVIDEO->uvc_state = UVC_PLAY_STATUS_STOP; (void)USBD_LL_FlushEP(pdev, UVC_IN_EP); } } else { /* Call the error management function (command will be NAKed) */ USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; } } else { USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; } break; case USB_REQ_CLEAR_FEATURE: break; default: USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; break; } break; default: USBD_CtlError(pdev, req); ret = (uint8_t)USBD_FAIL; break; } return ret; } /** * @brief USBD_VIDEO_DataIn * handle data IN Stage * @param pdev: device instance * @param epnum: endpoint index * @retval status */ static uint8_t USBD_VIDEO_DataIn(USBD_HandleTypeDef *pdev, uint8_t epnum) { USBD_VIDEO_HandleTypeDef *hVIDEO = (USBD_VIDEO_HandleTypeDef *) pdev->pClassData; static uint8_t packet[UVC_PACKET_SIZE + (UVC_HEADER_PACKET_CNT * 2U)] = {0x00U}; static uint8_t *Pcktdata = packet; static uint16_t PcktIdx = 0U; static uint16_t PcktSze = UVC_PACKET_SIZE; static uint8_t payload_header[2] = {0x02U, 0x00U}; uint8_t i = 0U; uint32_t RemainData, DataOffset = 0U; /* Check if the Streaming has already been started */ if (hVIDEO->uvc_state == UVC_PLAY_STATUS_STREAMING) { /* Get the current packet buffer, index and size from the application layer */ ((USBD_VIDEO_ItfTypeDef *)pdev->pUserData)->Data(&Pcktdata, &PcktSze, &PcktIdx); /* Check if end of current image has been reached */ if (PcktSze > 2U) { /* Check if this is the first packet in current image */ if (PcktIdx == 0U) { /* Set the packet start index */ payload_header[1] ^= 0x01U; } RemainData = PcktSze; /* fill the Transmit buffer */ while (RemainData > 0U) { packet[((DataOffset + 0U) * i)] = payload_header[0]; packet[((DataOffset + 0U) * i) + 1U] = payload_header[1]; if (RemainData > pdev->ep_in[UVC_IN_EP & 0xFU].maxpacket) { DataOffset = pdev->ep_in[UVC_IN_EP & 0xFU].maxpacket; (void)USBD_memcpy((packet + ((DataOffset + 0U) * i) + 2U), Pcktdata + ((DataOffset - 2U) * i), (DataOffset - 2U)); RemainData -= DataOffset; i++; } else { (void)USBD_memcpy((packet + ((DataOffset + 0U) * i) + 2U), Pcktdata + ((DataOffset - 2U) * i), (RemainData - 2U)); RemainData = 0U; } } } else { /* Add the packet header */ packet[0] = payload_header[0]; packet[1] = payload_header[1]; } /* Transmit the packet on Endpoint */ (void)USBD_LL_Transmit(pdev, (uint8_t)(epnum | 0x80U), (uint8_t *)&packet, (uint32_t)PcktSze); } /* Exit with no error code */ return (uint8_t) USBD_OK; } /** * @brief USBD_VIDEO_SOF * handle SOF event * @param pdev: device instance * @retval status */ static uint8_t USBD_VIDEO_SOF(USBD_HandleTypeDef *pdev) { USBD_VIDEO_HandleTypeDef *hVIDEO = (USBD_VIDEO_HandleTypeDef *) pdev->pClassData; uint8_t payload[2] = {0x02U, 0x00U}; /* Check if the Streaming has already been started by SetInterface AltSetting 1 */ if (hVIDEO->uvc_state == UVC_PLAY_STATUS_READY) { /* Transmit the first packet indicating that Streaming is starting */ (void)USBD_LL_Transmit(pdev, UVC_IN_EP, (uint8_t *)payload, 2U); /* Enable Streaming state */ hVIDEO->uvc_state = UVC_PLAY_STATUS_STREAMING; } /* Exit with no error code */ return (uint8_t)USBD_OK; } /** * @brief USBD_VIDEO_IsoINIncomplete * handle data ISO IN Incomplete event * @param pdev: device instance * @param epnum: endpoint index * @retval status */ static uint8_t USBD_VIDEO_IsoINIncomplete(USBD_HandleTypeDef *pdev, uint8_t epnum) { UNUSED(pdev); UNUSED(epnum); return (uint8_t)USBD_OK; } /** * @brief VIDEO_Req_GetCurrent * Handles the GET_CUR VIDEO control request. * @param pdev: instance * @param req: setup class request * @retval status */ static void VIDEO_REQ_GetCurrent(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req) { USBD_VIDEO_HandleTypeDef *hVIDEO; hVIDEO = (USBD_VIDEO_HandleTypeDef *)(pdev->pClassData); static __IO uint8_t EntityStatus[8] = {0}; /* Reset buffer to zeros */ (void) USBD_memset(hVIDEO->control.data, 0, USB_MAX_EP0_SIZE); /* Manage Video Control interface requests */ if (LOBYTE(req->wIndex) == 0x00U) { if (HIBYTE(req->wValue) == 0x02U) { /* Get the status of the current requested Entity */ EntityStatus[0] = 0x06U; /* Send current status */ (void) USBD_CtlSendData(pdev, (uint8_t *)&EntityStatus, 1U); } else { /* Unknown request */ USBD_CtlError(pdev, req); } } /* Manage Video Streaming interface requests */ else { if (LOBYTE(req->wValue) == (uint8_t)VS_PROBE_CONTROL) { /* Update bPreferedVersion, bMinVersion and bMaxVersion which must be set only by Device */ video_Probe_Control.bPreferedVersion = 0x00U; video_Probe_Control.bMinVersion = 0x00U; video_Probe_Control.bMaxVersion = 0x00U; video_Probe_Control.dwMaxVideoFrameSize = UVC_MAX_FRAME_SIZE; video_Probe_Control.dwClockFrequency = 0x02DC6C00U; if (pdev->dev_speed == USBD_SPEED_HIGH) { video_Probe_Control.dwFrameInterval = (UVC_INTERVAL(UVC_CAM_FPS_HS)); video_Probe_Control.dwMaxPayloadTransferSize = UVC_ISO_HS_MPS; } else { video_Probe_Control.dwFrameInterval = (UVC_INTERVAL(UVC_CAM_FPS_FS)); video_Probe_Control.dwMaxPayloadTransferSize = UVC_ISO_FS_MPS; } /* Probe Request */ (void) USBD_CtlSendData(pdev, (uint8_t *)&video_Probe_Control, req->wLength); } else if (LOBYTE(req->wValue) == (uint8_t)VS_COMMIT_CONTROL) { if (pdev->dev_speed == USBD_SPEED_HIGH) { video_Commit_Control.dwFrameInterval = (UVC_INTERVAL(UVC_CAM_FPS_HS)); video_Commit_Control.dwMaxPayloadTransferSize = UVC_ISO_HS_MPS; } else { video_Commit_Control.dwFrameInterval = (UVC_INTERVAL(UVC_CAM_FPS_FS)); video_Commit_Control.dwMaxPayloadTransferSize = UVC_ISO_FS_MPS; } /* Commit Request */ (void) USBD_CtlSendData(pdev, (uint8_t *)&video_Commit_Control, req->wLength); } else { /* Send the current mute state */ (void) USBD_CtlSendData(pdev, hVIDEO->control.data, req->wLength); } } } /** * @brief VIDEO_Req_SetCurrent * Handles the SET_CUR VIDEO control request. * @param pdev: instance * @param req: setup class request * @retval status */ static void VIDEO_REQ_SetCurrent(USBD_HandleTypeDef *pdev, USBD_SetupReqTypedef *req) { USBD_VIDEO_HandleTypeDef *hVIDEO = (USBD_VIDEO_HandleTypeDef *)(pdev->pClassData); /* Check that the request has control data */ if (req->wLength > 0U) { /* Prepare the reception of the buffer over EP0 */ if (LOBYTE(req->wValue) == (uint8_t)VS_PROBE_CONTROL) { /* Probe Request */ (void) USBD_CtlPrepareRx(pdev, (uint8_t *)&video_Probe_Control, req->wLength); } else if (LOBYTE(req->wValue) == (uint8_t)VS_COMMIT_CONTROL) { /* Commit Request */ (void) USBD_CtlPrepareRx(pdev, (uint8_t *)&video_Commit_Control, req->wLength); } else { /* Prepare the reception of the buffer over EP0 */ (void) USBD_CtlPrepareRx(pdev, hVIDEO->control.data, req->wLength); } } } /** * @brief USBD_VIDEO_GetFSCfgDesc * return configuration descriptor * @param length : pointer data length * @retval pointer to descriptor buffer */ static uint8_t *USBD_VIDEO_GetFSCfgDesc(uint16_t *length) { USBD_EpDescTypedef *pEpDesc = USBD_VIDEO_GetEpDesc(USBD_VIDEO_CfgDesc, UVC_IN_EP); USBD_VIDEO_VSFrameDescTypeDef *pVSFrameDesc = USBD_VIDEO_GetVSFrameDesc(USBD_VIDEO_CfgDesc); if (pEpDesc != NULL) { pEpDesc->wMaxPacketSize = UVC_ISO_FS_MPS; } if (pVSFrameDesc != NULL) { pVSFrameDesc->dwMinBitRate = UVC_MIN_BIT_RATE(UVC_CAM_FPS_FS); pVSFrameDesc->dwMaxBitRate = UVC_MAX_BIT_RATE(UVC_CAM_FPS_FS); pVSFrameDesc->dwDefaultFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS); pVSFrameDesc->dwMinFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS); } *length = (uint16_t)(sizeof(USBD_VIDEO_CfgDesc)); return USBD_VIDEO_CfgDesc; } /** * @brief USBD_VIDEO_GetHSCfgDesc * return configuration descriptor * @param length : pointer data length * @retval pointer to descriptor buffer */ static uint8_t *USBD_VIDEO_GetHSCfgDesc(uint16_t *length) { USBD_EpDescTypedef *pEpDesc = USBD_VIDEO_GetEpDesc(USBD_VIDEO_CfgDesc, UVC_IN_EP); USBD_VIDEO_VSFrameDescTypeDef *pVSFrameDesc = USBD_VIDEO_GetVSFrameDesc(USBD_VIDEO_CfgDesc); if (pEpDesc != NULL) { pEpDesc->wMaxPacketSize = UVC_ISO_HS_MPS; } if (pVSFrameDesc != NULL) { pVSFrameDesc->dwMinBitRate = UVC_MIN_BIT_RATE(UVC_CAM_FPS_HS); pVSFrameDesc->dwMaxBitRate = UVC_MAX_BIT_RATE(UVC_CAM_FPS_HS); pVSFrameDesc->dwDefaultFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_HS); pVSFrameDesc->dwMinFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_HS); } *length = (uint16_t)(sizeof(USBD_VIDEO_CfgDesc)); return USBD_VIDEO_CfgDesc; } /** * @brief USBD_VIDEO_GetOtherSpeedCfgDesc * return configuration descriptor * @param length : pointer data length * @retval pointer to descriptor buffer */ static uint8_t *USBD_VIDEO_GetOtherSpeedCfgDesc(uint16_t *length) { USBD_EpDescTypedef *pEpDesc = USBD_VIDEO_GetEpDesc(USBD_VIDEO_CfgDesc, UVC_IN_EP); USBD_VIDEO_VSFrameDescTypeDef *pVSFrameDesc = USBD_VIDEO_GetVSFrameDesc(USBD_VIDEO_CfgDesc); if (pEpDesc != NULL) { pEpDesc->wMaxPacketSize = UVC_ISO_FS_MPS; } if (pVSFrameDesc != NULL) { pVSFrameDesc->dwMinBitRate = UVC_MIN_BIT_RATE(UVC_CAM_FPS_FS); pVSFrameDesc->dwMaxBitRate = UVC_MAX_BIT_RATE(UVC_CAM_FPS_FS); pVSFrameDesc->dwDefaultFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS); pVSFrameDesc->dwMinFrameInterval = UVC_INTERVAL(UVC_CAM_FPS_FS); } *length = (uint16_t)(sizeof(USBD_VIDEO_CfgDesc)); return USBD_VIDEO_CfgDesc; } /** * @brief DeviceQualifierDescriptor * return Device Qualifier descriptor * @param length : pointer data length * @retval pointer to descriptor buffer */ static uint8_t *USBD_VIDEO_GetDeviceQualifierDesc(uint16_t *length) { *length = (uint16_t)(sizeof(USBD_VIDEO_DeviceQualifierDesc)); return USBD_VIDEO_DeviceQualifierDesc; } /** * @brief USBD_VIDEO_GetNextDesc * This function return the next descriptor header * @param buf: Buffer where the descriptor is available * @param ptr: data pointer inside the descriptor * @retval next header */ static USBD_VIDEO_DescHeader_t *USBD_VIDEO_GetNextDesc(uint8_t *pbuf, uint16_t *ptr) { USBD_VIDEO_DescHeader_t *pnext = (USBD_VIDEO_DescHeader_t *)(void *)pbuf; *ptr += pnext->bLength; pnext = (USBD_VIDEO_DescHeader_t *)(void *)(pbuf + pnext->bLength); return (pnext); } /** * @brief USBD_VIDEO_GetVSFrameDesc * This function return the Video Endpoint descriptor * @param pdev: device instance * @param pConfDesc: pointer to Bos descriptor * @retval pointer to video endpoint descriptor */ static void *USBD_VIDEO_GetVSFrameDesc(uint8_t *pConfDesc) { USBD_VIDEO_DescHeader_t *pdesc = (USBD_VIDEO_DescHeader_t *)(void *)pConfDesc; USBD_ConfigDescTypedef *desc = (USBD_ConfigDescTypedef *)(void *)pConfDesc; USBD_VIDEO_VSFrameDescTypeDef *pVSFrameDesc = NULL; uint16_t ptr; if (desc->wTotalLength > desc->bLength) { ptr = desc->bLength; while (ptr < desc->wTotalLength) { pdesc = USBD_VIDEO_GetNextDesc((uint8_t *)pdesc, &ptr); if ((pdesc->bDescriptorSubType == VS_FRAME_MJPEG) || (pdesc->bDescriptorSubType == VS_FRAME_UNCOMPRESSED)) { pVSFrameDesc = (USBD_VIDEO_VSFrameDescTypeDef *)(void *)pdesc; break; } } } return (void *)pVSFrameDesc; } /** * @brief USBD_VIDEO_GetEpDesc * This function return the Video Endpoint descriptor * @param pdev: device instance * @param pConfDesc: pointer to Bos descriptor * @param EpAddr: endpoint address * @retval pointer to video endpoint descriptor */ static void *USBD_VIDEO_GetEpDesc(uint8_t *pConfDesc, uint8_t EpAddr) { USBD_VIDEO_DescHeader_t *pdesc = (USBD_VIDEO_DescHeader_t *)(void *)pConfDesc; USBD_ConfigDescTypedef *desc = (USBD_ConfigDescTypedef *)(void *)pConfDesc; USBD_EpDescTypedef *pEpDesc = NULL; uint16_t ptr; if (desc->wTotalLength > desc->bLength) { ptr = desc->bLength; while (ptr < desc->wTotalLength) { pdesc = USBD_VIDEO_GetNextDesc((uint8_t *)pdesc, &ptr); if (pdesc->bDescriptorType == USB_DESC_TYPE_ENDPOINT) { pEpDesc = (USBD_EpDescTypedef *)(void *)pdesc; if (pEpDesc->bEndpointAddress == EpAddr) { break; } else { pEpDesc = NULL; } } } } return (void *)pEpDesc; } /** * @brief USBD_VIDEO_RegisterInterface * @param pdev: instance * @param fops: VIDEO interface callback * @retval status */ uint8_t USBD_VIDEO_RegisterInterface(USBD_HandleTypeDef *pdev, USBD_VIDEO_ItfTypeDef *fops) { /* Check if the FOPS pointer is valid */ if (fops == NULL) { return (uint8_t)USBD_FAIL; } /* Assign the FOPS pointer */ pdev->pUserData = fops; /* Exit with no error code */ return (uint8_t)USBD_OK; } /** * @} */ /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

36.132565

127

0.580927

83ce35751c23e2f0166b29b68d6151e4664dbe57

1,769

h

C

src/witsml2/AbstractObject.h

cgodkin/fesapi

d25c5e30ccec537c471adc3bb036c48f2c51f2c9

[ "Apache-2.0" ]

null

src/witsml2/AbstractObject.h

cgodkin/fesapi

d25c5e30ccec537c471adc3bb036c48f2c51f2c9

[ "Apache-2.0" ]

null

src/witsml2/AbstractObject.h

cgodkin/fesapi

d25c5e30ccec537c471adc3bb036c48f2c51f2c9

[ "Apache-2.0" ]

null

/*----------------------------------------------------------------------- Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file to you under the Apache License, Version 2.0 (the "License"; you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. -----------------------------------------------------------------------*/ #pragma once #include "../common/AbstractObject.h" namespace WITSML2_NS { class AbstractObject : public COMMON_NS::AbstractObject { public: /** * Destructor does nothing since the memory is managed by the gsoap context. */ virtual ~AbstractObject() {} /** * Get part name of this XML top level instance in the EPC document */ DLL_IMPORT_OR_EXPORT std::string getPartNameInEpcDocument() const; protected: /** * Constructor for partial transfer */ AbstractObject(gsoap_resqml2_0_1::eml20__DataObjectReference* partialObject) : COMMON_NS::AbstractObject(partialObject) {} /** * Default constructor */ AbstractObject() {} AbstractObject(gsoap_eml2_1::eml21__AbstractObject* proxy) : COMMON_NS::AbstractObject(proxy) {} //AbstractObject(gsoap_eml2_2::eml22__AbstractObject* proxy) : COMMON_NS::AbstractObject(proxy) {} }; }

31.589286

124

0.704353

83d0d82c5b6b3ce37f8fc4118724984137918ab2

724

h

C

ldk/include/ldk/ldk_string.h

andreimesquita/LDK-DINOSAUR-AI

131e19df97298783000972e5ec80397049dd2df1

[ "MIT" ]

2

2019-07-30T13:31:15.000Z

2019-07-30T18:01:35.000Z

ldk/include/ldk/ldk_string.h

andreimesquita/LDK-DINOSAUR-AI

131e19df97298783000972e5ec80397049dd2df1

[ "MIT" ]

null

ldk/include/ldk/ldk_string.h

andreimesquita/LDK-DINOSAUR-AI

131e19df97298783000972e5ec80397049dd2df1

[ "MIT" ]

null

#ifndef _LDK_STRING_UTIL_ #define _LDK_STRING_UTIL_ namespace ldk { constexpr uint32 strlen(const char* string) { const char* p = string; while(*p) { ++p; } return p - string; } constexpr uint32 stringToHash(const char* str) { uint32 stringLen = strlen((char*)str); uint32 hash = 0; for(; *str; ++str) { hash += *str; hash += (hash << 10); hash ^= (hash >> 6); } hash += (hash << 3); hash ^= (hash >> 11); hash += (hash << 15); return hash; } inline bool isLetter(char c) { return (c >= 64 && c <= 90) || (c >= 97 && c <= 122); } inline bool isDigit(char c) { return c >= 48 && c <= 57; } } #endif// _LDK_STRING_UTIL_

14.48

55

0.524862

83d25e7717bbd9c7601a0661ae1251692fcd9680

7,478

h

C

cctbx/geometry_restraints/nonbonded_sorted.h

rimmartin/cctbx_project

644090f9432d9afc22cfb542fc3ab78ca8e15e5d

[ "BSD-3-Clause-LBNL" ]

155

2016-11-23T12:52:16.000Z

2022-03-31T15:35:44.000Z

cctbx/geometry_restraints/nonbonded_sorted.h

rimmartin/cctbx_project

644090f9432d9afc22cfb542fc3ab78ca8e15e5d

[ "BSD-3-Clause-LBNL" ]

590

2016-12-10T11:31:18.000Z

2022-03-30T23:10:09.000Z

cctbx/geometry_restraints/nonbonded_sorted.h

rimmartin/cctbx_project

644090f9432d9afc22cfb542fc3ab78ca8e15e5d

[ "BSD-3-Clause-LBNL" ]

115

2016-11-15T08:17:28.000Z

2022-02-09T15:30:14.000Z

#ifndef CCTBX_GEOMETRY_RESTRAINTS_NONBONDED_SORTED_H #define CCTBX_GEOMETRY_RESTRAINTS_NONBONDED_SORTED_H #include <cctbx/geometry_restraints/nonbonded.h> #include <cctbx/crystal/pair_tables.h> namespace cctbx { namespace geometry_restraints { //! Generation of sorted nonbonded proxies. class nonbonded_sorted_asu_proxies : public nonbonded_sorted_asu_proxies_base { public: //! Default constructor. Some data members are not initialized! nonbonded_sorted_asu_proxies() {} //! Initialization with asu_mappings. nonbonded_sorted_asu_proxies( boost::shared_ptr< direct_space_asu::asu_mappings<> > const& asu_mappings) : nonbonded_sorted_asu_proxies_base(asu_mappings), n_unknown_nonbonded_type_pairs(0), min_vdw_distance(-1), max_vdw_distance(-1) {} //! Generation of nonbonded proxies. /*! Bonds (1-2) interactions are defined by shell_asu_tables[0] and are used at the same time as nonbonded exclusions. 1-3 interactions are defined by shell_asu_tables[1] and are used as nonbonded exclusions. 1-4 interactions are defined by shell_asu_tables[2] and are used to attenuate nonbonded energies according to nonbonded_params. */ nonbonded_sorted_asu_proxies( af::const_ref<std::size_t> const& model_indices, af::const_ref<std::size_t> const& conformer_indices, af::const_ref<std::size_t> const& sym_excl_indices, af::const_ref<std::size_t> const& donor_acceptor_excl_groups, geometry_restraints::nonbonded_params const& nonbonded_params, af::const_ref<std::string> const& nonbonded_types, af::const_ref<int> const& nonbonded_charges, double nonbonded_distance_cutoff_plus_buffer, double min_cubicle_edge, std::vector<crystal::pair_asu_table<> > const& shell_asu_tables) : nonbonded_sorted_asu_proxies_base(shell_asu_tables[0].asu_mappings()), n_unknown_nonbonded_type_pairs(0), min_vdw_distance(-1), max_vdw_distance(-1) { CCTBX_ASSERT(model_indices.size() == 0 || model_indices.size() == nonbonded_types.size()); CCTBX_ASSERT(conformer_indices.size() == 0 || conformer_indices.size() == nonbonded_types.size()); CCTBX_ASSERT(sym_excl_indices.size() == 0 || sym_excl_indices.size() == nonbonded_types.size()); CCTBX_ASSERT(donor_acceptor_excl_groups.size() == 0 || donor_acceptor_excl_groups.size() == nonbonded_types.size()); CCTBX_ASSERT(nonbonded_charges.size() == 0 || nonbonded_charges.size() == nonbonded_types.size()); CCTBX_ASSERT(shell_asu_tables.size() > 0); for(unsigned i=0; i<shell_asu_tables.size(); i++) { CCTBX_ASSERT(shell_asu_tables[i].table().size() == nonbonded_types.size()); } unsigned shell_asu_tables_size = shell_asu_tables.size(); for(unsigned i=1; i<shell_asu_tables_size; i++) { CCTBX_ASSERT(shell_asu_tables[i].asu_mappings().get() == shell_asu_tables[0].asu_mappings().get()); } crystal::neighbors::fast_pair_generator<> pair_generator( shell_asu_tables[0].asu_mappings(), nonbonded_distance_cutoff_plus_buffer, /*minimal*/ false, min_cubicle_edge); while (!pair_generator.at_end()) { direct_space_asu::asu_mapping_index_pair_and_diff<> pair = pair_generator.next(); if (shell_asu_tables[0].contains(pair)) { continue; } if ( shell_asu_tables_size > 1 && shell_asu_tables[1].contains(pair)) { continue; } if ( model_indices.size() != 0 && model_indices[pair.i_seq] != model_indices[pair.j_seq]) { continue; } if ( conformer_indices.size() != 0 && conformer_indices[pair.i_seq] != 0 && conformer_indices[pair.j_seq] != 0 && conformer_indices[pair.i_seq] != conformer_indices[pair.j_seq]) { continue; } bool sym_excl_flag = false; if ( sym_excl_indices.size() != 0 && sym_excl_indices[pair.i_seq] != 0 && sym_excl_indices[pair.i_seq] == sym_excl_indices[pair.j_seq]) { sym_excl_flag = true; } bool donor_acceptor_adjust = true; /*if ( donor_acceptor_excl_groups.size() == 0 || donor_acceptor_excl_groups[pair.i_seq] == donor_acceptor_excl_groups[pair.j_seq]) { donor_acceptor_adjust = false; }*/ bool is_1_4_interaction = ( shell_asu_tables_size > 2 && shell_asu_tables[2].contains(pair)); nonbonded_asu_proxy proxy = make_nonbonded_asu_proxy( nonbonded_params, nonbonded_types, nonbonded_charges, pair, is_1_4_interaction, donor_acceptor_adjust && !is_1_4_interaction); if (min_vdw_distance < 0 || min_vdw_distance > proxy.vdw_distance) { min_vdw_distance = proxy.vdw_distance; } if (max_vdw_distance < proxy.vdw_distance) { max_vdw_distance = proxy.vdw_distance; } process(proxy, sym_excl_flag); } } //! For internal use only. nonbonded_asu_proxy make_nonbonded_asu_proxy( geometry_restraints::nonbonded_params const& nonbonded_params, af::const_ref<std::string> const& nonbonded_types, af::const_ref<int> const& nonbonded_charges, direct_space_asu::asu_mapping_index_pair const& pair, bool is_1_4_interaction, bool donor_acceptor_adjust) { std::string const& type_i = nonbonded_types[pair.i_seq]; std::string const& type_j = nonbonded_types[pair.j_seq]; int charge_i = 0; int charge_j = 0; if (nonbonded_charges.begin() != 0) { charge_i = nonbonded_charges[pair.i_seq]; charge_j = nonbonded_charges[pair.j_seq]; } double distance = nonbonded_params.get_nonbonded_distance( type_i, type_j, donor_acceptor_adjust, charge_i, charge_j); if (distance != -1) { return nonbonded_asu_proxy( pair, nonbonded_params.adjust_nonbonded_distance( distance, is_1_4_interaction)); } if (nonbonded_params.default_distance > 0) { n_unknown_nonbonded_type_pairs++; return nonbonded_asu_proxy( pair, nonbonded_params.adjust_nonbonded_distance( nonbonded_params.default_distance, is_1_4_interaction)); } throw error( "Unknown nonbonded type pair (incomplete nonbonded_distance_table): " + type_i + " - " + type_j); } /*! \brief Number of unknown nonbonded type pairs (nonbonded proxies with default distance). */ unsigned n_unknown_nonbonded_type_pairs; //! Smallest VdW distance encountered. double min_vdw_distance; //! Largest VdW distance encountered. double max_vdw_distance; }; }} // namespace cctbx::geometry_restraints #endif // CCTBX_GEOMETRY_RESTRAINTS_NONBONDED_SORTED_H

40.641304

79

0.626504

83d2cd7199abed7446a15f084e95fe84235cc4cc

299

h

C

WVRAccount/WVRAccount/Core/Register/Interactor/WVRGetPhoneCodeTokenUseCase.h

portal-io/portal-ios-business

e8c3776b5a2e81c152c41fbf78fe33f48ed64d07

[ "MIT" ]

null

WVRAccount/WVRAccount/Core/Register/Interactor/WVRGetPhoneCodeTokenUseCase.h

portal-io/portal-ios-business

e8c3776b5a2e81c152c41fbf78fe33f48ed64d07

[ "MIT" ]

null

WVRAccount/WVRAccount/Core/Register/Interactor/WVRGetPhoneCodeTokenUseCase.h

portal-io/portal-ios-business

e8c3776b5a2e81c152c41fbf78fe33f48ed64d07

[ "MIT" ]

null

// // WVRGetPhoneCodeTokenUseCase.h // WhaleyVR // // Created by qbshen on 2017/8/24. // Copyright © 2017年 Snailvr. All rights reserved. // #import "WVRUseCase.h" @interface WVRGetPhoneCodeTokenUseCase : WVRUseCase<WVRUseCaseProtocol> @property (nonatomic, strong) NSString * smsToken; @end

18.6875

71

0.73913

83d4d9ccd1e5c2e9cc9929668595c70c639588f9

2,403

h

C

PNCurrency/PNCurrencyTextField.h

pinnrepo/PNCurrency

479a51441b9e036facd7df3f0e00dcf9632d3f7d

[ "MIT" ]

2

2016-04-23T12:58:23.000Z

2016-04-26T08:38:02.000Z

PNCurrency/PNCurrencyTextField.h

pinnrepo/PNCurrency

479a51441b9e036facd7df3f0e00dcf9632d3f7d

[ "MIT" ]

null

PNCurrency/PNCurrencyTextField.h

pinnrepo/PNCurrency

479a51441b9e036facd7df3f0e00dcf9632d3f7d

[ "MIT" ]

null

// PNCurrencyTextField.h // Copyright (c) 2016 Pinn Technologies, Inc. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. #import "PNCurrency.h" #import <UIKit/UIKit.h> /** * A UITextField subclass that is great for use with US currency. Text is * automatically formatted in the correct manner upon completion of editing, * inferring digits and decimals if necessary. In addition the text field * inforces a decimal pad as well as only numeric digits as well as '.' * characters. */ @interface PNCurrencyTextField : UITextField <UITextFieldDelegate> /** * Active color specifies the color that is used when the currency text field * is being edited, defaults to the UITextField text color */ @property (nonatomic, strong) UIColor* activeColor; /** * Inactive color specifies the color that is used when the currency text field * is no longer being edited, defaults to the UITextField text color */ @property (nonatomic, strong) UIColor* inactiveColor; /** * The max amount that the text field will take, if the value entered by the * user exceeds the max amount it will be rounded down to the maxAmount */ @property (nonatomic, assign) NSDecimal maxAmount; /** * Returns the amount that the text field is currently at, will return $0.00 * if no value is set. * * @return The amount as a PNCurrency object */ - (PNCurrency*)amount; @end

39.393443

80

0.749896

83d6fd39bbe3ea1c7c7550563df9c2d74e83baea

936

h

C

TSYVFLDemo/TSYBaseSetting.h

taosiyu/TSYVFLDemo

167a429c336a5c26ac60cbb91b933bae0a6547e9

[ "MIT" ]

1

2016-08-31T02:38:11.000Z

TSYVFLDemo/TSYBaseSetting.h

taosiyu/TSYVFLDemo

167a429c336a5c26ac60cbb91b933bae0a6547e9

[ "MIT" ]

null

TSYVFLDemo/TSYBaseSetting.h

taosiyu/TSYVFLDemo

167a429c336a5c26ac60cbb91b933bae0a6547e9

[ "MIT" ]

1

2019-12-01T07:27:13.000Z

// // TSYBaseSetting.h // TSYVFLDemo // // Created by 陈余鹏 on 30/8/16. // Copyright © 2016年 taothinkrain. All rights reserved. // #ifndef TSYBaseSetting_h #define TSYBaseSetting_h #define TTWidth [UIScreen mainScreen].bounds.size.width #define TTHeight [UIScreen mainScreen].bounds.size.height typedef NS_OPTIONS(NSInteger, TSYDragDirection) { TSYDragDirectionDefault = 0, TSYDragDirectionLeft = 1 << 0, TSYDragDirectionRight = 1 << 1 }; typedef NS_OPTIONS(NSInteger, TSYDragStyle) { TSYDragStyleUpOverlay = 0, TSYDragStyleDownOverlay = 1 }; static const CGFloat kBoundaryRatio = 0.5f; static const CGFloat kFirstCardScale = 1.08f; static const CGFloat kSecondCardScale = 1.04f; static const CGFloat kCardEdage = 10.0f; static const CGFloat kContainerEdage = 30.0f; static const CGFloat kNavigationHeight = 64.0f; static const CGFloat kVisibleCount = 3; #endif /* TSYBaseSetting_h */

25.297297

57

0.738248

83dcbb8a394ed69c81ea4f0d4f6e13d0b24f6adc

31,010

h

C

Qt_SenBlePSoC_AbandonSerialDialogUI_Perfect/SenBleDongleTalkFundamentals.h

SenonLi/SenOpticalFlowSensor

551c6118d16c719b9370094399ad5cb276cbd21c

[ "MIT" ]

null

Qt_SenBlePSoC_AbandonSerialDialogUI_Perfect/SenBleDongleTalkFundamentals.h

SenonLi/SenOpticalFlowSensor

551c6118d16c719b9370094399ad5cb276cbd21c

[ "MIT" ]

null

Qt_SenBlePSoC_AbandonSerialDialogUI_Perfect/SenBleDongleTalkFundamentals.h

SenonLi/SenOpticalFlowSensor

551c6118d16c719b9370094399ad5cb276cbd21c

[ "MIT" ]

null

#ifndef SENBLEDONGLETALKFUNDAMENTALS_H #define SENBLEDONGLETALKFUNDAMENTALS_H #include <QObject> #include <QMetaType> #include <QSerialPort> #include <QByteArray> #define BLE_DONGLE_ID 0x00000001 #define Sen_EVT_TYPE_LOW_8BIT_MASK 0x80 #define Sen_EVT_GAP_OUTOF_GAPGATT 0x80 #define Sen_CMD_ID_LOW_8BIT_MASK 0x7F #define Sen_CMD_ID_HIGH_8BIT_MASK 0x03 #define Sen_CMD_GAP_OR_GATT_MASK 0x80 #define Sen_CMD_GAP_GROUP 0X80 #define Sen_Max_Services_Number 10 #define Sen_Max_Characteristics_Number 10 #define Sen_Max_Descriptors_Number 10 #define CYBLE_L2CAP_CONN_PARAM_ACCEPTED 0x0000 #define CYBLE_L2CAP_CONN_PARAM_REJECTED 0x0001 #define BandPassJudge_AfterGotAllServices 1 #define CYBLE_GATT_16_BIT_UUID_FORMAT 0x01 #define CYBLE_GATT_128_BIT_UUID_FORMAT 0x02 #define HEADERS_TOTAL_NUM 5 #define EVT_OPCODE_TOTAL_NUM 50 #define GENERAL_CMD_OPCODE_TOTAL_NUM 256// upto one byte for now #define GAP_CMD_OPCODE_TOTAL_NUM 256// upto one byte for now #define GATT_CMD_OPCODE_TOTAL_NUM 256// upto one byte for now #define L2CAP_CMD_OPCODE_TOTAL_NUM 256// upto one byte for now #define STATUS_TOTAL_NUM 256 #define CYBLE_GAP_BD_ADDR_SIZE 6 #define GAPC_ADV_REPORT_T_STRUCKTURE_SIZE 10 #define CONNECTION_PARAMETERS_NOTIFICATION_Parameter_Length 9 #define Sen_BLE_ADV_ATT_Type 0x09 #define TimeIntv_Calculation_Base_Byte 0x0006 #define TimeIntv_Calculation_Base 750 //7.5ms #define TimeIntv_Calculation_PerIncrease 125 //1.25ms typedef enum{ CMD_OPCODE_LOW = 0, CMD_OPCODE_HIGH = 1, CMD_PARA_LEN_LOW = 2, CMD_PARA_LEN_HIGH = 3, CMD_PARAMETERS_BEGINNING = 4 }CMD_Packet_Index; #define CMD_PACKET_TO_DONGLE_HEADER 0 #define DONGLE_EVENT_HEADER 1 struct SerialInfoGroup { QString name; qint32 baudRate; QString stringBaudRate; QSerialPort::DataBits dataBits; QString stringDataBits; QSerialPort::Parity parity; QString stringParity; QSerialPort::StopBits stopBits; QString stringStopBits; QSerialPort::FlowControl flowControl; QString stringFlowControl; bool localEchoEnabled; }; Q_DECLARE_METATYPE(SerialInfoGroup); class SenBleDongleTalkFundamentals : public QObject { Q_OBJECT public: explicit SenBleDongleTalkFundamentals(QObject *parent = 0); QByteArray SenPSoC_BleAddress; SerialInfoGroup getDefaultSerialInfo() { return defaultSettingsInfo; } SerialInfoGroup getFirstSerialInfo() { return firstSerialInfo; } SerialInfoGroup getSecondSerialInfo() { return secondSerialInfo; } uchar get_L8(uchar* dataPointer); uchar get_H8(uchar* dataPointer); uchar getHeaderFromArray_Low(int headerIndex) { return get_L8((uchar*)&headerArray[headerIndex]);} uchar getHeaderFromArray_High(int headerIndex) { return get_H8((uchar*)&headerArray[headerIndex]);} QString getGeneralCmdStringFromArray(int generalCmdOpCodeIndex) { return generalCmdStringArray[generalCmdOpCodeIndex]; } QString getGapCmdStringFromArray(int gapCmdOpCodeIndex) { return gapCmdStringArray[gapCmdOpCodeIndex]; } QString getGattCmdStringFromArray(int gattCmdOpCodeIndex) { return gattCmdStringArray[gattCmdOpCodeIndex]; } QString getL2CAP_CmdStringFromArray(int L2CAP_CmdOpCodeIndex) { return L2CAP_CmdStringArray[L2CAP_CmdOpCodeIndex]; } QString getStatusStringFromArray(int evtStatusIndex) { return statusStringArray[evtStatusIndex]; } QByteArray getCmdPacket_Header() { return cmdPacketHeader; } // Get General Command Packet QByteArray getCmdPacket_DeviceID() { return cmdPacket_DeviceID; } QByteArray getCmdPacket_InitBleStack() { return cmdPacket_InitBleStack; } QByteArray getCmdPacket_GetRSSI() { return cmdPacket_GetRSSI; } QByteArray getCmdPacket_GetBleStackVersion() { return cmdPacket_GetBleStackVersion; } // Get Gap Command Packet //**************************** Gap: Scan Section ******************************************************* QByteArray getGapCmdPacket_SetDeviceIoCapabilities() { return cmdPacket_SetDeviceIoCapabilities; } QByteArray getGapCmdPacket_GetDeviceIoCapabilities() { return cmdPacket_GetDeviceIoCapabilities; } QByteArray getGapCmdPacket_SetScanParameters() { return cmdPacket_SetScanParameters; } QByteArray getGapCmdPacket_GetScanParameters() { return cmdPacket_GetScanParameters; } QByteArray getGapCmdPacket_SetConnectionParameters() { return cmdPacket_SetConnectionParameters; } QByteArray getGapCmdPacket_GetConnectionParameters() { return cmdPacket_GetConnectionParameters; } QByteArray getGapCmdPacket_SetLocalDeviceSecurity() { return cmdPacket_SetLocalDeviceSecurity; } QByteArray getGapCmdPacket_GetLocalDeviceSecurity() { return cmdPacket_GetLocalDeviceSecurity; } QByteArray getGapCmdPacket_GetBleDevicePublicAddress() { return cmdPacket_GetBleDevicePublicAddress; } QByteArray getGapCmdPacket_GetBleDeviceRandomAddress() { return cmdPacket_GetBleDeviceRandomAddress; } QByteArray getGapCmdPacket_SetBleDevicePublicAddress() { return cmdPacket_SetBleDevicePublicAddress; } QByteArray getGapCmdPacket_SetBleDeviceRandomAddress() { return cmdPacket_SetBleDeviceRandomAddress; } QByteArray getGapCmdPacket_GetBondedDevicesList() { return cmdPacket_GetBondedDevicesList; } QByteArray getGapCmdPacket_GetWhiteList() { return cmdPacket_GetWhiteList; } QByteArray getGapCmdPacket_StartScan() { return cmdPacket_StartScan; } QByteArray getGapCmdPacket_StopScan() { return cmdPacket_StopScan; } //**************************** Gap: Connect Section ******************************************************* QByteArray getGapCmdPacket_ResolveAndSetPeerAddr() { return cmdPacket_ResolveAndSetPeerAddr; } QByteArray getGapCmdPacket_EstablishConnection() { return cmdPacket_EstablishConnection; } QByteArray getGapCmdPacket_UpdateConnectionParamResp_Header() { return cmdPacket_UpdateConnectionParamResp_Header; } QByteArray getGapCmdPacket_TerminateConnection() { return cmdPacket_TerminateConnection; } // Get Gatt Command Packet //*********************************** Gatt ******************************************************* QByteArray getGattCmdPacket_ExchangeGatt_MTU_Size_Header() { return cmdPacket_ExchangeGatt_MTU_Size_Header; } QByteArray getGattCmdPacket_ExchangeGatt_MTU_Size_SetMTU() { return cmdPacket_ExchangeGatt_MTU_Size_SetMTU; } QByteArray getGattCmdPacket_ReadUsingCharacteristicUuid_Header() { return cmdPacket_ReadUsingCharacteristicUuid_Header; } QByteArray getGattCmdPacket_ReadUsingCharacteristicUuid_TypeValueHandleRange() { return cmdPacket_ReadUsingCharacteristicUuid_TypeValueHandleRange; } QByteArray getGattCmdPacket_DiscoverAllPrimaryServices() { return cmdPacket_DiscoverAllPrimaryServices; } QByteArray getGattCmdPacket_FindIncludedServices_Header() { return cmdPacket_FindIncludedServices_Header; } QByteArray getGattCmdPacket_DiscoverAllCharacteristics_Header() { return cmdPacket_DiscoverAllCharacteristics_Header; } QByteArray getGattCmdPacket_DiscoverAllCharacterDescriptors_Header() { return cmdPacket_DiscoverAllCharacterDescriptors_Header; } QByteArray getGattCmdPacket_WriteCharacteristicDescriptor_Header() { return cmdPacket_WriteCharacteristicDescriptor_Header; } QByteArray getGattCmdPacket_WriteCharacteristicDescriptor_MotionServiceHandle() { return cmdPacket_WriteCharacteristicDescriptor_MotionServiceHandle; } QByteArray getGattCmdPacket_WriteCharacteristicDescriptor_ImageBurstServiceHandle() { return cmdPacket_WriteCharacteristicDescriptor_ImageBurstServiceHandle; } QByteArray getGattCmdPacket_WriteCharacteristicDescriptor_ServiceActive() { return cmdPacket_WriteCharacteristicDescriptor_ServiceActive; } QByteArray getGattCmdPacket_WriteCharacteristicDescriptor_ServiceStop() { return cmdPacket_WriteCharacteristicDescriptor_ServiceStop; } QByteArray getReversedHexStringFromUnSignedRaw(QByteArray rawUnsignedData); private: QByteArray cmdPacketHeader; // General Command Packet QByteArray cmdPacket_DeviceID, cmdPacket_InitBleStack, cmdPacket_GetBleStackVersion, cmdPacket_GetRSSI; // Gap Command Packet //******************************** Gap: Scan Section ******************************************************* QByteArray cmdPacket_SetDeviceIoCapabilities, cmdPacket_GetDeviceIoCapabilities; QByteArray cmdPacket_GetScanParameters, cmdPacket_SetScanParameters; QByteArray cmdPacket_SetConnectionParameters, cmdPacket_GetConnectionParameters; QByteArray cmdPacket_SetLocalDeviceSecurity, cmdPacket_GetLocalDeviceSecurity; QByteArray cmdPacket_GetBleDevicePublicAddress, cmdPacket_GetBleDeviceRandomAddress; QByteArray cmdPacket_SetBleDevicePublicAddress, cmdPacket_SetBleDeviceRandomAddress; QByteArray cmdPacket_GetWhiteList, cmdPacket_GetBondedDevicesList; QByteArray cmdPacket_UpdateConnectionParamResp_Header, cmdPacket_TerminateConnection; QByteArray cmdPacket_StartScan, cmdPacket_StopScan; //******************************** Gap: Connect Section ******************************************************* QByteArray cmdPacket_ResolveAndSetPeerAddr, cmdPacket_EstablishConnection; // Gatt Command Packet QByteArray cmdPacket_ExchangeGatt_MTU_Size_Header, cmdPacket_ExchangeGatt_MTU_Size_SetMTU; QByteArray cmdPacket_ReadUsingCharacteristicUuid_Header, cmdPacket_ReadUsingCharacteristicUuid_TypeValueHandleRange; QByteArray cmdPacket_DiscoverAllPrimaryServices, cmdPacket_FindIncludedServices_Header; QByteArray cmdPacket_DiscoverAllCharacteristics_Header, cmdPacket_DiscoverAllCharacterDescriptors_Header; QByteArray cmdPacket_WriteCharacteristicDescriptor_Header, cmdPacket_WriteCharacteristicDescriptor_MotionServiceHandle; QByteArray cmdPacket_WriteCharacteristicDescriptor_ImageBurstServiceHandle; QByteArray cmdPacket_WriteCharacteristicDescriptor_ServiceActive, cmdPacket_WriteCharacteristicDescriptor_ServiceStop; // QByteArray ushort headerArray[HEADERS_TOTAL_NUM]; ushort generalCmdOpCodeArray[GENERAL_CMD_OPCODE_TOTAL_NUM]; QString generalCmdStringArray[GENERAL_CMD_OPCODE_TOTAL_NUM]; ushort gapCmdOpCodeArray[GAP_CMD_OPCODE_TOTAL_NUM]; QString gapCmdStringArray[GAP_CMD_OPCODE_TOTAL_NUM]; ushort gattCmdOpCodeArray[GATT_CMD_OPCODE_TOTAL_NUM]; QString gattCmdStringArray[GATT_CMD_OPCODE_TOTAL_NUM]; ushort L2CAP_CmdOpCodeArray[L2CAP_CMD_OPCODE_TOTAL_NUM]; QString L2CAP_CmdStringArray[L2CAP_CMD_OPCODE_TOTAL_NUM]; QString statusStringArray[STATUS_TOTAL_NUM];//CYBLE_API_RESULT_T, Protocol.h void serialBleInfoGroupHardWrie(); void eventStatusResponseMapInitial(); void headerArrayInitial(); void cmdOpCodeInitial(); void statusInitial(); void generalMapCmdPacketsInitial(); void gapMapCmdPacketsInitial(); void gattMapCmdPacketsInitial(); void L2CAP_MapCmdPacketsInitial(); SerialInfoGroup defaultSettingsInfo, firstSerialInfo, secondSerialInfo; signals: public slots: }; typedef enum { /** Connectable undirected advertising */ CYBLE_GAPC_CONN_UNDIRECTED_ADV = 0x00, /** Connectable directed advertising */ CYBLE_GAPC_CONN_DIRECTED_ADV = 0x01, /** Scannable undirected advertising */ CYBLE_GAPC_SCAN_UNDIRECTED_ADV = 0x02, /** Non connectable undirected advertising */ CYBLE_GAPC_NON_CONN_UNDIRECTED_ADV = 0x03, /** Scan Response*/ CYBLE_GAPC_SCAN_RSP = 0x04, }CYBLE_GAPC_ADV_EVENT_T; /** Advertisement report received by GAP Central */ typedef struct { uchar eventType; /** bd address type of the device advertising. - CYBLE_GAP_ADDR_TYPE_PUBLIC (Public device address) - CYBLE_GAP_ADDR_TYPE_RANDOM (Random device address) */ uchar peerAddrType; /** Public Device Address or Random Device Address for each device which responded to scanning. */ uchar peerBdAddr[CYBLE_GAP_BD_ADDR_SIZE]; /** length of the data for each device that responded to scanning */ uchar dataLen; /** Pointer to advertising or scan response data */ uchar* data; /** Rssi of the responding device. * Range: -85 <= N <= 0 * Units: dBm */ char rssi; }CYBLE_GAPC_ADV_REPORT_T; /** GATT Attribute Handle Range type */ typedef struct { /** Start Handle */ ushort startHandle; /** End Handle */ ushort endHandle; }CYBLE_GATT_ATTR_HANDLE_RANGE_T; typedef struct { ushort descriptorHandle; ushort descriptorUuid; QByteArray descriptorValue; bool descriptorUuid_128; uint descriptorUuid128_first32; uint descriptorUuid128_32To64; uint descriptorUuid128_64To96; uint descriptorUuid128_96To128; }SenBLE_valueDescriptor_INFO_T; typedef struct { ushort attHandle;//(characteristic declaration ID)only one attribute in one service ushort characterValueHandle; ushort characterValueUuid; QByteArray characterValue; uchar characterProperties; SenBLE_valueDescriptor_INFO_T valueDescriptorsList[Sen_Max_Descriptors_Number];//Add initial Array num if exception error occurs int valueDescriptorsCount; bool characterValueUuid_128; uint charaValueUuid128_first32; uint charaValueUuid128_32To64; uint charaValueUuid128_64To96; uint charaValueUuid128_96To128; }SenBLE_DISC_Characteristic_INFO_T; /** Service data received with read by group type response during discovery process */ typedef struct { CYBLE_GATT_ATTR_HANDLE_RANGE_T range; ushort uuid;//(Service Declaration) SenBLE_DISC_Characteristic_INFO_T charactersList[Sen_Max_Characteristics_Number];//Add initial Array num if exception error occurs int charactersCount; int descriptorsTotalCount; bool uuid128; uint uuid128_first32; uint uuid128_32To64; uint uuid128_64To96; uint uuid128_96To128; }CYBLE_DISC_SRVC_INFO_T; /** Data Element for Group Response */ typedef struct { /** atribute handle value pair */ uchar * attrValue; /** Length of each Attribute Data Element including the Handle Range */ ushort length; /** Total Length of Attribute Data */ ushort attrLen; }CYBLE_GATTC_GRP_ATTR_DATA_LIST_T; typedef struct { /** Identifies the peer device(s) bonded or in current connection. Stack supports CYBLE_GAP_MAX_BONDED_DEVICE+1 devices. first device connected is assinged value CYBLE_GAP_MAX_BONDED_DEVICE. If previous device is bonded then current device will be assigned value CYBLE_GAP_MAX_BONDED_DEVICE-1, else CYBLE_GAP_MAX_BONDED_DEVICE. */ uchar bdHandle; /** Identifies the ATT Instance. Current implementation supports only one att instance (0) due to availability of only on fixed channel for att. This parameter is introduced as part of connection handle to keep the interface unchanged event if new Bluetooth spect defines more fixed channels for ATT payload. */ uchar attId; uchar MTU_Low; uchar MTU_High; }CYBLE_CONN_HANDLE_T; // Cmd Num need to be cosistant with Cmd & Mask for decoding Cmd from cmdArray typedef enum { Cmd_Get_Device_Id_Api = 0, Cmd_Get_Supported_Tool_Ver_Api = 1, Cmd_Get_Firmware_Version_Api = 2, Cmd_Get_Supported_Gap_Roles_Api = 3, Cmd_Get_Current_Gap_Role_Api = 4, Cmd_Get_Supported_Gatt_Roles_Api = 5, Cmd_Get_Current_Gatt_Role_Api = 6, Cmd_Init_Ble_Stack_Api = 7, Cmd_Tool_Disconnected_Api = 8, Cmd_Host_Timed_Out_Api = 9, Cmd_Get_Device_Descriptor_Info = 10, Cmd_Get_Hardware_Version_Api = 11, Cmd_Get_Ble_Stack_Version_Api = 12, Cmd_Get_Rssi_Api = 13, }GeneralCommands_API; typedef enum { Cmd_Set_Device_Io_Capabilities_Api = 0, Cmd_Get_Device_Io_Capabilities_Api = 1, Cmd_Get_Bluetooth_Device_Address_Api = 2, Cmd_Set_Bluetooth_Device_Address_Api = 3, Cmd_Get_Peer_Bluetooth_Device_Address_Api = 4, Cmd_Get_Peer_Device_Handle_Api = 5, Cmd_GenerateBd_Addr_Api = 6, Cmd_Set_Oob_Data_Api = 7, Cmd_Get_Connection_Parameters_Api = 8, Cmd_Set_Connection_Parameters_Api = 9, Cmd_Get_Scan_Parameters_Api = 10, Cmd_Set_Scan_Parameters_Api = 11, Cmd_Get_Local_Device_Security_Api = 12, Cmd_Set_Local_Device_Security_Api = 13, Cmd_Get_Peer_Device_Security_Api = 14, Cmd_Get_White_List_Api = 15, Cmd_Add_Device_To_White_List_Api = 16, Cmd_Remove_Device_From_White_List_Api = 17, Cmd_Clear_White_List_Api = 18, Cmd_Start_Scan_Api = 19, Cmd_Stop_Scan_Api = 20, Cmd_Generate_Keys_Api = 21, Cmd_Set_Authentication_Keys_Api = 22, Cmd_Establish_Connection_Api = 23, Cmd_Terminate_Connection_Api = 24, Cmd_Initiate_Pairing_Request_Api = 25, Cmd_Delete_Pairing_Info_Api = 26, Cmd_Pairing_PassKey_Api = 27, Cmd_Update_Connection_Params_Api = 28, Cmd_Cancle_Connection_Api = 29, Cmd_Get_Bonded_Devices_List_Api = 30, Cmd_UpdateConnectionParam_Resp_Api = 31, Cmd_Get_PeerDevice_SecurityKeys_Api = 32, Cmd_Resolve_Set_Peer_Addr_Api = 33 }GapCommands_API; typedef enum { Cmd_Discover_All_Primary_Services_Api = 0, Cmd_Discover_Primary_Services_By_Uuid_Api = 1, Cmd_Find_Included_Services_Api = 2, Cmd_Discover_All_Characteristics_Api = 3, Cmd_Discover_Characteristics_By_Uuid_Api = 4, Cmd_Discover_All_Characteristic_Descriptors_Api = 5, Cmd_Read_Characteristic_Value_Api = 6, Cmd_Read_Using_Characteristic_Uuid_Api = 7, Cmd_Read_Long_Characteristic_Values_Api = 8, Cmd_Read_Multiple_Characteristic_Values_Api = 9, Cmd_Characteristic_Value_Write_Without_Response_Api = 10, Cmd_Write_Characteristic_Value_Api = 11, Cmd_Write_Long_Characteristic_Value_Api = 12, Cmd_Reliable_Characteristic_Value_Writes_Api = 13, Cmd_Read_Characteristic_Descriptor_Api = 14, Cmd_Read_Long_Characteristic_Descriptor_Api = 15, Cmd_Write_Characteristic_Descriptor_Api = 16, Cmd_Write_Long_Characteristic_Descriptor_Api = 17, Cmd_Exchange_GATT_MTU_Size_Api = 18, Cmd_GATT_Stop_Api = 19, Cmd_Signed_Write_Without_Response_Api = 20 }GattCommands_API; typedef enum { Cmd_Register_PSM_Api = 0, Cmd_Unregister_PSM_Api = 1, Cmd_CBFC_SendConnectionReq_Api = 2, Cmd_CBFC_SendConnectionResp_Api = 3, Cmd_CBFC_SendFlowControlCredit_Api = 4, Cmd_CBFC_SendData_Api = 5, Cmd_CBFC_SendDisconnectReq_Api = 6 }L2CAP_Commands_API; /** Common error codes received as API result */ typedef enum { /** No Error occurred */ CYBLE_ERROR_OK = 0, /** At least one of the input parameters is invalid */ CYBLE_ERROR_INVALID_PARAMETER = 1, /** Operation is not permitted */ CYBLE_ERROR_INVALID_OPERATION = 2, /** An internal error occurred in the stack */ CYBLE_ERROR_MEMORY_ALLOCATION_FAILED = 3, /** Insufficient resources to perform requested operation */ CYBLE_ERROR_INSUFFICIENT_RESOURCES = 4, /** OOB data not available */ CYBLE_ERROR_OOB_NOT_AVAILABLE = 5, /** Connection is required to perform requested operation. Connection not present */ CYBLE_ERROR_NO_CONNECTION = 6, /** No device entity to perform requested operation */ CYBLE_ERROR_NO_DEVICE_ENTITY = 7, /** Attempted repeat operation is not allowed */ CYBLE_ERROR_REPEATED_ATTEMPTS = 8, /** GAP role is incorrect */ CYBLE_ERROR_GAP_ROLE = 9, /** Error reading TC power */ CYBLE_ERROR_TX_POWER_READ = 10, /** BLE Initialization failed */ CYBLE_ERROR_BT_ON_NOT_COMPLETED = 11, /** Security operation failed */ CYBLE_ERROR_SEC_FAILED = 12, /******************************** L2CAP error codes ********************************/ /** L2CAP PSM encoding is incorrect */ CYBLE_ERROR_L2CAP_PSM_WRONG_ENCODING = 13, /** L2CAP PSM has already been registered */ CYBLE_ERROR_L2CAP_PSM_ALREADY_REGISTERED = 14, /** L2CAP PSM has not been registered */ CYBLE_ERROR_L2CAP_PSM_NOT_REGISTERED = 15, /** L2CAPconnection entity not found */ CYBLE_ERROR_L2CAP_CONNECTION_ENTITY_NOT_FOUND = 16, /** L2CAP channel not found */ CYBLE_ERROR_L2CAP_CHANNEL_NOT_FOUND = 17, /** Specified PSM is out of range */ CYBLE_ERROR_L2CAP_PSM_NOT_IN_RANGE = 18, /**GATT DB error codes*/ /** Invalid attribute handle */ CYBLE_ERROR_GATT_DB_INVALID_ATTR_HANDLE = 19, /****************************** Other Codes. ***********************************/ /** Device cannot be added to whitelist as it has already been added */ CYBLE_ERROR_DEVICE_ALREADY_EXISTS = 39, //0x27u, /** Write to flash is not permitted */ CYBLE_ERROR_FLASH_WRITE_NOT_PERMITED = 40, //0x28u, /** MIC Authentication failure */ CYBLE_ERROR_MIC_AUTH_FAILED = 41, //0x29u, /** All other errors not covered in the above list map to this error code */ CYBLE_ERROR_MAX = 255, //0xFFu, }CYBLE_API_RESULT_T; /* CySmart Event opcodes as per protocol */ typedef enum { General_Events = 0x04, L2CAP_Events = 0x05, GATT_GAP_Events = 0x06 }Event_Types; typedef enum { General_Commands = 0x00, L2CAP_Commands = 0x01, GATT_GAP_Commands = 0x02 }Command_Group_Types; typedef enum { EVT_COMMAND_STATUS = 0x047E, EVT_COMMAND_COMPLETE = 0x047F, EVT_GET_DEVICE_ID_RESPONSE = 0x0400, EVT_GET_SUPPORTED_TOOL_VERSION_RESPONSE = 0x0401, EVT_GET_FIRMWARE_VERSION_RESPONSE = 0x0402, EVT_GET_BLE_STACK_VERSION_RESPONSE = 0x0403, EVT_REPORT_STACK_MISC_STATUS = 0x0404, EVT_GET_SUPPORTED_GAP_ROLES_RESPONSE = 0x0405, EVT_GET_CURRENT_GAP_ROLE_RESPONSE = 0x0406, EVT_GET_SUPPORTED_GATT_ROLES_RESPONSE = 0x0407, EVT_GET_CURRENT_GATT_ROLE_RESPONSE = 0x0408, EVT_GET_RSSI_RESPONSE = 0x0409, EVT_GET_DEVICE_DESCRIPTION_RESPONSE = 0x040A, EVT_GET_HARDWARE_VERSION_RESPONSE = 0x040B, Total_Other_GeneralEvents_Num = 0x0C }GeneralEventsTypes; typedef enum { /* GAP Events */ EVT_GET_DEVICE_IO_CAPABILITIES_RESPONSE = 0x0680, EVT_GET_BLUETOOTH_DEVICE_ADDRESS_RESPONSE = 0x0681, EVT_GET_PEER_BLUETOOTH_DEVICE_ADDRESS_RESPONSE = 0x0682, EVT_GET_PEER_DEVICE_HANDLE_RESPONSE = 0x0683, EVT_CURRENT_CONNECTION_PARAMETERS_NOTIFICATION = 0x0684, EVT_GET_CONNECTION_PARAMETERS_RESPONSE = 0x0685, EVT_GET_SCAN_PARAMETERS_RESPONSE = 0x0686, EVT_GET_LOCAL_DEVICE_SECURITY_RESPONSE = 0x0687, EVT_GET_PEER_DEVICE_SECURITY_RESPONSE = 0x0688, EVT_GET_WHITE_LIST_RESPONSE = 0x0689, EVT_SCAN_PROGRESS_RESULT = 0x068A, EVT_GENERATE_BD_ADDR_RESPONSE = 0x068B, EVT_GENERATE_KEYS_RESPONSE = 0x068C, EVT_PASSKEY_ENTRY_REQUEST = 0x068D, EVT_PASSKEY_DISPLAY_REQUEST = 0x068E, EVT_ESTABLISH_CONNECTION_RESPONSE = 0x068F, EVT_CONNECTION_TERMINATED_NOTIFICATION = 0x0690, EVT_SCAN_STOPPED_NOTIFICATION = 0x0691, EVT_PAIRING_REQUEST_RECEIVED_NOTIFICATION = 0x0692, EVT_AUTHENTICATION_ERROR_NOTIFICATION = 0x0693, EVT_CONNECTION_CANCELLED_NOTIFICATION = 0x0694, EVT_GET_BONDED_DEVICES_LIST_RESPONSE = 0x0695, EVT_UPDATE_CONNECTION_PARAMETERS_NOTIFICATION = 0x0696, EVT_GET_PEER_DEVICE_SECURITY_KEYS_RESPONSE = 0x0697, EVT_RESOLVE_AND_SET_PEER_BD_ADDRESS_RESPONSE = 0x0698, }GapEventsTypes; typedef enum { /* GATT Events */ EVT_DISCOVER_ALL_PRIMARY_SERVICES_RESULT_PROGRESS = 0x0600, EVT_DISCOVER_PRIMARY_SERVICES_BY_UUID_RESULT_PROGRESS = 0x0601, EVT_FIND_INDLUDED_SERVICES_RESULT_PROGRESS = 0x0602, EVT_DISCOVER_ALL_CHARACTERISTICS_RESULT_PROGRESS = 0x0603, EVT_DISCOVER_CHARACTERISTICS_BY_UUID_RESULT_PROGRESS = 0x0604, EVT_DISCOVER_ALL_CHARACTERISTIC_DESCRIPTORS_RESULT_PROGRESS = 0x0605, EVT_READ_CHARACTERISTIC_VALUE_RESPONSE = 0x0606, EVT_READ_USING_CHARACTERISTIC_UUID_RESPONSE = 0x0607, EVT_READ_LONG_CHARACTERISTIC_VALUE_RESPONSE = 0x0608, EVT_READ_MULTIPLE_CHARACTERISTIC_VALUES_RESPONSE = 0x0609, EVT_READ_CHARACTERISTIC_DESCRIPTOR_RESPONSE = 0x060A, EVT_READ_LONG_CHARACTERISTIC_DESCRIPTOR_RESPONSE = 0x060B, EVT_CHARACTERISTIC_VALUE_NOTIFICATION = 0x060C, EVT_CHARACTERISTIC_VALUE_INDICATION = 0x060D, EVT_GATT_ERROR_NOTIFICATION = 0x060E, EVT_EXCHANGE_GATT_MTU_SIZE_RESPONSE = 0x060F, EVT_GATT_STOP_NOTIFICATION = 0x0610, EVT_GATT_TIMEOUT_NOTIFICATION = 0x0611, }GattEventsTypes; typedef enum { /* L2CAP Events */ EVT_CBFC_CONNECTION_INDICATION = 0x0500, EVT_CBFC_CONNECTION_CONFIRMATION = 0x0501, EVT_CBFC_DISCONNECT_INDICATION = 0x0502, EVT_CBFC_DISCONNECT_CONFIRMATION = 0x0503, EVT_CBFC_DATA_RECEIVIED_NOTIFICATION = 0x0504, EVT_CBFC_RX_CREDIT_INDICATION = 0x0505, EVT_CBFC_TX_CREDIT_INDICATION = 0x0506, EVT_CBFC_DATA_WRITE_INDICATION = 0x0507 }L2CAP_EventsTypes; #endif // SENBLEDONGLETALKFUNDAMENTALS_H

49.616

165

0.618091

83dce6fda49f4ec5bb1e3998a9fcf92f9151766e

24,515

c

C

example/template/demo/usbd_demo/usbd_demo_uac.c

oussemanaffetyy/vsf

95a97822fbc1665157609d40edf83c4157a4746d

[ "Apache-2.0" ]

1

2022-01-04T08:06:04.000Z

example/template/demo/usbd_demo/usbd_demo_uac.c

oussemanaffetyy/vsf

95a97822fbc1665157609d40edf83c4157a4746d

[ "Apache-2.0" ]

2

2021-12-29T10:46:18.000Z

2021-12-29T10:53:47.000Z

example/template/demo/usbd_demo/usbd_demo_uac.c

oussemanaffetyy/vsf

95a97822fbc1665157609d40edf83c4157a4746d

[ "Apache-2.0" ]

1

2021-08-23T10:11:47.000Z

/***************************************************************************** * Copyright(C)2009-2022 by VSF Team * * * * Licensed under the Apache License, Version 2.0 (the "License"); * * you may not use this file except in compliance with the License. * * You may obtain a copy of the License at * * * * http://www.apache.org/licenses/LICENSE-2.0 * * * * Unless required by applicable law or agreed to in writing, software * * distributed under the License is distributed on an "AS IS" BASIS, * * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * * See the License for the specific language governing permissions and * * limitations under the License. * * * ****************************************************************************/ /*============================ INCLUDES ======================================*/ #define __VSF_SIMPLE_STREAM_CLASS_INHERIT__ #include "vsf.h" #if VSF_USE_USB_DEVICE == ENABLED && APP_USE_USBD_DEMO == ENABLED && APP_USE_USBD_UAC_DEMO == ENABLED #include "../common/usrapp_common.h" /*============================ MACROS ========================================*/ #ifndef USRAPP_CFG_USBD_SPEED # define USRAPP_CFG_USBD_SPEED USB_SPEED_HIGH #endif #if USRAPP_CFG_USBD_SPEED == USB_SPEED_HIGH #warning ******** high speed usb will require UAC2, current UAC1 demo will not work on all hosts ******** //! interval(iso ep) for high speed is (2 exp (interval - 1)) micro-frames / 125 microseconds # define __USRAPP_USBD_UAC_CFG_EP_INTERVAL 4 #elif USRAPP_CFG_USBD_SPEED == USB_SPEED_FULL //! interval(iso ep) for full speed is number of frames / millisecond # define __USRAPP_USBD_UAC_CFG_EP_INTERVAL 1 #else # error TODO: add support to current USB speed #endif /*============================ MACROFIED FUNCTIONS ===========================*/ /*============================ TYPES =========================================*/ typedef struct usbd_uac_const_t { struct { uint8_t dev_desc[18]; uint8_t config_desc[193]; uint8_t str_lanid[4]; uint8_t str_vendor[20]; uint8_t str_product[14]; vk_usbd_desc_t std_desc[5]; struct { struct { vk_usbd_uac_control_info_t control_info[2]; } line_out; struct { vk_usbd_uac_control_info_t control_info[2]; } line_in; } uac; } usbd; } usbd_uac_const_t; typedef struct usbd_uac_t { struct { struct { struct { vk_usbd_uac_control_t control[2]; } line_out; struct { vk_usbd_uac_control_t control[2]; } line_in; vk_usbd_uac_entity_t entity[6]; // param followed by streams vk_usbd_uac_ac_t ac_param; vk_usbd_uac_as_t as_param[2]; } uac; vk_usbd_ifs_t ifs[3]; vk_usbd_cfg_t config[1]; vk_usbd_dev_t dev; } usbd; } usbd_uac_t; /*============================ GLOBAL VARIABLES ==============================*/ /*============================ LOCAL VARIABLES ===============================*/ describe_mem_stream(__user_usbd_uac_rx_stream, 192) describe_mem_stream(__user_usbd_uac_tx_stream, 96) static const usbd_uac_const_t __user_usbd_uac_const = { .usbd = { .dev_desc = { USB_DT_DEVICE_SIZE, USB_DT_DEVICE, USB_DESC_WORD(0x0200), // bcdUSB 0x00, // device class: 0x00, // device sub class 0x00, // device protocol 64, // max packet size USB_DESC_WORD(APP_CFG_USBD_VID), // vendor USB_DESC_WORD(APP_CFG_USBD_PID), // product USB_DESC_WORD(0x0100), // bcdDevice 1, // manu facturer 2, // product 0, // serial number 1, // number of configuration }, .config_desc = { USB_DT_CONFIG_SIZE, USB_DT_CONFIG, USB_DESC_WORD(sizeof(__user_usbd_uac_const.usbd.config_desc)), // wTotalLength 0x03, // bNumInterfaces: 3 interfaces 0x01, // bConfigurationValue: Configuration value 0x00, // iConfiguration: Index of string descriptor describing the configuration 0x80, // bmAttributes: bus powered 0xFA, // MaxPower USB_DT_INTERFACE_SIZE, USB_DT_INTERFACE, 0x00, // bInterfaceNumber: Number of Interface 0x00, // bAlternateSetting: Alternate setting 0, // bNumEndpoints 0x01, // bInterfaceClass: CC_AUDIO 0x01, // bInterfaceSubClass: AUDIO_CONTROL 0x00, // nInterfaceProtocol 0x00, // iInterface: // Class-specific AC Interface Descriptor 10, // bLength: Endpoint Descriptor size 0x24, // bDescriptorType: CS_INTERFACE 0x01, // bDescriptorSubtype: AC_HEADER USB_DESC_WORD(0x0100), // bcdADC: 1.0 USB_DESC_WORD(71), // wTotalLength 2, // bInCollection: 2 streams 0x01, // baInterfaceNr[1]: interface 1 0x02, // baInterfaceNr[2]: interface 2 /* IT1(USB, 2CH) --> FU2(Mute/Volume) --> OT3(Speaker) IT4(Headset, 1CH) --> FU5(Mute/Volume) --> OT6(USB) */ // Input Terminal Descriptor 12, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x02, // bDescriptorSubtype: AC_INPUT_TERMINAL 1, // bTerminalID USB_DESC_WORD(USB_UAC_UTT_STREAMING), // wTerminalType: USB streaming 0, // bAssocTerminal 0x02, // bNrChannels USB_DESC_WORD(0x0003), // wChannelConfig: left + right 0, // iChannelNames 0, // iTerminal // Feature Unit Descriptor 10, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x06, // bDescriptorSubtype: AC_FEATURE_UNIT 2, // bUnitID 1, // bSourceID 1, // bControlSize 0x03, // bmaControls[0]: Mute + Volume 0x00, // bmaControls[1] 0x00, // bmaControls[2] 0x00, // iFeature // Output Terminal Descriptor 9, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x03, // bDescriptorSubType: AC_OUTPUT_TERMINAL 3, // bTerminalID USB_DESC_WORD(USB_UAC_OTT_SPEAKER), // wTerminalType: Speakers 4, // bAssocTerminal 2, // bSourceID 0, // iTerminal // Intput Terminal Descriptor 12, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x02, // bDescriptorSubtype: AC_INPUT_TERMINAL 4, // bTerminalID USB_DESC_WORD(USB_UAC_BTT_HEADSET), // wTerminalType: Headset 3, // bAssocTerminal 1, // bNrChannels USB_DESC_WORD(0x0001), // wChannelConfig: left 0, // iChannelNames 0, // iTerminal // Feature Unit Descriptor 9, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x06, // bDescriptorSubtype: AC_FEATURE_UNIT 5, // bUnitID 4, // bSourceID 1, // bControlSize 0x03, // bmaControls[0]: Mute + Volume 0x00, // bmaControls[1] 0x00, // iFeature // Output Terminal Descriptor 9, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x03, // bDescriptorSubType: AC_OUTPUT_TERMINAL 6, // bTerminalID USB_DESC_WORD(USB_UAC_UTT_STREAMING), // wTerminalType: USB streaming 1, // bAssocTerminal 5, // bSourceID 0, // iTerminal // Standard AS Interrupt Descriptor for 0-bandwidth alt 9, // bLength 0x04, // bDescriptorType: INTERFACE 0x01, // bInterfaceNumber 0x00, // bAlternateSetting 0, // bNumEndpoints 0x01, // bInterfaceClass: CC_AUDIO 0x02, // bInterfaceSubClass: AUDIO_STREAMING 0x00, // bInterfaceProtocol: PC_PROTOCOL_UNDEFINED 0x00, // iInterface // Standard AS Interrupt Descriptor 9, // bLength 0x04, // bDescriptorType: INTERFACE 0x01, // bInterfaceNumber 0x01, // bAlternateSetting 1, // bNumEndpoints 0x01, // bInterfaceClass: CC_AUDIO 0x02, // bInterfaceSubClass: AUDIO_STREAMING 0x00, // bInterfaceProtocol: PC_PROTOCOL_UNDEFINED 0x00, // iInterface // Class-specific AS General Descriptor 7, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x01, // bDescriptorSubType: AS_GENERAL 1, // bTerminalLink 1, // bDelay USB_DESC_WORD(USB_UAC_FORMAT_PCM), // wFormatTag: PCM // Class-specific AS Format Type Descriptor 11, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x02, // bDescriptorSubType: AS_FORMAT_TYPE 0x01, // bFormatType: FORMAT_TYPE_I 2, // bNrChannels 2, // bSubframeSize 16, // bBitResolution 0x01, // bSamFreqType 0x80, 0xBB, 0x00, // tSamFreq[1]: 48K // Standard Audio Endpoint Descriptor USB_DT_ENDPOINT_AUDIO_SIZE, // bLength USB_DT_ENDPOINT, // bDescriptorType 0x01, // bEndpointAddress: OUT1 0x01, // bmAttributes USB_DESC_WORD(192), // wMaxPacketSize __USRAPP_USBD_UAC_CFG_EP_INTERVAL, // bInterval 0, // bRefresh 0, // bSynchAddress // Class-specific Endpoint Descriptor 7, // bLength 0x25, // bDescriptorType: CS_ENDPOINT 0x01, // bDescriptorSubType: AUDIO_EP_GENERAL 0x80, // bmAttributes: MaxPacketsOnly 0, // bLockDelayUnits USB_DESC_WORD(0), // wLockDelay // Standard AS Interrupt Descriptor for 0-bandwidth alt 9, // bLength 0x04, // bDescriptorType: INTERFACE 0x02, // bInterfaceNumber 0x00, // bAlternateSetting 0, // bNumEndpoints 0x01, // bInterfaceClass: CC_AUDIO 0x02, // bInterfaceSubClass: AUDIO_STREAMING 0x00, // bInterfaceProtocol: PC_PROTOCOL_UNDEFINED 0x00, // iInterface // Standard AS Interrupt Descriptor 9, // bLength 0x04, // bDescriptorType: INTERFACE 0x02, // bInterfaceNumber 0x01, // bAlternateSetting 1, // bNumEndpoints 0x01, // bInterfaceClass: CC_AUDIO 0x02, // bInterfaceSubClass: AUDIO_STREAMING 0x00, // bInterfaceProtocol: PC_PROTOCOL_UNDEFINED 0x00, // iInterface // Class-specific AS General Descriptor 7, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x01, // bDescriptorSubType: AS_GENERAL 6, // bTerminalLink 1, // bDelay USB_DESC_WORD(USB_UAC_FORMAT_PCM), // wFormatTag: PCM // Class-specific AS Format Type Descriptor 11, // bLength 0x24, // bDescriptorType: CS_INTERFACE 0x02, // bDescriptorSubType: AS_FORMAT_TYPE 0x01, // bFormatType: FORMAT_TYPE_I 1, // bNrChannels 2, // bSubframeSize 16, // bBitResolution 0x01, // bSamFreqType 0x80, 0xBB, 0x00, // tSamFreq[1]: 48K // Standard Audio Endpoint Descriptor USB_DT_ENDPOINT_AUDIO_SIZE, // bLength USB_DT_ENDPOINT, // bDescriptorType 0x82, // bEndpointAddress: IN2 0x01, // bmAttributes USB_DESC_WORD(96), // wMaxPacketSize __USRAPP_USBD_UAC_CFG_EP_INTERVAL, // bInterval 0, // bRefresh 0, // bSynchAddress // Class-specific Endpoint Descriptor 7, // bLength 0x25, // bDescriptorType: CS_ENDPOINT 0x01, // bDescriptorSubType: AUDIO_EP_GENERAL 0x80, // bmAttributes: MaxPacketsOnly 0, // bLockDelayUnits USB_DESC_WORD(0), // wLockDelay }, .str_lanid = { 4, USB_DT_STRING, 0x09, 0x04, }, .str_vendor = { 20, USB_DT_STRING, 'S', 0, 'i', 0, 'm', 0, 'o', 0, 'n', 0, 'Q', 0, 'i', 0, 'a', 0, 'n', 0, }, .str_product = { 14, USB_DT_STRING, 'V', 0, 'S', 0, 'F', 0, 'U', 0, 'A', 0, 'C', 0, }, .std_desc = { VSF_USBD_DESC_DEVICE(__user_usbd_uac_const.usbd.dev_desc, sizeof(__user_usbd_uac_const.usbd.dev_desc)), VSF_USBD_DESC_CONFIG(0, __user_usbd_uac_const.usbd.config_desc, sizeof(__user_usbd_uac_const.usbd.config_desc)), VSF_USBD_DESC_STRING(0, 0, __user_usbd_uac_const.usbd.str_lanid, sizeof(__user_usbd_uac_const.usbd.str_lanid)), VSF_USBD_DESC_STRING(0x0409, 1, __user_usbd_uac_const.usbd.str_vendor, sizeof(__user_usbd_uac_const.usbd.str_vendor)), VSF_USBD_DESC_STRING(0x0409, 2, __user_usbd_uac_const.usbd.str_product, sizeof(__user_usbd_uac_const.usbd.str_product)), }, // line in control .uac.line_in = { .control_info = { [0] = { .selector = 0x01, // Mute .channel = 0, .size = 1, }, [1] = { .selector = 0x02, // Volume .size = 2, .res.uval16 = 0x0100, .min.uval16 = 0x9C00, .max.uval16 = 0x0000, }, }, }, .uac.line_out = { .control_info = { [0] = { .selector = 0x01, // Mute .channel = 0, .size = 1, }, [1] = { .selector = 0x02, // Volume .size = 2, .res.uval16 = 0x007A, .min.uval16 = 0x0000, .max.uval16 = 0x3000, }, }, }, }, }; static usbd_uac_t __user_usbd_uac = { .usbd = { .uac.line_in.control = { [0] = { .info = &__user_usbd_uac_const.usbd.uac.line_in.control_info[0], .cur.uval8 = 0x00, }, [1] = { .info = &__user_usbd_uac_const.usbd.uac.line_in.control_info[1], .cur.uval16 = 0x9C00, }, }, .uac.line_out.control = { [0] = { .info = &__user_usbd_uac_const.usbd.uac.line_out.control_info[0], .cur.uval8 = 0x00, }, [1] = { .info = &__user_usbd_uac_const.usbd.uac.line_out.control_info[1], .cur.uval16 = 0x0EE1, }, }, // Input Terminal: USB .uac.entity[0] = { .id = 1, }, // Feature Unit .uac.entity[1] = { .id = 2, .control_num = dimof(__user_usbd_uac.usbd.uac.line_out.control), .control = __user_usbd_uac.usbd.uac.line_out.control, }, // Output Terminal: .uac.entity[2] = { .id = 3, }, // Input Terminal .uac.entity[3] = { .id = 4, }, // Feature Unit .uac.entity[4] = { .id = 5, .control_num = dimof(__user_usbd_uac.usbd.uac.line_in.control), .control = __user_usbd_uac.usbd.uac.line_in.control, }, // Output Terminal: USB .uac.entity[5] = { .id = 6, }, .uac.ac_param = { .stream_num = 2, .entity_num = dimof(__user_usbd_uac.usbd.uac.entity), .entity = __user_usbd_uac.usbd.uac.entity, }, .uac.as_param[0] = { .ep = 0x82, .packet_size = 96, .uac_ac = &__user_usbd_uac.usbd.uac.ac_param, .stream = &__user_usbd_uac_tx_stream.use_as__vsf_stream_t, }, .uac.as_param[1] = { .ep = 0x01, .packet_size = 192, .uac_ac = &__user_usbd_uac.usbd.uac.ac_param, .stream = &__user_usbd_uac_rx_stream.use_as__vsf_stream_t, }, .ifs[0].class_op = &vk_usbd_uac_control_class, .ifs[0].class_param = &__user_usbd_uac.usbd.uac.ac_param, .ifs[1].class_op = &vk_usbd_uac_stream_class, .ifs[1].class_param = &__user_usbd_uac.usbd.uac.as_param[0], .ifs[2].class_op = &vk_usbd_uac_stream_class, .ifs[2].class_param = &__user_usbd_uac.usbd.uac.as_param[1], .config[0].num_of_ifs = dimof(__user_usbd_uac.usbd.ifs), .config[0].ifs = __user_usbd_uac.usbd.ifs, .dev.num_of_config = dimof(__user_usbd_uac.usbd.config), .dev.config = __user_usbd_uac.usbd.config, .dev.num_of_desc = dimof(__user_usbd_uac_const.usbd.std_desc), .dev.desc = (vk_usbd_desc_t *)__user_usbd_uac_const.usbd.std_desc, .dev.speed = USRAPP_CFG_USBD_SPEED, .dev.drv = &VSF_USB_DC0, }, }; /*============================ PROTOTYPES ====================================*/ /*============================ IMPLEMENTATION ================================*/ static void __usrapp_usbd_uac_on_stream(void *param, vsf_stream_evt_t evt) { vsf_stream_t *stream = param; switch (evt) { case VSF_STREAM_ON_TX: vsf_stream_write(stream, NULL, vsf_stream_get_free_size(stream)); break; case VSF_STREAM_ON_RX: vsf_stream_read(stream, NULL, vsf_stream_get_buff_size(stream)); break; } } #if APP_USE_LINUX_DEMO == ENABLED int usbd_uac_main(int argc, char *argv[]) { #else int VSF_USER_ENTRY(void) { # if VSF_USE_TRACE == ENABLED vsf_start_trace(); # if USRAPP_CFG_STDIO_EN == ENABLED vsf_stdio_init(); # endif # endif #endif vsf_stream_t *stream; stream = &__user_usbd_uac_rx_stream.use_as__vsf_stream_t; vsf_stream_init(stream); stream->rx.param = &__user_usbd_uac_rx_stream; stream->rx.evthandler = __usrapp_usbd_uac_on_stream; vsf_stream_connect_rx(stream); stream = &__user_usbd_uac_tx_stream.use_as__vsf_stream_t; vsf_stream_init(stream); stream->tx.param = &__user_usbd_uac_tx_stream; stream->tx.evthandler = __usrapp_usbd_uac_on_stream; vsf_stream_connect_tx(stream); uint8_t *buffer; uint_fast32_t size = vsf_stream_get_wbuf(stream, &buffer); vsf_stream_write(stream, NULL, size); vk_usbd_init(&__user_usbd_uac.usbd.dev); vk_usbd_connect(&__user_usbd_uac.usbd.dev); return 0; } #endif

44.735401

133

0.421375

83df3bdff018e17001aaa5cf7df56c22cca4f8e0

3,110

h

C

Examples/UIKit+PMUtils/Pods/Headers/Public/PMUtils/UIViewController+PMUtils.h

Labgoo/PMUtils

7d78fcd9cf02f1cfd74734857313f03a90de7ef5

[ "MIT" ]

21

2015-01-13T18:20:01.000Z

2021-08-29T16:56:51.000Z

Examples/UIKit+PMUtils/Pods/Headers/Public/PMUtils/UIViewController+PMUtils.h

Labgoo/PMUtils

7d78fcd9cf02f1cfd74734857313f03a90de7ef5

[ "MIT" ]

5

2015-07-16T20:44:17.000Z

2016-12-10T11:51:32.000Z

Examples/UIKit+PMUtils/Pods/Headers/Public/PMUtils/UIViewController+PMUtils.h

Labgoo/PMUtils

7d78fcd9cf02f1cfd74734857313f03a90de7ef5

[ "MIT" ]

20

2015-03-24T09:24:31.000Z

2019-09-06T12:22:47.000Z

// Copyright (c) 2013-2014 Peter Meyers // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // // UIViewController+PMUtils.h // Pods // // Created by Peter Meyers on 9/26/14. // // #import <UIKit/UIKit.h> @interface UIViewController (PMUtils) /** * The default storyboard name is simply the name of the class. Override this method to change the default storyboard name. * * @return The default name of the storyboard, which defaults to the name of the receiver's class. */ + (NSString *) defaultStoryboardName; /** * Creates and returns a storyboard object for the specified storyboard file in the main bundle with the * name from +[UIViewController defaultStoryboardName]. * * @return The initialized UIStoryboard object or nil if there were errors during initialization or the storyboard file could not be located. */ + (UIStoryboard *) defaultStoryboard; /** * Instantiates and returns the initial view controller of [UIViewController defaultStoryboard]. Every storyboard file * must have an initial view controller that represents the starting point for the corresponding user interface. This method * creates a new instance of the reciever each time you call it. * * @return An instance of the initial view controller in the default storyboard file. */ + (instancetype) controllerFromDefaultStoryboard; /** * Pops view controllers from the reciever's navigation controller until the receiver is at the top of the navigation stack. For information on how the navigation bar is updated, see Updating the Navigation Bar. * * @param animate Set this value to YES to animate the transition. Pass NO if you are setting up a navigation controller before its view is displayed. * * @param completion The block to execute after the pop finishes. This block has no return value and takes no parameters. You may specify nil for this parameter. * * @return An array containing the view controllers that were popped from the stack. */ - (NSArray *) popNavigationControllerToSelfAnimated:(BOOL)animate completion:(void (^)(void))completion; @end

45.735294

212

0.763023

83e2557c8d585e4176abe978642cc94e39cb72f8

4,341

h

C

ProjectModellib/JavaModelLib/internal/lookup/IJavaSearchConstants.h

kuafuwang/JCDT

2b009ea887b4816303fed9e6e1dc104a90c67d16

[ "MIT" ]

1

2021-04-17T01:55:27.000Z

ProjectModellib/JavaModelLib/internal/lookup/IJavaSearchConstants.h

kuafuwang/JCDT

2b009ea887b4816303fed9e6e1dc104a90c67d16

[ "MIT" ]

null

ProjectModellib/JavaModelLib/internal/lookup/IJavaSearchConstants.h

kuafuwang/JCDT

2b009ea887b4816303fed9e6e1dc104a90c67d16

[ "MIT" ]

1

2022-02-18T12:02:00.000Z

#ifndef _java_model_INCLUDED_INCLUDED #define _java_model_INCLUDED_INCLUDED namespace Jikes { // Open namespace Jikes block namespace JavaModel{ class IJavaSearchConstants { public: /** * The nature of searched element or the nature * of match in unknown. */ static const int UNKNOWN = -1; /* Nature of searched element */ /** * The searched element is a type. */ static const int TYPE = 0; /** * The searched element is a method. */ static const int METHOD = 1; /** * The searched element is a package. */ static const int PACKAGE = 2; /** * The searched element is a constructor. */ static const int CONSTRUCTOR = 3; /** * The searched element is a field. */ static const int FIELD = 4; /** * The searched element is a class. * More selective than using TYPE */ static const int CLASS = 5; /** * The searched element is an interface. * More selective than using TYPE */ static const int INTERFACE = 6; /* Nature of match */ /** * The search result is a declaration. * Can be used in conjunction with any of the nature of searched elements * so as to better narrow down the search. */ static const int DECLARATIONS = 0; /** * The search result is a type that implements an interface. * Used in conjunction with either TYPE or CLASS or INTERFACE, it will * respectively search for any type implementing/extending an interface, or * rather exclusively search for classes implementing an interface, or interfaces * extending an interface. */ static const int IMPLEMENTORS = 1; /** * The search result is a reference. * Can be used in conjunction with any of the nature of searched elements * so as to better narrow down the search. * References can contain implementers since they are more generic kind * of matches. */ static const int REFERENCES = 2; /** * The search result is a declaration, a reference, or an implementer * of an interface. * Can be used in conjunction with any of the nature of searched elements * so as to better narrow down the search. */ static const int ALL_OCCURRENCES = 3; /** * When searching for field matches, it will exclusively find read accesses, as * opposed to write accesses. Note that some expressions are considered both * as field read/write accesses: e.g. x++; x+= 1; * * @since 2.0 */ static const int READ_ACCESSES = 4; /** * When searching for field matches, it will exclusively find write accesses, as * opposed to read accesses. Note that some expressions are considered both * as field read/write accesses: e.g. x++; x+= 1; * * @since 2.0 */ static const int WRITE_ACCESSES = 5; /* Syntactic match modes */ /** * The search pattern matches exactly the search result, * i.e. the source of the search result equals the search pattern. */ static const int EXACT_MATCH = 0; /** * The search pattern is a prefix of the search result. */ static const int PREFIX_MATCH = 1; /** * The search pattern contains one or more wild cards ('*') where a * wild-card can replace 0 or more characters in the search result. */ static const int PATTERN_MATCH = 2; /* Case sensitivity */ /** * The search pattern matches the search result only * if cases are the same. */ static const bool CASE_SENSITIVE = true; /** * The search pattern ignores cases in the search result. */ static const bool CASE_INSENSITIVE = false; /* Waiting policies */ /** * The search operation starts immediately, even if the underlying indexer * has not finished indexing the workspace. Results will more likely * not contain all the matches. */ //static const int FORCE_IMMEDIATE_SEARCH = IJob.ForceImmediate; /** * The search operation throws an <code>org.eclipse.core.runtime.OperationCanceledException</code> * if the underlying indexer has not finished indexing the workspace. */ // static const int CANCEL_IF_NOT_READY_TO_SEARCH = IJob.CancelIfNotReady; /** * The search operation waits for the underlying indexer to finish indexing * the workspace before starting the search. */ //static const int WAIT_UNTIL_READY_TO_SEARCH = IJob.WaitUntilReady; }; }// Close namespace JavaModel block } // Close namespace Jikes block #endif // _INCLUDED

25.535294

99

0.695232

83e32822e8402e24ca7ad0a7af77362b23bc8e00

373

c

C

Source Codes/C Programs with Numbers/GCD.c

kaazima/C

26da10360aa676c965129263a85fbf9f4d2564ea

[ "MIT" ]

null

Source Codes/C Programs with Numbers/GCD.c

kaazima/C

26da10360aa676c965129263a85fbf9f4d2564ea

[ "MIT" ]

null

Source Codes/C Programs with Numbers/GCD.c

kaazima/C

26da10360aa676c965129263a85fbf9f4d2564ea

[ "MIT" ]

null

// Write a C program to find out the G.C.D/H.C.F of two numbers #include <stdio.h> int main() { int x,y,temp; printf("Please enter 2 integers\n"); scanf("%d %d",&x,&y); int m=x,n=y; while(n!=0) { temp=n; n=m%n; m=temp; } printf("GCD of %d and %d is %d",x,y,m); } /*Output: Please enter 2 integers 16 28 GCD of 16 and 28 is 4*/

16.954545

63

0.544236

83e44d0df0f9be991c5d102dd1812f34974b2106

2,671

h

C

libraries/Temboo/src/utility/ChoreoSensorInput.h

rlnaveenrm/arduino

0173ad56264b3497862d11d309c46a2cb8dafc23

[ "Unlicense" ]

18

2017-12-20T10:33:44.000Z

2021-09-14T18:20:15.000Z

libraries/Temboo/src/utility/ChoreoSensorInput.h

rlnaveenrm/arduino

0173ad56264b3497862d11d309c46a2cb8dafc23

[ "Unlicense" ]

22

2018-09-26T09:44:26.000Z

2021-09-02T04:10:10.000Z

libraries/Temboo/src/utility/ChoreoSensorInput.h

rlnaveenrm/arduino

0173ad56264b3497862d11d309c46a2cb8dafc23

[ "Unlicense" ]

11

2017-12-25T20:31:59.000Z

2021-02-03T11:13:55.000Z

/* ############################################################################### # # Temboo Arduino library # # Copyright 2017, Temboo Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, # either express or implied. See the License for the specific # language governing permissions and limitations under the License. # ############################################################################### */ #ifndef CHOREOSENSORINPUT_H_ #define CHOREOSENSORINPUT_H_ #include "TembooGlobal.h" #define TEMBOO_SENSOR_INPUT_ARRAY_SIZE 8 class ChoreoSensorInput { public: ChoreoSensorInput(ChoreoSensorInput* prev, const char* name, int value, const char* sensorConversion, const char* rawLow, const char* rawHigh, const char* scaleLow, const char* scaleHigh, const char* calibration); const char* getName() const {return m_name;} const char* getValue() const {return m_value;} const char* getConversion() const {return m_sensorConversion;} const char* getRawLow() const {return m_rawLow;} const char* getRawHigh() const {return m_rawHigh;} const char* getScaleLow() const {return m_scaleLow;} const char* getScaleHigh() const {return m_scaleHigh;} const char* getCalibration() const {return m_calibration;} void setValue(int value) {snprintf(m_value, TEMBOO_SENSOR_INPUT_ARRAY_SIZE, "%i",value);} void setConversion(const char* conversion) {m_sensorConversion = conversion;} void setRawLow(const char* value) {m_rawLow = value;} void setRawHigh(const char* value) {m_rawHigh = value;} void setScaleLow(const char* value) {m_scaleLow = value;} void setScaleHigh(const char* value) {m_scaleHigh = value;} void setCalibration(const char* value) {m_calibration = value;} ChoreoSensorInput* getNext() const {return m_next;} private: ChoreoSensorInput* m_next; const char* m_name; char m_value[TEMBOO_SENSOR_INPUT_ARRAY_SIZE]; const char* m_sensorConversion; const char* m_rawLow; const char* m_rawHigh; const char* m_scaleLow; const char* m_scaleHigh; const char* m_calibration; }; #endif //CHOREOSENSORINPUT_H_

42.396825

221

0.645077

83e4dfc0d6dc3706ae8c42908cb66d9b59f695a8

1,662

h

C

thirdparty/physx/PhysXSDK/Source/GeomUtils/src/common/GuEdgeCache.h

johndpope/echo

e9ce2f4037e8a5d49b74cc7a9d9ee09f296e7fa7

[ "MIT" ]

null

thirdparty/physx/PhysXSDK/Source/GeomUtils/src/common/GuEdgeCache.h

johndpope/echo

e9ce2f4037e8a5d49b74cc7a9d9ee09f296e7fa7

[ "MIT" ]

2

2015-06-21T17:38:11.000Z

2015-06-22T20:54:42.000Z

thirdparty/physx/PhysXSDK/Source/GeomUtils/src/common/GuEdgeCache.h

johndpope/echo

e9ce2f4037e8a5d49b74cc7a9d9ee09f296e7fa7

[ "MIT" ]

null

/* * Copyright (c) 2008-2015, NVIDIA CORPORATION. All rights reserved. * * NVIDIA CORPORATION and its licensors retain all intellectual property * and proprietary rights in and to this software, related documentation * and any modifications thereto. Any use, reproduction, disclosure or * distribution of this software and related documentation without an express * license agreement from NVIDIA CORPORATION is strictly prohibited. */ // Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved. // Copyright (c) 2001-2004 NovodeX AG. All rights reserved. #ifndef GU_EDGECACHE_H #define GU_EDGECACHE_H #include "CmPhysXCommon.h" #include "PsIntrinsics.h" #include "PxMemory.h" #include "PsHash.h" namespace physx { namespace Gu { class EdgeCache { #define NUM_EDGES_IN_CACHE 64 //must be power of 2. 32 lines result in 10% extra work (due to cache misses), 64 lines in 6% extra work, 128 lines in 4%. public: EdgeCache() { PxMemZero(cacheLines, NUM_EDGES_IN_CACHE*sizeof(CacheLine)); } PxU32 hash(PxU32 key) const { return (NUM_EDGES_IN_CACHE - 1) & Ps::hash(key); //Only a 16 bit hash would be needed here. } bool isInCache(PxU8 vertex0, PxU8 vertex1) { PX_ASSERT(vertex1 >= vertex0); PxU16 key = PxU16((vertex0 << 8) | vertex1); PxU32 h = hash(key); CacheLine& cl = cacheLines[h]; if (cl.fullKey == key) { return true; } else //cache the line now as it's about to be processed { cl.fullKey = key; return false; } } private: struct CacheLine { PxU16 fullKey; }; CacheLine cacheLines[NUM_EDGES_IN_CACHE]; #undef NUM_EDGES_IN_CACHE }; } } #endif

23.742857

153

0.706378

83e585a92f233f5cf55fc85d8e6fbd71efc5fc45

4,239

c

C

log.c

krytarowski/openrsync

f18392f58d1f0bc72917e3ac3a46be74c194688d

[ "ISC" ]

1

2019-08-03T12:48:13.000Z

log.c

shawnanastasio/openrsync

f18392f58d1f0bc72917e3ac3a46be74c194688d

[ "ISC" ]

null

log.c

shawnanastasio/openrsync

f18392f58d1f0bc72917e3ac3a46be74c194688d

[ "ISC" ]

null

/* $Id$ */ /* * Copyright (c) 2019 Kristaps Dzonsons <kristaps@bsd.lv> * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include <sys/queue.h> #include <errno.h> #include <stdarg.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "extern.h" /* * Log a message at level "level", starting at zero, which corresponds * to the current verbosity level opts->verbose (whose verbosity starts * at one). */ void rsync_log(struct sess *sess, const char *fname, size_t line, int level, const char *fmt, ...) { char *buf = NULL; va_list ap; if (sess->opts->verbose < level + 1) return; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } if (level <= 0 && buf != NULL) fprintf(stderr, "%s\n", buf); else if (level > 0) fprintf(stderr, "%s:%zu%s%s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : ""); free(buf); } /* * This reports an error---not a warning. * However, it is not like errx(3) in that it does not exit. */ void rsync_errx(struct sess *sess, const char *fname, size_t line, const char *fmt, ...) { char *buf = NULL; va_list ap; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } fprintf(stderr, "%s:%zu: error%s%s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : ""); free(buf); } /* * This reports an error---not a warning. * However, it is not like err(3) in that it does not exit. */ void rsync_err(struct sess *sess, const char *fname, size_t line, const char *fmt, ...) { char *buf = NULL; va_list ap; int er = errno; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } fprintf(stderr, "%s:%zu: error%s%s: %s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : "", strerror(er)); free(buf); } /* * Prints a non-terminal error message, that is, when reporting on the * chain of functions from which the actual warning occurred. */ void rsync_errx1(struct sess *sess, const char *fname, size_t line, const char *fmt, ...) { char *buf = NULL; va_list ap; if (sess->opts->verbose < 1) return; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } fprintf(stderr, "%s:%zu: error%s%s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : ""); free(buf); } /* * Prints a warning message. */ void rsync_warnx(struct sess *sess, const char *fname, size_t line, const char *fmt, ...) { char *buf = NULL; va_list ap; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } fprintf(stderr, "%s:%zu: warning%s%s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : ""); free(buf); } /* * Prints a warning with an errno. * It uses a level detector for when to inhibit printing. */ void rsync_warn(struct sess *sess, int level, const char *fname, size_t line, const char *fmt, ...) { char *buf = NULL; va_list ap; int er = errno; if (sess->opts->verbose < level) return; if (fmt != NULL) { va_start(ap, fmt); if (vasprintf(&buf, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); } fprintf(stderr, "%s:%zu: warning%s%s: %s\n", fname, line, (buf != NULL) ? ": " : "", (buf != NULL) ? buf : "", strerror(er)); free(buf); }

21.517766

75

0.609814

83e5a8ee901f5bd3904ae1052b58b30ff4c4faa6

860

h

C

libs/qtdlib/messages/qtdmessagesenderchat.h

tiktikimelbo7/teleports

80ebd5c7807f0838708fe3a85d970384a77e0c22

[ "MIT" ]

null

libs/qtdlib/messages/qtdmessagesenderchat.h

tiktikimelbo7/teleports

80ebd5c7807f0838708fe3a85d970384a77e0c22

[ "MIT" ]

null

libs/qtdlib/messages/qtdmessagesenderchat.h

tiktikimelbo7/teleports

80ebd5c7807f0838708fe3a85d970384a77e0c22

[ "MIT" ]

null

#ifndef QTDMESSAGESENDERCHAT_H #define QTDMESSAGESENDERCHAT_H #include "qtdmessagesender.h" #include "chat/qtdchat.h" /** * @brief The QTdMessageSenderChat class * * https://core.telegram.org/tdlib/docs/classtd_1_1td__api_1_1message_sender_chat.html */ class QTdMessageSenderChat : public QTdMessageSender { Q_OBJECT public: explicit QTdMessageSenderChat(QObject *parent = nullptr); QString displayName() const; QString fullName() const; QTdPhoto *photo() const; QString avatarColor() const; QString initials() const; void unmarshalJson(const QJsonObject &json, const QString &id_key = "chat_id") override; signals: void chatChanged(); private: Q_DISABLE_COPY(QTdMessageSenderChat) QTdChat *m_chat; bool m_waitingForChat; void updateChat(const qint64 &chatId); }; #endif // QTDMESSAGESENDERCHAT_H

23.243243

92

0.747674

83e66d58c9e9b94adfc13b4b01ce3e5ea9534bb2

7,455

c

C

src/server/main.c

zhmu/frommel

e10208b7efc049b5b444050057b5438fb1d71659

[ "BSD-4-Clause-UC", "BSD-4-Clause" ]

null

src/server/main.c

zhmu/frommel

e10208b7efc049b5b444050057b5438fb1d71659

[ "BSD-4-Clause-UC", "BSD-4-Clause" ]

null

src/server/main.c

zhmu/frommel

e10208b7efc049b5b444050057b5438fb1d71659

[ "BSD-4-Clause-UC", "BSD-4-Clause" ]

null

/* * Frommel 2.0 - main.c * * (c) 2001, 2002 Rink Springer * */ #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include "bindery.h" #include "config.h" #include "conn.h" #include "console.h" #include "fs.h" #include "gasp.h" #include "link.h" #include "misc.h" #include "ncp.h" #include "net.h" #include "rconsole.h" #include "sap.h" #include "trustee.h" #include "volume.h" #include "wdog.h" #include "web.h" char* config_file = NULL; int down_flag = 0; /* * parse_options (int argc, char** argv) * * This will parse all command line options passed to the program. * */ void parse_options (int argc, char** argv) { char ch; char* ptr; frommel_options = 0; while ((ch = getopt (argc, argv, "rhl:d:")) != -1) { switch (ch) { case 'h': // help fprintf (stderr, "Frommel %s - (c) 2001 Rink Springer\n\n", FROMMEL_VERSION); fprintf (stderr, "Usuage: frommel [-rh] [-l filename]\n\n"); fprintf (stderr, " -r Recreate bindery\n"); fprintf (stderr, " -l [filename] Set log file to [filename]\n"); fprintf (stderr, " -h Show this help\n"); exit (1); case 'r': // recreate bindery frommel_options |= FROMMEL_RECREATE_BINDERY; break; case 'l': // log file logfile = fopen (optarg, "w+"); if (logfile == NULL) { fprintf (stderr, "[WARN] Cannot open log file '%s', logging disabled\n", optarg); } break; case 'd': // debugging level debuglevel = strtol (optarg, &ptr, 10); if (optarg == ptr) { // this is not a number. complain fprintf (stderr, "[CRIT] Debugging level '%s' invalid, it must be an number\n", optarg); exit (0xfe); } break; } } } /* * down_event (int i) * * This will be called when the server goes really down. [i] is a dummy * variable required for signal(), which calls this procedure. * */ void down_event (int i) { fprintf (stderr, "[INFO] FINAL Server shutdown time reached\n\n"); // XXX: we _should_ make a neat exit... exit (0); } /* * poll() * * This will poll all subsystems for data and handle it as needed. * */ void poll() { fd_set fdvar; struct sockaddr_ipx from; int size, i, j; char buf[PACKET_MAXLEN]; // build the table of sockets we wish to be notified of FD_ZERO (&fdvar); FD_SET (fd_ncp, &fdvar); i = fd_ncp; FD_SET (fd_wdog, &fdvar); if (i < fd_wdog) i = fd_wdog; // do we have a SAP socket? if (fd_sap != -1) { // yes. add it to the list, too FD_SET (fd_sap, &fdvar); if (i < fd_sap) i = fd_sap; } #ifdef WITH_WEB_INTERFACE // do we have a WEB socket? if (fd_web != -1) { // yes. add it to the list, too FD_SET (fd_web, &fdvar); if (i < fd_web) i = fd_web; // add all web sessions for (j = 0; j < WEB_MAX_CONNS; j++) // is this socket in use? if (fd_web_conn[j] != -1) { // yes. add it FD_SET (fd_web_conn[j], &fdvar); if (i < fd_web_conn[j]) i = fd_web_conn[j]; } } #endif #ifdef RCONSOLE #ifndef RCONSOLE_STANDALONE FD_SET (fd_rcon, &fdvar); if (i < fd_rcon) i = fd_rcon; // add all remote console sockets for (j = 0; j < RCON_MAX_SESSIONS; j++) // is this socket in use? if (rcon_session[i].sockno > -1) { // yes. add it printf ("[%u]\n", rcon_session[i].sockno); if (i < rcon_session[j].sockno) i = rcon_session[j].sockno; FD_SET (rcon_session[j].sockno, &fdvar); } #endif #endif FD_SET (fd_gasp, &fdvar); if (i < fd_gasp) i = fd_gasp; /* FD_SET (fd_link, &fdvar); if (i < fd_link) i = fd_link;*/ // is any data there? if (select (i + 1, &fdvar, (fd_set*)NULL, (fd_set*)NULL, (struct timeval*)NULL) < 0) { // no, return return; } // if the NCP subsystem has data, handle it if (FD_ISSET (fd_ncp, &fdvar)) { // read the data size = net_recv_packet (fd_ncp, buf, PACKET_MAXLEN, &from); // if this succeeded, handle the packet if (size > 0) ncp_handle_packet (buf, size, &from); } // if the SAP subsystem has data, handle it if (fd_sap != -1) if (FD_ISSET (fd_sap, &fdvar)) { // read the data size = net_recv_packet (fd_sap, buf, PACKET_MAXLEN, &from); // if this succeeded, handle the packet if (size > 0) sap_handle_packet (buf, size, &from); } #ifdef RCONSOLE #ifndef RCONSOLE_STANDALONE // if the remote console subsystem has data, handle it if (FD_ISSET (fd_rcon, &fdvar)) { // handle the socket rcon_handle_conn (&from); } #endif #endif #ifdef WITH_WEB_INTERFACE // if the web interface has data, handle it if (fd_web != -1) if (FD_ISSET (fd_web, &fdvar)) { // handle the connection web_handle_conn (); } // check all web sessions for (j = 0; j < WEB_MAX_CONNS; j++) // is this socket in use? if (fd_web_conn[j] != -1) // is this the one? if (FD_ISSET (fd_web_conn[j], &fdvar)) { // yes. handle it web_handle_data (fd_web_conn[j]); // close the socket and reset the descriptor close (fd_web_conn[j]); fd_web_conn[j] = -1; } #endif // if the watchdog subsystem has data, handle it if (FD_ISSET (fd_wdog, &fdvar)) { // read the data size = net_recv_packet (fd_wdog, buf, PACKET_MAXLEN, &from); // if this succeeded, handle the packet if (size > 0) wdog_handle_packet (buf, size, &from); } // if the console subsystem has data, handle it if (fd_gasp != -1) if (FD_ISSET (fd_gasp, &fdvar)) { // read the data size = net_recv_packet (fd_gasp, buf, PACKET_MAXLEN, &from); // if this succeeded, handle the packet if (size > 0) gasp_handle_packet (buf, size, &from); } // if the linking system has data, handle it if (fd_link != -1) if (FD_ISSET (fd_link, &fdvar)) { // read the data size = net_recv_packet (fd_link, buf, PACKET_MAXLEN, &from); // if this succeeded, handle the packet if (size > 0) link_handle_packet (buf, size, &from); } } /* * main (int argc,char** argv) * * This is the main code * */ int main (int argc,char** argv) { int seq = 0; TRUST_RECORD rec; char name[VOL_MAX_VOL_PATH_LEN]; #ifdef FREEBSD // seed the random number generator srandomdev(); #endif // handle all options parse_options (argc, argv); // we need to initialize the volume manager, since the configuration module // adds them as needed. vol_init(); // parse the configuration file parse_config (config_file, 0); // initialize the subsystems fs_init(); net_init(); #ifdef RCONSOLE rcon_init(); #endif conn_init(); sap_init(); bind_init(); ncp_init(); wdog_init(); #ifdef WITH_WEB_INTERFACE web_init(); #endif gasp_init(); link_init(); // now, get rid of those evil root privileges... if ((setgid (conf_gid) < 0) || (setuid (conf_uid) < 0)) { // this failed... quit fprintf (stderr, "[CRIT] Unable to switch user/group privileges\n"); exit (1); } // do we need to log to a file? if ((strlen (conf_logfile) > 0) && (logfile == NULL)) { // yes. open the log file if ((logfile = fopen (conf_logfile, "a")) == NULL) { // this failed. complain fprintf (stderr, "[WARN] Cannot open logfile '%s'\n", conf_logfile); } } while (1) { poll(); } return 0; }

23.666667

97

0.598927

83e6eae593c2adc2fa23685cdb6245ff55e2d611

1,744

c

C

examples/c/example1.c

fvhdx/bean

da78635e040135aa4f53ff1d4dd1e5d8bdc6cf37

[ "MIT" ]

37

2015-02-11T18:55:47.000Z

2021-02-20T08:47:52.000Z

examples/c/example1.c

fvhdx/bean

da78635e040135aa4f53ff1d4dd1e5d8bdc6cf37

[ "MIT" ]

15

2015-05-05T10:44:03.000Z

2020-10-07T15:49:23.000Z

examples/c/example1.c

fvhdx/bean

da78635e040135aa4f53ff1d4dd1e5d8bdc6cf37

[ "MIT" ]

37

2015-05-29T04:12:17.000Z

2022-01-20T17:56:06.000Z

#include "beanstalk.h" #include <stdio.h> #include <assert.h> #include <inttypes.h> int main() { BSJ *job; char *yaml; int64_t id; int a,b,c; bs_version(&a, &b, &c); printf("beanstalk-client version %d.%d.%d\n", a,b,c); int socket = bs_connect("127.0.0.1", 11300); assert(socket != BS_STATUS_FAIL); assert(bs_use(socket, "test") == BS_STATUS_OK); assert(bs_watch(socket, "test") == BS_STATUS_OK); assert(bs_ignore(socket, "default") == BS_STATUS_OK); id = bs_put(socket, 0, 0, 60, "hello world", 11); assert(id > 0); printf("put job id: %"PRId64"\n", id); assert(bs_reserve_with_timeout(socket, 2, &job) == BS_STATUS_OK); assert(job); printf("reserve job id: %"PRId64" size: %lu\n", job->id, job->size); write(fileno(stderr), job->data, job->size); write(fileno(stderr), "\r\n", 2); printf("release job id: %"PRId64"\n", job->id); assert(bs_release(socket, job->id, 0, 0) == BS_STATUS_OK); bs_free_job(job); assert(bs_peek_ready(socket, &job) == BS_STATUS_OK); printf("peek job id: %"PRId64"\n", job->id); printf("delete job id: %"PRId64"\n", job->id); assert(bs_delete(socket, job->id) == BS_STATUS_OK); bs_free_job(job); assert(bs_list_tubes(socket, &yaml) == BS_STATUS_OK); printf("tubes:\n%s\n", yaml); free(yaml); assert(bs_list_tubes_watched(socket, &yaml) == BS_STATUS_OK); printf("tubes-watched:\n%s\n", yaml); free(yaml); assert(bs_list_tube_used(socket, &yaml) == BS_STATUS_OK); printf("tube-used: %s\n", yaml); free(yaml); assert(bs_stats(socket, &yaml) == BS_STATUS_OK); printf("stats:\n%s\n", yaml); free(yaml); bs_disconnect(socket); exit(0); }

29.559322

72

0.611812

83e71b082e62a4d4a98141dc111913453443de43

2,562

c

C

src/tick.c

CodethinkLabs/bloodlight-zephyr

3d86a961a44b9c0fb9cd8294e2538f0c66d226ad

[ "Apache-2.0" ]

1

2021-07-12T06:38:19.000Z

src/tick.c

CodethinkLabs/bloodlight-zephyr

3d86a961a44b9c0fb9cd8294e2538f0c66d226ad

[ "Apache-2.0" ]

18

2021-04-12T10:48:54.000Z

2021-09-07T07:59:53.000Z

src/tick.c

CodethinkLabs/bloodlight-zephyr

3d86a961a44b9c0fb9cd8294e2538f0c66d226ad

[ "Apache-2.0" ]

null

/* * Copyright 2020 Codethink Ltd. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // #include <libopencm3/cm3/systick.h> // #include <libopencm3/cm3/nvic.h> #include "tick.h" /* Nanosecond counter */ static uint32_t us; /* Millisecond counter */ static uint32_t ms; static uint32_t last_ms_us = 0; #define MAX_TIMER_RES_US 1000 #define MIN_TIMER_RES_US 10 static uint32_t res = MAX_TIMER_RES_US; static uint32_t sys_tick_frequency; /** * systick isr */ void sys_tick_handler(void) { us += res; /* We could just use us only and multiply everywhere, but doing it this * way might be handy later if we wanna do ms specific stuff */ if (us - last_ms_us >= 1000){ ms++; last_ms_us = us; } } void bl_tick_init(uint32_t frequency) { sys_tick_frequency = frequency; systick_set_clocksource(STK_CSR_CLKSOURCE_AHB); /* Set up the systick to trigger every microsecond*/ uint32_t mhz = sys_tick_frequency / 1000000; /* System clock is xMHz, so 1/x usec per "tick" there and we want to tick * res * usec, so that means a counter of (res * x) -1 */ systick_set_reload((res * mhz) - 1); systick_clear(); systick_interrupt_enable(); systick_counter_enable(); } void bl_set_us_timer(uint32_t *timer) { *timer = us; } uint32_t bl_get_us_timer_elapsed(uint32_t timer) { return (us - timer); } void bl_set_ms_timer(uint32_t *timer) { *timer = ms; } uint32_t bl_get_ms_timer_elapsed(uint32_t timer) { return (ms - timer); } int bl_set_resolution(uint32_t usec) { if (MAX_TIMER_RES_US % usec || usec < MIN_TIMER_RES_US || usec > MAX_TIMER_RES_US){ return -1; } /* Set the new resolution */ res = usec; uint32_t mhz = sys_tick_frequency / 1000000; systick_set_reload((res * mhz) - 1); /* Add the remaining time to us and clear the counter */ uint32_t ticks_left = systick_get_value(); us += ticks_left * mhz; /* Not sure if we need to disable interrupt here */ systick_interrupt_disable(); systick_clear(); systick_interrupt_enable(); return 0; } uint32_t bl_get_resolution(void) { return res; }

22.278261

75

0.721702

83e807d2d7bf49d0e19b436de0c2f90f09bb1516

5,751

h

C

carrera-sdk/consumer/cpp/Consumer/CarreraConsumer.h

MemorySpring/DDMQ

4f8f0a69109ae1d7fe30f36b15fbfe0a7cbf33fe

[ "Apache-2.0" ]

1,200

2018-12-29T10:31:39.000Z

2022-03-31T08:26:33.000Z

carrera-sdk/consumer/cpp/Consumer/CarreraConsumer.h

MemorySpring/DDMQ

4f8f0a69109ae1d7fe30f36b15fbfe0a7cbf33fe

[ "Apache-2.0" ]

24

2019-01-15T01:53:31.000Z

2021-09-29T09:55:20.000Z

carrera-sdk/consumer/cpp/Consumer/CarreraConsumer.h

MemorySpring/DDMQ

4f8f0a69109ae1d7fe30f36b15fbfe0a7cbf33fe

[ "Apache-2.0" ]

323

2018-12-29T10:30:05.000Z

2022-03-31T06:51:37.000Z

#ifndef CarreraConsumer_H #define CarreraConsumer_H #include "SimpleCarreraClient.h" #include "ServiceDiscoveryService.h" #include <string> #include <map> #include <vector> #include <pthread.h> #include <thrift/concurrency/Thread.h> #include <thrift/concurrency/Mutex.h> #include <boost/shared_ptr.hpp> #include <mutex> #include <condition_variable> #include <thread> #include "CarreraConfig.h" #include <spdlog.h> #include <spdlog/sinks/rotating_file_sink.h> #include "CarreraDefine.h" using boost::shared_ptr; using CarreraServiceDiscovery::ServiceDiscoveryServiceClient; using CarreraServiceDiscovery::ClientMeta; using CarreraServiceDiscovery::ServiceMeta; namespace CarreraConsumer { static const std::map<std::string, int> EMPTY_EXTRA_CONCURRENCY; class CarreraException : std::exception { public: CarreraException(const char *msg) { msg_ = msg; } private: const char *msg_; virtual const char *what() const throw() { return msg_; } }; class CarreraConsumer { private: CarreraConfig config_; ProcessorBase* p; std::map<std::string, int> extraConcurrency; std::map<pthread_t, SimpleCarreraClient *> clientThreadMap; bool validateParams(); bool createSimpleClient(const std::string &_host, int port, int clientNum, const std::string &topic = EMPTY_STRING); public: void SetProcessor(ProcessorBase* pro){ p = pro; } /* Param user guide: * 1. _serverList: consumer proxy ip:port list, use ';' for multi, e.g. : "127.0.0.1:9713;127.0.0.2:9713;..." * 2. _groupName: consumer group name * 3. p: call back function for each message. User should implement this function, it is defined in SimpleCarrraClient.h： * typedef bool (*processor)(const Message &message, const Context &context); * // return true if successfully consumed the message, false if failed. * 4. _clientNumPerServer： thread number to connect to each consumer proxy. * 5. _retryInterval: the interval to sleep if there is no message now. unit is ms. * 6. _submitMaxRetries: max retry times to submit consume result to proxy to update the offset. * 7. _socketTimeout: connect and r/w socket time out to proxy. unit is ms. * 8. _maxLingerTime: not used yet, for future used in long poll mode. * 9. _maxBatchSize: max batched message number per pull request. * 10._extraConcurrency: extra thread connect to each proxy for specified topic, e.g. <"test-0", 2>, it means * besides _clientNumPerServer threads, it will create 2 more threads to consume topic "test-0" to each proxy. * */ CarreraConsumer(std::string &_serverList, std::string &_groupName, ProcessorBase* p, int _clientNumPerServer = 2, int _retryInterval = 100, int _submitMaxRetries = 3, int _socketTimeout = 5000, int _maxLingerTime = 100, int _maxBatchSize = 8, const std::map<std::string, int> &_extraConcurrency = EMPTY_EXTRA_CONCURRENCY); CarreraConsumer (CarreraConfig & config, ProcessorBase * p_) : config_ (config) { p = p_; } virtual ~CarreraConsumer(); void stop(); void startConsume(); void waitFinish(); }; class CarreraSdCconsumer { public: CarreraSdCconsumer(std::string &groupName, std::string &idc, std::string &sd_server) : groupName_(groupName), idc_(idc), sd_server_(sd_server) { logger_ = spdlog::get(DEFAULT_LOGGER); if (logger_ == nullptr) { auto logger = spdlog::rotating_logger_mt(DEFAULT_LOGGER, "./carrera_consumer.log", DEFAULT_LOG_FILE_MAX_SIZE, DEFAULT_LOG_FILE_NUM); logger->flush_on(spdlog::level::warn); logger_ = spdlog::get(DEFAULT_LOGGER); } }; virtual ~CarreraSdCconsumer(){}; void SetSdServers(std::string &sd_server) { sd_server_ = sd_server; } std::string &GetSdServer() { return sd_server_; } void SetCarreraConfig(CarreraConfig &config) { config_ = config; } void SetProcessor(ProcessorBase* pro){ p = pro; } void StartConsume(); void UpdateServiceMeta(); void Stop(); private: std::shared_ptr<spdlog::logger> logger_; volatile int state = 0; // 0:init, 1:started 2: stopped std::mutex mutex_client_; std::shared_ptr<CarreraConsumer> client_; std::shared_ptr<ServiceDiscoveryServiceClient> sd_client_; apache::thrift::concurrency::Mutex mutex_; std::string groupName_; std::string idc_; std::string sd_server_; ProcessorBase* p; CarreraConfig config_; ClientMeta sd_client_meta_; ServiceMeta sd_service_meta_; int sd_client_timeout_ = 5000; std::thread bg_thread; std::mutex bg_mutex; std::condition_variable bg_cond; void buildClientMeta(); std::shared_ptr<ServiceDiscoveryServiceClient> createSdClient(); bool fetchMeta(ServiceMeta &meta); void updateCarreraConfig(CarreraConfig &newConfig, ServiceMeta &meta, CarreraConfig &carreraConfig); bool needUpdate(const ServiceMeta &oldServiceMeta, const ServiceMeta &newServiceMeta); void updateClient(std::shared_ptr<CarreraConsumer>& client); }; void start_sd_pull_thread(CarreraSdCconsumer &sdClient); } // namespace #endif

33.829412

148

0.640932

83e8a526823a12bfa3dccc91f2805a8346630c62

45,065

c

C

source/ti/net/http/http2cli.c

seank-com/azure-iot-sdk-tirtos-cc3220

7d7d89195cda2a5698fd9fdd5f153caf410bb4c7

[ "MIT" ]

null

source/ti/net/http/http2cli.c

seank-com/azure-iot-sdk-tirtos-cc3220

7d7d89195cda2a5698fd9fdd5f153caf410bb4c7

[ "MIT" ]

null

source/ti/net/http/http2cli.c

seank-com/azure-iot-sdk-tirtos-cc3220

7d7d89195cda2a5698fd9fdd5f153caf410bb4c7

[ "MIT" ]

null

/* * Copyright (c) 2015-2017, Texas Instruments Incorporated * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <string.h> #include <ti/net/common.h> #include "http2utils.h" #include "http2cli.h" #ifdef NET_SL #define TLS_SOCKET_OPT SL_SEC_SOCKET #else #include <errno.h> #define TLS_SOCKET_OPT 0 #endif #define NULL_CHAR_LEN (1) #define SETTINGS_PUSH_DISABLE (0) #define FRAME_RECV_TIMEOUT_MILLISECS (5000) #define GOAWAY_SERVER_LAST_STREAM_ID (0) #define URI_PREFIX "https" #define URI_SCHEME_SEPARATOR "://" #define URI_PORT_SEPARATOR ':' #define URI_PATH_SEPARATOR '/' #define URI_IPV6_ADDRESS_START '[' #define URI_IPV6_ADDRESS_STOP ']' #define USER_AGENT_VALUE "http2cli/1.0" const HTTP2Std_Settings defaultServerSettings = { .headerTableSize = 0, .concurrentStreams = HTTP2Std_SETTINGS_CONCURRENT_STREAMS_DEFAULT, .windowSize = HTTP2Std_SETTINGS_WINDOW_SIZE_DEFAULT, .frameSize = HTTP2Std_SETTINGS_FRAME_SIZE_DEFAULT, .headersListSize = HTTP2Std_SETTINGS_HEADER_LIST_SIZE_DEFAULT }; static uint8_t pingPayload[HTTP2Std_PING_PAYLOAD_LEN] = { 0x01, 0x23, 0x45, 0x67, 0x89, 0xAB, 0xCD, 0xEF }; static void sendConnectionError(HTTP2Cli_Handle cli, uint32_t streamId, uint32_t errorType); static int sendAck(HTTP2Cli_Handle cli, uint8_t type, uint8_t *payload, uint32_t len); /* * ======== getErrno ======== * Get errno from the socket layer */ static int getErrno(int ret) { if (ret == -1) { return (errno); } else { return (ret); } } /* * ======== encodeOctet ======== * Converts the integer value into an octet array * * The `len` length of the `buf` determines the number of octets to encode * * The octet numeric values are encoded in network byte order (i.e. big * endian). * * For ex: an integer with octet order 3 (MSB), 2, 1, 0 (LSB) * buf[0] = octet 3; * buf[1] = octet 2; * buf[2] = octet 1; * buf[3] = octet 0; * * Returns the number of octets encoded */ static uint8_t encodeOctet(uint32_t value, uint8_t *buf, uint8_t len) { uint8_t i; for (i = 0; i < len; i++) { buf[i] = (value >> ((len - 1 - i) * 8)) & 0xFF; } return (i); } /* * ======== decodeOctet ======== * Converts the octet array into the integer value * * The `len` length of the `buf` determined the number of octets to decode * * The octets in the array will be in network byte order (i.e. big endian). * * Returns the number of octets decoded */ static uint8_t decodeOctet(uint8_t *buf, uint8_t len, void *value) { switch (len) { case 1: *(uint8_t *)value = buf[0]; break; case 2: *(uint16_t *)value = (((uint16_t)buf[0]) << 8) | buf[1]; break; case 3: *(uint32_t *)value = (((uint32_t)buf[0]) << 16) | (((uint32_t)buf[1]) << 8) | buf[2]; break; case 4: *(uint32_t *)value = (((uint32_t)buf[0]) << 24) | (((uint32_t)buf[1]) << 16) | (((uint32_t)buf[2]) << 8) | buf[3]; break; default: len = 0; } return (len); } /* * ======== freeHeaderBlock ======== */ static void freeHeaderBlock(uint8_t **headerBlock) { if (headerBlock && *headerBlock) { free(*headerBlock); *headerBlock = NULL; } } /* * ======== addHeader ======== * Add a header field to the headers list * * This function adds the header field (name and value) to the list. The * sum of the name string length and the value string length is returned back. * This sum is useful to calculate header list size which has a max limit * for a HTTP/2 connection. * * Returns the number of octets added on success or < 0 on failure */ static int addHeader(HTTP2Hdr_Field **headersList, uint32_t len, const char *name, const char *value, size_t valueLen) { int ret = HTTP2Cli_EINVALIDREQUESTPARAMS; char *lname; char *lvalue; size_t nameLen; if (headersList && name && value) { nameLen = strlen(name); lname = HTTP2Utils_stringDuplicate(name, nameLen); if (lname) { lvalue = HTTP2Utils_stringDuplicate(value, valueLen); if (lvalue) { ret = HTTP2Hdr_add(headersList, len, lname, lvalue); if (ret > 0) { ret = nameLen + valueLen; } else { free(lvalue); ret = HTTP2Cli_EINSUFFICIENTHEAP; } } else { free(lname); } } else { ret = HTTP2Cli_EINSUFFICIENTHEAP; } } return (ret); } /* * ======== getHeadersList ======== * Creates a list of headers * * This functions generaters a list of common headers based on the input * URI (i.e. ":method", ":scheme", ":authority", ":path" and "user-agent") * and appends the additional user supplied headers. * * The newly created list is returned in 'headersList' and the total number of * headers in 'headersList' is returned by the function. * * Returns the number of headers in the list */ static int getHeadersList(HTTP2Cli_Handle cli, const char *method, const char *uri, HTTP2Hdr_Field *additionalHeaders, uint8_t headersLen, HTTP2Hdr_Field **headersList) { int ret = 0; int i; size_t len; char *substr; uint16_t numHeaders = 0; uint32_t headersListSize = 0; ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_METHOD, method, strlen(method)); if (ret > 0) { numHeaders++; headersListSize += ret; substr = strstr(uri, URI_SCHEME_SEPARATOR); if (substr) { len = substr - uri; ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_SCHEME, uri, len); uri += len + sizeof(URI_SCHEME_SEPARATOR) - 1; } else { ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_SCHEME, URI_PREFIX, sizeof(URI_PREFIX) - 1); } if (ret > 0) { numHeaders++; headersListSize += ret; substr = strchr(uri, '/'); if (substr) { len = substr - uri; } else { len = strlen(uri); } ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_AUTHORITY, uri, len); if (ret > 0) { numHeaders++; headersListSize += ret; uri += len; if (*uri) { ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_PATH, uri, strlen(uri)); } else { ret = addHeader(headersList, numHeaders, HTTP2Std_PSEUDO_HEADER_PATH, "/", 1); } if (ret > 0) { numHeaders++; headersListSize += ret; ret = addHeader(headersList, numHeaders, HTTPStd_FIELD_NAME_USER_AGENT, USER_AGENT_VALUE, sizeof(USER_AGENT_VALUE) - 1); if (ret > 0) { numHeaders++; headersListSize += ret; for (i = 0; i < headersLen; i++) { ret = addHeader(headersList, numHeaders, additionalHeaders[i].name, additionalHeaders[i].value, strlen(additionalHeaders[i].value)); if (ret < 0) { break; } numHeaders++; headersListSize += ret; } } } } } } else { ret = HTTP2Cli_EINSUFFICIENTHEAP; } if (headersListSize > cli->serverSettings.headersListSize) { ret = HTTP2Cli_EHEADERSLISTTOOBIG; } if (ret < 0 && headersList) { HTTP2Hdr_free(headersList, numHeaders); } else { ret = numHeaders; } return (ret); } /* * ======== recvFrame ======== * Reads a HTTP/2 frame from the server * * Reads and decodes the frame fields from the socket and returns the fields * in 'type', 'flags', 'streamId', 'payload' and 'plen'. * * A 'timeoutMs' value in units of milliseconds will be set for socket recv * operation. * * Returns 0 on success or < 0 on failure */ static int recvFrame(HTTP2Cli_Handle cli, uint32_t timeoutMs, uint8_t *type, uint8_t *flags, uint32_t *streamId, uint8_t **payload, uint32_t *plen) { int ret; uint8_t header[HTTP2Std_FRAME_HEADER_LEN]; uint8_t hlen = 0; uint8_t *pload = NULL; struct timeval tv; tv.tv_sec = timeoutMs / 1000; tv.tv_usec = (timeoutMs % 1000) * 1000; ret = Ssock_getSocket(&(cli->ssock)); ret = setsockopt(ret, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv)); if (ret < 0) { cli->sockError = getErrno(ret); ret = HTTP2Cli_ESOCKETFAIL; } else { ret = Ssock_recvall(&(cli->ssock), header, HTTP2Std_FRAME_HEADER_LEN, 0); if (ret <= 0) { if (ret == Ssock_TIMEOUT) { ret = HTTP2Cli_ERECVTIMEOUT; } else { cli->sockError = getErrno(ret); ret = HTTP2Cli_ERECVFAIL; } } else { /* Frame field: Length */ hlen += decodeOctet(header, HTTP2Std_FRAME_HEADER_FIELD_LENGTH_LEN, plen); /* Frame field: Type */ hlen += decodeOctet(header + hlen, HTTP2Std_FRAME_HEADER_FIELD_TYPE_LEN, type); /* Frame field: Flags */ hlen += decodeOctet(header + hlen, HTTP2Std_FRAME_HEADER_FIELD_FLAGS_LEN, flags); /* Frame field: Stream Identifier */ hlen += decodeOctet(header + hlen, HTTP2Std_FRAME_HEADER_FIELD_STREAM_ID_LEN, streamId); if (*plen) { if (*plen > HTTP2Std_SETTINGS_FRAME_SIZE_DEFAULT) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else { pload = (uint8_t *) malloc(*plen); if (pload) { ret = Ssock_recvall(&(cli->ssock), pload, *plen, 0); if (ret <= 0) { if (ret == Ssock_TIMEOUT) { ret = HTTP2Cli_ERECVTIMEOUT; } else { cli->sockError = getErrno(ret); ret = HTTP2Cli_ERECVFAIL; } free(pload); pload = NULL; } } else { ret = HTTP2Cli_EINSUFFICIENTHEAP; } } } } } *payload = pload; return ((ret < 0) ? ret : 0); } /* * ======== sendFrame ======== * Send a HTTP/2 frame to the server * * Encode the HTTP/2 frame in correct octet format and send it to * the server. * * Returns 0 on success or < 0 on failure. */ static int sendFrame(HTTP2Cli_Handle cli, uint8_t type, uint8_t flags, uint32_t streamId, uint8_t *payload, uint32_t plen) { int ret; uint8_t header[HTTP2Std_FRAME_HEADER_LEN]; uint8_t hlen = 0; if (streamId > HTTP2Std_STREAM_ID_MAX) { return (HTTP2Cli_ESTREAMID); } /* Frame field: Length */ hlen += encodeOctet(plen, header + hlen, HTTP2Std_FRAME_HEADER_FIELD_LENGTH_LEN); /* Frame field: Type */ hlen += encodeOctet(type, header + hlen, HTTP2Std_FRAME_HEADER_FIELD_TYPE_LEN); /* Frame field: Flags */ hlen += encodeOctet(flags, header + hlen, HTTP2Std_FRAME_HEADER_FIELD_FLAGS_LEN); /* Frame field: Stream Identifier */ hlen += encodeOctet(streamId, header + hlen, HTTP2Std_FRAME_HEADER_FIELD_STREAM_ID_LEN); ret = Ssock_send(&(cli->ssock), header, hlen, 0); if (ret <= 0) { cli->sockError = getErrno(ret); ret = HTTP2Cli_ESENDFAIL; } else if (payload != NULL) { ret = Ssock_send(&(cli->ssock), payload, plen, 0); if (ret <= 0) { cli->sockError = getErrno(ret); ret = HTTP2Cli_ESENDFAIL; } } return ((ret < 0) ? ret : 0); } /* * ======== sendFrameAll ======== * Breaks large payload into multiple frames and sends them all * * Large payloads > max frame payload allowed are broken into smaller * chunks of size <= max frame payload and sent over multiple frames. * This is useful for sending large header and data payloads. * * Returns 0 on success or < 0 on failure. */ static int sendFrameAll(HTTP2Cli_Handle cli, uint8_t type, uint32_t streamId, uint8_t *payload, uint32_t plen, bool endStream) { int ret; uint32_t len; uint32_t frameSize; uint8_t flags = 0; frameSize = cli->serverSettings.frameSize; do { if (plen > frameSize) { len = frameSize; } else { len = plen; if ((type == HTTP2Std_FRAME_TYPE_HEADERS) || (type == HTTP2Std_FRAME_TYPE_CONTINUATION)) { flags = HTTP2Std_FLAGS_END_HEADERS; } if (endStream) { flags |= HTTP2Std_FLAGS_END_STREAM; } } ret = sendFrame(cli, type, flags, streamId, payload, len); if (ret < 0) { break; } payload += len; plen -= len; if (type == HTTP2Std_FRAME_TYPE_HEADERS) { type = HTTP2Std_FRAME_TYPE_CONTINUATION; } } while (plen); return (ret); } /* * ======== sendConnectionError ======== */ static void sendConnectionError(HTTP2Cli_Handle cli, uint32_t streamId, uint32_t errorType) { uint8_t payload[HTTP2Std_GOAWAY_PAYLOAD_LEN]; uint32_t plen = 0; /* GOAWAY payload: Last server initiated stream identifier */ plen += encodeOctet(GOAWAY_SERVER_LAST_STREAM_ID, payload + plen, HTTP2Std_GOAWAY_PAYLOAD_FIELD_STREAM_ID_LEN); /* GOAWAY payload: Error code */ plen += encodeOctet(errorType, payload + plen, HTTP2Std_GOAWAY_PAYLOAD_FIELD_ERROR_CODE_LEN); sendFrame(cli, HTTP2Std_FRAME_TYPE_GOAWAY, 0, streamId, payload, plen); HTTP2Cli_disconnect(cli); } /* * ======== updateSettings ======== * Update the HTTP/2 settings received from the server */ static void updateSettings(HTTP2Cli_Handle cli, uint8_t *payload, uint32_t plen) { uint16_t id; uint32_t value; while (plen) { /* Settings: Identifier */ plen -= decodeOctet(payload, HTTP2Std_SETTINGS_FIELD_ID_LEN, (uint32_t *)&id); /* Settings: Value */ plen -= decodeOctet(payload, HTTP2Std_SETTINGS_FIELD_VALUE_LEN, &value); switch (id) { case HTTP2Std_SETTINGS_HEADER_TABLE_SIZE: /* Not used as client doesn't send dynamic headers */ cli->serverSettings.headerTableSize = value; break; case HTTP2Std_SETTINGS_ENABLE_PUSH: /* Push promise is not supported currently */ break; case HTTP2Std_SETTINGS_MAX_CONCURRENT_STREAMS: cli->serverSettings.concurrentStreams = value; break; case HTTP2Std_SETTINGS_INITIAL_WINDOW_SIZE: cli->serverSettings.windowSize = value; break; case HTTP2Std_SETTINGS_MAX_FRAME_SIZE: cli->serverSettings.frameSize = value; break; case HTTP2Std_SETTINGS_MAX_HEADER_LIST_SIZE: cli->serverSettings.headersListSize = value; break; default: break; } } } /* * ======== syncSettings ======== * Performs an initial HTTP/2 settings sync between the client and the server * * Returns < 0 on failure */ static int syncSettings(HTTP2Cli_Handle cli) { int ret; uint8_t payload[HTTP2Std_SETTINGS_PAYLOAD_LEN]; uint32_t plen = 0; uint8_t type; uint8_t flags; uint32_t srvStreamId; uint8_t *srvPayload = NULL; uint32_t srvPlen; /* Header table size */ plen += encodeOctet(HTTP2Std_SETTINGS_HEADER_TABLE_SIZE, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(HTTP2Std_SETTINGS_HEADER_TABLE_SIZE_DEFAULT, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); /* Server push: disable */ plen += encodeOctet(HTTP2Std_SETTINGS_ENABLE_PUSH, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(SETTINGS_PUSH_DISABLE, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); /* Concurrent streams */ plen += encodeOctet(HTTP2Std_SETTINGS_MAX_CONCURRENT_STREAMS, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(HTTP2Std_SETTINGS_CONCURRENT_STREAMS_DEFAULT, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); /* Flow control window size */ plen += encodeOctet(HTTP2Std_SETTINGS_INITIAL_WINDOW_SIZE, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(HTTP2Std_SETTINGS_WINDOW_SIZE_DEFAULT, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); /* Frame size */ plen += encodeOctet(HTTP2Std_SETTINGS_MAX_FRAME_SIZE, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(HTTP2Std_SETTINGS_FRAME_SIZE_DEFAULT, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); /* Header list size */ plen += encodeOctet(HTTP2Std_SETTINGS_MAX_HEADER_LIST_SIZE, payload + plen, HTTP2Std_SETTINGS_FIELD_ID_LEN); plen += encodeOctet(HTTP2Std_SETTINGS_HEADER_LIST_SIZE_DEFAULT, payload + plen, HTTP2Std_SETTINGS_FIELD_VALUE_LEN); ret = sendFrame(cli, HTTP2Std_FRAME_TYPE_SETTINGS, 0, HTTP2Std_STREAM_ID_DEFAULT, payload, plen); if (ret == 0) { ret = recvFrame(cli, FRAME_RECV_TIMEOUT_MILLISECS, &type, &flags, &srvStreamId, &srvPayload, &srvPlen); if (ret < 0) { if (ret == HTTP2Cli_ERECVTIMEOUT) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_SETTINGS_TIMEOUT); } } else if ((type != HTTP2Std_FRAME_TYPE_SETTINGS) || srvStreamId) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else if (srvPlen % HTTP2Std_SETTINGS_PARAMS_LEN) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_FRAME_SIZE_ERROR); ret = HTTP2Cli_EFRAMESIZE; } else { updateSettings(cli, srvPayload, srvPlen); free(srvPayload); srvPayload = NULL; ret = sendAck(cli, HTTP2Std_FRAME_TYPE_SETTINGS, NULL, 0); if (ret == 0) { /* Wait for Settings ACK */ do { ret = HTTP2Cli_processResponse(cli, FRAME_RECV_TIMEOUT_MILLISECS, NULL); if (ret < 0) { if (ret == HTTP2Cli_ERECVTIMEOUT) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_SETTINGS_TIMEOUT); } break; } } while (ret != HTTP2Std_FRAME_TYPE_SETTINGS); if (ret == HTTP2Std_FRAME_TYPE_SETTINGS) { ret = 0; } } } if (srvPayload != NULL) { free(srvPayload); srvPayload = NULL; } } return (ret); } /* * ======== getNextStreamId ======== */ static uint32_t getNextStreamId(HTTP2Cli_Handle cli) { uint32_t streamId = cli->nextStreamId; cli->nextStreamId += 2; return ((streamId == HTTP2Std_STREAM_ID_MAX) ? 0 : streamId); } /* * ======== sendAck ======== */ static int sendAck(HTTP2Cli_Handle cli, uint8_t type, uint8_t *payload, uint32_t len) { return (sendFrame(cli, type, HTTP2Std_FLAGS_ACK, HTTP2Std_STREAM_ID_DEFAULT, payload, len)); } /* * ======== getContinuationHeaders ======== * Reads all continuation header frames from the server * * Reads all continuation header frames and returns the header payload * in 'headerBlock' and the length of payload in 'len'. The 'endStream' * is set if no further frames are available in this stream. * * Returns 0 on success or < 0 on error */ static int getContinuationHeaders(HTTP2Cli_Handle cli, uint8_t **headerBlock, uint32_t *len, bool *endStream) { int ret = 0; uint8_t type; uint8_t flags; uint32_t streamId; uint32_t plen; uint8_t *payload = NULL; uint8_t *hb = NULL; flags = 0; while (!(flags & HTTP2Std_FLAGS_END_HEADERS) && (ret == 0)) { ret = recvFrame(cli, FRAME_RECV_TIMEOUT_MILLISECS, &type, &flags, &streamId, &payload, &plen); if (ret == 0) { if (type != HTTP2Std_FRAME_TYPE_CONTINUATION || !streamId) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else { if (payload && plen) { hb = (uint8_t *) realloc(*headerBlock, *len + plen); if (hb) { memcpy(hb + *len, payload, plen); *len += plen; *headerBlock = hb; } else { freeHeaderBlock(headerBlock); ret = HTTP2Cli_EINSUFFICIENTHEAP; } } } } free(payload); payload = NULL; } *endStream = flags & HTTP2Std_FLAGS_END_STREAM; return (ret); } /* * ======== processResponseHeaders ======== * Process the HTTP/2 headers received from the server * * All headers from the server are read and the header decompression * is applied. If a callback is registered, the headers are returned * to the user application through the callback. * * Returns 0 on success < 0 on failure. */ static int processResponseHeaders(HTTP2Cli_Handle cli, uint8_t flags, uint32_t streamId, uint8_t *payload, uint32_t len) { int i; int ret = 0; bool endStream; HTTP2Hdr_Field *headersList; uint32_t status = 0; uint8_t *headerBlock = NULL; uint32_t headerBlockLen = 0; uint8_t skipOctets = 0; uint8_t padding = 0; if (!streamId) { sendConnectionError(cli, HTTP2Std_STREAM_ID_DEFAULT, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else { endStream = flags & HTTP2Std_FLAGS_END_STREAM; if (flags & HTTP2Std_FLAGS_PADDED) { /* Headers: Padded Length */ decodeOctet(payload, HTTP2Std_HEADER_FIELD_PAD_LEN, &padding); /* Error if pad length > size remaining for header block */ if (padding >= (len - padding)) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } skipOctets += HTTP2Std_HEADER_FIELD_PAD_LEN; } if (ret == 0) { if (flags & HTTP2Std_FLAGS_PRIORITY) { /* ignore stream dependency and weights */ skipOctets += HTTP2Std_HEADER_STREAM_DEPENDENCY_LEN + HTTP2Std_HEADER_WEIGHT_LEN; } headerBlockLen = len - skipOctets - padding; headerBlock = (uint8_t *) malloc(headerBlockLen); if (headerBlock) { memcpy(headerBlock, payload + skipOctets, headerBlockLen); if (!(flags & HTTP2Std_FLAGS_END_HEADERS)) { ret = getContinuationHeaders(cli, &headerBlock, &headerBlockLen, &endStream); } if ((ret == 0) && cli->headersFxn) { ret = HPACK_decode(&(cli->hpack), headerBlock, headerBlockLen, &headersList); if (ret < 0) { if (ret == HPACK_EINSUFFICIENTHEAP) { ret = HTTP2Cli_EINSUFFICIENTHEAP; } else { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } } } free(headerBlock); } else { ret = HTTP2Cli_EINSUFFICIENTHEAP; } } if (ret > 0) { if (cli->headersFxn) { for (i = 0; i < ret; i++) { if (strncmp(HTTP2Std_PSEUDO_HEADER_STATUS, headersList[i].name, sizeof(HTTP2Std_PSEUDO_HEADER_STATUS) - 1) == 0) { status = strtoul(headersList[i].value, NULL, 10); break; } } cli->headersFxn(cli, cli->arg, streamId, status, headersList, ret, endStream); } HTTP2Hdr_free(&headersList, ret); ret = 0; } } return (ret); } /* * ======== processResponseData ======== * Process the data frame received from the server * * Processes the data frame and checks from RFC data frame conformance. * The processed payload will be returned to user application, if a * callback function was registered. * * Returns 0 on success < 0 on failure */ static int processResponseData(HTTP2Cli_Handle cli, uint8_t flags, uint32_t streamId, uint8_t *payload, uint32_t len) { int ret = 0; uint32_t padlen; bool endStream; if (!streamId) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else { endStream = flags & HTTP2Std_FLAGS_END_STREAM; if (flags & HTTP2Std_FLAGS_PADDED) { /* Data: Pad Length */ payload += decodeOctet(payload, HTTP2Std_DATA_FIELD_PAD_LEN, &padlen); if (padlen >= len) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else { len -= padlen; } } if ((ret == 0) && len && cli->dataFxn) { cli->dataFxn(cli, cli->arg, streamId, payload, len, endStream); } } return (ret); } /* * ======== HTTP2Cli_construct ======== */ void HTTP2Cli_construct(HTTP2Cli_Struct *cli, const HTTP2Cli_Params *params) { xassert(cli != NULL); xassert((params != NULL) && (params->tls != NULL)); memset(cli, 0, sizeof(HTTP2Cli_Struct)); cli->nextStreamId = HTTP2Std_STREAM_ID_CLIENT_DEFAULT; cli->serverSettings = defaultServerSettings; cli->headersFxn = params->headersFxn; cli->dataFxn = params->dataFxn; cli->tls = params->tls; cli->arg = params->arg; } /* * ======== HTTP2Cli_create ======== */ HTTP2Cli_Handle HTTP2Cli_create(const HTTP2Cli_Params *params) { HTTP2Cli_Handle cli; cli = (HTTP2Cli_Handle) malloc(sizeof(HTTP2Cli_Struct)); if (cli != NULL) { HTTP2Cli_construct(cli, params); } return (cli); } /* * ======== HTTP2Cli_delete ======== */ void HTTP2Cli_delete(HTTP2Cli_Handle *cli) { xassert(*cli != NULL); HTTP2Cli_destruct(*cli); free(*cli); *cli = NULL; } /* * ======== HTTP2Cli_destruct ======== */ void HTTP2Cli_destruct(HTTP2Cli_Struct *cli) { xassert(cli != NULL); memset(cli, 0, sizeof(HTTP2Cli_Struct)); } /* * ======== HTTP2Cli_initSockAddr ======== */ int HTTP2Cli_initSockAddr(const char *uri, bool ipv6, struct sockaddr *addr) { int ret = 0; char *hostname; uint32_t hlen; uint32_t port = HTTPStd_SECURE_PORT; xassert(addr != NULL); xassert(uri != NULL); hostname = strstr(uri, URI_SCHEME_SEPARATOR); if (hostname) { uri = hostname + sizeof(URI_SCHEME_SEPARATOR) - 1; } hostname = strchr(uri, URI_IPV6_ADDRESS_START); if (hostname) { uri += sizeof(char); hostname = strchr(uri, URI_IPV6_ADDRESS_STOP); if (!hostname){ return (HTTP2Cli_EHOSTNAMERESOLVE); } hlen = hostname - uri; /* get the port */ hostname = strchr(hostname, URI_PORT_SEPARATOR); if (hostname) { port = strtoul((hostname + 1), NULL, 10); } } else { hostname = strchr(uri, URI_PORT_SEPARATOR); if (hostname) { hlen = hostname - uri; port = strtoul((hostname + 1), NULL, 10); } else { hostname = strchr(uri, URI_PATH_SEPARATOR); if (hostname) { hlen = hostname - uri; } else { hlen = strlen(uri); } } } hostname = HTTP2Utils_stringDuplicate(uri, hlen); if (!hostname) { return (HTTP2Cli_EINSUFFICIENTHEAP); } #ifdef NET_SL unsigned long ip[4]; uint8_t family = AF_INET; if (ipv6) { family = AF_INET6; } ret = sl_NetAppDnsGetHostByName((signed char *)hostname, hlen, ip, family); if (ret < 0) { ret = HTTP2Cli_EHOSTNAMERESOLVE; goto error; } memset(addr, 0, sizeof(struct sockaddr)); if (ipv6) { ((struct sockaddr_in6 *)addr)->sin6_family = AF_INET6; ((struct sockaddr_in6 *)addr)->sin6_port = htons(port); ((struct sockaddr_in6 *)addr)->sin6_addr = *(struct in6_addr *) &ip; } else { ((struct sockaddr_in *)addr)->sin_family = AF_INET; ((struct sockaddr_in *)addr)->sin_port = htons(port); ((struct sockaddr_in *)addr)->sin_addr.s_addr = htonl(ip[0]); } #else struct addrinfo hints; struct addrinfo *rAddrs = NULL; struct addrinfo *tAddrs; memset(&hints, 0, sizeof(struct addrinfo)); memset(addr, 0, sizeof(struct sockaddr)); if (ipv6) { hints.ai_family = AF_INET6; } else { hints.ai_family = AF_INET; } hints.ai_socktype = SOCK_STREAM; ret = getaddrinfo(hostname, NULL, &hints, &rAddrs); if (ret != 0) { ret = HTTP2Cli_EHOSTNAMERESOLVE; goto error; } for (tAddrs = rAddrs; tAddrs != NULL; tAddrs = tAddrs->ai_next) { if (tAddrs->ai_family == hints.ai_family) { memcpy(addr, tAddrs->ai_addr, tAddrs->ai_addrlen); break; } } freeaddrinfo(rAddrs); if (ipv6) { ((struct sockaddr_in6 *)addr)->sin6_family = AF_INET6; ((struct sockaddr_in6 *)addr)->sin6_port = htons(port); } else { ((struct sockaddr_in *)addr)->sin_family = AF_INET; ((struct sockaddr_in *)addr)->sin_port = htons(port); } #endif ret = 0; error: free(hostname); return (ret); } /* * ======== HTTP2Cli_Params_init ======== */ void HTTP2Cli_Params_init(HTTP2Cli_Params *params) { xassert(params != NULL); memset(params, 0, sizeof(HTTP2Cli_Params)); } /* * ======== HTTP2Cli_connect ======== */ int HTTP2Cli_connect(HTTP2Cli_Handle cli, const struct sockaddr *addr, int flags) { int skt; int ret; socklen_t addrlen; char alpnList[] = ALPN_HTTP2_TLS_ID; xassert(cli != NULL); xassert(addr != NULL); if (addr->sa_family == AF_INET) { addrlen = sizeof(struct sockaddr_in); } else { addrlen = sizeof(struct sockaddr_in6); } HPACK_construct(&(cli->hpack)); skt = socket(addr->sa_family, SOCK_STREAM, TLS_SOCKET_OPT); if (skt != -1) { Ssock_construct(&(cli->ssock), skt); ret = Ssock_startTLSWithALPN(&(cli->ssock), cli->tls, alpnList); if (ret < 0) { cli->sockError = getErrno(ret); HTTP2Cli_disconnect(cli); ret = HTTP2Cli_ETLSFAIL; } else { ret = connect(skt, addr, addrlen); #ifdef NET_SL /* * SL returns unknown root CA error code if the CA certificate * is not found in its certificate store. This is a warning * code and not an error. So this error code is being ignored * till a better alternative is found. */ if (ret < 0 && getErrno(ret) != SL_ERROR_BSD_ESECUNKNOWNROOTCA) { #else if (ret < 0) { #endif cli->sockError = getErrno(ret); HTTP2Cli_disconnect(cli); ret = HTTP2Cli_ECONNECTFAIL; } else { /* Send the HTTP/2 Connection Preface */ ret = Ssock_send(&(cli->ssock), HTTP2Std_CLIENT_CONNECTION_PREFACE, sizeof(HTTP2Std_CLIENT_CONNECTION_PREFACE) - 1, 0); if (ret <= 0) { cli->sockError = getErrno(ret); HTTP2Cli_disconnect(cli); ret = HTTP2Cli_ESENDFAIL; } else { ret = syncSettings(cli); if (ret < 0) { HTTP2Cli_disconnect(cli); } } } } } else { cli->sockError = getErrno(skt); ret = HTTP2Cli_ESOCKETFAIL; } return (ret); } /* * ======== HTTP2Cli_disconnect ======== */ void HTTP2Cli_disconnect(HTTP2Cli_Handle cli) { int skt; xassert(cli != NULL); HPACK_destruct(&(cli->hpack)); skt = Ssock_getSocket(&(cli->ssock)); Ssock_destruct(&(cli->ssock)); close(skt); cli->nextStreamId = HTTP2Std_STREAM_ID_CLIENT_DEFAULT; cli->serverSettings = defaultServerSettings; } /* * ======== HTTP2Cli_sendRequest ======== */ int HTTP2Cli_sendRequest(HTTP2Cli_Handle cli, const char *method, const char *uri, HTTP2Hdr_Field *additionalHeaders, uint8_t headersLen, uint8_t *data, uint32_t dataLen, uint32_t *streamId) { int ret; bool endStream = false; if (dataLen == 0) { endStream = true; } ret = HTTP2Cli_sendRequestHeaders(cli, method, uri, additionalHeaders, headersLen, endStream, streamId); if (ret == 0 && dataLen) { ret = HTTP2Cli_sendRequestData(cli, streamId, data, dataLen, true); } return (ret); } /* * ======== HTTP2Cli_sendRequestHeaders ======== */ int HTTP2Cli_sendRequestHeaders(HTTP2Cli_Handle cli, const char *method, const char *uri, HTTP2Hdr_Field *additionalHeaders, uint8_t headersLen, bool endStream, uint32_t *streamId) { int ret; uint16_t numHeaders; uint8_t *headerBlock = NULL; HTTP2Hdr_Field *headersList = NULL; xassert(cli != NULL); xassert(method != NULL); xassert(uri != NULL); xassert(streamId != NULL); ret = getHeadersList(cli, method, uri, additionalHeaders, headersLen, &headersList); if (ret > 0) { numHeaders = ret; ret = HPACK_encode(&(cli->hpack), headersList, numHeaders, &headerBlock); HTTP2Hdr_free(&headersList, numHeaders); if (ret < 0) { ret = HTTP2Cli_EINSUFFICIENTHEAP; } else { *streamId = getNextStreamId(cli); ret = sendFrameAll(cli, HTTP2Std_FRAME_TYPE_HEADERS, *streamId, headerBlock, ret, endStream); freeHeaderBlock(&headerBlock); } } return (ret); } /* * ======== HTTP2Cli_sendRequestData ======== */ int HTTP2Cli_sendRequestData(HTTP2Cli_Handle cli, uint32_t *streamId, uint8_t *data, uint32_t dataLen, bool endStream) { int ret; xassert(cli != NULL); xassert(streamId != NULL); xassert(data != NULL); ret = sendFrameAll(cli, HTTP2Std_FRAME_TYPE_DATA, *streamId, data, dataLen, endStream); return (ret); } /* * ======== HTTP2Cli_processResponse ======== */ int HTTP2Cli_processResponse(HTTP2Cli_Handle cli, uint32_t timeoutMs, HTTP2Cli_Error *error) { int ret; uint8_t type; uint8_t flags; uint32_t streamId; uint8_t *payload = NULL; uint32_t len; xassert(cli != NULL); if (timeoutMs == 0) { return (0); } ret = recvFrame(cli, timeoutMs, &type, &flags, &streamId, &payload, &len); if (ret == 0) { switch (type) { case HTTP2Std_FRAME_TYPE_DATA: if (payload && len) { ret = processResponseData(cli, flags, streamId, payload, len); if (ret == 0) { ret = HTTP2Std_FRAME_TYPE_DATA; } } break; case HTTP2Std_FRAME_TYPE_HEADERS: if (payload && len) { ret = processResponseHeaders(cli, flags, streamId, payload, len); if (ret == 0) { ret = HTTP2Std_FRAME_TYPE_HEADERS; } } break; case HTTP2Std_FRAME_TYPE_PRIORITY: /* not expecting server streams, so ignoring priority */ ret = HTTP2Std_FRAME_TYPE_PRIORITY; break; case HTTP2Std_FRAME_TYPE_RST_STREAM: if (streamId == HTTP2Std_STREAM_ID_DEFAULT) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else if (len != HTTP2Std_RST_PAYLOAD_LEN) { sendConnectionError(cli, 0, HTTP2Std_ECODE_FRAME_SIZE_ERROR); ret = HTTP2Cli_EFRAMESIZE; } else { ret = HTTP2Cli_ERSTSTREAMRECV; if (error && payload && len) { error->streamId = streamId; decodeOctet(payload, len, &(error->ecode)); } } break; case HTTP2Std_FRAME_TYPE_SETTINGS: if (flags & HTTP2Std_FLAGS_ACK) { ret = HTTP2Std_FRAME_TYPE_SETTINGS; } else { if ((len % HTTP2Std_SETTINGS_PARAMS_LEN) || (payload == NULL)) { sendConnectionError(cli, 0, HTTP2Std_ECODE_FRAME_SIZE_ERROR); ret = HTTP2Cli_EFRAMESIZE; } else { updateSettings(cli, payload, len); ret = sendAck(cli, HTTP2Std_FRAME_TYPE_SETTINGS, NULL, 0); if (ret == 0) { ret = HTTP2Std_FRAME_TYPE_SETTINGS; } } } break; case HTTP2Std_FRAME_TYPE_PUSH_PROMISE: sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; break; case HTTP2Std_FRAME_TYPE_PING: if (streamId != HTTP2Std_STREAM_ID_DEFAULT) { sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; } else if ((len != HTTP2Std_PING_PAYLOAD_LEN) || (payload == NULL)) { sendConnectionError(cli, 0, HTTP2Std_ECODE_FRAME_SIZE_ERROR); ret = HTTP2Cli_EFRAMESIZE; } else { if (flags & HTTP2Std_FLAGS_ACK) { ret = memcmp(pingPayload, payload, HTTP2Std_PING_PAYLOAD_LEN); if (ret == 0) { ret = HTTP2Std_FRAME_TYPE_PING; } else { ret = HTTP2Cli_EPINGPAYLOAD; } } else { ret = sendAck(cli, HTTP2Std_FRAME_TYPE_PING, payload, len); if (ret == 0) { ret = HTTP2Std_FRAME_TYPE_PING; } } } break; case HTTP2Std_FRAME_TYPE_GOAWAY: ret = HTTP2Cli_EGOAWAYRECV; if (payload && len && error) { decodeOctet(payload, HTTP2Std_GOAWAY_PAYLOAD_FIELD_STREAM_ID_LEN, &(error->streamId)); decodeOctet(payload, HTTP2Std_GOAWAY_PAYLOAD_FIELD_ERROR_CODE_LEN, &(error->ecode)); } break; case HTTP2Std_FRAME_TYPE_WINDOW_UPDATE: /* not implemented */ ret = HTTP2Std_FRAME_TYPE_WINDOW_UPDATE; break; case HTTP2Std_FRAME_TYPE_CONTINUATION: /* * Continuation frames that occur in sequence will be read * during the header processing. Other continuation frames * are protocol violations. */ sendConnectionError(cli, 0, HTTP2Std_ECODE_PROTOCOL_ERROR); ret = HTTP2Cli_EPROTOCOL; break; } } if (payload) { free(payload); payload = NULL; } return (ret); } /* * ======== HTTP2Cli_getSocket ======== */ int HTTP2Cli_getSocket(HTTP2Cli_Handle cli) { return (Ssock_getSocket(&(cli->ssock))); } /* * ======== HTTP2Cli_getSocketError ======== */ int HTTP2Cli_getSocketError(HTTP2Cli_Handle cli) { return (cli->sockError); } /* * ======== HTTP2Cli_sendPing ======== */ int HTTP2Cli_sendPing(HTTP2Cli_Handle cli) { return (sendFrame(cli, HTTP2Std_FRAME_TYPE_PING, 0, HTTP2Std_STREAM_ID_DEFAULT, pingPayload, HTTP2Std_PING_PAYLOAD_LEN)); }

29.883952

80

0.546988

83e932bbb1d37c9f39e8b06daf88ce7109ae25fd

372

h

C

Pizza, Kebab, Dolma Little Restaurant/Pot.h

Limitless-Rasul-Power/Order-Meal-and-Choose-Ingredient-for-Meal

6739b1b711342bf52a860678a1a224c1c575f5ee

[ "MIT" ]

null

Pizza, Kebab, Dolma Little Restaurant/Pot.h

Limitless-Rasul-Power/Order-Meal-and-Choose-Ingredient-for-Meal

6739b1b711342bf52a860678a1a224c1c575f5ee

[ "MIT" ]

null

Pizza, Kebab, Dolma Little Restaurant/Pot.h

Limitless-Rasul-Power/Order-Meal-and-Choose-Ingredient-for-Meal

6739b1b711342bf52a860678a1a224c1c575f5ee

[ "MIT" ]

null

#pragma once #include "Cooking_Device.h" #include "Dolma.h" class Pot : public CookingDevice { public: Pot() = delete; Pot(Dolma* const& dolma) :CookingDevice(dolma) {} void Taste() const override { CookingDevice::Preparing_time(); std::cout << "I taste leaf hmm and meat WOOOOW this is Dolma, Azerbaijan one of the best food!!!\n\n"; } };

19.578947

105

0.655914

83e951d32a1494768ff4eadcff52e401826ec831

7,429

h

C

include/datastruct/queue.h

Enerccio/kclib

f01b37178085ee538098b537438ce348f977f499

[ "MIT" ]

null

include/datastruct/queue.h

Enerccio/kclib

f01b37178085ee538098b537438ce348f977f499

[ "MIT" ]

null

include/datastruct/queue.h

Enerccio/kclib

f01b37178085ee538098b537438ce348f977f499

[ "MIT" ]

null

/* * queue.h * * Created on: Jan 27, 2016 * Author: enerccio */ #ifndef INCLUDE_DATASTRUCT_QUEUE_H_ #define INCLUDE_DATASTRUCT_QUEUE_H_ #ifdef __cplusplus extern "C" { #endif #include <sys/kclib.h> #include <datastruct/dscommons.h> #define QUEUE_TYPE(type) __queue_ ## type ## _t #define QUEUE_HEADER(t) \ CE_TYPEDEF(t); \ CE_ELEMENT_GETTER(t); \ SEARCH_PREDICATE(t); \ typedef struct QUEUE_TYPE(t) {\ bool is_static;\ struct CE_TYPE(t)* first;\ struct CE_TYPE(t)* last;\ uint32_t size;\ CE_ELEMENT_GETTER_TYPE(t) static_getter;\ } QUEUE_TYPE(t);\ QUEUE_TYPE(t)* create_queue ## t();\ QUEUE_TYPE(t)* create_queue_static ## t(CE_ELEMENT_GETTER_TYPE(t) getter);\ t queue_pop ## t(QUEUE_TYPE(t)* queue);\ t queue_peek ## t(QUEUE_TYPE(t)* queue);\ bool queue_has_elements ## t(QUEUE_TYPE(t)* queue);\ bool queue_push ## t(QUEUE_TYPE(t)* queue, t data);\ uint32_t queue_size ## t(QUEUE_TYPE(t)* queue);\ void free_queue ## t(QUEUE_TYPE(t)* queue);\ void queue_remove ## t(t element, QUEUE_TYPE(t)* queue);\ t queue_find_by_predicate ## t(void* data, SEARCH_PREDICATE_TYPE(t) func, QUEUE_TYPE(t)* queue);\ #define QUEUE_FUNCDEFS(t) \ QUEUE_TYPE(t)* create_queue ## t(){\ QUEUE_TYPE(t)* queue = (QUEUE_TYPE(t)*) malloc(sizeof(QUEUE_TYPE(t)));\ if (queue == NULL)\ return NULL;\ queue->first = 0;\ queue->last = 0;\ queue->size = 0;\ queue->is_static = false;\ return queue;\ }\ QUEUE_TYPE(t)* create_queue_static ## t(CE_ELEMENT_GETTER_TYPE(t) getter){\ QUEUE_TYPE(t)* queue = (QUEUE_TYPE(t)*) malloc(sizeof(QUEUE_TYPE(t)));\ if (queue == NULL)\ return NULL;\ queue->first = 0;\ queue->last = 0;\ queue->size = 0;\ queue->static_getter = getter;\ queue->is_static = true;\ return queue;\ }\ t queue_pop ## t(QUEUE_TYPE(t)* queue){\ struct CE_TYPE(t)* queue_head = queue->first;\ if (queue_head == 0)\ return 0;\ \ if (queue->size == 1) {\ queue->first = 0;\ queue->last = 0;\ queue->size = 0;\ t data = queue_head->data;\ if (queue->is_static != true)\ free(queue_head);\ return data;\ }\ \ t data = queue_head->data;\ queue->first = queue_head->next;\ \ if (queue->is_static != true)\ free(queue_head);\ \ queue->size--;\ return data;\ }\ t queue_peek ## t(QUEUE_TYPE(t)* queue){\ struct CE_TYPE(t)* queue_head = queue->first;\ if (queue_head == 0)\ return 0;\ \ return queue_head->data;\ }\ bool queue_has_elements ## t(QUEUE_TYPE(t)* queue){\ return queue_size(t, queue) > 0;\ }\ bool queue_push ## t(QUEUE_TYPE(t)* queue, t data){\ struct CE_TYPE(t)* element;\ if (queue->is_static == true)\ element = queue->static_getter(data);\ else\ element = (struct CE_TYPE(t)*) malloc(sizeof(struct CE_TYPE(t)));\ \ if (element == 0)\ return true;\ \ element->data = data;\ element->next = 0;\ element->previous = 0;\ \ if (queue->first == 0) {\ queue->first = queue->last = element;\ queue->size = 1;\ } else {\ queue->last->next = element;\ element->previous = queue->last;\ queue->last = element;\ queue->size++;\ }\ \ return false;\ }\ uint32_t queue_size ## t(QUEUE_TYPE(t)* queue){\ return queue->size;\ }\ void free_queue ## t(QUEUE_TYPE(t)* queue){\ if (queue->is_static == true) {\ free(queue);\ } else {\ struct CE_TYPE(t)* el = queue->first;\ while (el != 0) {\ struct CE_TYPE(t)* tmp = el->next;\ free(el);\ el = tmp;\ }\ free(queue);\ }\ }\ void queue_remove ## t(t element, QUEUE_TYPE(t)* queue){\ if (queue->size == 0)\ return;\ \ struct CE_TYPE(t)* e = queue->first;\ while (e != 0 && e->data != element)\ e = e->next;\ \ if (e) {\ if (e->previous)\ e->previous->next = e->next;\ if (e->next)\ e->next->previous = e->previous;\ if (queue->is_static != true)\ free(e);\ }\ }\ t queue_find_by_predicate ## t(void* data, SEARCH_PREDICATE_TYPE(t) func, QUEUE_TYPE(t)* queue){\ if (queue->size == 0)\ return 0;\ \ struct CE_TYPE(t)* e = queue->first;\ while (e != 0 && func(e->data, data) == false)\ e = e->next;\ \ if (e)\ return e->data;\ else\ return 0;\ }\ /******************************************************************************//** * \brief Creates empty queue * * This queue can take any amount of elements and will resize itself when necessary. ********************************************************************************/ #define create_queue(type) create_queue ## type () /******************************************************************************//** * \brief Creates empty queue, using data as value * * This queue can take any amount of elements and will resize itself when necessary. ********************************************************************************/ #define create_queue_static(type, getter) create_queue_static ## type (getter) /******************************************************************************//** * \brief Removes head of the queue and returns it. * * Returns NULL if queue is empty. ********************************************************************************/ #define queue_pop(type, queue) queue_pop ## type (queue) /******************************************************************************//** * \brief Returns head of the queue without removing it. * * Returns NULL if queue is empty. ********************************************************************************/ #define queue_peek(type, queue) queue_peek ## type (queue) /******************************************************************************//** * Returns true if queue is not empty. ********************************************************************************/ #define queue_has_elements(type, queue) queue_has_elements ## type (queue) /******************************************************************************//** * \brief Adds element to the queue. * * Element is put at the end of the queue. * Returns true if failure happened. ********************************************************************************/ #define queue_push(type, queue, data) queue_push ## type (queue, data) /******************************************************************************//** * Returns number of elements in the queue. ********************************************************************************/ #define queue_size(type, queue) queue_size ## type (queue) /******************************************************************************//** * \brief Deallocates queue. * * Removes all memory used by this queue. Elements in the queue are NOT * deallocated. ********************************************************************************/ #define free_queue(type, queue) free_queue ## type (queue) /******************************************************************************//** * \brief Removes element from queue at any position. * * Element is compared via ==. ********************************************************************************/ #define queue_remove(type, element, queue) queue_remove ## type (element, queue) /******************************************************************************//** * \brief Returns element from queue found by search predicate. * * For more info, see array. ********************************************************************************/ #define queue_find_by_predicate(type, data, func, queue) queue_find_by_predicate ## type (data, func, queue) #ifdef __cplusplus } #endif #endif /* INCLUDE_DATASTRUCT_QUEUE_H_ */

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689

h

C

System/Library/PrivateFrameworks/ContactsFoundation.framework/CNZombies.h

lechium/tvOS124Headers

11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475

[ "MIT" ]

4

2019-08-27T18:03:47.000Z

2021-09-18T06:29:00.000Z

System/Library/PrivateFrameworks/ContactsFoundation.framework/CNZombies.h

lechium/tvOS124Headers

11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475

[ "MIT" ]

null

System/Library/PrivateFrameworks/ContactsFoundation.framework/CNZombies.h

lechium/tvOS124Headers

11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475

[ "MIT" ]

null

/* * This header is generated by classdump-dyld 1.0 * on Saturday, August 24, 2019 at 9:43:26 PM Mountain Standard Time * Operating System: Version 12.4 (Build 16M568) * Image Source: /System/Library/PrivateFrameworks/ContactsFoundation.framework/ContactsFoundation * classdump-dyld is licensed under GPLv3, Copyright © 2013-2016 by Elias Limneos. */ @interface CNZombies : NSObject +(BOOL)__writeZombieStacksToDiskForObject:(id)arg1 ; +(id)__copyArrayOfStringsForPointers:(id)arg1 ; +(id)__objectZombieLock; +(id)__objectZombieMap; +(id)__objectRRLock; +(id)__objectRRMap; +(id)__stackUniquingLock; +(id)__stackUniquingSet; +(BOOL)__writeAllZombieStacksToDisk; +(void)initialize; @end

29.956522

97

0.78955

83ec66c017026595c316b5459008b4d7510d6eea

1,067

h

C

dep/bgcc/BGCC-master/sample/callback/callback_send_impl.h

xjshiMax/cc

45a8dc91f128ffe3c4b60b8faa136f45545a56f1

[ "Apache-2.0" ]

4

2019-11-11T08:16:08.000Z

2020-08-25T03:08:44.000Z

dep/bgcc/BGCC-master/sample/callback/callback_send_impl.h

xjshiMax/cc

45a8dc91f128ffe3c4b60b8faa136f45545a56f1

[ "Apache-2.0" ]

1

2019-06-21T09:52:18.000Z

dep/bgcc/BGCC-master/sample/callback/callback_send_impl.h

xjshiMax/cc

45a8dc91f128ffe3c4b60b8faa136f45545a56f1

[ "Apache-2.0" ]

5

2019-07-02T02:03:24.000Z

2022-03-30T09:58:52.000Z

/*************************************************************************** * * Copyright (c) 2012 Baidu.com, Inc. All Rights Reserved * $Id$ * **************************************************************************/ /** * @file callback_send_impl.h * @author chenyuzhen(chenyuzhen@baidu.com) * @date 2012/11/13 11:25:46 * @version 1.0.0 * @brief * **/ #ifndef __CALLBACK_SEND_IMPL_H_ #define __CALLBACK_SEND_IMPL_H_ #include "output-cpp/callback.h" extern std::map<std::string, demo::CallbackRecverProxy*> g_proxys; extern bgcc::Mutex g_mutex; class callback_send_impl_t : public demo::CallbackSender { public: virtual demo::CallbackResult AddClient( const std::map<std::string, std::string>& ctx); virtual demo::CallbackResult DelClient( const std::map<std::string, std::string>& ctx); }; class callback_send_thrd_t : public bgcc::Runnable { virtual int32_t operator()(const bool* isstopped, void* arg); }; #endif //__CALLBACK_SEND_IMPL_H_ /* vim: set ts=4 sw=4 sts=4 tw=100 noet: */

18.396552

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83eca60c2f30de01042916b0b40cad0b3cc64b11

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C

source/src/inc/irwriter.h

onsoim/FuzzBuilderEx

d0e8bada27677a0f676e92dc48aaa764ba679508

[ "Apache-2.0" ]

6

2021-03-27T06:07:01.000Z

2022-03-29T04:54:03.000Z

source/src/inc/irwriter.h

onsoim/FuzzBuilderEx

d0e8bada27677a0f676e92dc48aaa764ba679508

[ "Apache-2.0" ]

4

2021-03-24T00:10:59.000Z

2022-03-28T13:41:28.000Z

source/src/inc/irwriter.h

onsoim/FuzzBuilderEx

d0e8bada27677a0f676e92dc48aaa764ba679508

[ "Apache-2.0" ]

2

2021-04-05T06:22:20.000Z

2021-10-01T21:07:18.000Z

#ifndef __IRWRITER_H__ #define __IRWRITER_H__ #include "llvm/IR/Function.h" #include "llvm/IR/Module.h" #include <set> using namespace llvm; using namespace std; class IRWriter { private: static string GLOBAL_BUFFER; static string GLOBAL_SIZE; static string GLOBAL_INTEGER; static set<Instruction*> MODIFIED; const string GLOBAL_BUFFER_PREFIX = "fuzzbuilder_buffer"; const string GLOBAL_SIZE_PREFIX = "fuzzbuilder_size"; const string GLOBAL_INTEGER_PREFIX = "fuzzbuilder_integer"; const string COLLECT_PATH = "/tmp/fuzzbuilder.collect"; const string SPLITTER = "fuzzbuilder=============\n"; const string INTEGER_FORMAT = "%d\n"; Function* f; GlobalVariable* get_global_buffer(Module& m, const bool is_user); GlobalVariable* get_global_size(Module& m, const bool is_user); GlobalVariable* get_global_integer(Module& m, const bool is_user); Function* get_read_function(Module& m); Function* get_calloc_function(Module& m); Function* get_free_function(Module& m); Function* get_memcpy_function(Module& m); Function* get_open_function(Module& m); Function* get_flock_function(Module& m); Function* get_write_function(Module& m); Function* get_close_function(Module& m); Function* get_strlen_function(Module& m); Function* get_dprintf_function(Module& m); void set_argument(Instruction& i, Value& v, size_t idx); bool is_modified(Instruction& i); void set_modified(Instruction& i); public: IRWriter(Function* f); bool interface(); void fuzz(); bool skip(); void collect(); }; #endif

28.981481

68

0.74377

83edaab5d1909c810973028289f556085b6e5b37

96

h

C

src/render.h

JosteinTopland/lolo3d

2c15e33a2987762881648c42b838f52039cd16c3

[ "MIT" ]

null

src/render.h

JosteinTopland/lolo3d

2c15e33a2987762881648c42b838f52039cd16c3

[ "MIT" ]

null

src/render.h

JosteinTopland/lolo3d

2c15e33a2987762881648c42b838f52039cd16c3

[ "MIT" ]

null

#ifndef RENDER_H #define RENDER_H #include "types.h" void render_level(Level *level); #endif

10.666667

32

0.75

83ef6b92d22fa0e7631b06968df0a9852c21f1d7

293

h

C

JChat/Controller/PersonInfo/JCHATSettingViewController.h

randy-Zhang/testJM

e8f99a1939e0175926527f0c7097cc31122809d6

[ "MIT" ]

113

2015-05-06T12:30:42.000Z

2022-01-13T08:55:53.000Z

JChat/Controller/PersonInfo/JCHATSettingViewController.h

randy-Zhang/testJM

e8f99a1939e0175926527f0c7097cc31122809d6

[ "MIT" ]

13

2015-07-02T00:58:19.000Z

2021-02-24T06:15:11.000Z

JChat/Controller/PersonInfo/JCHATSettingViewController.h

randy-Zhang/testJM

e8f99a1939e0175926527f0c7097cc31122809d6

[ "MIT" ]

43

2015-05-06T06:26:25.000Z

2021-08-19T06:35:41.000Z

// // JCHATSettingViewController.h // JPush IM // // Created by Apple on 14/12/26. // Copyright (c) 2014年 Apple. All rights reserved. // #import <UIKit/UIKit.h> @interface JCHATSettingViewController : UIViewController<UITableViewDataSource,UITableViewDelegate,UIAlertViewDelegate> @end

20.928571

119

0.761092

83f003450b3173e64d199815d887892b7741a769

5,845

c

C

fntsrc/u8g_font_gdr10r.c

JJPowelly/u8glib

eedf07de97852e1a453cfbe2ef906cedb8ca1169

[ "BSD-2-Clause" ]

1,209

2015-06-25T05:33:20.000Z

2022-03-31T17:20:03.000Z

fntsrc/u8g_font_gdr10r.c

JJPowelly/u8glib

eedf07de97852e1a453cfbe2ef906cedb8ca1169

[ "BSD-2-Clause" ]

201

2015-06-25T20:59:07.000Z

2022-03-27T18:55:11.000Z

fntsrc/u8g_font_gdr10r.c

JJPowelly/u8glib

eedf07de97852e1a453cfbe2ef906cedb8ca1169

[ "BSD-2-Clause" ]

354

2015-06-25T18:11:56.000Z

2022-03-21T13:58:24.000Z

/* Fontname: -FreeType-Gentium Basic-Medium-R-Normal--17-170-72-72-P-77-ISO10646-1 Copyright: Copyright (c) SIL International, 2003-2008. Capital A Height: 10, '1' Height: 10 Calculated Max Values w=14 h=17 x= 2 y= 9 dx=14 dy= 0 ascent=14 len=28 Font Bounding box w=25 h=24 x=-9 y=-6 Calculated Min Values x=-2 y=-4 dx= 0 dy= 0 Pure Font ascent =10 descent=-4 X Font ascent =13 descent=-4 Max Font ascent =14 descent=-4 */ #include "u8g.h" const u8g_fntpgm_uint8_t u8g_font_gdr10r[1723] U8G_FONT_SECTION("u8g_font_gdr10r") = { 0,25,24,247,250,10,2,30,4,177,32,127,252,14,252,13, 252,0,0,0,4,0,0,2,12,12,5,1,0,64,192,64, 64,64,64,64,64,64,0,64,64,5,5,5,7,1,7,216, 216,88,72,72,7,9,9,8,1,1,20,36,126,40,72,252, 80,80,144,7,12,12,8,0,255,16,56,84,80,112,56,30, 18,146,212,120,16,10,10,20,12,1,0,96,128,145,0,146, 0,150,0,164,0,105,128,18,64,50,64,34,64,65,128,10, 12,24,11,1,0,28,0,36,0,36,0,36,0,40,0,51, 192,81,0,153,0,141,0,134,0,135,0,121,192,2,5,5, 4,1,7,192,192,64,64,64,3,16,16,5,1,253,32,64, 64,128,128,128,128,128,128,128,128,128,128,64,64,32,3,16, 16,5,1,253,128,64,64,32,32,32,32,32,32,32,32,32, 32,64,64,128,6,7,7,8,1,6,32,168,236,48,252,164, 32,6,6,6,7,1,2,32,32,32,252,32,32,2,4,4, 4,1,253,192,64,64,128,4,1,1,6,1,4,240,1,2, 2,4,2,0,128,128,8,16,16,8,0,253,3,2,6,4, 4,12,8,8,16,16,48,32,32,96,64,192,6,10,10,8, 1,0,56,72,132,132,132,132,132,132,72,112,5,10,10,8, 2,0,32,224,32,32,32,32,32,32,32,248,5,10,10,8, 2,0,56,200,136,8,16,32,32,64,136,248,6,10,10,8, 1,0,112,136,136,16,48,8,4,4,140,120,6,10,10,8, 1,0,8,24,40,40,72,136,252,8,8,60,6,10,10,8, 1,0,124,64,64,120,140,4,4,4,132,120,6,10,10,8, 1,0,24,32,64,128,248,132,132,132,72,56,6,10,10,8, 1,0,252,132,8,8,8,16,16,32,32,64,6,10,10,8, 1,0,120,196,196,200,56,204,132,132,132,120,6,10,10,8, 1,0,56,200,132,132,132,124,4,8,16,96,1,8,8,4, 2,0,128,128,0,0,0,0,128,128,2,11,11,4,1,253, 64,64,0,0,0,0,0,192,64,64,128,6,5,5,7,1, 2,12,112,128,112,12,6,3,3,7,1,3,252,0,252,6, 5,5,7,1,2,192,56,12,112,128,6,12,12,7,1,0, 56,68,132,4,4,8,16,32,32,32,32,32,12,14,28,14, 1,253,15,128,16,64,96,32,71,144,136,144,144,144,144,144, 144,144,144,144,137,160,78,192,96,0,48,96,15,128,10,10, 20,10,0,0,4,0,12,0,20,0,18,0,18,0,30,0, 33,0,33,0,65,128,227,192,7,10,10,9,1,0,248,68, 68,68,124,70,66,66,66,252,7,10,10,9,1,0,62,66, 128,128,128,128,128,128,66,60,8,10,10,10,1,0,252,70, 65,65,65,65,65,66,66,252,7,10,10,8,1,0,252,68, 64,64,124,64,64,64,66,254,7,10,10,8,1,0,254,68, 64,64,120,64,64,64,64,224,9,10,20,10,1,0,30,0, 99,0,128,0,128,0,128,0,135,128,129,0,129,0,97,0, 62,0,9,10,20,11,1,0,227,128,65,0,65,0,65,0, 127,0,65,0,65,0,65,0,65,0,227,128,3,10,10,5, 1,0,224,64,64,64,64,64,64,64,64,224,6,13,13,5, 254,253,60,8,8,8,8,8,8,8,8,8,8,16,224,9, 10,20,10,1,0,231,0,68,0,72,0,80,0,96,0,80, 0,88,0,76,0,70,0,227,128,7,10,10,8,1,0,224, 64,64,64,64,64,64,64,66,254,12,10,20,14,1,0,192, 112,96,96,96,224,112,224,81,96,89,32,74,32,78,32,68, 32,228,240,9,10,20,11,1,0,195,128,97,0,97,0,81, 0,73,0,77,0,69,0,67,0,67,0,225,0,8,10,10, 10,1,0,60,66,129,129,129,129,129,130,66,60,7,10,10, 9,1,0,252,70,66,66,70,120,64,64,64,224,10,12,24, 10,1,254,60,0,66,0,129,0,129,0,129,0,129,0,129, 0,130,0,66,0,60,0,6,128,3,192,9,10,20,10,1, 0,252,0,70,0,66,0,66,0,68,0,120,0,76,0,68, 0,70,0,227,128,6,10,10,8,1,0,120,140,128,192,112, 8,4,132,132,248,9,10,20,9,0,0,255,128,136,128,8, 0,8,0,8,0,8,0,8,0,8,0,8,0,28,0,9, 10,20,11,1,0,227,128,65,0,65,0,65,0,65,0,65, 0,65,0,65,0,34,0,60,0,11,10,20,11,0,0,241, 224,32,128,32,128,49,0,17,0,25,0,10,0,10,0,14, 0,4,0,14,10,20,14,0,0,241,28,99,8,35,16,35, 144,36,144,52,144,20,80,24,96,24,96,24,32,10,10,20, 10,0,0,243,192,33,0,51,0,26,0,12,0,12,0,18, 0,49,0,33,128,243,192,9,10,20,10,1,0,195,128,97, 0,50,0,22,0,28,0,8,0,8,0,8,0,8,0,28, 0,8,10,10,9,0,0,127,66,70,4,8,24,16,33,97, 255,4,16,16,5,1,253,240,128,128,128,128,128,128,128,128, 128,128,128,128,128,128,240,8,16,16,8,0,253,192,64,64, 32,32,48,16,16,8,8,12,4,4,6,2,3,4,16,16, 5,0,253,240,16,16,16,16,16,16,16,16,16,16,16,16, 16,16,240,7,8,8,8,1,5,16,48,56,72,72,76,132, 134,6,1,1,8,1,254,252,4,3,3,5,0,9,192,96, 48,7,8,8,8,1,0,28,100,4,28,100,132,140,118,8, 13,13,9,0,0,64,192,64,64,64,78,115,65,65,65,65, 66,60,6,8,8,7,1,0,60,72,128,128,128,128,196,120, 8,13,13,9,1,0,6,2,2,2,2,62,66,130,130,130, 130,70,59,6,8,8,8,1,0,56,68,132,252,128,128,68, 120,6,13,13,5,1,0,28,40,64,64,64,240,64,64,64, 64,64,64,240,8,12,12,8,0,252,63,70,130,130,196,56, 96,60,195,129,194,124,8,13,13,9,1,0,64,192,64,64, 64,78,82,98,66,66,66,66,231,3,11,11,5,1,0,64, 192,0,64,192,64,64,64,64,64,224,5,15,15,4,254,252, 8,24,0,8,24,8,8,8,8,8,8,8,8,16,224,8, 13,13,9,1,0,64,192,64,64,64,78,72,80,96,80,72, 76,231,3,13,13,5,1,0,64,192,64,64,64,64,64,64, 64,64,64,64,224,11,8,16,12,1,0,221,192,102,64,68, 64,68,64,68,64,68,64,68,64,238,224,8,8,8,9,1, 0,78,210,98,66,66,66,66,231,7,8,8,9,1,0,56, 68,130,130,130,130,68,56,7,12,12,9,1,252,92,230,66, 66,66,66,68,120,64,64,64,224,8,12,12,9,1,252,62, 66,130,130,130,130,70,58,2,2,2,7,6,8,8,7,1, 0,220,104,64,64,64,64,64,224,5,8,8,7,1,0,112, 136,128,96,24,136,136,240,5,10,10,6,1,0,64,64,248, 64,64,64,64,64,64,120,9,8,16,9,0,0,195,0,65, 0,65,0,65,0,65,0,65,0,67,0,61,128,8,8,8, 8,0,0,227,98,34,36,52,20,24,8,12,8,16,12,0, 0,226,112,102,32,38,32,39,64,41,64,57,64,24,128,16, 128,8,8,8,9,0,0,247,34,52,24,28,36,66,231,8, 12,12,8,0,252,231,98,34,36,52,20,24,8,8,16,160, 192,6,8,8,8,1,0,252,136,16,48,32,64,196,252,4, 16,16,6,1,253,48,64,64,64,96,32,32,64,224,32,32, 96,64,64,64,32,1,17,17,4,2,253,128,128,128,128,128, 128,128,128,128,128,128,128,128,128,128,128,128,5,16,16,5, 0,253,64,32,32,32,32,32,32,56,48,32,32,32,32,32, 32,192,8,2,2,8,0,4,57,206,255};

47.909836

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0.618135

83f0b5f81aa7711ac696856bb9a2f0abd9af1fab

160,711

c

C

slprj/_sfprj/Demo_AU_VA_SBM/_self/sfun/src/c3_Demo_AU_VA_SBM.c

maryamsab/realact

90fbf3fcb4696353c8a14d76797e5908126a9525

[ "BSD-3-Clause" ]

1

2020-12-02T21:41:36.000Z

slprj/_sfprj/Demo_AU_VA_SBM/_self/sfun/src/c3_Demo_AU_VA_SBM.c

maryamsab/realact

90fbf3fcb4696353c8a14d76797e5908126a9525

[ "BSD-3-Clause" ]

null

slprj/_sfprj/Demo_AU_VA_SBM/_self/sfun/src/c3_Demo_AU_VA_SBM.c

maryamsab/realact

90fbf3fcb4696353c8a14d76797e5908126a9525

[ "BSD-3-Clause" ]

1

2018-06-23T11:59:06.000Z

/* Include files */ #include <stddef.h> #include "blas.h" #include "Demo_AU_VA_SBM_sfun.h" #include "c3_Demo_AU_VA_SBM.h" #define CHARTINSTANCE_CHARTNUMBER (chartInstance->chartNumber) #define CHARTINSTANCE_INSTANCENUMBER (chartInstance->instanceNumber) #include "Demo_AU_VA_SBM_sfun_debug_macros.h" #define _SF_MEX_LISTEN_FOR_CTRL_C(S) sf_mex_listen_for_ctrl_c(sfGlobalDebugInstanceStruct,S); /* Type Definitions */ /* Named Constants */ #define c3_event_secs (0) #define CALL_EVENT (-1) #define c3_IN_NO_ACTIVE_CHILD ((uint8_T)0U) #define c3_IN_Mid ((uint8_T)1U) #define c3_IN_checkHighPriority ((uint8_T)2U) #define c3_IN_init ((uint8_T)3U) #define c3_IN_low ((uint8_T)4U) #define c3_IN_sendH ((uint8_T)5U) #define c3_IN_sendL ((uint8_T)6U) #define c3_IN_sendM ((uint8_T)7U) /* Variable Declarations */ /* Variable Definitions */ static real_T _sfTime_; static const mxArray *c3_subchartSimStateInfo; static const char * c3_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_b_debug_family_names[9] = { "maxarrsize", "arr", "ss", "padsize", "tt", "mystr", "nargin", "nargout", "myarr256" }; static const char * c3_c_debug_family_names[4] = { "nargin", "nargout", "bmls", "newBmls" }; static const char * c3_d_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_e_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_f_debug_family_names[6] = { "tempp", "i", "nargin", "nargout", "bmls", "empty" }; static const char * c3_g_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_h_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_i_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_j_debug_family_names[2] = { "nargin", "nargout" }; static const char * c3_k_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_l_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_m_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_n_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_o_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_p_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_q_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_r_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_s_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_t_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_u_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_v_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_w_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_x_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_y_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_ab_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_bb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_cb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_db_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_eb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_fb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_gb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_hb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_ib_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_jb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static const char * c3_kb_debug_family_names[3] = { "nargin", "nargout", "sf_internal_predicateOutput" }; static boolean_T c3_dataWrittenToVector[13]; /* Function Declarations */ static void initialize_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void initialize_params_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void enable_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void disable_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_update_debugger_state_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static const mxArray *get_sim_state_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void set_sim_state_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_st); static void c3_set_sim_state_side_effects_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void finalize_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void sf_gateway_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void initSimStructsc3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_sendBMLbyPriority(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_enter_atomic_sendH(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_enter_atomic_sendM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_low(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); static void c3_encStr2Arr(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_myarr256[1000]); static boolean_T c3_isequal(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_varargin_1[1000], real_T c3_varargin_2[1000]); static void init_script_number_translation(uint32_T c3_machineNumber, uint32_T c3_chartNumber, uint32_T c3_instanceNumber); static const mxArray *c3_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static real_T c3_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_nargout, const char_T *c3_identifier); static real_T c3_b_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_b_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static void c3_c_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[1000]); static void c3_b_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_c_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static const mxArray *c3_d_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static void c3_d_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_newBmls, const char_T *c3_identifier, real_T c3_y[5000]); static void c3_e_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[5000]); static void c3_c_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_e_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static boolean_T c3_f_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_d_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static void c3_info_helper(const mxArray **c3_info); static const mxArray *c3_emlrt_marshallOut(const char * c3_u); static const mxArray *c3_b_emlrt_marshallOut(const uint32_T c3_u); static void c3_removeQueue(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_bmls[5000], real_T c3_newBmls[5000]); static real_T c3_isEmptyQueue(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_bmls[5000]); static const mxArray *c3_f_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static int8_T c3_g_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_e_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_g_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static int32_T c3_h_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_f_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_h_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static uint8_T c3_i_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_tp_facialExpression_Controller, const char_T *c3_identifier); static uint8_T c3_j_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_g_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_i_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static void c3_k_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_emotion_amount_factor, const char_T *c3_identifier, real_T c3_y[20]); static void c3_l_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[20]); static void c3_h_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_j_sf_marshallOut(void *chartInstanceVoid, void *c3_inData); static void c3_m_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_BML, const char_T *c3_identifier, real_T c3_y[1000]); static void c3_n_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[1000]); static void c3_i_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData); static const mxArray *c3_o_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_subchartSimStateInfo, const char_T *c3_identifier); static const mxArray *c3_p_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId); static void c3_updateDataWrittenToVector(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_vectorIndex); static void c3_errorIfDataNotWrittenToFcn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_vectorIndex, uint32_T c3_dataNumber); static real_T c3_get_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b); static void c3_set_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b, real_T c3_c); static real_T *c3_access_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b); static void init_dsm_address_info(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance); /* Function Definitions */ static void initialize_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { int32_T c3_i0; int32_T c3_i1; real_T (*c3_emotion_amount_factor)[20]; c3_emotion_amount_factor = (real_T (*)[20])ssGetOutputPortSignal (chartInstance->S, 1); sf_exported_auto_initc50_Demo_AU_VA_SBM(chartInstance->c3_subchartSimstruct); _sfTime_ = sf_get_time(chartInstance->S); c3_subchartSimStateInfo = NULL; chartInstance->c3_doSetSimStateSideEffects = 0U; chartInstance->c3_setSimStateSideEffectsInfo = NULL; chartInstance->c3_is_active_facialExpression_Controller = 0U; chartInstance->c3_tp_facialExpression_Controller = 0U; chartInstance->c3_is_active_sendBMLbyPriority = 0U; chartInstance->c3_is_sendBMLbyPriority = c3_IN_NO_ACTIVE_CHILD; chartInstance->c3_tp_sendBMLbyPriority = 0U; chartInstance->c3_tp_Mid = 0U; chartInstance->c3_tp_checkHighPriority = 0U; chartInstance->c3_tp_init = 0U; chartInstance->c3_tp_low = 0U; chartInstance->c3_tp_sendH = 0U; chartInstance->c3_tp_sendL = 0U; chartInstance->c3_tp_sendM = 0U; chartInstance->c3_is_active_c3_Demo_AU_VA_SBM = 0U; for (c3_i0 = 0; c3_i0 < 5000; c3_i0++) { c3_set_bmlsL(chartInstance, c3_i0, 0.0); } if (!(sf_get_output_port_reusable(chartInstance->S, 1) != 0)) { for (c3_i1 = 0; c3_i1 < 20; c3_i1++) { (*c3_emotion_amount_factor)[c3_i1] = 0.0; } } } static void initialize_params_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { (void)chartInstance; } static void enable_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { _sfTime_ = sf_get_time(chartInstance->S); if (chartInstance->c3_is_active_sendBMLbyPriority == 1U) { sf_call_output_fcn_enable(chartInstance->S, 0, "sendBML", 0); } if (chartInstance->c3_is_active_facialExpression_Controller == 1U) { sf_exported_auto_enablec50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); } } static void disable_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { _sfTime_ = sf_get_time(chartInstance->S); if (chartInstance->c3_is_active_sendBMLbyPriority == 1U) { sf_call_output_fcn_disable(chartInstance->S, 0, "sendBML", 0); } if (chartInstance->c3_is_active_facialExpression_Controller == 1U) { sf_exported_auto_disablec50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); } } static void c3_update_debugger_state_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { uint32_T c3_prevAniVal; c3_prevAniVal = _SFD_GET_ANIMATION(); _SFD_SET_ANIMATION(0U); _SFD_SET_HONOR_BREAKPOINTS(0U); if (chartInstance->c3_is_active_c3_Demo_AU_VA_SBM == 1U) { _SFD_CC_CALL(CHART_ACTIVE_TAG, 0U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_active_facialExpression_Controller == 1U) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_active_sendBMLbyPriority == 1U) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 1U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 1U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendH) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 9U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_init) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 4U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 4U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_checkHighPriority) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 3U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendM) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 11U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 11U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_Mid) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 2U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendL) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 10U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 10U, chartInstance->c3_sfEvent); } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_low) { _SFD_CS_CALL(STATE_ACTIVE_TAG, 6U, chartInstance->c3_sfEvent); } else { _SFD_CS_CALL(STATE_INACTIVE_TAG, 6U, chartInstance->c3_sfEvent); } _SFD_SET_ANIMATION(c3_prevAniVal); _SFD_SET_HONOR_BREAKPOINTS(1U); _SFD_ANIMATE(); } static const mxArray *get_sim_state_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { const mxArray *c3_st; const mxArray *c3_y = NULL; int32_T c3_i2; real_T c3_u[20]; const mxArray *c3_b_y = NULL; int32_T c3_i3; real_T c3_b_u[1000]; const mxArray *c3_c_y = NULL; int32_T c3_i4; static real_T c3_c_u[5000]; const mxArray *c3_d_y = NULL; int32_T c3_i5; static real_T c3_d_u[5000]; const mxArray *c3_e_y = NULL; int32_T c3_i6; real_T c3_e_u[5000]; const mxArray *c3_f_y = NULL; real_T c3_hoistedGlobal; real_T c3_f_u; const mxArray *c3_g_y = NULL; real_T c3_b_hoistedGlobal; real_T c3_g_u; const mxArray *c3_h_y = NULL; real_T c3_c_hoistedGlobal; real_T c3_h_u; const mxArray *c3_i_y = NULL; int32_T c3_i7; real_T c3_i_u[1000]; const mxArray *c3_j_y = NULL; real_T c3_d_hoistedGlobal; real_T c3_j_u; const mxArray *c3_k_y = NULL; int32_T c3_i8; real_T c3_k_u[5000]; const mxArray *c3_l_y = NULL; int32_T c3_i9; real_T c3_l_u[5000]; const mxArray *c3_m_y = NULL; int32_T c3_i10; real_T c3_m_u[5000]; const mxArray *c3_n_y = NULL; uint8_T c3_e_hoistedGlobal; uint8_T c3_n_u; const mxArray *c3_o_y = NULL; uint8_T c3_f_hoistedGlobal; uint8_T c3_o_u; const mxArray *c3_p_y = NULL; uint8_T c3_g_hoistedGlobal; uint8_T c3_p_u; const mxArray *c3_q_y = NULL; uint8_T c3_h_hoistedGlobal; uint8_T c3_q_u; const mxArray *c3_r_y = NULL; const mxArray *c3_r_u; const mxArray *c3_s_y = NULL; real_T (*c3_emotion_amount_factor)[20]; c3_emotion_amount_factor = (real_T (*)[20])ssGetOutputPortSignal (chartInstance->S, 1); c3_st = NULL; c3_st = NULL; sf_mex_assign(&c3_subchartSimStateInfo, sf_exported_auto_getSimstatec50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct), true); c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_createcellmatrix(18, 1), false); for (c3_i2 = 0; c3_i2 < 20; c3_i2++) { c3_u[c3_i2] = (*c3_emotion_amount_factor)[c3_i2]; } c3_b_y = NULL; sf_mex_assign(&c3_b_y, sf_mex_create("y", c3_u, 0, 0U, 1U, 0U, 2, 1, 20), false); sf_mex_setcell(c3_y, 0, c3_b_y); for (c3_i3 = 0; c3_i3 < 1000; c3_i3++) { c3_b_u[c3_i3] = chartInstance->c3_BML[c3_i3]; } c3_c_y = NULL; sf_mex_assign(&c3_c_y, sf_mex_create("y", c3_b_u, 0, 0U, 1U, 0U, 2, 1000, 1), false); sf_mex_setcell(c3_y, 1, c3_c_y); for (c3_i4 = 0; c3_i4 < 5000; c3_i4++) { c3_c_u[c3_i4] = chartInstance->c3_bmlsH[c3_i4]; } c3_d_y = NULL; sf_mex_assign(&c3_d_y, sf_mex_create("y", c3_c_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 2, c3_d_y); for (c3_i5 = 0; c3_i5 < 5000; c3_i5++) { c3_d_u[c3_i5] = c3_get_bmlsL(chartInstance, c3_i5); } c3_e_y = NULL; sf_mex_assign(&c3_e_y, sf_mex_create("y", c3_d_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 3, c3_e_y); for (c3_i6 = 0; c3_i6 < 5000; c3_i6++) { c3_e_u[c3_i6] = chartInstance->c3_bmlsM[c3_i6]; } c3_f_y = NULL; sf_mex_assign(&c3_f_y, sf_mex_create("y", c3_e_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 4, c3_f_y); c3_hoistedGlobal = chartInstance->c3_hEmpty; c3_f_u = c3_hoistedGlobal; c3_g_y = NULL; sf_mex_assign(&c3_g_y, sf_mex_create("y", &c3_f_u, 0, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 5, c3_g_y); c3_b_hoistedGlobal = chartInstance->c3_lEmpty; c3_g_u = c3_b_hoistedGlobal; c3_h_y = NULL; sf_mex_assign(&c3_h_y, sf_mex_create("y", &c3_g_u, 0, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 6, c3_h_y); c3_c_hoistedGlobal = chartInstance->c3_mEmpty; c3_h_u = c3_c_hoistedGlobal; c3_i_y = NULL; sf_mex_assign(&c3_i_y, sf_mex_create("y", &c3_h_u, 0, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 7, c3_i_y); for (c3_i7 = 0; c3_i7 < 1000; c3_i7++) { c3_i_u[c3_i7] = chartInstance->c3_n[c3_i7]; } c3_j_y = NULL; sf_mex_assign(&c3_j_y, sf_mex_create("y", c3_i_u, 0, 0U, 1U, 0U, 2, 1000, 1), false); sf_mex_setcell(c3_y, 8, c3_j_y); c3_d_hoistedGlobal = chartInstance->c3_newBmlA; c3_j_u = c3_d_hoistedGlobal; c3_k_y = NULL; sf_mex_assign(&c3_k_y, sf_mex_create("y", &c3_j_u, 0, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 9, c3_k_y); for (c3_i8 = 0; c3_i8 < 5000; c3_i8++) { c3_k_u[c3_i8] = chartInstance->c3_newBmlsH[c3_i8]; } c3_l_y = NULL; sf_mex_assign(&c3_l_y, sf_mex_create("y", c3_k_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 10, c3_l_y); for (c3_i9 = 0; c3_i9 < 5000; c3_i9++) { c3_l_u[c3_i9] = chartInstance->c3_newBmlsL[c3_i9]; } c3_m_y = NULL; sf_mex_assign(&c3_m_y, sf_mex_create("y", c3_l_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 11, c3_m_y); for (c3_i10 = 0; c3_i10 < 5000; c3_i10++) { c3_m_u[c3_i10] = chartInstance->c3_newBmlsM[c3_i10]; } c3_n_y = NULL; sf_mex_assign(&c3_n_y, sf_mex_create("y", c3_m_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_setcell(c3_y, 12, c3_n_y); c3_e_hoistedGlobal = chartInstance->c3_is_active_c3_Demo_AU_VA_SBM; c3_n_u = c3_e_hoistedGlobal; c3_o_y = NULL; sf_mex_assign(&c3_o_y, sf_mex_create("y", &c3_n_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 13, c3_o_y); c3_f_hoistedGlobal = chartInstance->c3_is_active_facialExpression_Controller; c3_o_u = c3_f_hoistedGlobal; c3_p_y = NULL; sf_mex_assign(&c3_p_y, sf_mex_create("y", &c3_o_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 14, c3_p_y); c3_g_hoistedGlobal = chartInstance->c3_is_active_sendBMLbyPriority; c3_p_u = c3_g_hoistedGlobal; c3_q_y = NULL; sf_mex_assign(&c3_q_y, sf_mex_create("y", &c3_p_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 15, c3_q_y); c3_h_hoistedGlobal = chartInstance->c3_is_sendBMLbyPriority; c3_q_u = c3_h_hoistedGlobal; c3_r_y = NULL; sf_mex_assign(&c3_r_y, sf_mex_create("y", &c3_q_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c3_y, 16, c3_r_y); c3_r_u = sf_mex_dup(c3_subchartSimStateInfo); c3_s_y = NULL; sf_mex_assign(&c3_s_y, sf_mex_duplicatearraysafe(&c3_r_u), false); sf_mex_destroy(&c3_r_u); sf_mex_setcell(c3_y, 17, c3_s_y); sf_mex_assign(&c3_st, c3_y, false); return c3_st; } static void set_sim_state_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_st) { const mxArray *c3_u; real_T c3_dv0[20]; int32_T c3_i11; real_T c3_dv1[1000]; int32_T c3_i12; static real_T c3_dv2[5000]; int32_T c3_i13; static real_T c3_dv3[5000]; int32_T c3_i14; static real_T c3_dv4[5000]; int32_T c3_i15; real_T c3_dv5[1000]; int32_T c3_i16; real_T c3_dv6[5000]; int32_T c3_i17; real_T c3_dv7[5000]; int32_T c3_i18; real_T c3_dv8[5000]; int32_T c3_i19; real_T (*c3_emotion_amount_factor)[20]; c3_emotion_amount_factor = (real_T (*)[20])ssGetOutputPortSignal (chartInstance->S, 1); c3_u = sf_mex_dup(c3_st); c3_k_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 0)), "emotion_amount_factor", c3_dv0); for (c3_i11 = 0; c3_i11 < 20; c3_i11++) { (*c3_emotion_amount_factor)[c3_i11] = c3_dv0[c3_i11]; } c3_m_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 1)), "BML", c3_dv1); for (c3_i12 = 0; c3_i12 < 1000; c3_i12++) { chartInstance->c3_BML[c3_i12] = c3_dv1[c3_i12]; } c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 2)), "bmlsH", c3_dv2); for (c3_i13 = 0; c3_i13 < 5000; c3_i13++) { chartInstance->c3_bmlsH[c3_i13] = c3_dv2[c3_i13]; } c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 3)), "bmlsL", c3_dv3); for (c3_i14 = 0; c3_i14 < 5000; c3_i14++) { c3_set_bmlsL(chartInstance, c3_i14, c3_dv3[c3_i14]); } c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 4)), "bmlsM", c3_dv4); for (c3_i15 = 0; c3_i15 < 5000; c3_i15++) { chartInstance->c3_bmlsM[c3_i15] = c3_dv4[c3_i15]; } chartInstance->c3_hEmpty = c3_emlrt_marshallIn(chartInstance, sf_mex_dup (sf_mex_getcell(c3_u, 5)), "hEmpty"); chartInstance->c3_lEmpty = c3_emlrt_marshallIn(chartInstance, sf_mex_dup (sf_mex_getcell(c3_u, 6)), "lEmpty"); chartInstance->c3_mEmpty = c3_emlrt_marshallIn(chartInstance, sf_mex_dup (sf_mex_getcell(c3_u, 7)), "mEmpty"); c3_m_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 8)), "n", c3_dv5); for (c3_i16 = 0; c3_i16 < 1000; c3_i16++) { chartInstance->c3_n[c3_i16] = c3_dv5[c3_i16]; } chartInstance->c3_newBmlA = c3_emlrt_marshallIn(chartInstance, sf_mex_dup (sf_mex_getcell(c3_u, 9)), "newBmlA"); c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 10)), "newBmlsH", c3_dv6); for (c3_i17 = 0; c3_i17 < 5000; c3_i17++) { chartInstance->c3_newBmlsH[c3_i17] = c3_dv6[c3_i17]; } c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 11)), "newBmlsL", c3_dv7); for (c3_i18 = 0; c3_i18 < 5000; c3_i18++) { chartInstance->c3_newBmlsL[c3_i18] = c3_dv7[c3_i18]; } c3_d_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 12)), "newBmlsM", c3_dv8); for (c3_i19 = 0; c3_i19 < 5000; c3_i19++) { chartInstance->c3_newBmlsM[c3_i19] = c3_dv8[c3_i19]; } chartInstance->c3_is_active_c3_Demo_AU_VA_SBM = c3_i_emlrt_marshallIn (chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 13)), "is_active_c3_Demo_AU_VA_SBM"); chartInstance->c3_is_active_facialExpression_Controller = c3_i_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 14)), "is_active_facialExpression_Controller"); chartInstance->c3_is_active_sendBMLbyPriority = c3_i_emlrt_marshallIn (chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 15)), "is_active_sendBMLbyPriority"); chartInstance->c3_is_sendBMLbyPriority = c3_i_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 16)), "is_sendBMLbyPriority"); sf_mex_assign(&c3_subchartSimStateInfo, c3_o_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c3_u, 17)), "subchartSimStateInfo"), true); sf_mex_assign(&chartInstance->c3_setSimStateSideEffectsInfo, c3_o_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell (c3_u, 18)), "setSimStateSideEffectsInfo"), true); sf_mex_destroy(&c3_u); chartInstance->c3_doSetSimStateSideEffects = 1U; c3_update_debugger_state_c3_Demo_AU_VA_SBM(chartInstance); sf_exported_auto_setSimstatec50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct, sf_mex_dup(c3_subchartSimStateInfo)); sf_mex_destroy(&c3_st); } static void c3_set_sim_state_side_effects_c3_Demo_AU_VA_SBM (SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { if (chartInstance->c3_doSetSimStateSideEffects != 0) { if (chartInstance->c3_is_active_facialExpression_Controller == 1U) { chartInstance->c3_tp_facialExpression_Controller = 1U; } else { chartInstance->c3_tp_facialExpression_Controller = 0U; } if (chartInstance->c3_is_active_sendBMLbyPriority == 1U) { chartInstance->c3_tp_sendBMLbyPriority = 1U; if (sf_mex_sub(chartInstance->c3_setSimStateSideEffectsInfo, "setSimStateSideEffectsInfo", 1, 3) == 0.0) { sf_call_output_fcn_enable(chartInstance->S, 0, "sendBML", 0); } } else { chartInstance->c3_tp_sendBMLbyPriority = 0U; if (sf_mex_sub(chartInstance->c3_setSimStateSideEffectsInfo, "setSimStateSideEffectsInfo", 1, 3) > 0.0) { sf_call_output_fcn_disable(chartInstance->S, 0, "sendBML", 0); } } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_Mid) { chartInstance->c3_tp_Mid = 1U; } else { chartInstance->c3_tp_Mid = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_checkHighPriority) { chartInstance->c3_tp_checkHighPriority = 1U; } else { chartInstance->c3_tp_checkHighPriority = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_init) { chartInstance->c3_tp_init = 1U; } else { chartInstance->c3_tp_init = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_low) { chartInstance->c3_tp_low = 1U; } else { chartInstance->c3_tp_low = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendH) { chartInstance->c3_tp_sendH = 1U; } else { chartInstance->c3_tp_sendH = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendL) { chartInstance->c3_tp_sendL = 1U; } else { chartInstance->c3_tp_sendL = 0U; } if (chartInstance->c3_is_sendBMLbyPriority == c3_IN_sendM) { chartInstance->c3_tp_sendM = 1U; } else { chartInstance->c3_tp_sendM = 0U; } chartInstance->c3_doSetSimStateSideEffects = 0U; } } static void finalize_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { sf_mex_destroy(&c3_subchartSimStateInfo); sf_mex_destroy(&chartInstance->c3_setSimStateSideEffectsInfo); } static void sf_gateway_c3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { int32_T c3_i20; int32_T c3_i21; int32_T c3_i22; int32_T c3_i23; int32_T c3_i24; int32_T c3_i25; int32_T c3_i26; int32_T c3_i27; int32_T c3_i28; uint32_T c3_debug_family_var_map[2]; real_T c3_nargin = 0.0; real_T c3_nargout = 0.0; real_T c3_dv9[1000]; int32_T c3_i29; int32_T c3_i30; int32_T c3_i31; int32_T c3_i32; int32_T c3_i33; int32_T c3_i34; int32_T c3_i35; int32_T c3_i36; int32_T c3_i37; int32_T c3_i38; int32_T c3_i39; int32_T c3_i40; int32_T c3_i41; int32_T c3_i42; int32_T c3_i43; int32_T c3_i44; int32_T c3_i45; int32_T c3_i46; int32_T c3_i47; int32_T c3_i48; real_T *c3_inV; real_T *c3_inA; real_T (*c3_emotion_amount_factor)[20]; c3_emotion_amount_factor = (real_T (*)[20])ssGetOutputPortSignal (chartInstance->S, 1); c3_inA = (real_T *)ssGetInputPortSignal(chartInstance->S, 1); c3_inV = (real_T *)ssGetInputPortSignal(chartInstance->S, 0); c3_set_sim_state_side_effects_c3_Demo_AU_VA_SBM(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = sf_get_time(chartInstance->S); sf_exported_auto_gatewayc50_Demo_AU_VA_SBM(chartInstance->c3_subchartSimstruct); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 0U, chartInstance->c3_sfEvent); _SFD_DATA_RANGE_CHECK(*c3_inV, 0U); _SFD_DATA_RANGE_CHECK(*c3_inA, 1U); for (c3_i20 = 0; c3_i20 < 5000; c3_i20++) { _SFD_DATA_RANGE_CHECK(c3_get_bmlsL(chartInstance, c3_i20), 2U); } for (c3_i21 = 0; c3_i21 < 5000; c3_i21++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsL[c3_i21], 3U); } for (c3_i22 = 0; c3_i22 < 20; c3_i22++) { _SFD_DATA_RANGE_CHECK((*c3_emotion_amount_factor)[c3_i22], 4U); } _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); for (c3_i23 = 0; c3_i23 < 5000; c3_i23++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsM[c3_i23], 6U); } for (c3_i24 = 0; c3_i24 < 5000; c3_i24++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsM[c3_i24], 7U); } for (c3_i25 = 0; c3_i25 < 5000; c3_i25++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsH[c3_i25], 8U); } for (c3_i26 = 0; c3_i26 < 5000; c3_i26++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsH[c3_i26], 9U); } _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlA, 10U); for (c3_i27 = 0; c3_i27 < 1000; c3_i27++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_BML[c3_i27], 11U); } _SFD_DATA_RANGE_CHECK(chartInstance->c3_lEmpty, 12U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_mEmpty, 13U); for (c3_i28 = 0; c3_i28 < 1000; c3_i28++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_n[c3_i28], 14U); } sf_exported_auto_activate_c50_Demo_AU_VA_SBM_secs (chartInstance->c3_subchartSimstruct); sf_exported_auto_incrementTemporalCounter_c50_Demo_AU_VA_SBM_secs (chartInstance->c3_subchartSimstruct); chartInstance->c3_sfEvent = c3_event_secs; _SFD_CE_CALL(EVENT_BEFORE_BROADCAST_TAG, c3_event_secs, chartInstance->c3_sfEvent); sf_exported_auto_stepBuffersc50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); if (chartInstance->c3_is_active_c3_Demo_AU_VA_SBM == 0U) { sf_exported_auto_initBuffersc50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); _SFD_CC_CALL(CHART_ENTER_ENTRY_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); chartInstance->c3_is_active_c3_Demo_AU_VA_SBM = 1U; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); chartInstance->c3_is_active_facialExpression_Controller = 1U; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c3_sfEvent); chartInstance->c3_tp_facialExpression_Controller = 1U; sf_exported_auto_enterc50_Demo_AU_VA_SBM(chartInstance->c3_subchartSimstruct); chartInstance->c3_is_active_sendBMLbyPriority = 1U; _SFD_CS_CALL(STATE_ACTIVE_TAG, 1U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendBMLbyPriority = 1U; sf_call_output_fcn_enable(chartInstance->S, 0, "sendBML", 0); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_init; _SFD_CS_CALL(STATE_ACTIVE_TAG, 4U, chartInstance->c3_sfEvent); chartInstance->c3_tp_init = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_d_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_encStr2Arr(chartInstance, c3_dv9); for (c3_i29 = 0; c3_i29 < 1000; c3_i29++) { chartInstance->c3_n[c3_i29] = c3_dv9[c3_i29]; } c3_updateDataWrittenToVector(chartInstance, 10U); for (c3_i30 = 0; c3_i30 < 1000; c3_i30++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_n[c3_i30], 14U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 10U, 14U); for (c3_i31 = 0; c3_i31 < 1000; c3_i31++) { chartInstance->c3_bmlsH[c3_i31] = chartInstance->c3_n[c3_i31]; } for (c3_i32 = 0; c3_i32 < 1000; c3_i32++) { chartInstance->c3_bmlsH[c3_i32 + 1000] = chartInstance->c3_n[c3_i32]; } for (c3_i33 = 0; c3_i33 < 1000; c3_i33++) { chartInstance->c3_bmlsH[c3_i33 + 2000] = chartInstance->c3_n[c3_i33]; } for (c3_i34 = 0; c3_i34 < 1000; c3_i34++) { chartInstance->c3_bmlsH[c3_i34 + 3000] = chartInstance->c3_n[c3_i34]; } for (c3_i35 = 0; c3_i35 < 1000; c3_i35++) { chartInstance->c3_bmlsH[c3_i35 + 4000] = chartInstance->c3_n[c3_i35]; } c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 5U); for (c3_i36 = 0; c3_i36 < 5000; c3_i36++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsH[c3_i36], 9U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 10U, 14U); for (c3_i37 = 0; c3_i37 < 1000; c3_i37++) { chartInstance->c3_bmlsM[c3_i37] = chartInstance->c3_n[c3_i37]; } for (c3_i38 = 0; c3_i38 < 1000; c3_i38++) { chartInstance->c3_bmlsM[c3_i38 + 1000] = chartInstance->c3_n[c3_i38]; } for (c3_i39 = 0; c3_i39 < 1000; c3_i39++) { chartInstance->c3_bmlsM[c3_i39 + 2000] = chartInstance->c3_n[c3_i39]; } for (c3_i40 = 0; c3_i40 < 1000; c3_i40++) { chartInstance->c3_bmlsM[c3_i40 + 3000] = chartInstance->c3_n[c3_i40]; } for (c3_i41 = 0; c3_i41 < 1000; c3_i41++) { chartInstance->c3_bmlsM[c3_i41 + 4000] = chartInstance->c3_n[c3_i41]; } c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 3U); for (c3_i42 = 0; c3_i42 < 5000; c3_i42++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsM[c3_i42], 7U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 10U, 14U); for (c3_i43 = 0; c3_i43 < 1000; c3_i43++) { c3_set_bmlsL(chartInstance, c3_i43, chartInstance->c3_n[c3_i43]); } for (c3_i44 = 0; c3_i44 < 1000; c3_i44++) { c3_set_bmlsL(chartInstance, c3_i44 + 1000, chartInstance->c3_n[c3_i44]); } for (c3_i45 = 0; c3_i45 < 1000; c3_i45++) { c3_set_bmlsL(chartInstance, c3_i45 + 2000, chartInstance->c3_n[c3_i45]); } for (c3_i46 = 0; c3_i46 < 1000; c3_i46++) { c3_set_bmlsL(chartInstance, c3_i46 + 3000, chartInstance->c3_n[c3_i46]); } for (c3_i47 = 0; c3_i47 < 1000; c3_i47++) { c3_set_bmlsL(chartInstance, c3_i47 + 4000, chartInstance->c3_n[c3_i47]); } c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); for (c3_i48 = 0; c3_i48 < 5000; c3_i48++) { _SFD_DATA_RANGE_CHECK(c3_get_bmlsL(chartInstance, c3_i48), 2U); } _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); sf_exported_auto_duringc50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); c3_sendBMLbyPriority(chartInstance); } _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c3_sfEvent); _SFD_CE_CALL(EVENT_AFTER_BROADCAST_TAG, c3_event_secs, chartInstance->c3_sfEvent); sf_exported_auto_resetTemporalCounter_c50_Demo_AU_VA_SBM_secs (chartInstance->c3_subchartSimstruct); sf_exported_auto_deactivate_c50_Demo_AU_VA_SBM_secs (chartInstance->c3_subchartSimstruct); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_Demo_AU_VA_SBMMachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); if (chartInstance->c3_is_active_facialExpression_Controller == 1U) { sf_exported_auto_check_state_inconsistency_c50_Demo_AU_VA_SBM (chartInstance->c3_subchartSimstruct); } } static void initSimStructsc3_Demo_AU_VA_SBM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { chartInstance->c3_subchartSimstruct = sf_get_subchart_simstruct (chartInstance->S, "facialExpression_Controller"); } static void c3_sendBMLbyPriority(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { uint32_T c3_debug_family_var_map[3]; real_T c3_nargin = 0.0; real_T c3_nargout = 1.0; boolean_T c3_out; int32_T c3_i49; static real_T c3_dv10[5000]; real_T c3_b_nargin = 0.0; real_T c3_b_nargout = 1.0; boolean_T c3_b_out; real_T c3_c_nargin = 0.0; real_T c3_c_nargout = 1.0; boolean_T c3_c_out; uint32_T c3_b_debug_family_var_map[2]; real_T c3_d_nargin = 0.0; real_T c3_d_nargout = 0.0; int32_T c3_i50; static real_T c3_dv11[5000]; real_T c3_e_nargin = 0.0; real_T c3_e_nargout = 1.0; boolean_T c3_d_out; real_T c3_f_nargin = 0.0; real_T c3_f_nargout = 0.0; int32_T c3_i51; static real_T c3_dv12[5000]; real_T c3_g_nargin = 0.0; real_T c3_g_nargout = 1.0; boolean_T c3_e_out; real_T c3_h_nargin = 0.0; real_T c3_h_nargout = 0.0; int32_T c3_i52; static real_T c3_dv13[5000]; real_T c3_i_nargin = 0.0; real_T c3_i_nargout = 1.0; boolean_T c3_f_out; real_T c3_j_nargin = 0.0; real_T c3_j_nargout = 0.0; int32_T c3_i53; static real_T c3_dv14[5000]; real_T c3_k_nargin = 0.0; real_T c3_k_nargout = 0.0; int32_T c3_i54; static real_T c3_dv15[5000]; real_T c3_l_nargin = 0.0; real_T c3_l_nargout = 1.0; boolean_T c3_g_out; int32_T c3_i55; static real_T c3_dv16[5000]; real_T c3_m_nargin = 0.0; real_T c3_m_nargout = 1.0; boolean_T c3_h_out; int32_T c3_i56; static real_T c3_dv17[5000]; real_T c3_n_nargin = 0.0; real_T c3_n_nargout = 0.0; int32_T c3_i57; static real_T c3_dv18[5000]; real_T c3_o_nargin = 0.0; real_T c3_o_nargout = 1.0; boolean_T c3_i_out; int32_T c3_i58; static real_T c3_dv19[5000]; real_T c3_p_nargin = 0.0; real_T c3_p_nargout = 0.0; int32_T c3_i59; static real_T c3_dv20[5000]; _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 1U, chartInstance->c3_sfEvent); switch (chartInstance->c3_is_sendBMLbyPriority) { case c3_IN_Mid: CV_STATE_EVAL(1, 0, 1); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 9U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_o_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i49 = 0; c3_i49 < 5000; c3_i49++) { c3_dv10[c3_i49] = chartInstance->c3_bmlsH[c3_i49]; } c3_out = CV_EML_IF(9, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv10) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendH; _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 1U; c3_enter_atomic_sendH(chartInstance); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 12U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_r_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 9U, 13U); c3_b_out = CV_EML_IF(12, 0, 0, chartInstance->c3_mEmpty != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_b_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 12U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendM; _SFD_CS_CALL(STATE_ACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendM = 1U; c3_enter_atomic_sendM(chartInstance); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 13U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_s_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 9U, 13U); c3_c_out = CV_EML_IF(13, 0, 0, chartInstance->c3_mEmpty == 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_c_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 13U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_low; _SFD_CS_CALL(STATE_ACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_tp_low = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_j_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); for (c3_i50 = 0; c3_i50 < 5000; c3_i50++) { c3_dv11[c3_i50] = c3_get_bmlsL(chartInstance, c3_i50); } chartInstance->c3_lEmpty = c3_isEmptyQueue(chartInstance, c3_dv11); c3_updateDataWrittenToVector(chartInstance, 8U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_lEmpty, 12U); _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 5U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_m_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_e_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_e_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 9U, 13U); c3_d_out = CV_EML_IF(5, 0, 0, chartInstance->c3_mEmpty == 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_d_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 5U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_checkHighPriority; _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_e_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_f_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_f_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i51 = 0; c3_i51 < 5000; c3_i51++) { c3_dv12[c3_i51] = chartInstance->c3_bmlsH[c3_i51]; } chartInstance->c3_hEmpty = c3_isEmptyQueue(chartInstance, c3_dv12); c3_updateDataWrittenToVector(chartInstance, 1U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 2U, chartInstance->c3_sfEvent); } } } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 2U, chartInstance->c3_sfEvent); break; case c3_IN_checkHighPriority: CV_STATE_EVAL(1, 0, 2); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 4U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_l_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_g_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_g_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_e_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 1U, 5U); c3_e_out = CV_EML_IF(4, 0, 0, chartInstance->c3_hEmpty == 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_e_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_Mid; _SFD_CS_CALL(STATE_ACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_h_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_h_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_h_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i52 = 0; c3_i52 < 5000; c3_i52++) { c3_dv13[c3_i52] = chartInstance->c3_bmlsM[c3_i52]; } chartInstance->c3_mEmpty = c3_isEmptyQueue(chartInstance, c3_dv13); c3_updateDataWrittenToVector(chartInstance, 9U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_mEmpty, 13U); _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_k_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_i_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_i_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_f_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 1U, 5U); c3_f_out = CV_EML_IF(1, 0, 0, chartInstance->c3_hEmpty != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_f_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendH; _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 1U; c3_enter_atomic_sendH(chartInstance); } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 3U, chartInstance->c3_sfEvent); } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 3U, chartInstance->c3_sfEvent); break; case c3_IN_init: CV_STATE_EVAL(1, 0, 3); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_init = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 4U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_checkHighPriority; _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_e_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_j_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_j_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i53 = 0; c3_i53 < 5000; c3_i53++) { c3_dv14[c3_i53] = chartInstance->c3_bmlsH[c3_i53]; } chartInstance->c3_hEmpty = c3_isEmptyQueue(chartInstance, c3_dv14); c3_updateDataWrittenToVector(chartInstance, 1U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); _SFD_SYMBOL_SCOPE_POP(); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 4U, chartInstance->c3_sfEvent); break; case c3_IN_low: CV_STATE_EVAL(1, 0, 4); c3_low(chartInstance); break; case c3_IN_sendH: CV_STATE_EVAL(1, 0, 5); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_checkHighPriority; _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_e_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_k_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_k_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i54 = 0; c3_i54 < 5000; c3_i54++) { c3_dv15[c3_i54] = chartInstance->c3_bmlsH[c3_i54]; } chartInstance->c3_hEmpty = c3_isEmptyQueue(chartInstance, c3_dv15); c3_updateDataWrittenToVector(chartInstance, 1U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); _SFD_SYMBOL_SCOPE_POP(); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 9U, chartInstance->c3_sfEvent); break; case c3_IN_sendL: CV_STATE_EVAL(1, 0, 6); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 16U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_v_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_l_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_l_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_g_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i55 = 0; c3_i55 < 5000; c3_i55++) { c3_dv16[c3_i55] = chartInstance->c3_bmlsM[c3_i55]; } c3_g_out = CV_EML_IF(16, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv16) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_g_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 16U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendL = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 10U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendM; _SFD_CS_CALL(STATE_ACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendM = 1U; c3_enter_atomic_sendM(chartInstance); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 11U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_q_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_m_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_m_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_h_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i56 = 0; c3_i56 < 5000; c3_i56++) { c3_dv17[c3_i56] = chartInstance->c3_bmlsH[c3_i56]; } c3_h_out = CV_EML_IF(11, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv17) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_h_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendL = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 10U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendH; _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 1U; c3_enter_atomic_sendH(chartInstance); } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 7U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendL = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 10U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_checkHighPriority; _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_e_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_n_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_n_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i57 = 0; c3_i57 < 5000; c3_i57++) { c3_dv18[c3_i57] = chartInstance->c3_bmlsH[c3_i57]; } chartInstance->c3_hEmpty = c3_isEmptyQueue(chartInstance, c3_dv18); c3_updateDataWrittenToVector(chartInstance, 1U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); _SFD_SYMBOL_SCOPE_POP(); } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 10U, chartInstance->c3_sfEvent); break; case c3_IN_sendM: CV_STATE_EVAL(1, 0, 7); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 10U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_p_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_o_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_o_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_i_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i58 = 0; c3_i58 < 5000; c3_i58++) { c3_dv19[c3_i58] = chartInstance->c3_bmlsH[c3_i58]; } c3_i_out = CV_EML_IF(10, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv19) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_i_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 10U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendM = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendH; _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 1U; c3_enter_atomic_sendH(chartInstance); } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendM = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_checkHighPriority; _SFD_CS_CALL(STATE_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); chartInstance->c3_tp_checkHighPriority = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_e_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_p_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_p_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i59 = 0; c3_i59 < 5000; c3_i59++) { c3_dv20[c3_i59] = chartInstance->c3_bmlsH[c3_i59]; } chartInstance->c3_hEmpty = c3_isEmptyQueue(chartInstance, c3_dv20); c3_updateDataWrittenToVector(chartInstance, 1U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_hEmpty, 5U); _SFD_SYMBOL_SCOPE_POP(); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 11U, chartInstance->c3_sfEvent); break; default: CV_STATE_EVAL(1, 0, 0); chartInstance->c3_is_sendBMLbyPriority = c3_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c3_sfEvent); break; } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 1U, chartInstance->c3_sfEvent); } static void c3_enter_atomic_sendH(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { uint32_T c3_debug_family_var_map[2]; real_T c3_nargin = 0.0; real_T c3_nargout = 0.0; int32_T c3_i60; int32_T c3_i61; int32_T c3_i62; real_T c3_In1[1000]; int32_T c3_i63; int32_T c3_i64; int32_T c3_i65; int32_T c3_i66; real_T c3_dv21[5000]; real_T c3_dv22[5000]; int32_T c3_i67; int32_T c3_i68; int32_T c3_i69; int32_T c3_i70; real_T (*c3_b_In1)[1000]; c3_b_In1 = (real_T (*)[1000])ssGetOutputPortSignal(chartInstance->S, 3); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i60 = 0; c3_i60 < 1000; c3_i60++) { chartInstance->c3_BML[c3_i60] = chartInstance->c3_bmlsH[c3_i60]; } c3_updateDataWrittenToVector(chartInstance, 7U); for (c3_i61 = 0; c3_i61 < 1000; c3_i61++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_BML[c3_i61], 11U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 7U, 11U); for (c3_i62 = 0; c3_i62 < 1000; c3_i62++) { c3_In1[c3_i62] = chartInstance->c3_BML[c3_i62]; } for (c3_i63 = 0; c3_i63 < 1000; c3_i63++) { _SFD_DATA_RANGE_CHECK(c3_In1[c3_i63], 15U); } _SFD_SET_DATA_VALUE_PTR(15U, c3_In1); _SFD_CS_CALL(FUNCTION_ACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH(1U, 0U); _SFD_SYMBOL_SCOPE_ADD_IMPORTABLE("In1", c3_In1, c3_j_sf_marshallOut, c3_i_sf_marshallIn); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); for (c3_i64 = 0; c3_i64 < 1000; c3_i64++) { (*c3_b_In1)[c3_i64] = c3_In1[c3_i64]; } for (c3_i65 = 0; c3_i65 < 1000; c3_i65++) { _SFD_DATA_RANGE_CHECK((*c3_b_In1)[c3_i65], 15U); } sf_call_output_fcn_call(chartInstance->S, 0, "sendBML", 0); _SFD_SYMBOL_SCOPE_POP(); _SFD_CS_CALL(FUNCTION_INACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_UNSET_DATA_VALUE_PTR(15U); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i66 = 0; c3_i66 < 5000; c3_i66++) { c3_dv21[c3_i66] = chartInstance->c3_bmlsH[c3_i66]; } c3_removeQueue(chartInstance, c3_dv21, c3_dv22); for (c3_i67 = 0; c3_i67 < 5000; c3_i67++) { chartInstance->c3_newBmlsH[c3_i67] = c3_dv22[c3_i67]; } c3_updateDataWrittenToVector(chartInstance, 4U); for (c3_i68 = 0; c3_i68 < 5000; c3_i68++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsH[c3_i68], 8U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 4U, 8U); for (c3_i69 = 0; c3_i69 < 5000; c3_i69++) { chartInstance->c3_bmlsH[c3_i69] = chartInstance->c3_newBmlsH[c3_i69]; } c3_updateDataWrittenToVector(chartInstance, 5U); for (c3_i70 = 0; c3_i70 < 5000; c3_i70++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsH[c3_i70], 9U); } _SFD_SYMBOL_SCOPE_POP(); } static void c3_enter_atomic_sendM(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { uint32_T c3_debug_family_var_map[2]; real_T c3_nargin = 0.0; real_T c3_nargout = 0.0; int32_T c3_i71; int32_T c3_i72; int32_T c3_i73; real_T c3_In1[1000]; int32_T c3_i74; int32_T c3_i75; int32_T c3_i76; int32_T c3_i77; real_T c3_dv23[5000]; real_T c3_dv24[5000]; int32_T c3_i78; int32_T c3_i79; int32_T c3_i80; int32_T c3_i81; real_T (*c3_b_In1)[1000]; c3_b_In1 = (real_T (*)[1000])ssGetOutputPortSignal(chartInstance->S, 3); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_g_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i71 = 0; c3_i71 < 1000; c3_i71++) { chartInstance->c3_BML[c3_i71] = chartInstance->c3_bmlsM[c3_i71]; } c3_updateDataWrittenToVector(chartInstance, 7U); for (c3_i72 = 0; c3_i72 < 1000; c3_i72++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_BML[c3_i72], 11U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 7U, 11U); for (c3_i73 = 0; c3_i73 < 1000; c3_i73++) { c3_In1[c3_i73] = chartInstance->c3_BML[c3_i73]; } for (c3_i74 = 0; c3_i74 < 1000; c3_i74++) { _SFD_DATA_RANGE_CHECK(c3_In1[c3_i74], 15U); } _SFD_SET_DATA_VALUE_PTR(15U, c3_In1); _SFD_CS_CALL(FUNCTION_ACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH(1U, 0U); _SFD_SYMBOL_SCOPE_ADD_IMPORTABLE("In1", c3_In1, c3_j_sf_marshallOut, c3_i_sf_marshallIn); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); for (c3_i75 = 0; c3_i75 < 1000; c3_i75++) { (*c3_b_In1)[c3_i75] = c3_In1[c3_i75]; } for (c3_i76 = 0; c3_i76 < 1000; c3_i76++) { _SFD_DATA_RANGE_CHECK((*c3_b_In1)[c3_i76], 15U); } sf_call_output_fcn_call(chartInstance->S, 0, "sendBML", 0); _SFD_SYMBOL_SCOPE_POP(); _SFD_CS_CALL(FUNCTION_INACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_UNSET_DATA_VALUE_PTR(15U); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i77 = 0; c3_i77 < 5000; c3_i77++) { c3_dv23[c3_i77] = chartInstance->c3_bmlsM[c3_i77]; } c3_removeQueue(chartInstance, c3_dv23, c3_dv24); for (c3_i78 = 0; c3_i78 < 5000; c3_i78++) { chartInstance->c3_newBmlsM[c3_i78] = c3_dv24[c3_i78]; } c3_updateDataWrittenToVector(chartInstance, 2U); for (c3_i79 = 0; c3_i79 < 5000; c3_i79++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsM[c3_i79], 6U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 2U, 6U); for (c3_i80 = 0; c3_i80 < 5000; c3_i80++) { chartInstance->c3_bmlsM[c3_i80] = chartInstance->c3_newBmlsM[c3_i80]; } c3_updateDataWrittenToVector(chartInstance, 3U); for (c3_i81 = 0; c3_i81 < 5000; c3_i81++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_bmlsM[c3_i81], 7U); } _SFD_SYMBOL_SCOPE_POP(); } static void c3_low(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { uint32_T c3_debug_family_var_map[3]; real_T c3_nargin = 0.0; real_T c3_nargout = 1.0; boolean_T c3_out; int32_T c3_i82; static real_T c3_dv25[5000]; real_T c3_b_nargin = 0.0; real_T c3_b_nargout = 1.0; boolean_T c3_b_out; int32_T c3_i83; static real_T c3_dv26[5000]; real_T c3_c_nargin = 0.0; real_T c3_c_nargout = 1.0; boolean_T c3_c_out; uint32_T c3_b_debug_family_var_map[2]; real_T c3_d_nargin = 0.0; real_T c3_d_nargout = 0.0; int32_T c3_i84; int32_T c3_i85; int32_T c3_i86; real_T c3_In1[1000]; int32_T c3_i87; int32_T c3_i88; int32_T c3_i89; int32_T c3_i90; static real_T c3_dv27[5000]; static real_T c3_dv28[5000]; int32_T c3_i91; int32_T c3_i92; int32_T c3_i93; int32_T c3_i94; real_T c3_e_nargin = 0.0; real_T c3_e_nargout = 1.0; boolean_T c3_d_out; real_T c3_f_nargin = 0.0; real_T c3_f_nargout = 0.0; int32_T c3_i95; real_T c3_dv29[5000]; real_T (*c3_b_In1)[1000]; c3_b_In1 = (real_T (*)[1000])ssGetOutputPortSignal(chartInstance->S, 3); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 8U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_n_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 5U, 9U); for (c3_i82 = 0; c3_i82 < 5000; c3_i82++) { c3_dv25[c3_i82] = chartInstance->c3_bmlsH[c3_i82]; } c3_out = CV_EML_IF(8, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv25) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 8U, chartInstance->c3_sfEvent); chartInstance->c3_tp_low = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendH; _SFD_CS_CALL(STATE_ACTIVE_TAG, 9U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendH = 1U; c3_enter_atomic_sendH(chartInstance); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 15U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_u_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_b_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i83 = 0; c3_i83 < 5000; c3_i83++) { c3_dv26[c3_i83] = chartInstance->c3_bmlsM[c3_i83]; } c3_b_out = CV_EML_IF(15, 0, 0, c3_isEmptyQueue(chartInstance, c3_dv26) != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_b_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 15U, chartInstance->c3_sfEvent); chartInstance->c3_tp_low = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendM; _SFD_CS_CALL(STATE_ACTIVE_TAG, 11U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendM = 1U; c3_enter_atomic_sendM(chartInstance); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 17U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_w_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_c_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 8U, 12U); c3_c_out = CV_EML_IF(17, 0, 0, chartInstance->c3_lEmpty != 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_c_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 17U, chartInstance->c3_sfEvent); chartInstance->c3_tp_low = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_sendL; _SFD_CS_CALL(STATE_ACTIVE_TAG, 10U, chartInstance->c3_sfEvent); chartInstance->c3_tp_sendL = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_i_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); for (c3_i84 = 0; c3_i84 < 1000; c3_i84++) { chartInstance->c3_BML[c3_i84] = c3_get_bmlsL(chartInstance, c3_i84); } c3_updateDataWrittenToVector(chartInstance, 7U); for (c3_i85 = 0; c3_i85 < 1000; c3_i85++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_BML[c3_i85], 11U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 7U, 11U); for (c3_i86 = 0; c3_i86 < 1000; c3_i86++) { c3_In1[c3_i86] = chartInstance->c3_BML[c3_i86]; } for (c3_i87 = 0; c3_i87 < 1000; c3_i87++) { _SFD_DATA_RANGE_CHECK(c3_In1[c3_i87], 15U); } _SFD_SET_DATA_VALUE_PTR(15U, c3_In1); _SFD_CS_CALL(FUNCTION_ACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH(1U, 0U); _SFD_SYMBOL_SCOPE_ADD_IMPORTABLE("In1", c3_In1, c3_j_sf_marshallOut, c3_i_sf_marshallIn); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); for (c3_i88 = 0; c3_i88 < 1000; c3_i88++) { (*c3_b_In1)[c3_i88] = c3_In1[c3_i88]; } for (c3_i89 = 0; c3_i89 < 1000; c3_i89++) { _SFD_DATA_RANGE_CHECK((*c3_b_In1)[c3_i89], 15U); } sf_call_output_fcn_call(chartInstance->S, 0, "sendBML", 0); _SFD_SYMBOL_SCOPE_POP(); _SFD_CS_CALL(FUNCTION_INACTIVE_TAG, 8U, chartInstance->c3_sfEvent); _SFD_UNSET_DATA_VALUE_PTR(15U); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 8U, chartInstance->c3_sfEvent); for (c3_i90 = 0; c3_i90 < 5000; c3_i90++) { c3_dv27[c3_i90] = c3_get_bmlsL(chartInstance, c3_i90); } c3_removeQueue(chartInstance, c3_dv27, c3_dv28); for (c3_i91 = 0; c3_i91 < 5000; c3_i91++) { chartInstance->c3_newBmlsL[c3_i91] = c3_dv28[c3_i91]; } c3_updateDataWrittenToVector(chartInstance, 0U); for (c3_i92 = 0; c3_i92 < 5000; c3_i92++) { _SFD_DATA_RANGE_CHECK(chartInstance->c3_newBmlsL[c3_i92], 3U); } c3_errorIfDataNotWrittenToFcn(chartInstance, 0U, 3U); for (c3_i93 = 0; c3_i93 < 5000; c3_i93++) { c3_set_bmlsL(chartInstance, c3_i93, chartInstance->c3_newBmlsL[c3_i93]); } for (c3_i94 = 0; c3_i94 < 5000; c3_i94++) { _SFD_DATA_RANGE_CHECK(c3_get_bmlsL(chartInstance, c3_i94), 2U); } _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 14U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 3U, 3U, c3_t_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_e_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_e_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_d_out, 2U, c3_e_sf_marshallOut, c3_d_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 8U, 12U); c3_d_out = CV_EML_IF(14, 0, 0, chartInstance->c3_lEmpty == 1.0); _SFD_SYMBOL_SCOPE_POP(); if (c3_d_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 14U, chartInstance->c3_sfEvent); chartInstance->c3_tp_low = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 6U, chartInstance->c3_sfEvent); chartInstance->c3_is_sendBMLbyPriority = c3_IN_Mid; _SFD_CS_CALL(STATE_ACTIVE_TAG, 2U, chartInstance->c3_sfEvent); chartInstance->c3_tp_Mid = 1U; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 2U, 2U, c3_h_debug_family_names, c3_b_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_f_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_f_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); c3_errorIfDataNotWrittenToFcn(chartInstance, 3U, 7U); for (c3_i95 = 0; c3_i95 < 5000; c3_i95++) { c3_dv29[c3_i95] = chartInstance->c3_bmlsM[c3_i95]; } chartInstance->c3_mEmpty = c3_isEmptyQueue(chartInstance, c3_dv29); c3_updateDataWrittenToVector(chartInstance, 9U); _SFD_DATA_RANGE_CHECK(chartInstance->c3_mEmpty, 13U); _SFD_SYMBOL_SCOPE_POP(); } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 6U, chartInstance->c3_sfEvent); } } } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 6U, chartInstance->c3_sfEvent); } static void c3_encStr2Arr(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_myarr256[1000]) { uint32_T c3_debug_family_var_map[9]; real_T c3_maxarrsize; real_T c3_arr; real_T c3_ss; real_T c3_padsize; real_T c3_tt[1000]; char_T c3_mystr; real_T c3_nargin = 1.0; real_T c3_nargout = 1.0; int32_T c3_i96; int32_T c3_i97; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 9U, 9U, c3_b_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_maxarrsize, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML(&c3_arr, 1U, c3_sf_marshallOut); _SFD_SYMBOL_SCOPE_ADD_EML(&c3_ss, 2U, c3_sf_marshallOut); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_padsize, 3U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(c3_tt, 4U, c3_b_sf_marshallOut, c3_b_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML(&c3_mystr, 5U, c3_c_sf_marshallOut); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 6U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 7U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(c3_myarr256, 8U, c3_b_sf_marshallOut, c3_b_sf_marshallIn); c3_mystr = ' '; CV_SCRIPT_FCN(0, 0); _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 3); _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 4); c3_maxarrsize = 1000.0; _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 6); c3_arr = 32.0; _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 7); c3_ss = 1.0; _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 8); c3_padsize = c3_maxarrsize - c3_ss; _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 9); for (c3_i96 = 0; c3_i96 < 1000; c3_i96++) { c3_tt[c3_i96] = 0.0; } _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 10); c3_tt[0] = c3_arr; _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, 11); for (c3_i97 = 0; c3_i97 < 1000; c3_i97++) { c3_myarr256[c3_i97] = c3_tt[c3_i97]; } _SFD_SCRIPT_CALL(0U, chartInstance->c3_sfEvent, -11); _SFD_SYMBOL_SCOPE_POP(); } static boolean_T c3_isequal(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_varargin_1[1000], real_T c3_varargin_2[1000]) { boolean_T c3_p; boolean_T c3_b_p; int32_T c3_k; real_T c3_b_k; real_T c3_x1; real_T c3_x2; boolean_T c3_c_p; boolean_T exitg1; (void)chartInstance; c3_p = false; c3_b_p = true; c3_k = 0; exitg1 = false; while ((exitg1 == false) && (c3_k < 1000)) { c3_b_k = 1.0 + (real_T)c3_k; c3_x1 = c3_varargin_1[_SFD_EML_ARRAY_BOUNDS_CHECK("", (int32_T) _SFD_INTEGER_CHECK("", c3_b_k), 1, 1000, 1, 0) - 1]; c3_x2 = c3_varargin_2[_SFD_EML_ARRAY_BOUNDS_CHECK("", (int32_T) _SFD_INTEGER_CHECK("", c3_b_k), 1, 1000, 1, 0) - 1]; c3_c_p = (c3_x1 == c3_x2); if (!c3_c_p) { c3_b_p = false; exitg1 = true; } else { c3_k++; } } if (!c3_b_p) { } else { c3_p = true; } return c3_p; } static void init_script_number_translation(uint32_T c3_machineNumber, uint32_T c3_chartNumber, uint32_T c3_instanceNumber) { (void)c3_machineNumber; _SFD_SCRIPT_TRANSLATION(c3_chartNumber, c3_instanceNumber, 0U, sf_debug_get_script_id( "C:\\Users\\root180\\Documents\\affective-project\\2-1-2016-Matlab\\encStr2Arr.m")); } static const mxArray *c3_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; real_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(real_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 0, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static real_T c3_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_nargout, const char_T *c3_identifier) { real_T c3_y; emlrtMsgIdentifier c3_thisId; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_b_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_nargout), &c3_thisId); sf_mex_destroy(&c3_nargout); return c3_y; } static real_T c3_b_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { real_T c3_y; real_T c3_d0; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), &c3_d0, 1, 0, 0U, 0, 0U, 0); c3_y = c3_d0; sf_mex_destroy(&c3_u); return c3_y; } static void c3_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_nargout; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; real_T c3_y; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_nargout = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_b_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_nargout), &c3_thisId); sf_mex_destroy(&c3_nargout); *(real_T *)c3_outData = c3_y; sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_b_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_i98; real_T c3_b_inData[1000]; int32_T c3_i99; real_T c3_u[1000]; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; for (c3_i98 = 0; c3_i98 < 1000; c3_i98++) { c3_b_inData[c3_i98] = (*(real_T (*)[1000])c3_inData)[c3_i98]; } for (c3_i99 = 0; c3_i99 < 1000; c3_i99++) { c3_u[c3_i99] = c3_b_inData[c3_i99]; } c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", c3_u, 0, 0U, 1U, 0U, 1, 1000), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static void c3_c_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[1000]) { real_T c3_dv30[1000]; int32_T c3_i100; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), c3_dv30, 1, 0, 0U, 1, 0U, 1, 1000); for (c3_i100 = 0; c3_i100 < 1000; c3_i100++) { c3_y[c3_i100] = c3_dv30[c3_i100]; } sf_mex_destroy(&c3_u); } static void c3_b_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_myarr256; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; real_T c3_y[1000]; int32_T c3_i101; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_myarr256 = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_c_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_myarr256), &c3_thisId, c3_y); sf_mex_destroy(&c3_myarr256); for (c3_i101 = 0; c3_i101 < 1000; c3_i101++) { (*(real_T (*)[1000])c3_outData)[c3_i101] = c3_y[c3_i101]; } sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_c_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; char_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(char_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 10, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static const mxArray *c3_d_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_i102; int32_T c3_i103; int32_T c3_i104; real_T c3_b_inData[5000]; int32_T c3_i105; int32_T c3_i106; int32_T c3_i107; real_T c3_u[5000]; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_i102 = 0; for (c3_i103 = 0; c3_i103 < 5; c3_i103++) { for (c3_i104 = 0; c3_i104 < 1000; c3_i104++) { c3_b_inData[c3_i104 + c3_i102] = (*(real_T (*)[5000])c3_inData)[c3_i104 + c3_i102]; } c3_i102 += 1000; } c3_i105 = 0; for (c3_i106 = 0; c3_i106 < 5; c3_i106++) { for (c3_i107 = 0; c3_i107 < 1000; c3_i107++) { c3_u[c3_i107 + c3_i105] = c3_b_inData[c3_i107 + c3_i105]; } c3_i105 += 1000; } c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", c3_u, 0, 0U, 1U, 0U, 2, 1000, 5), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static void c3_d_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_newBmls, const char_T *c3_identifier, real_T c3_y[5000]) { emlrtMsgIdentifier c3_thisId; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_e_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_newBmls), &c3_thisId, c3_y); sf_mex_destroy(&c3_newBmls); } static void c3_e_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[5000]) { real_T c3_dv31[5000]; int32_T c3_i108; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), c3_dv31, 1, 0, 0U, 1, 0U, 2, 1000, 5); for (c3_i108 = 0; c3_i108 < 5000; c3_i108++) { c3_y[c3_i108] = c3_dv31[c3_i108]; } sf_mex_destroy(&c3_u); } static void c3_c_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_newBmls; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; real_T c3_y[5000]; int32_T c3_i109; int32_T c3_i110; int32_T c3_i111; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_newBmls = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_e_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_newBmls), &c3_thisId, c3_y); sf_mex_destroy(&c3_newBmls); c3_i109 = 0; for (c3_i110 = 0; c3_i110 < 5; c3_i110++) { for (c3_i111 = 0; c3_i111 < 1000; c3_i111++) { (*(real_T (*)[5000])c3_outData)[c3_i111 + c3_i109] = c3_y[c3_i111 + c3_i109]; } c3_i109 += 1000; } sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_e_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; boolean_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(boolean_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 11, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static boolean_T c3_f_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { boolean_T c3_y; boolean_T c3_b0; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), &c3_b0, 1, 11, 0U, 0, 0U, 0); c3_y = c3_b0; sf_mex_destroy(&c3_u); return c3_y; } static void c3_d_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_sf_internal_predicateOutput; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; boolean_T c3_y; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_sf_internal_predicateOutput = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_f_emlrt_marshallIn(chartInstance, sf_mex_dup (c3_sf_internal_predicateOutput), &c3_thisId); sf_mex_destroy(&c3_sf_internal_predicateOutput); *(boolean_T *)c3_outData = c3_y; sf_mex_destroy(&c3_mxArrayInData); } const mxArray *sf_c3_Demo_AU_VA_SBM_get_eml_resolved_functions_info(void) { const mxArray *c3_nameCaptureInfo = NULL; c3_nameCaptureInfo = NULL; sf_mex_assign(&c3_nameCaptureInfo, sf_mex_createstruct("structure", 2, 5, 1), false); c3_info_helper(&c3_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c3_nameCaptureInfo); return c3_nameCaptureInfo; } static void c3_info_helper(const mxArray **c3_info) { const mxArray *c3_rhs0 = NULL; const mxArray *c3_lhs0 = NULL; const mxArray *c3_rhs1 = NULL; const mxArray *c3_lhs1 = NULL; const mxArray *c3_rhs2 = NULL; const mxArray *c3_lhs2 = NULL; const mxArray *c3_rhs3 = NULL; const mxArray *c3_lhs3 = NULL; const mxArray *c3_rhs4 = NULL; const mxArray *c3_lhs4 = NULL; sf_mex_addfield(*c3_info, c3_emlrt_marshallOut(""), "context", "context", 0); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("encStr2Arr"), "name", "name", 0); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("char"), "dominantType", "dominantType", 0); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[E]C:/Users/root180/Documents/affective-project/2-1-2016-Matlab/encStr2Arr.m"), "resolved", "resolved", 0); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(1445391012U), "fileTimeLo", "fileTimeLo", 0); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "fileTimeHi", "fileTimeHi", 0); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeLo", "mFileTimeLo", 0); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeHi", "mFileTimeHi", 0); sf_mex_assign(&c3_rhs0, sf_mex_createcellmatrix(0, 1), false); sf_mex_assign(&c3_lhs0, sf_mex_createcellmatrix(0, 1), false); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_rhs0), "rhs", "rhs", 0); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_lhs0), "lhs", "lhs", 0); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut(""), "context", "context", 1); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("isequal"), "name", "name", 1); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("double"), "dominantType", "dominantType", 1); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/elmat/isequal.m"), "resolved", "resolved", 1); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(1286851158U), "fileTimeLo", "fileTimeLo", 1); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "fileTimeHi", "fileTimeHi", 1); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeLo", "mFileTimeLo", 1); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeHi", "mFileTimeHi", 1); sf_mex_assign(&c3_rhs1, sf_mex_createcellmatrix(0, 1), false); sf_mex_assign(&c3_lhs1, sf_mex_createcellmatrix(0, 1), false); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_rhs1), "rhs", "rhs", 1); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_lhs1), "lhs", "lhs", 1); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/elmat/isequal.m"), "context", "context", 2); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("eml_isequal_core"), "name", "name", 2); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("double"), "dominantType", "dominantType", 2); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/eml/eml_isequal_core.m"), "resolved", "resolved", 2); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(1286851186U), "fileTimeLo", "fileTimeLo", 2); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "fileTimeHi", "fileTimeHi", 2); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeLo", "mFileTimeLo", 2); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeHi", "mFileTimeHi", 2); sf_mex_assign(&c3_rhs2, sf_mex_createcellmatrix(0, 1), false); sf_mex_assign(&c3_lhs2, sf_mex_createcellmatrix(0, 1), false); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_rhs2), "rhs", "rhs", 2); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_lhs2), "lhs", "lhs", 2); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/eml/eml_isequal_core.m!isequal_scalar"), "context", "context", 3); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("isnan"), "name", "name", 3); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("double"), "dominantType", "dominantType", 3); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/elmat/isnan.m"), "resolved", "resolved", 3); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(1363742658U), "fileTimeLo", "fileTimeLo", 3); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "fileTimeHi", "fileTimeHi", 3); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeLo", "mFileTimeLo", 3); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeHi", "mFileTimeHi", 3); sf_mex_assign(&c3_rhs3, sf_mex_createcellmatrix(0, 1), false); sf_mex_assign(&c3_lhs3, sf_mex_createcellmatrix(0, 1), false); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_rhs3), "rhs", "rhs", 3); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_lhs3), "lhs", "lhs", 3); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[ILXE]$matlabroot$/toolbox/eml/lib/matlab/elmat/isnan.m"), "context", "context", 4); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "coder.internal.isBuiltInNumeric"), "name", "name", 4); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut("double"), "dominantType", "dominantType", 4); sf_mex_addfield(*c3_info, c3_emlrt_marshallOut( "[IXE]$matlabroot$/toolbox/shared/coder/coder/+coder/+internal/isBuiltInNumeric.m"), "resolved", "resolved", 4); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(1363743356U), "fileTimeLo", "fileTimeLo", 4); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "fileTimeHi", "fileTimeHi", 4); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeLo", "mFileTimeLo", 4); sf_mex_addfield(*c3_info, c3_b_emlrt_marshallOut(0U), "mFileTimeHi", "mFileTimeHi", 4); sf_mex_assign(&c3_rhs4, sf_mex_createcellmatrix(0, 1), false); sf_mex_assign(&c3_lhs4, sf_mex_createcellmatrix(0, 1), false); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_rhs4), "rhs", "rhs", 4); sf_mex_addfield(*c3_info, sf_mex_duplicatearraysafe(&c3_lhs4), "lhs", "lhs", 4); sf_mex_destroy(&c3_rhs0); sf_mex_destroy(&c3_lhs0); sf_mex_destroy(&c3_rhs1); sf_mex_destroy(&c3_lhs1); sf_mex_destroy(&c3_rhs2); sf_mex_destroy(&c3_lhs2); sf_mex_destroy(&c3_rhs3); sf_mex_destroy(&c3_lhs3); sf_mex_destroy(&c3_rhs4); sf_mex_destroy(&c3_lhs4); } static const mxArray *c3_emlrt_marshallOut(const char * c3_u) { const mxArray *c3_y = NULL; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", c3_u, 15, 0U, 0U, 0U, 2, 1, strlen (c3_u)), false); return c3_y; } static const mxArray *c3_b_emlrt_marshallOut(const uint32_T c3_u) { const mxArray *c3_y = NULL; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 7, 0U, 0U, 0U, 0), false); return c3_y; } static void c3_removeQueue(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_bmls[5000], real_T c3_newBmls[5000]) { uint32_T c3_debug_family_var_map[4]; real_T c3_nargin = 1.0; real_T c3_nargout = 1.0; real_T c3_dv32[1000]; int32_T c3_i112; int32_T c3_i113; int32_T c3_i114; int32_T c3_i115; int32_T c3_i116; int32_T c3_i117; int32_T c3_i118; int32_T c3_i119; int32_T c3_i120; int32_T c3_i121; real_T c3_dv33[1000]; int32_T c3_i122; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 4U, 4U, c3_c_debug_family_names, c3_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargin, 0U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_nargout, 1U, c3_sf_marshallOut, c3_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(c3_bmls, 2U, c3_d_sf_marshallOut, c3_c_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(c3_newBmls, 3U, c3_d_sf_marshallOut, c3_c_sf_marshallIn); CV_EML_FCN(7, 0); _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 2); c3_encStr2Arr(chartInstance, c3_dv32); for (c3_i112 = 0; c3_i112 < 1000; c3_i112++) { chartInstance->c3_n[c3_i112] = c3_dv32[c3_i112]; } c3_updateDataWrittenToVector(chartInstance, 10U); _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 3); c3_errorIfDataNotWrittenToFcn(chartInstance, 10U, 14U); for (c3_i113 = 0; c3_i113 < 1000; c3_i113++) { c3_newBmls[c3_i113] = chartInstance->c3_n[c3_i113]; } for (c3_i114 = 0; c3_i114 < 1000; c3_i114++) { c3_newBmls[c3_i114 + 1000] = chartInstance->c3_n[c3_i114]; } for (c3_i115 = 0; c3_i115 < 1000; c3_i115++) { c3_newBmls[c3_i115 + 2000] = chartInstance->c3_n[c3_i115]; } for (c3_i116 = 0; c3_i116 < 1000; c3_i116++) { c3_newBmls[c3_i116 + 3000] = chartInstance->c3_n[c3_i116]; } for (c3_i117 = 0; c3_i117 < 1000; c3_i117++) { c3_newBmls[c3_i117 + 4000] = chartInstance->c3_n[c3_i117]; } c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); c3_updateDataWrittenToVector(chartInstance, 10U); _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 4); for (c3_i118 = 0; c3_i118 < 1000; c3_i118++) { c3_newBmls[c3_i118] = c3_bmls[c3_i118 + 1000]; } _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 5); for (c3_i119 = 0; c3_i119 < 1000; c3_i119++) { c3_newBmls[c3_i119 + 1000] = c3_bmls[c3_i119 + 2000]; } _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 6); for (c3_i120 = 0; c3_i120 < 1000; c3_i120++) { c3_newBmls[c3_i120 + 2000] = c3_bmls[c3_i120 + 3000]; } _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 7); for (c3_i121 = 0; c3_i121 < 1000; c3_i121++) { c3_newBmls[c3_i121 + 3000] = c3_bmls[c3_i121 + 4000]; } _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, 8); c3_encStr2Arr(chartInstance, c3_dv33); for (c3_i122 = 0; c3_i122 < 1000; c3_i122++) { c3_newBmls[c3_i122 + 4000] = c3_dv33[c3_i122]; } _SFD_EML_CALL(7U, chartInstance->c3_sfEvent, -8); _SFD_SYMBOL_SCOPE_POP(); } static real_T c3_isEmptyQueue(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, real_T c3_bmls[5000]) { real_T c3_empty; uint32_T c3_debug_family_var_map[6]; real_T c3_tempp[1000]; real_T c3_i; real_T c3_nargin = 1.0; real_T c3_nargout = 1.0; int32_T c3_i123; static real_T c3_dv34[1000] = { 32.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 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_SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(c3_bmls, 4U, c3_d_sf_marshallOut, c3_c_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c3_empty, 5U, c3_sf_marshallOut, c3_sf_marshallIn); CV_EML_FCN(5, 0); _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 2); c3_empty = 1.0; _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 3); for (c3_i123 = 0; c3_i123 < 1000; c3_i123++) { c3_tempp[c3_i123] = c3_dv34[c3_i123]; } _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 4); c3_i = 1.0; c3_b_i = 0; do { exitg1 = 0; if (c3_b_i < 5) { c3_i = 1.0 + (real_T)c3_b_i; CV_EML_FOR(5, 1, 0, 1); _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 5); c3_c_i = _SFD_EML_ARRAY_BOUNDS_CHECK("bmls", (int32_T)_SFD_INTEGER_CHECK( "i", c3_i), 1, 5, 2, 0) - 1; for (c3_i124 = 0; c3_i124 < 1000; c3_i124++) { c3_b_bmls[c3_i124] = c3_bmls[c3_i124 + 1000 * c3_c_i]; } for (c3_i125 = 0; c3_i125 < 1000; c3_i125++) { c3_dv35[c3_i125] = c3_dv34[c3_i125]; } if (CV_EML_IF(5, 1, 0, (real_T)c3_isequal(chartInstance, c3_b_bmls, c3_dv35) == 0.0)) { _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 6); c3_empty = 0.0; _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, 7); exitg1 = 1; } else { c3_b_i++; _SF_MEX_LISTEN_FOR_CTRL_C(chartInstance->S); } } else { CV_EML_FOR(5, 1, 0, 0); exitg1 = 1; } } while (exitg1 == 0); _SFD_EML_CALL(5U, chartInstance->c3_sfEvent, -7); _SFD_SYMBOL_SCOPE_POP(); return c3_empty; } static const mxArray *c3_f_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int8_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(int8_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 2, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static int8_T c3_g_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { int8_T c3_y; int8_T c3_i126; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), &c3_i126, 1, 2, 0U, 0, 0U, 0); c3_y = c3_i126; sf_mex_destroy(&c3_u); return c3_y; } static void c3_e_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_secs; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; int8_T c3_y; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_secs = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_g_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_secs), &c3_thisId); sf_mex_destroy(&c3_secs); *(int8_T *)c3_outData = c3_y; sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_g_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(int32_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 6, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static int32_T c3_h_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { int32_T c3_y; int32_T c3_i127; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), &c3_i127, 1, 6, 0U, 0, 0U, 0); c3_y = c3_i127; sf_mex_destroy(&c3_u); return c3_y; } static void c3_f_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_b_sfEvent; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; int32_T c3_y; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_b_sfEvent = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_h_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_b_sfEvent), &c3_thisId); sf_mex_destroy(&c3_b_sfEvent); *(int32_T *)c3_outData = c3_y; sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_h_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; uint8_T c3_u; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(uint8_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 3, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static uint8_T c3_i_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_tp_facialExpression_Controller, const char_T *c3_identifier) { uint8_T c3_y; emlrtMsgIdentifier c3_thisId; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_j_emlrt_marshallIn(chartInstance, sf_mex_dup (c3_b_tp_facialExpression_Controller), &c3_thisId); sf_mex_destroy(&c3_b_tp_facialExpression_Controller); return c3_y; } static uint8_T c3_j_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { uint8_T c3_y; uint8_T c3_u0; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), &c3_u0, 1, 3, 0U, 0, 0U, 0); c3_y = c3_u0; sf_mex_destroy(&c3_u); return c3_y; } static void c3_g_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_b_tp_facialExpression_Controller; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; uint8_T c3_y; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_b_tp_facialExpression_Controller = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_y = c3_j_emlrt_marshallIn(chartInstance, sf_mex_dup (c3_b_tp_facialExpression_Controller), &c3_thisId); sf_mex_destroy(&c3_b_tp_facialExpression_Controller); *(uint8_T *)c3_outData = c3_y; sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_i_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_i128; real_T c3_b_inData[20]; int32_T c3_i129; real_T c3_u[20]; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; for (c3_i128 = 0; c3_i128 < 20; c3_i128++) { c3_b_inData[c3_i128] = (*(real_T (*)[20])c3_inData)[c3_i128]; } for (c3_i129 = 0; c3_i129 < 20; c3_i129++) { c3_u[c3_i129] = c3_b_inData[c3_i129]; } c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", c3_u, 0, 0U, 1U, 0U, 2, 1, 20), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static void c3_k_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_emotion_amount_factor, const char_T *c3_identifier, real_T c3_y[20]) { emlrtMsgIdentifier c3_thisId; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_l_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_emotion_amount_factor), &c3_thisId, c3_y); sf_mex_destroy(&c3_emotion_amount_factor); } static void c3_l_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[20]) { real_T c3_dv36[20]; int32_T c3_i130; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), c3_dv36, 1, 0, 0U, 1, 0U, 2, 1, 20); for (c3_i130 = 0; c3_i130 < 20; c3_i130++) { c3_y[c3_i130] = c3_dv36[c3_i130]; } sf_mex_destroy(&c3_u); } static void c3_h_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_emotion_amount_factor; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; real_T c3_y[20]; int32_T c3_i131; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_emotion_amount_factor = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_l_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_emotion_amount_factor), &c3_thisId, c3_y); sf_mex_destroy(&c3_emotion_amount_factor); for (c3_i131 = 0; c3_i131 < 20; c3_i131++) { (*(real_T (*)[20])c3_outData)[c3_i131] = c3_y[c3_i131]; } sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_j_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_i132; real_T c3_b_inData[1000]; int32_T c3_i133; real_T c3_u[1000]; const mxArray *c3_y = NULL; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_mxArrayOutData = NULL; for (c3_i132 = 0; c3_i132 < 1000; c3_i132++) { c3_b_inData[c3_i132] = (*(real_T (*)[1000])c3_inData)[c3_i132]; } for (c3_i133 = 0; c3_i133 < 1000; c3_i133++) { c3_u[c3_i133] = c3_b_inData[c3_i133]; } c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", c3_u, 0, 0U, 1U, 0U, 2, 1000, 1), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; } static void c3_m_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_BML, const char_T *c3_identifier, real_T c3_y[1000]) { emlrtMsgIdentifier c3_thisId; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_n_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_b_BML), &c3_thisId, c3_y); sf_mex_destroy(&c3_b_BML); } static void c3_n_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId, real_T c3_y[1000]) { real_T c3_dv37[1000]; int32_T c3_i134; (void)chartInstance; sf_mex_import(c3_parentId, sf_mex_dup(c3_u), c3_dv37, 1, 0, 0U, 1, 0U, 2, 1000, 1); for (c3_i134 = 0; c3_i134 < 1000; c3_i134++) { c3_y[c3_i134] = c3_dv37[c3_i134]; } sf_mex_destroy(&c3_u); } static void c3_i_sf_marshallIn(void *chartInstanceVoid, const mxArray *c3_mxArrayInData, const char_T *c3_varName, void *c3_outData) { const mxArray *c3_b_BML; const char_T *c3_identifier; emlrtMsgIdentifier c3_thisId; real_T c3_y[1000]; int32_T c3_i135; SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)chartInstanceVoid; c3_b_BML = sf_mex_dup(c3_mxArrayInData); c3_identifier = c3_varName; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; c3_n_emlrt_marshallIn(chartInstance, sf_mex_dup(c3_b_BML), &c3_thisId, c3_y); sf_mex_destroy(&c3_b_BML); for (c3_i135 = 0; c3_i135 < 1000; c3_i135++) { (*(real_T (*)[1000])c3_outData)[c3_i135] = c3_y[c3_i135]; } sf_mex_destroy(&c3_mxArrayInData); } static const mxArray *c3_o_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_b_subchartSimStateInfo, const char_T *c3_identifier) { const mxArray *c3_y = NULL; emlrtMsgIdentifier c3_thisId; c3_y = NULL; c3_thisId.fIdentifier = c3_identifier; c3_thisId.fParent = NULL; sf_mex_assign(&c3_y, c3_p_emlrt_marshallIn(chartInstance, sf_mex_dup (c3_b_subchartSimStateInfo), &c3_thisId), false); sf_mex_destroy(&c3_b_subchartSimStateInfo); return c3_y; } static const mxArray *c3_p_emlrt_marshallIn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, const mxArray *c3_u, const emlrtMsgIdentifier *c3_parentId) { const mxArray *c3_y = NULL; (void)chartInstance; (void)c3_parentId; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_duplicatearraysafe(&c3_u), false); sf_mex_destroy(&c3_u); return c3_y; } static void c3_updateDataWrittenToVector(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_vectorIndex) { (void)chartInstance; c3_dataWrittenToVector[(uint32_T)_SFD_EML_ARRAY_BOUNDS_CHECK(0, (int32_T) c3_vectorIndex, 0, 12, 1, 0)] = true; } static void c3_errorIfDataNotWrittenToFcn(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_vectorIndex, uint32_T c3_dataNumber) { (void)chartInstance; _SFD_DATA_READ_BEFORE_WRITE_CHECK(c3_dataNumber, c3_dataWrittenToVector [(uint32_T)_SFD_EML_ARRAY_BOUNDS_CHECK(0, (int32_T)c3_vectorIndex, 0, 12, 1, 0)]); } static real_T c3_get_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b) { ssReadFromDataStoreElement(chartInstance->S, 0, NULL, c3_b); if (chartInstance->c3_bmlsL_address == 0) { sf_mex_error_message("Invalid access to Data Store Memory data \'bmlsL\' (#2301) in the initialization routine of the chart.\n"); } return (*chartInstance->c3_bmlsL_address)[c3_b]; } static void c3_set_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b, real_T c3_c) { ssWriteToDataStoreElement(chartInstance->S, 0, NULL, c3_b); if (chartInstance->c3_bmlsL_address == 0) { sf_mex_error_message("Invalid access to Data Store Memory data \'bmlsL\' (#2301) in the initialization routine of the chart.\n"); } (*chartInstance->c3_bmlsL_address)[c3_b] = c3_c; } static real_T *c3_access_bmlsL(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance, uint32_T c3_b) { real_T *c3_c; ssReadFromDataStore(chartInstance->S, 0, NULL); if (chartInstance->c3_bmlsL_address == 0) { sf_mex_error_message("Invalid access to Data Store Memory data \'bmlsL\' (#2301) in the initialization routine of the chart.\n"); } c3_c = *chartInstance->c3_bmlsL_address; if (c3_b == 0) { ssWriteToDataStore(chartInstance->S, 0, NULL); } return c3_c; } static void init_dsm_address_info(SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance) { ssGetSFcnDataStoreNameAddrIdx(chartInstance->S, "bmlsL", (void **) &chartInstance->c3_bmlsL_address, &chartInstance->c3_bmlsL_index); } /* SFunction Glue Code */ #ifdef utFree #undef utFree #endif #ifdef utMalloc #undef utMalloc #endif #ifdef __cplusplus extern "C" void *utMalloc(size_t size); extern "C" void utFree(void*); #else extern void *utMalloc(size_t size); extern void utFree(void*); #endif void sf_c3_Demo_AU_VA_SBM_get_check_sum(mxArray *plhs[]) { ((real_T *)mxGetPr((plhs[0])))[0] = (real_T)(282896964U); ((real_T *)mxGetPr((plhs[0])))[1] = (real_T)(2016589460U); ((real_T *)mxGetPr((plhs[0])))[2] = (real_T)(3584812835U); ((real_T *)mxGetPr((plhs[0])))[3] = (real_T)(3027265081U); } mxArray *sf_c3_Demo_AU_VA_SBM_get_autoinheritance_info(void) { const char *autoinheritanceFields[] = { "checksum", "inputs", "parameters", "outputs", "locals" }; mxArray *mxAutoinheritanceInfo = mxCreateStructMatrix(1,1,5, autoinheritanceFields); { mxArray *mxChecksum = mxCreateString("08WMXCt1Uun4dW8X12ptr"); mxSetField(mxAutoinheritanceInfo,0,"checksum",mxChecksum); } { const char *dataFields[] = { "size", "type", "complexity" }; mxArray *mxData = mxCreateStructMatrix(1,2,3,dataFields); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,0,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,0,"type",mxType); } mxSetField(mxData,0,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,1,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,1,"type",mxType); } mxSetField(mxData,1,"complexity",mxCreateDoubleScalar(0)); mxSetField(mxAutoinheritanceInfo,0,"inputs",mxData); } { mxSetField(mxAutoinheritanceInfo,0,"parameters",mxCreateDoubleMatrix(0,0, mxREAL)); } { const char *dataFields[] = { "size", "type", "complexity" }; mxArray *mxData = mxCreateStructMatrix(1,1,3,dataFields); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(20); mxSetField(mxData,0,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,0,"type",mxType); } mxSetField(mxData,0,"complexity",mxCreateDoubleScalar(0)); mxSetField(mxAutoinheritanceInfo,0,"outputs",mxData); } { const char *dataFields[] = { "size", "type", "complexity" }; mxArray *mxData = mxCreateStructMatrix(1,12,3,dataFields); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,0,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,0,"type",mxType); } mxSetField(mxData,0,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,1,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,1,"type",mxType); } mxSetField(mxData,1,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,2,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,2,"type",mxType); } mxSetField(mxData,2,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,3,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,3,"type",mxType); } mxSetField(mxData,3,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,4,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,4,"type",mxType); } mxSetField(mxData,4,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,5,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,5,"type",mxType); } mxSetField(mxData,5,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(5); mxSetField(mxData,6,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,6,"type",mxType); } mxSetField(mxData,6,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,7,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,7,"type",mxType); } mxSetField(mxData,7,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(1); mxSetField(mxData,8,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,8,"type",mxType); } mxSetField(mxData,8,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,9,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,9,"type",mxType); } mxSetField(mxData,9,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1); pr[1] = (double)(1); mxSetField(mxData,10,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,10,"type",mxType); } mxSetField(mxData,10,"complexity",mxCreateDoubleScalar(0)); { mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL); double *pr = mxGetPr(mxSize); pr[0] = (double)(1000); pr[1] = (double)(1); mxSetField(mxData,11,"size",mxSize); } { const char *typeFields[] = { "base", "fixpt" }; mxArray *mxType = mxCreateStructMatrix(1,1,2,typeFields); mxSetField(mxType,0,"base",mxCreateDoubleScalar(10)); mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL)); mxSetField(mxData,11,"type",mxType); } mxSetField(mxData,11,"complexity",mxCreateDoubleScalar(0)); mxSetField(mxAutoinheritanceInfo,0,"locals",mxData); } return(mxAutoinheritanceInfo); } mxArray *sf_c3_Demo_AU_VA_SBM_third_party_uses_info(void) { mxArray * mxcell3p = mxCreateCellMatrix(1,0); return(mxcell3p); } mxArray *sf_c3_Demo_AU_VA_SBM_updateBuildInfo_args_info(void) { mxArray *mxBIArgs = mxCreateCellMatrix(1,0); return mxBIArgs; } static const mxArray *sf_get_sim_state_info_c3_Demo_AU_VA_SBM(void) { const char *infoFields[] = { "chartChecksum", "varInfo" }; mxArray *mxInfo = mxCreateStructMatrix(1, 1, 2, infoFields); const char *infoEncStr[] = { "100 S1x10'type','srcId','name','auxInfo'{{M[1],M[62],T\"emotion_amount_factor\",},{M[3],M[71],T\"BML\",},{M[3],M[67],T\"bmlsH\",},{M[3],M[60],T\"bmlsL\",},{M[3],M[65],T\"bmlsM\",},{M[3],M[63],T\"hEmpty\",},{M[3],M[73],T\"lEmpty\",},{M[3],M[74],T\"mEmpty\",},{M[3],M[75],T\"n\",},{M[3],M[70],T\"newBmlA\",}}", "100 S1x8'type','srcId','name','auxInfo'{{M[3],M[66],T\"newBmlsH\",},{M[3],M[61],T\"newBmlsL\",},{M[3],M[64],T\"newBmlsM\",},{M[8],M[0],T\"is_active_c3_Demo_AU_VA_SBM\",},{M[8],M[1],T\"is_active_facialExpression_Controller\",},{M[8],M[9],T\"is_active_sendBMLbyPriority\",},{M[9],M[9],T\"is_sendBMLbyPriority\",},{M[14],M[1],T\"subchartSimStateInfo\",}}" }; mxArray *mxVarInfo = sf_mex_decode_encoded_mx_struct_array(infoEncStr, 18, 10); mxArray *mxChecksum = mxCreateDoubleMatrix(1, 4, mxREAL); sf_c3_Demo_AU_VA_SBM_get_check_sum(&mxChecksum); mxSetField(mxInfo, 0, infoFields[0], mxChecksum); mxSetField(mxInfo, 0, infoFields[1], mxVarInfo); return mxInfo; } static void chart_debug_initialization(SimStruct *S, unsigned int fullDebuggerInitialization) { if (!sim_mode_is_rtw_gen(S)) { SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)(ssGetUserData(S)); ChartInfoStruct * chartInfo = (ChartInfoStruct *)(crtInfo->instanceInfo); chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *) chartInfo->chartInstance; if (ssIsFirstInitCond(S) && fullDebuggerInitialization==1) { /* do this only if simulation is starting */ { unsigned int chartAlreadyPresent; chartAlreadyPresent = sf_debug_initialize_chart (sfGlobalDebugInstanceStruct, _Demo_AU_VA_SBMMachineNumber_, 3, 12, 18, 0, 20, 1, 0, 0, 0, 1, &(chartInstance->chartNumber), &(chartInstance->instanceNumber), (void *)S); /* Each instance must initialize ist own list of scripts */ init_script_number_translation(_Demo_AU_VA_SBMMachineNumber_, chartInstance->chartNumber,chartInstance->instanceNumber); if (chartAlreadyPresent==0) { /* this is the first instance */ sf_debug_set_chart_disable_implicit_casting (sfGlobalDebugInstanceStruct,_Demo_AU_VA_SBMMachineNumber_, chartInstance->chartNumber,1); sf_debug_set_chart_event_thresholds(sfGlobalDebugInstanceStruct, _Demo_AU_VA_SBMMachineNumber_, chartInstance->chartNumber, 1, 1, 1); _SFD_SET_DATA_PROPS(0,1,1,0,"inV"); _SFD_SET_DATA_PROPS(1,1,1,0,"inA"); _SFD_SET_DATA_PROPS(2,0,0,0,"bmlsL"); _SFD_SET_DATA_PROPS(3,0,0,0,"newBmlsL"); _SFD_SET_DATA_PROPS(4,2,0,1,"emotion_amount_factor"); _SFD_SET_DATA_PROPS(5,0,0,0,"hEmpty"); _SFD_SET_DATA_PROPS(6,0,0,0,"newBmlsM"); _SFD_SET_DATA_PROPS(7,0,0,0,"bmlsM"); _SFD_SET_DATA_PROPS(8,0,0,0,"newBmlsH"); _SFD_SET_DATA_PROPS(9,0,0,0,"bmlsH"); _SFD_SET_DATA_PROPS(10,0,0,0,"newBmlA"); _SFD_SET_DATA_PROPS(11,0,0,0,"BML"); _SFD_SET_DATA_PROPS(12,0,0,0,"lEmpty"); _SFD_SET_DATA_PROPS(13,0,0,0,"mEmpty"); _SFD_SET_DATA_PROPS(14,0,0,0,"n"); _SFD_SET_DATA_PROPS(15,8,0,0,""); _SFD_SET_DATA_PROPS(16,8,0,0,""); _SFD_SET_DATA_PROPS(17,9,0,0,""); _SFD_SET_DATA_PROPS(18,8,0,0,""); _SFD_SET_DATA_PROPS(19,9,0,0,""); _SFD_EVENT_SCOPE(0,1); _SFD_STATE_INFO(0,0,1); _SFD_STATE_INFO(1,0,1); _SFD_STATE_INFO(2,0,0); _SFD_STATE_INFO(3,0,0); _SFD_STATE_INFO(4,0,0); _SFD_STATE_INFO(6,0,0); _SFD_STATE_INFO(9,0,0); _SFD_STATE_INFO(10,0,0); _SFD_STATE_INFO(11,0,0); _SFD_STATE_INFO(5,0,2); _SFD_STATE_INFO(7,0,2); _SFD_STATE_INFO(8,0,2); _SFD_CH_SUBSTATE_COUNT(2); _SFD_CH_SUBSTATE_DECOMP(1); _SFD_CH_SUBSTATE_INDEX(0,0); _SFD_CH_SUBSTATE_INDEX(1,1); _SFD_ST_SUBSTATE_COUNT(0,0); _SFD_ST_SUBSTATE_COUNT(1,7); _SFD_ST_SUBSTATE_INDEX(1,0,2); _SFD_ST_SUBSTATE_INDEX(1,1,3); _SFD_ST_SUBSTATE_INDEX(1,2,4); _SFD_ST_SUBSTATE_INDEX(1,3,6); _SFD_ST_SUBSTATE_INDEX(1,4,9); _SFD_ST_SUBSTATE_INDEX(1,5,10); _SFD_ST_SUBSTATE_INDEX(1,6,11); _SFD_ST_SUBSTATE_COUNT(2,0); _SFD_ST_SUBSTATE_COUNT(3,0); _SFD_ST_SUBSTATE_COUNT(4,0); _SFD_ST_SUBSTATE_COUNT(6,0); _SFD_ST_SUBSTATE_COUNT(9,0); _SFD_ST_SUBSTATE_COUNT(10,0); _SFD_ST_SUBSTATE_COUNT(11,0); } _SFD_CV_INIT_CHART(2,0,0,0); { _SFD_CV_INIT_STATE(0,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(1,7,1,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(2,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(3,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(4,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(6,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(9,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(10,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(11,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(5,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(7,0,0,0,0,0,NULL,NULL); } { _SFD_CV_INIT_STATE(8,0,0,0,0,0,NULL,NULL); } _SFD_CV_INIT_TRANS(0,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(1,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(2,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(3,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(4,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(5,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(7,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(6,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(8,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(9,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(10,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(11,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(12,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(13,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(14,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(15,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(16,0,NULL,NULL,0,NULL); _SFD_CV_INIT_TRANS(17,0,NULL,NULL,0,NULL); /* Initialization of MATLAB Function Model Coverage */ _SFD_CV_INIT_EML(7,1,1,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_FCN(7,0,"removeQueue",0,-1,234); _SFD_CV_INIT_EML(5,1,1,1,0,0,0,1,0,0,0); _SFD_CV_INIT_EML_FCN(5,0,"isEmptyQueue",0,-1,201); _SFD_CV_INIT_EML_IF(5,1,0,82,114,-1,-2); _SFD_CV_INIT_EML_FOR(5,1,0,66,78,200); _SFD_CV_INIT_SCRIPT(0,1,0,0,0,0,0,0,0,0); _SFD_CV_INIT_SCRIPT_FCN(0,0,"encStr2Arr",0,-1,440); _SFD_CV_INIT_EML(9,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(4,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(3,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(11,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(2,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(10,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(6,1,0,0,0,0,0,0,0,0,0); _SFD_CV_INIT_EML(1,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(1,0,0,1,10,1,10); _SFD_CV_INIT_EML(4,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(4,0,0,1,10,1,10); _SFD_CV_INIT_EML(5,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(5,0,0,1,10,1,10); _SFD_CV_INIT_EML(8,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(8,0,0,1,23,1,23); _SFD_CV_INIT_EML(9,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(9,0,0,1,23,1,23); _SFD_CV_INIT_EML(10,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(10,0,0,1,23,1,23); _SFD_CV_INIT_EML(11,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(11,0,0,1,23,1,23); _SFD_CV_INIT_EML(12,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(12,0,0,1,10,1,10); _SFD_CV_INIT_EML(13,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(13,0,0,1,10,1,10); _SFD_CV_INIT_EML(14,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(14,0,0,1,10,1,10); _SFD_CV_INIT_EML(15,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(15,0,0,1,23,1,23); _SFD_CV_INIT_EML(16,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(16,0,0,1,23,1,23); _SFD_CV_INIT_EML(17,0,0,1,0,0,0,0,0,0,0); _SFD_CV_INIT_EML_IF(17,0,0,1,10,1,10); _SFD_SET_DATA_COMPILED_PROPS(0,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)NULL); _SFD_SET_DATA_COMPILED_PROPS(1,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)NULL); { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(2,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(3,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1; dimVector[1]= 20; _SFD_SET_DATA_COMPILED_PROPS(4,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_i_sf_marshallOut,(MexInFcnForType) c3_h_sf_marshallIn); } _SFD_SET_DATA_COMPILED_PROPS(5,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)c3_sf_marshallIn); { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(6,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(7,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(8,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 5; _SFD_SET_DATA_COMPILED_PROPS(9,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_d_sf_marshallOut,(MexInFcnForType) c3_c_sf_marshallIn); } _SFD_SET_DATA_COMPILED_PROPS(10,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)c3_sf_marshallIn); { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 1; _SFD_SET_DATA_COMPILED_PROPS(11,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_j_sf_marshallOut,(MexInFcnForType) c3_i_sf_marshallIn); } _SFD_SET_DATA_COMPILED_PROPS(12,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)c3_sf_marshallIn); _SFD_SET_DATA_COMPILED_PROPS(13,SF_DOUBLE,0,NULL,0,0,0,0.0,1.0,0,0, (MexFcnForType)c3_sf_marshallOut,(MexInFcnForType)c3_sf_marshallIn); { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 1; _SFD_SET_DATA_COMPILED_PROPS(14,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_j_sf_marshallOut,(MexInFcnForType) c3_i_sf_marshallIn); } { unsigned int dimVector[2]; dimVector[0]= 1000; dimVector[1]= 1; _SFD_SET_DATA_COMPILED_PROPS(15,SF_DOUBLE,2,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)c3_j_sf_marshallOut,(MexInFcnForType) c3_i_sf_marshallIn); } { unsigned int dimVector[1]; dimVector[0]= 4294967295; _SFD_SET_DATA_COMPILED_PROPS(16,SF_DOUBLE,1,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)NULL,(MexInFcnForType)NULL); } { unsigned int dimVector[1]; dimVector[0]= 4294967295; _SFD_SET_DATA_COMPILED_PROPS(17,SF_DOUBLE,1,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)NULL,(MexInFcnForType)NULL); } { unsigned int dimVector[1]; dimVector[0]= 4294967295; _SFD_SET_DATA_COMPILED_PROPS(18,SF_DOUBLE,1,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)NULL,(MexInFcnForType)NULL); } { unsigned int dimVector[1]; dimVector[0]= 4294967295; _SFD_SET_DATA_COMPILED_PROPS(19,SF_DOUBLE,1,&(dimVector[0]),0,0,0,0.0, 1.0,0,0,(MexFcnForType)NULL,(MexInFcnForType)NULL); } _SFD_SET_DATA_VALUE_PTR(15,(void *)(NULL)); _SFD_SET_DATA_VALUE_PTR(16,(void *)(NULL)); _SFD_SET_DATA_VALUE_PTR(17,(void *)(NULL)); _SFD_SET_DATA_VALUE_PTR(18,(void *)(NULL)); _SFD_SET_DATA_VALUE_PTR(19,(void *)(NULL)); { real_T *c3_inV; real_T *c3_inA; real_T (*c3_emotion_amount_factor)[20]; c3_emotion_amount_factor = (real_T (*)[20])ssGetOutputPortSignal (chartInstance->S, 1); c3_inA = (real_T *)ssGetInputPortSignal(chartInstance->S, 1); c3_inV = (real_T *)ssGetInputPortSignal(chartInstance->S, 0); _SFD_SET_DATA_VALUE_PTR(0U, c3_inV); _SFD_SET_DATA_VALUE_PTR(1U, c3_inA); _SFD_SET_DATA_VALUE_PTR(2U, *chartInstance->c3_bmlsL_address); _SFD_SET_DATA_VALUE_PTR(3U, chartInstance->c3_newBmlsL); _SFD_SET_DATA_VALUE_PTR(4U, *c3_emotion_amount_factor); _SFD_SET_DATA_VALUE_PTR(5U, &chartInstance->c3_hEmpty); _SFD_SET_DATA_VALUE_PTR(6U, chartInstance->c3_newBmlsM); _SFD_SET_DATA_VALUE_PTR(7U, chartInstance->c3_bmlsM); _SFD_SET_DATA_VALUE_PTR(8U, chartInstance->c3_newBmlsH); _SFD_SET_DATA_VALUE_PTR(9U, chartInstance->c3_bmlsH); _SFD_SET_DATA_VALUE_PTR(10U, &chartInstance->c3_newBmlA); _SFD_SET_DATA_VALUE_PTR(11U, chartInstance->c3_BML); _SFD_SET_DATA_VALUE_PTR(12U, &chartInstance->c3_lEmpty); _SFD_SET_DATA_VALUE_PTR(13U, &chartInstance->c3_mEmpty); _SFD_SET_DATA_VALUE_PTR(14U, chartInstance->c3_n); } } } else { sf_debug_reset_current_state_configuration(sfGlobalDebugInstanceStruct, _Demo_AU_VA_SBMMachineNumber_,chartInstance->chartNumber, chartInstance->instanceNumber); } } } static const char* sf_get_instance_specialization(void) { return "16fFl8UvG7mEWU1IqNDdsE"; } static void sf_opaque_initialize_c3_Demo_AU_VA_SBM(void *chartInstanceVar) { chart_debug_initialization(((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar)->S,0); initialize_params_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); initialize_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); } static void sf_opaque_enable_c3_Demo_AU_VA_SBM(void *chartInstanceVar) { enable_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); } static void sf_opaque_disable_c3_Demo_AU_VA_SBM(void *chartInstanceVar) { disable_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); } static void sf_opaque_gateway_c3_Demo_AU_VA_SBM(void *chartInstanceVar) { sf_gateway_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); } extern const mxArray* sf_internal_get_sim_state_c3_Demo_AU_VA_SBM(SimStruct* S) { ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)(ssGetUserData(S)); ChartInfoStruct * chartInfo = (ChartInfoStruct *)(crtInfo->instanceInfo); mxArray *plhs[1] = { NULL }; mxArray *prhs[4]; int mxError = 0; prhs[0] = mxCreateString("chart_simctx_raw2high"); prhs[1] = mxCreateDoubleScalar(ssGetSFuncBlockHandle(S)); prhs[2] = (mxArray*) get_sim_state_c3_Demo_AU_VA_SBM ((SFc3_Demo_AU_VA_SBMInstanceStruct*)chartInfo->chartInstance);/* raw sim ctx */ prhs[3] = (mxArray*) sf_get_sim_state_info_c3_Demo_AU_VA_SBM();/* state var info */ mxError = sf_mex_call_matlab(1, plhs, 4, prhs, "sfprivate"); mxDestroyArray(prhs[0]); mxDestroyArray(prhs[1]); mxDestroyArray(prhs[2]); mxDestroyArray(prhs[3]); if (mxError || plhs[0] == NULL) { sf_mex_error_message("Stateflow Internal Error: \nError calling 'chart_simctx_raw2high'.\n"); } return plhs[0]; } extern void sf_internal_set_sim_state_c3_Demo_AU_VA_SBM(SimStruct* S, const mxArray *st) { ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)(ssGetUserData(S)); ChartInfoStruct * chartInfo = (ChartInfoStruct *)(crtInfo->instanceInfo); mxArray *plhs[1] = { NULL }; mxArray *prhs[3]; int mxError = 0; prhs[0] = mxCreateString("chart_simctx_high2raw"); prhs[1] = mxDuplicateArray(st); /* high level simctx */ prhs[2] = (mxArray*) sf_get_sim_state_info_c3_Demo_AU_VA_SBM();/* state var info */ mxError = sf_mex_call_matlab(1, plhs, 3, prhs, "sfprivate"); mxDestroyArray(prhs[0]); mxDestroyArray(prhs[1]); mxDestroyArray(prhs[2]); if (mxError || plhs[0] == NULL) { sf_mex_error_message("Stateflow Internal Error: \nError calling 'chart_simctx_high2raw'.\n"); } set_sim_state_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInfo->chartInstance, mxDuplicateArray(plhs[0])); mxDestroyArray(plhs[0]); } static const mxArray* sf_opaque_get_sim_state_c3_Demo_AU_VA_SBM(SimStruct* S) { return sf_internal_get_sim_state_c3_Demo_AU_VA_SBM(S); } static void sf_opaque_set_sim_state_c3_Demo_AU_VA_SBM(SimStruct* S, const mxArray *st) { sf_internal_set_sim_state_c3_Demo_AU_VA_SBM(S, st); } static void sf_opaque_terminate_c3_Demo_AU_VA_SBM(void *chartInstanceVar) { if (chartInstanceVar!=NULL) { SimStruct *S = ((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar)->S; ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)(ssGetUserData(S)); if (sim_mode_is_rtw_gen(S) || sim_mode_is_external(S)) { sf_clear_rtw_identifier(S); unload_Demo_AU_VA_SBM_optimization_info(); } finalize_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); utFree((void *)chartInstanceVar); if (crtInfo != NULL) { utFree((void *)crtInfo); } ssSetUserData(S,NULL); } } static void sf_opaque_init_subchart_simstructs(void *chartInstanceVar) { initSimStructsc3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) chartInstanceVar); } extern unsigned int sf_machine_global_initializer_called(void); static void mdlProcessParameters_c3_Demo_AU_VA_SBM(SimStruct *S) { int i; for (i=0;i<ssGetNumRunTimeParams(S);i++) { if (ssGetSFcnParamTunable(S,i)) { ssUpdateDlgParamAsRunTimeParam(S,i); } } if (sf_machine_global_initializer_called()) { ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)(ssGetUserData(S)); ChartInfoStruct * chartInfo = (ChartInfoStruct *)(crtInfo->instanceInfo); initialize_params_c3_Demo_AU_VA_SBM((SFc3_Demo_AU_VA_SBMInstanceStruct*) (chartInfo->chartInstance)); } } static void mdlSetWorkWidths_c3_Demo_AU_VA_SBM(SimStruct *S) { if (sim_mode_is_rtw_gen(S) || sim_mode_is_external(S)) { mxArray *infoStruct = load_Demo_AU_VA_SBM_optimization_info(); int_T chartIsInlinable = (int_T)sf_is_chart_inlinable(sf_get_instance_specialization(),infoStruct,3); ssSetStateflowIsInlinable(S,chartIsInlinable); ssSetRTWCG(S,sf_rtw_info_uint_prop(sf_get_instance_specialization(), infoStruct,3,"RTWCG")); ssSetEnableFcnIsTrivial(S,1); ssSetDisableFcnIsTrivial(S,1); ssSetNotMultipleInlinable(S,sf_rtw_info_uint_prop (sf_get_instance_specialization(),infoStruct,3, "gatewayCannotBeInlinedMultipleTimes")); sf_update_buildInfo(sf_get_instance_specialization(),infoStruct,3); sf_mark_output_events_with_multiple_callers(S,sf_get_instance_specialization (),infoStruct,3,1); if (chartIsInlinable) { ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL); ssSetInputPortOptimOpts(S, 1, SS_REUSABLE_AND_LOCAL); sf_mark_chart_expressionable_inputs(S,sf_get_instance_specialization(), infoStruct,3,2); sf_mark_chart_reusable_outputs(S,sf_get_instance_specialization(), infoStruct,3,2); } ssSetInputPortOptimOpts(S, 2, SS_REUSABLE_AND_LOCAL); { unsigned int outPortIdx; for (outPortIdx=1; outPortIdx<=2; ++outPortIdx) { ssSetOutputPortOptimizeInIR(S, outPortIdx, 1U); } } { unsigned int inPortIdx; for (inPortIdx=0; inPortIdx < 2; ++inPortIdx) { ssSetInputPortOptimizeInIR(S, inPortIdx, 1U); } } sf_set_rtw_dwork_info(S,sf_get_instance_specialization(),infoStruct,3); ssSetHasSubFunctions(S,!(chartIsInlinable)); } else { } ssSetOptions(S,ssGetOptions(S)|SS_OPTION_WORKS_WITH_CODE_REUSE); ssSetChecksum0(S,(968594977U)); ssSetChecksum1(S,(312403730U)); ssSetChecksum2(S,(2048269869U)); ssSetChecksum3(S,(2537836011U)); ssSetmdlDerivatives(S, NULL); ssSetExplicitFCSSCtrl(S,1); ssSupportsMultipleExecInstances(S,1); } static void mdlRTW_c3_Demo_AU_VA_SBM(SimStruct *S) { if (sim_mode_is_rtw_gen(S)) { ssWriteRTWStrParam(S, "StateflowChartType", "Stateflow"); } } static void mdlStart_c3_Demo_AU_VA_SBM(SimStruct *S) { SFc3_Demo_AU_VA_SBMInstanceStruct *chartInstance; ChartRunTimeInfo * crtInfo = (ChartRunTimeInfo *)utMalloc(sizeof (ChartRunTimeInfo)); chartInstance = (SFc3_Demo_AU_VA_SBMInstanceStruct *)utMalloc(sizeof (SFc3_Demo_AU_VA_SBMInstanceStruct)); memset(chartInstance, 0, sizeof(SFc3_Demo_AU_VA_SBMInstanceStruct)); if (chartInstance==NULL) { sf_mex_error_message("Could not allocate memory for chart instance."); } chartInstance->chartInfo.chartInstance = chartInstance; chartInstance->chartInfo.isEMLChart = 0; chartInstance->chartInfo.chartInitialized = 0; chartInstance->chartInfo.sFunctionGateway = sf_opaque_gateway_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.initializeChart = sf_opaque_initialize_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.terminateChart = sf_opaque_terminate_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.enableChart = sf_opaque_enable_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.disableChart = sf_opaque_disable_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.getSimState = sf_opaque_get_sim_state_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.setSimState = sf_opaque_set_sim_state_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.getSimStateInfo = sf_get_sim_state_info_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.zeroCrossings = NULL; chartInstance->chartInfo.outputs = NULL; chartInstance->chartInfo.derivatives = NULL; chartInstance->chartInfo.mdlRTW = mdlRTW_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.mdlStart = mdlStart_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.mdlSetWorkWidths = mdlSetWorkWidths_c3_Demo_AU_VA_SBM; chartInstance->chartInfo.extModeExec = NULL; chartInstance->chartInfo.restoreLastMajorStepConfiguration = NULL; chartInstance->chartInfo.restoreBeforeLastMajorStepConfiguration = NULL; chartInstance->chartInfo.storeCurrentConfiguration = NULL; chartInstance->chartInfo.debugInstance = sfGlobalDebugInstanceStruct; chartInstance->S = S; crtInfo->instanceInfo = (&(chartInstance->chartInfo)); crtInfo->isJITEnabled = false; ssSetUserData(S,(void *)(crtInfo)); /* register the chart instance with simstruct */ init_dsm_address_info(chartInstance); if (!sim_mode_is_rtw_gen(S)) { } sf_opaque_init_subchart_simstructs(chartInstance->chartInfo.chartInstance); chart_debug_initialization(S,1); } void c3_Demo_AU_VA_SBM_method_dispatcher(SimStruct *S, int_T method, void *data) { switch (method) { case SS_CALL_MDL_START: mdlStart_c3_Demo_AU_VA_SBM(S); break; case SS_CALL_MDL_SET_WORK_WIDTHS: mdlSetWorkWidths_c3_Demo_AU_VA_SBM(S); break; case SS_CALL_MDL_PROCESS_PARAMETERS: mdlProcessParameters_c3_Demo_AU_VA_SBM(S); break; default: /* Unhandled method */ sf_mex_error_message("Stateflow Internal Error:\n" "Error calling c3_Demo_AU_VA_SBM_method_dispatcher.\n" "Can't handle method %d.\n", method); break; } }

38.558301

358

0.682984

83f18345d44509197ff1480ea2466c050f678ef5

848

h

C

include/drivers/nxp/csu/csu.h

SUNWU07/arm-trusted-firmware

fee7b2d3b4dc4fcf225c5191a7aad8427489ef64

[ "MIT" ]

1

2022-01-08T10:38:08.000Z

include/drivers/nxp/csu/csu.h

SUNWU07/arm-trusted-firmware

fee7b2d3b4dc4fcf225c5191a7aad8427489ef64

[ "MIT" ]

null

include/drivers/nxp/csu/csu.h

SUNWU07/arm-trusted-firmware

fee7b2d3b4dc4fcf225c5191a7aad8427489ef64

[ "MIT" ]

null

/* * Copyright 2021 NXP * * SPDX-License-Identifier: BSD-3-Clause * */ #ifndef CSU_H #define CSU_H #define CSU_SEC_ACCESS_REG_OFFSET (0x0021CU) /* Bit mask */ #define TZASC_BYPASS_MUX_DISABLE (0x4U) /* Macros defining access permissions to configure * the regions controlled by Central Security Unit. */ enum csu_cslx_access { CSU_NS_SUP_R = (0x8U), CSU_NS_SUP_W = (0x80U), CSU_NS_SUP_RW = (0x88U), CSU_NS_USER_R = (0x4U), CSU_NS_USER_W = (0x40U), CSU_NS_USER_RW = (0x44U), CSU_S_SUP_R = (0x2U), CSU_S_SUP_W = (0x20U), CSU_S_SUP_RW = (0x22U), CSU_S_USER_R = (0x1U), CSU_S_USER_W = (0x10U), CSU_S_USER_RW = (0x11U), CSU_ALL_RW = (0xffU), }; struct csu_ns_dev_st { uintptr_t ind; uint32_t val; }; void enable_layerscape_ns_access(struct csu_ns_dev_st *csu_ns_dev, uint32_t num, uintptr_t nxp_csu_addr); #endif

19.72093

66

0.71816

83f240606094c7bdca26a8227c057f68567783b6

1,886

h

C

mindspore/ccsrc/debug/env_config_parser.h

GuoSuiming/mindspore

48afc4cfa53d970c0b20eedfb46e039db2a133d5

[ "Apache-2.0" ]

1

2021-01-28T11:08:20.000Z

mindspore/ccsrc/debug/env_config_parser.h

GuoSuiming/mindspore

48afc4cfa53d970c0b20eedfb46e039db2a133d5

[ "Apache-2.0" ]

null

mindspore/ccsrc/debug/env_config_parser.h

GuoSuiming/mindspore

48afc4cfa53d970c0b20eedfb46e039db2a133d5

[ "Apache-2.0" ]

null

/** * Copyright 2021 Huawei Technologies Co., Ltd * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MINDSPORE_CCSRC_DEBUG_ENV_CONFIG_PARSER_H_ #define MINDSPORE_CCSRC_DEBUG_ENV_CONFIG_PARSER_H_ #include <string> #include <map> #include <set> #include <mutex> #include "nlohmann/json.hpp" #include "utils/ms_utils.h" namespace mindspore { class EnvConfigParser { public: static EnvConfigParser &GetInstance() { static EnvConfigParser instance; return instance; } void Parse(); bool rdr_enabled() const { return rdr_enabled_; } std::string rdr_path() const { return rdr_path_; } private: EnvConfigParser() {} ~EnvConfigParser() {} std::mutex lock_; std::string config_file_{""}; bool already_parsed_{false}; bool rdr_enabled_{false}; std::string rdr_path_{"./rdr/"}; std::string GetIfstreamString(const std::ifstream &ifstream); void ParseRdrSetting(const nlohmann::json &content); bool CheckJsonStringType(const nlohmann::json &content, const std::string &setting_key, const std::string &key); auto CheckJsonKeyExist(const nlohmann::json &content, const std::string &setting_key, const std::string &key); void ParseRdrPath(const nlohmann::json &content); void ParseRdrEnable(const nlohmann::json &content); void ConfigToString(); }; } // namespace mindspore #endif // MINDSPORE_CCSRC_DEBUG_ENV_CONFIG_PARSER_H_

30.918033

114

0.747614

83f3496f75501f4f3884c6a11776e256ecbe01c1

746

h

C

waifu2x-converter-gls/src/Timer.h

ymdymd/glsCV

fa89193d653767f11e01ec1bd13e2f3461a5b1b3

[ "BSD-3-Clause" ]

null

waifu2x-converter-gls/src/Timer.h

ymdymd/glsCV

fa89193d653767f11e01ec1bd13e2f3461a5b1b3

[ "BSD-3-Clause" ]

31

2016-05-09T01:31:21.000Z

2016-08-11T11:34:39.000Z

waifu2x-converter-gls/src/Timer.h

oasi-adamay/glsCV

fa89193d653767f11e01ec1bd13e2f3461a5b1b3

[ "BSD-3-Clause" ]

null

#ifndef _TIMER_H_ #define _TIMER_H_ //----------------------------------------------------------------------------- #if 0 class Timer{ private: cv::TickMeter meter; std::string msg; public: Timer(std::string _msg){ msg = _msg; meter.start(); } ~Timer(void){ meter.stop(); std::cout << msg << meter.getTimeMilli() << "[ms]" << std::endl; } }; #else #include <time.h> class Timer { private: clock_t start, end; std::string msg; void Start(void) { start = clock(); } void Stop(void) { end = clock(); } double GetTimeMilli(void) { return 1000 * (end - start) / CLOCKS_PER_SEC; } public: Timer(std::string _msg) { msg = _msg; Start(); } ~Timer(void) { Stop(); std::cout << msg << GetTimeMilli() << "[ms]" << std::endl; } }; #endif #endif

25.724138

95

0.563003

83f4db215f3dbcf1075dc97277f6a5e3e44b6182

313

h

C

Johnsorf/list.h

downstreamfish/C----

3f5711daa300b2113d26e382b0c7a810f8b6635d

[ "MIT" ]

null

Johnsorf/list.h

downstreamfish/C----

3f5711daa300b2113d26e382b0c7a810f8b6635d

[ "MIT" ]

null

Johnsorf/list.h

downstreamfish/C----

3f5711daa300b2113d26e382b0c7a810f8b6635d

[ "MIT" ]

null

#ifndef LIST_H_INCLUDED #define LIST_H_INCLUDED typedef struct node* link; struct node{ int item; link next; } ; typedef link Node; void initNode(int); link newNode(int); void freeNode(link); void insertNext(link, link); link deleteNext(link); link Next(link); int Item(link); #endif // LIST_H_INCLUDED

16.473684

28

0.738019

83f584430c5fedd16a9d632d9c471e935467f12d

305

h

C

Raven.CppClient/RouteNotFoundException.h

mlawsonca/ravendb-cpp-client

c3a3d4960c8b810156547f62fa7aeb14a121bf74

[ "MIT" ]

3

2019-04-24T02:34:53.000Z

2019-08-01T08:22:26.000Z

Raven.CppClient/RouteNotFoundException.h

mlawsonca/ravendb-cpp-client

c3a3d4960c8b810156547f62fa7aeb14a121bf74

[ "MIT" ]

2

2019-03-21T09:00:02.000Z

2021-02-28T23:49:26.000Z

Raven.CppClient/RouteNotFoundException.h

mlawsonca/ravendb-cpp-client

c3a3d4960c8b810156547f62fa7aeb14a121bf74

[ "MIT" ]

3

2019-03-04T11:58:54.000Z

2021-03-01T00:25:49.000Z

#pragma once #include "RavenException.h" namespace ravendb::client::exceptions::routing { class RouteNotFoundException : public RavenException { public: ~RouteNotFoundException() override = default; RouteNotFoundException(); explicit RouteNotFoundException(const std::string& message); }; }

19.0625

62

0.767213

83f9f9383cc411fb6675a1b632e0493e7da24de4

3,954

h

C

printscan/print/drivers/usermode/ddk/samples/oemdll/watermark/wmarkui/intrface.h

npocmaka/Windows-Server-2003

5c6fe3db626b63a384230a1aa6b92ac416b0765f

[ "Unlicense" ]

17

2020-11-13T13:42:52.000Z

2021-09-16T09:13:13.000Z

printscan/print/drivers/usermode/ddk/samples/oemdll/watermark/wmarkui/intrface.h

sancho1952007/Windows-Server-2003

5c6fe3db626b63a384230a1aa6b92ac416b0765f

[ "Unlicense" ]

2

2020-10-19T08:02:06.000Z

2020-10-19T08:23:18.000Z

printscan/print/drivers/usermode/ddk/samples/oemdll/watermark/wmarkui/intrface.h

sancho1952007/Windows-Server-2003

5c6fe3db626b63a384230a1aa6b92ac416b0765f

[ "Unlicense" ]

14

2020-11-14T09:43:20.000Z

2021-08-28T08:59:57.000Z

/*++ Copyright (c) 1996-2003 Microsoft Corporation Module Name: comoem.h Abstract: Implementation of OEMGetInfo and OEMDevMode. Shared by all Unidrv OEM test dll's. Environment: Windows 2000, Windows XP, Windows Server 2003 Revision History: Created it. --*/ //////////////////////////////////////////////////////////////////////////////// // // IWaterMarkUI // class IWaterMarkUI: public IPrintOemUI { public: // *** IUnknown methods *** STDMETHOD(QueryInterface) (THIS_ REFIID riid, LPVOID FAR* ppvObj); STDMETHOD_(ULONG,AddRef) (THIS); STDMETHOD_(ULONG,Release) (THIS); // // Method for publishing Driver interface. // STDMETHOD(PublishDriverInterface)(THIS_ IUnknown *pIUnknown); // // Get OEM dll related information // STDMETHOD(GetInfo) (THIS_ DWORD dwMode, PVOID pBuffer, DWORD cbSize, PDWORD pcbNeeded); // // OEMDevMode // STDMETHOD(DevMode) (THIS_ DWORD dwMode, POEMDMPARAM pOemDMParam) ; // // OEMCommonUIProp // STDMETHOD(CommonUIProp) (THIS_ DWORD dwMode, POEMCUIPPARAM pOemCUIPParam ); // // OEMDocumentPropertySheets // STDMETHOD(DocumentPropertySheets) (THIS_ PPROPSHEETUI_INFO pPSUIInfo, LPARAM lParam ); // // OEMDevicePropertySheets // STDMETHOD(DevicePropertySheets) (THIS_ PPROPSHEETUI_INFO pPSUIInfo, LPARAM lParam ); // // OEMDevQueryPrintEx // STDMETHOD(DevQueryPrintEx) (THIS_ POEMUIOBJ poemuiobj, PDEVQUERYPRINT_INFO pDQPInfo, PDEVMODE pPublicDM, PVOID pOEMDM ); // // OEMDeviceCapabilities // STDMETHOD(DeviceCapabilities) (THIS_ POEMUIOBJ poemuiobj, HANDLE hPrinter, PWSTR pDeviceName, WORD wCapability, PVOID pOutput, PDEVMODE pPublicDM, PVOID pOEMDM, DWORD dwOld, DWORD *dwResult ); // // OEMUpgradePrinter // STDMETHOD(UpgradePrinter) (THIS_ DWORD dwLevel, PBYTE pDriverUpgradeInfo ); // // OEMPrinterEvent // STDMETHOD(PrinterEvent) (THIS_ PWSTR pPrinterName, INT iDriverEvent, DWORD dwFlags, LPARAM lParam ); // // OEMDriverEvent // STDMETHOD(DriverEvent)(THIS_ DWORD dwDriverEvent, DWORD dwLevel, LPBYTE pDriverInfo, LPARAM lParam ); // // OEMQueryColorProfile // STDMETHOD( QueryColorProfile) (THIS_ HANDLE hPrinter, POEMUIOBJ poemuiobj, PDEVMODE pPublicDM, PVOID pOEMDM, ULONG ulReserved, VOID *pvProfileData, ULONG *pcbProfileData, FLONG *pflProfileData); // // OEMFontInstallerDlgProc // STDMETHOD(FontInstallerDlgProc) (THIS_ HWND hWnd, UINT usMsg, WPARAM wParam, LPARAM lParam ); // // UpdateExternalFonts // STDMETHOD(UpdateExternalFonts) (THIS_ HANDLE hPrinter, HANDLE hHeap, PWSTR pwstrCartridges ); IWaterMarkUI() { m_cRef = 1; }; ~IWaterMarkUI() { }; protected: LONG m_cRef; };

21.606557

81

0.478756

83fbcf130d83d74bcf1ba1516ec90524018f5142

716

h

C

Pieces/Piece.h

AsclepiiusUnknown/Console-Chess

c4a1765462bea913cd25f6ea8c339e7220394e85

[ "Apache-2.0" ]

null

Pieces/Piece.h

AsclepiiusUnknown/Console-Chess

c4a1765462bea913cd25f6ea8c339e7220394e85

[ "Apache-2.0" ]

null

Pieces/Piece.h

AsclepiiusUnknown/Console-Chess

c4a1765462bea913cd25f6ea8c339e7220394e85

[ "Apache-2.0" ]

null

// // Author: Broderick Westrope // Date: 20/04/21 // #ifndef CONSOLE_CHESS_PIECE_H #define CONSOLE_CHESS_PIECE_H class Piece { private: virtual bool AreSquaresLegal(Move m, Piece *qpaaBoard[8][8]) = 0; char mcColor; public: Piece(char cColor) : mcColor(cColor) {} ~Piece() {} virtual char GetPiece() = 0; char GetColor() { return mcColor; } bool IsLegalMove(Move m, Piece *qpaaBoard[8][8]) { Piece *qpDest = qpaaBoard[m.iEndRow][m.iEndCol]; if ((qpDest == nullptr) || (mcColor != qpDest->GetColor())) { return AreSquaresLegal(m, qpaaBoard); } return false; } }; #endif //CONSOLE_CHESS_PIECE_H

17.463415

69

0.590782

83fc837aabca425938ee5166890a9ceeb594fd9d

6,032

c

C

firmware/coreboot/3rdparty/chromeec/chip/stm32/usb_console.c

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

49

2021-03-03T14:34:13.000Z

2022-03-29T13:25:21.000Z

firmware/coreboot/3rdparty/chromeec/chip/stm32/usb_console.c

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

13

2018-10-12T21:29:09.000Z

2018-10-25T20:06:51.000Z

firmware/coreboot/3rdparty/chromeec/chip/stm32/usb_console.c

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

9

2021-03-10T09:36:37.000Z

2022-02-24T04:17:23.000Z

/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "common.h" #include "config.h" #include "console.h" #include "link_defs.h" #include "printf.h" #include "registers.h" #include "task.h" #include "timer.h" #include "util.h" #include "usb_api.h" #include "usb_descriptor.h" #include "usb_hw.h" /* Console output macro */ #define CPRINTF(format, args...) cprintf(CC_USB, format, ## args) #define USB_CONSOLE_TIMEOUT_US (30 * MSEC) #define USB_CONSOLE_RX_BUF_SIZE 64 #define RX_BUF_NEXT(i) (((i) + 1) & (USB_CONSOLE_RX_BUF_SIZE - 1)) static volatile char rx_buf[USB_CONSOLE_RX_BUF_SIZE]; static volatile int rx_buf_head; static volatile int rx_buf_tail; static int last_tx_ok = 1; static int is_reset; static int is_enabled = 1; static int is_readonly; /* USB-Serial descriptors */ const struct usb_interface_descriptor USB_IFACE_DESC(USB_IFACE_CONSOLE) = { .bLength = USB_DT_INTERFACE_SIZE, .bDescriptorType = USB_DT_INTERFACE, .bInterfaceNumber = USB_IFACE_CONSOLE, .bAlternateSetting = 0, .bNumEndpoints = 2, .bInterfaceClass = USB_CLASS_VENDOR_SPEC, .bInterfaceSubClass = USB_SUBCLASS_GOOGLE_SERIAL, .bInterfaceProtocol = USB_PROTOCOL_GOOGLE_SERIAL, .iInterface = USB_STR_CONSOLE_NAME, }; const struct usb_endpoint_descriptor USB_EP_DESC(USB_IFACE_CONSOLE, 0) = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = 0x80 | USB_EP_CONSOLE, .bmAttributes = 0x02 /* Bulk IN */, .wMaxPacketSize = USB_MAX_PACKET_SIZE, .bInterval = 10 }; const struct usb_endpoint_descriptor USB_EP_DESC(USB_IFACE_CONSOLE, 1) = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = USB_EP_CONSOLE, .bmAttributes = 0x02 /* Bulk OUT */, .wMaxPacketSize = USB_MAX_PACKET_SIZE, .bInterval = 0 }; static usb_uint ep_buf_tx[USB_MAX_PACKET_SIZE / 2] __usb_ram; static usb_uint ep_buf_rx[USB_MAX_PACKET_SIZE / 2] __usb_ram; static void con_ep_tx(void) { /* clear IT */ STM32_TOGGLE_EP(USB_EP_CONSOLE, 0, 0, 0); } static void con_ep_rx(void) { int i; for (i = 0; i < (btable_ep[USB_EP_CONSOLE].rx_count & 0x3ff); i++) { int rx_buf_next = RX_BUF_NEXT(rx_buf_head); if (rx_buf_next != rx_buf_tail) { rx_buf[rx_buf_head] = ((i & 1) ? (ep_buf_rx[i >> 1] >> 8) : (ep_buf_rx[i >> 1] & 0xff)); rx_buf_head = rx_buf_next; } } /* clear IT */ STM32_TOGGLE_EP(USB_EP_CONSOLE, EP_RX_MASK, EP_RX_VALID, 0); /* wake-up the console task */ console_has_input(); } static void ep_event(enum usb_ep_event evt) { if (evt != USB_EVENT_RESET) return; btable_ep[USB_EP_CONSOLE].tx_addr = usb_sram_addr(ep_buf_tx); btable_ep[USB_EP_CONSOLE].tx_count = 0; btable_ep[USB_EP_CONSOLE].rx_addr = usb_sram_addr(ep_buf_rx); btable_ep[USB_EP_CONSOLE].rx_count = 0x8000 | ((USB_MAX_PACKET_SIZE / 32 - 1) << 10); STM32_USB_EP(USB_EP_CONSOLE) = (USB_EP_CONSOLE | /* Endpoint Addr */ (2 << 4) | /* TX NAK */ (0 << 9) | /* Bulk EP */ (is_readonly ? EP_RX_NAK : EP_RX_VALID)); is_reset = 1; } USB_DECLARE_EP(USB_EP_CONSOLE, con_ep_tx, con_ep_rx, ep_event); static int __tx_char(void *context, int c) { usb_uint *buf = (usb_uint *)ep_buf_tx; int *tx_idx = context; /* Do newline to CRLF translation */ if (c == '\n' && __tx_char(context, '\r')) return 1; if (*tx_idx > 63) return 1; if (!(*tx_idx & 1)) buf[*tx_idx/2] = c; else buf[*tx_idx/2] |= c << 8; (*tx_idx)++; return 0; } static void usb_enable_tx(int len) { if (!is_enabled) return; btable_ep[USB_EP_CONSOLE].tx_count = len; STM32_TOGGLE_EP(USB_EP_CONSOLE, EP_TX_MASK, EP_TX_VALID, 0); } static inline int usb_console_tx_valid(void) { return (STM32_USB_EP(USB_EP_CONSOLE) & EP_TX_MASK) == EP_TX_VALID; } static int usb_wait_console(void) { timestamp_t deadline = get_time(); int wait_time_us = 1; if (!is_enabled || !usb_is_enabled()) return EC_SUCCESS; deadline.val += USB_CONSOLE_TIMEOUT_US; /* * If the USB console is not used, Tx buffer would never free up. * In this case, let's drop characters immediately instead of sitting * for some time just to time out. On the other hand, if the last * Tx is good, it's likely the host is there to receive data, and * we should wait so that we don't clobber the buffer. */ if (last_tx_ok) { while (usb_console_tx_valid() || !is_reset) { if (timestamp_expired(deadline, NULL) || in_interrupt_context()) { last_tx_ok = 0; return EC_ERROR_TIMEOUT; } if (wait_time_us < MSEC) udelay(wait_time_us); else usleep(wait_time_us); wait_time_us *= 2; } return EC_SUCCESS; } else { last_tx_ok = !usb_console_tx_valid(); return EC_SUCCESS; } } /* * Public USB console implementation below. */ int usb_getc(void) { int c; if (rx_buf_tail == rx_buf_head) return -1; if (!is_enabled) return -1; c = rx_buf[rx_buf_tail]; rx_buf_tail = RX_BUF_NEXT(rx_buf_tail); return c; } int usb_putc(int c) { int ret; int tx_idx = 0; ret = usb_wait_console(); if (ret) return ret; ret = __tx_char(&tx_idx, c); usb_enable_tx(tx_idx); return ret; } int usb_puts(const char *outstr) { int ret; int tx_idx = 0; ret = usb_wait_console(); if (ret) return ret; /* Put all characters in the output buffer */ while (*outstr) { if (__tx_char(&tx_idx, *outstr++) != 0) break; } usb_enable_tx(tx_idx); /* Successful if we consumed all output */ return *outstr ? EC_ERROR_OVERFLOW : EC_SUCCESS; } int usb_vprintf(const char *format, va_list args) { int ret; int tx_idx = 0; ret = usb_wait_console(); if (ret) return ret; ret = vfnprintf(__tx_char, &tx_idx, format, args); usb_enable_tx(tx_idx); return ret; } void usb_console_enable(int enabled, int readonly) { is_enabled = enabled; is_readonly = readonly; }

22.935361

75

0.68866

83fd123489d70d353a107a9b56d18d1fdefc0666

347

h

C

src/header.h

kuspen/Complib

c00f2e97e07849cdd37f05daa0bd16d25e6df3ab

[ "MIT" ]

null

src/header.h

kuspen/Complib

c00f2e97e07849cdd37f05daa0bd16d25e6df3ab

[ "MIT" ]

null

src/header.h

kuspen/Complib

c00f2e97e07849cdd37f05daa0bd16d25e6df3ab

[ "MIT" ]

null

#include <bits/stdc++.h> using namespace std; template <typename T> void print_vector(vector<T>& vec) { cout << "print_vector -> "; for(int i=0; i<vec.size(); i++) { if(i == vec.size()-1) { cout << vec[i] << endl; } else { cout << vec[i] << " "; } } return; }

21.6875

38

0.432277

83fe306018bb95e2c9e10b0ac4807e18634e1aa8

1,943

h

C

src/gl/HeightField.h

daniel-perry/rt

d54e2fcf66b6ed09066ec16d519724f00c082658

[ "MIT" ]

null

src/gl/HeightField.h

daniel-perry/rt

d54e2fcf66b6ed09066ec16d519724f00c082658

[ "MIT" ]

null

src/gl/HeightField.h

daniel-perry/rt

d54e2fcf66b6ed09066ec16d519724f00c082658

[ "MIT" ]

null

/* Daniel Perry * for cs6620 - spring 2005 * started 8feb05 */ /* HeightField: height field class. */ #ifndef _HEIGHTFIELD_H #define _HEIGHTFIELD_H #include "Primitive.h" class HeightField : public Primitive { public: HeightField(const vector3d& pmin, const vector3d & pmax , const char * hf_filename, Material * matl){ bounds[0] = Pmin = pmin; bounds[1] = Pmax = pmax; material = matl; readHF( hf_filename ); preprocess(); } HeightField( Material * matl, const char * hf_filename, const vector3d& pmin, const vector3d & pmax){ bounds[0] = Pmin = pmin; bounds[1] = Pmax = pmax; material = matl; readHF( hf_filename ); preprocess(); } void readHF(const char * hf_filename); bool intersect( HitRecord & hit , const RenderContext & context, const ray & r ) const; // normal returned is guaranteed to be normalized. vector3d normal( const vector3d & p ) const{ return Normal; } std::string toString(){return "HeightField";} void preprocess(){ // find diagnol D = Pmax-Pmin; // find cell size: //cellsize = D / vector3d(nx-.001,ny-.001,1); cellsize = D / vector3d(nx,ny,1); // find min and max z vals /* Zmin = Pmin.z(); if( Pmax.z() < Zmin ) Zmin = Pmax.z(); Zmax = Pmax.z(); if( Pmin.z() > Zmax ) Zmax = Pmin.z(); */ // find min and max of data. /* dmax = dmin = data[0][0]; for(int i=1; i<nx+1; i++){ for(int j=0;j<ny+1; j++){ if(data[i][j] > dmax) dmax = data[i][j]; if(data[i][j] < dmin) dmin = data[i][j]; } } */ } BBox getBBox(); vector3d Pmin, Pmax, D, cellsize; //double Zmin, Zmax; int nx,ny; // cell resolution; float **data; float dmin,dmax; Material * material; //borrowed from AxisBox: vector3d Normal; vector3d bounds[2]; private: HeightField(){} }; typedef HeightField Heightfield; #endif

19.04902

103

0.593412

83ff5d438597ddae19064058fde045511927f1d3

3,568

h

C

src/jkparallel/parallel_cache_allocator.h

AlastairHolmes/jackal-parallel

ce070db3f78e4eb80d51789ec65397fe4227957f

[ "MIT" ]

null

src/jkparallel/parallel_cache_allocator.h

AlastairHolmes/jackal-parallel

ce070db3f78e4eb80d51789ec65397fe4227957f

[ "MIT" ]

null

src/jkparallel/parallel_cache_allocator.h

AlastairHolmes/jackal-parallel

ce070db3f78e4eb80d51789ec65397fe4227957f

[ "MIT" ]

null

#ifndef JKPARALLEL_PARALLEL_CACHE_ALLOCATOR_H #define JKPARALLEL_PARALLEL_CACHE_ALLOCATOR_H #include <jkparallel\queue.h> #include <jkutil\allocator.h> #include <jkutil\memory.h> namespace jkparallel { template <class allocatorType = jkutil::allocator> class parallel_cache_allocator_interface_reference { public: using propagate_on_container_copy_assignment = std::false_type; using propagate_on_container_move_assignment = std::false_type; using propagate_on_container_swap = std::false_type; using is_always_equal = std::false_type; parallel_cache_allocator_interface_reference(std::size_t p_cacheline_size, std::size_t p_cacheline_alignment, queue_interface_reference<void*> p_cache_interface, const allocatorType& p_allocator = allocatorType()) : m_cacheline_size(p_cacheline_size), m_cacheline_alignment(p_cacheline_alignment), m_allocator(p_allocator), m_cache_interface(p_cache_interface) {} parallel_cache_allocator_interface_reference(const parallel_cache_allocator_interface_reference&) = default; parallel_cache_allocator_interface_reference(parallel_cache_allocator_interface_reference&&) = default; public: parallel_cache_allocator_interface_reference& operator=(const parallel_cache_allocator_interface_reference&) = delete; parallel_cache_allocator_interface_reference& operator=(parallel_cache_allocator_interface_reference&&) = delete; bool operator==(const parallel_cache_allocator_interface_reference& p_rhs) const { return m_allocator == p_rhs.m_allocator && m_cache_interface == p_rhs.m_cache_interface; } bool operator!=(const parallel_cache_allocator_interface_reference& p_rhs) const { return m_allocator != p_rhs.m_allocator || m_cache_interface != p_rhs.m_cache_interface; } void* allocate(std::size_t p_size, std::size_t p_alignment) { JKUTIL_ASSERT(p_size <= m_cacheline_size && p_alignment <= m_cacheline_alignment); std::optional<void*> memory = m_cache_interface.try_pop(); if (memory.has_value()) { return memory.value(); } else { return jkutil::memory_allocate(m_allocator, m_cacheline_size, m_cacheline_alignment); } } void deallocate(void* p_ptr, std::size_t p_size) { JKUTIL_ASSERT(p_size <= m_cacheline_size); void* temp = p_ptr; if (!m_cache_interface.try_push(std::move(temp))) { jkutil::memory_deallocate(m_allocator, p_ptr, m_cacheline_size); } } private: const std::size_t m_cacheline_size; const std::size_t m_cacheline_alignment; allocatorType m_allocator; queue_interface_reference<void*> m_cache_interface; }; class parallel_cache_allocator { public: parallel_cache_allocator(std::size_t p_cacheline_size, std::size_t p_cacheline_alignment, std::size_t p_maximum_cache_size); parallel_cache_allocator(const parallel_cache_allocator&) = delete; parallel_cache_allocator(parallel_cache_allocator&&) = delete; parallel_cache_allocator& operator=(const parallel_cache_allocator&) = delete; parallel_cache_allocator& operator=(parallel_cache_allocator&&) = delete; template <class allocatorType> parallel_cache_allocator_interface_reference<allocatorType> create_interface(const allocatorType& p_allocator = allocatorType()) { return parallel_cache_allocator_interface_reference<allocatorType>(m_cacheline_size, m_cacheline_alignment, m_cache.create_interface(), p_allocator); } void finalize_interfaces(); private: const std::size_t m_cacheline_size; const std::size_t m_cacheline_alignment; queue<void*> m_cache; }; } #endif

31.026087

215

0.795684

83ffb5e8b2027887f84e3dd6bf0af9120cce4970

3,584

c

C

lib/util/idset.c

sebcat/yans

c4f85db6ca5ebd276ce3fa57d575f7ff8bad8a0b

[ "MIT" ]

null

lib/util/idset.c

sebcat/yans

c4f85db6ca5ebd276ce3fa57d575f7ff8bad8a0b

[ "MIT" ]

null

lib/util/idset.c

sebcat/yans

c4f85db6ca5ebd276ce3fa57d575f7ff8bad8a0b

[ "MIT" ]

1

2021-11-02T12:49:07.000Z

/* Copyright (c) 2019 Sebastian Cato * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include <stdlib.h> #include <strings.h> #include <limits.h> #include <string.h> #include <lib/util/idset.h> #define BITS_IN_BYTE 8 #define BITS_IN_INT (sizeof(int)*BITS_IN_BYTE) #define CEIL_INTBITS(x) (((x) + BITS_IN_INT - 1u) & ~(BITS_IN_INT - 1u)) #define FLOOR_INTBITS(x) ((x) & ~(BITS_IN_INT - 1u)) #define MOD_INTBITS(x) ((x) & (BITS_IN_INT - 1u)) #define IDSETF_NONE 0 #define IDSETF_FULL (1 << 0) /* bit states in elems: * 0 - used * 1 - cleared */ struct idset_ctx { int flags; int last_id; unsigned int nelems; unsigned int elems[]; }; struct idset_ctx *idset_new(unsigned int nids) { struct idset_ctx *ctx; unsigned int ceil_nids; unsigned int nelems; /* make sure nids is greater than 0 and it fits in a signed integer if we * round up. Check before rounding since we might wrap. */ ceil_nids = CEIL_INTBITS(nids); if (nids == 0 || nids > INT_MAX || ceil_nids > INT_MAX) { return NULL; } nelems = ceil_nids / BITS_IN_INT; ctx = malloc(sizeof(struct idset_ctx) + sizeof(int)*nelems); if (ctx == NULL) { return NULL; } /* have the bitset initialized to all-ones - 1 indicates 'cleared' */ memset(ctx->elems, 0xff, sizeof(int) * nelems); ctx->nelems = nelems; ctx->last_id = (int)nids - 1; ctx->flags = IDSETF_NONE; return ctx; } void idset_free(struct idset_ctx *ctx) { free(ctx); } int idset_use_next(struct idset_ctx *ctx) { unsigned int i; unsigned int bit; int first_set; int id; if (ctx->flags & IDSETF_FULL) { return -1; } for (i = 0; i < ctx->nelems; i++) { first_set = ffs((int)ctx->elems[i]); if (first_set != 0) { bit = first_set - 1; ctx->elems[i] &= ~(1 << bit); id = i*BITS_IN_INT + bit; if (id > ctx->last_id) { ctx->flags |= IDSETF_FULL; return -1; } return id; } } return -1; } void idset_clear(struct idset_ctx *ctx, int id) { unsigned int elem; unsigned int bit; unsigned int uid; /* validate ID */ if (id < 0 || id > ctx->last_id) { return; } /* calculate the affected element and bit in element */ uid = (unsigned int)id; elem = FLOOR_INTBITS(uid) / BITS_IN_INT; bit = MOD_INTBITS(uid); /* if the elem is within the range, set the affected bit to 1. * 1 is the 'cleared' state due to the use of ffs for finding 'cleared' * bits */ if (elem < ctx->nelems) { ctx->elems[elem] |= (1 << bit); ctx->flags &= ~IDSETF_FULL; } }

27.569231

75

0.666853

86005bed61d3ec2404fc981094836870cdf0752e

487

h

C

Math/Float2.h

jrouwe/RayCastTest

6f16eef819bd13f7f7bf063b076dab7091b1886a

[ "MIT" ]

7

2020-05-26T15:23:25.000Z

2022-02-25T19:36:25.000Z

Math/Float2.h

jrouwe/RayCastTest

6f16eef819bd13f7f7bf063b076dab7091b1886a

[ "MIT" ]

null

Math/Float2.h

jrouwe/RayCastTest

6f16eef819bd13f7f7bf063b076dab7091b1886a

[ "MIT" ]

2

2022-03-02T16:30:50.000Z

2022-03-06T14:45:33.000Z

#pragma once class Float2 { public: Float2() { } Float2(float inX, float inY) : x(inX), y(inY) { } bool operator == (const Float2 &inRHS) const { return x == inRHS.x && y == inRHS.y; } bool operator != (const Float2 &inRHS) const { return x != inRHS.x || y != inRHS.y; } // To String friend ostream & operator << (ostream &inStream, const Float2 &inV) { inStream << inV.x << ", " << inV.y; return inStream; } float x; float y; };

22.136364

91

0.552361

8600e8d892aefb73dd573bd31ac452aa8c82681c

10,415

c

C

_code/os/hal/platforms/LPC122x/serial_lld.c

microwan/spc5-chibios

7b155e37974cfeb36bc09c2be09133d957dd0cac

[ "Apache-2.0" ]

1

2018-03-19T02:38:48.000Z

_code/os/hal/platforms/LPC122x/serial_lld.c

microwan/spc5-chibios

7b155e37974cfeb36bc09c2be09133d957dd0cac

[ "Apache-2.0" ]

null

_code/os/hal/platforms/LPC122x/serial_lld.c

microwan/spc5-chibios

7b155e37974cfeb36bc09c2be09133d957dd0cac

[ "Apache-2.0" ]

null

/* ChibiOS/RT - Copyright (C) 2006-2013 Giovanni Di Sirio Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ /** * @file LPC122x/serial_lld.c * @brief LPC122x low level serial driver code. * * @addtogroup SERIAL * @{ */ #include "ch.h" #include "hal.h" #if HAL_USE_SERIAL || defined(__DOXYGEN__) /*===========================================================================*/ /* Driver exported variables. */ /*===========================================================================*/ #if LPC122x_SERIAL_USE_UART0 || defined(__DOXYGEN__) /** @brief UART0 serial driver identifier.*/ SerialDriver SD1; #endif #if LPC122x_SERIAL_USE_UART1 || defined(__DOXYGEN__) /** @brief UART0 serial driver identifier.*/ SerialDriver SD2; #endif /*===========================================================================*/ /* Driver local variables and types. */ /*===========================================================================*/ /** @brief Driver default configuration.*/ static const SerialConfig default_config = { SERIAL_DEFAULT_BITRATE, LCR_WL8 | LCR_STOP1 | LCR_NOPARITY, FCR_TRIGGER0 }; /*===========================================================================*/ /* Driver local functions. */ /*===========================================================================*/ /** * @brief UART initialization. * * @param[in] sdp communication channel associated to the UART * @param[in] config the architecture-dependent serial driver configuration */ static void uart_init(SerialDriver *sdp, const SerialConfig *config) { LPC_UART0_Type *u = sdp->uart; uint32_t upclk; #if LPC122x_SERIAL_USE_UART0 if (&SD1 == sdp) { upclk = LPC122x_SERIAL_UART0_PCLK; } #endif #if LPC122x_SERIAL_USE_UART1 if (&SD2 == sdp) { upclk = LPC122x_SERIAL_UART1_PCLK; } #endif uint32_t div = upclk / (config->sc_speed << 4); u->LCR = config->sc_lcr | LCR_DLAB; u->DLL = div; u->DLM = div >> 8; u->LCR = config->sc_lcr; u->FCR = FCR_ENABLE | FCR_RXRESET | FCR_TXRESET | config->sc_fcr; u->ACR = 0; u->FDR = 0x10; u->TER = TER_ENABLE; u->IER = IER_RBR | IER_STATUS; } /** * @brief UART de-initialization. * * @param[in] u pointer to an UART I/O block */ static void uart_deinit(LPC_UART0_Type *u) { u->LCR = LCR_DLAB; u->DLL = 1; u->DLM = 0; u->LCR = 0; u->FDR = 0x10; u->IER = 0; u->FCR = FCR_RXRESET | FCR_TXRESET; u->ACR = 0; u->TER = TER_ENABLE; } /** * @brief Error handling routine. * * @param[in] sdp communication channel associated to the UART * @param[in] err UART LSR register value */ static void set_error(SerialDriver *sdp, IOREG32 err) { flagsmask_t sts = 0; if (err & LSR_OVERRUN) sts |= SD_OVERRUN_ERROR; if (err & LSR_PARITY) sts |= SD_PARITY_ERROR; if (err & LSR_FRAMING) sts |= SD_FRAMING_ERROR; if (err & LSR_BREAK) sts |= SD_BREAK_DETECTED; chSysLockFromIsr(); chnAddFlagsI(sdp, sts); chSysUnlockFromIsr(); } /** * @brief Common IRQ handler. * @note Tries hard to clear all the pending interrupt sources, we don't * want to go through the whole ISR and have another interrupt soon * after. * * @param[in] u pointer to an UART I/O block * @param[in] sdp communication channel associated to the UART */ static void serve_interrupt(SerialDriver *sdp) { LPC_UART0_Type *u = sdp->uart; while (TRUE) { switch (u->IIR & IIR_SRC_MASK) { case IIR_SRC_NONE: return; case IIR_SRC_ERROR: set_error(sdp, u->LSR); break; case IIR_SRC_TIMEOUT: case IIR_SRC_RX: chSysLockFromIsr(); if (chIQIsEmptyI(&sdp->iqueue)) chnAddFlagsI(sdp, CHN_INPUT_AVAILABLE); chSysUnlockFromIsr(); while (u->LSR & LSR_RBR_FULL) { chSysLockFromIsr(); if (chIQPutI(&sdp->iqueue, u->RBR) < Q_OK) chnAddFlagsI(sdp, SD_OVERRUN_ERROR); chSysUnlockFromIsr(); } break; case IIR_SRC_TX: { int i = LPC122x_SERIAL_FIFO_PRELOAD; do { msg_t b; chSysLockFromIsr(); b = chOQGetI(&sdp->oqueue); chSysUnlockFromIsr(); if (b < Q_OK) { u->IER &= ~IER_THRE; chSysLockFromIsr(); chnAddFlagsI(sdp, CHN_OUTPUT_EMPTY); chSysUnlockFromIsr(); break; } u->THR = b; } while (--i); } break; default: (void) u->THR; (void) u->RBR; } } } /** * @brief Attempts a TX FIFO preload. */ static void preload(SerialDriver *sdp) { LPC_UART0_Type *u = sdp->uart; if (u->LSR & LSR_THRE) { int i = LPC122x_SERIAL_FIFO_PRELOAD; do { msg_t b = chOQGetI(&sdp->oqueue); if (b < Q_OK) { chnAddFlagsI(sdp, CHN_OUTPUT_EMPTY); return; } u->THR = b; } while (--i); } u->IER |= IER_THRE; } /** * @brief Driver SD1 output notification. */ #if LPC122x_SERIAL_USE_UART0 || defined(__DOXYGEN__) static void notify1(GenericQueue *qp) { (void)qp; preload(&SD1); } #endif /** * @brief Driver SD2 output notification. */ #if LPC122x_SERIAL_USE_UART1 || defined(__DOXYGEN__) static void notify2(GenericQueue *qp) { (void)qp; preload(&SD2); } #endif /*===========================================================================*/ /* Driver interrupt handlers. */ /*===========================================================================*/ /** * @brief UART0 IRQ handler. * * @isr */ #if LPC122x_SERIAL_USE_UART0 || defined(__DOXYGEN__) CH_IRQ_HANDLER(Vector88) { CH_IRQ_PROLOGUE(); serve_interrupt(&SD1); CH_IRQ_EPILOGUE(); } #endif /** * @brief UART0 IRQ handler. * * @isr */ #if LPC122x_SERIAL_USE_UART1 || defined(__DOXYGEN__) CH_IRQ_HANDLER(Vector8C) { CH_IRQ_PROLOGUE(); serve_interrupt(&SD2); CH_IRQ_EPILOGUE(); } #endif /*===========================================================================*/ /* Driver exported functions. */ /*===========================================================================*/ /** * @brief Low level serial driver initialization. * * @notapi */ void sd_lld_init(void) { #if LPC122x_SERIAL_USE_UART0 sdObjectInit(&SD1, NULL, notify1); SD1.uart = LPC_UART0; #if LLPC122x_SERIAL_RXD0_SELECTOR == RXD0_IS_PIO0_1 LPC_IOCON->PIO0_1 = 0x82; /* RDX0 without resistors. */ #else /* LPC122x_SERIAL_RXD0_SELECTOR == RXD1_IS_PIO2_1 */ LPC_IOCON->PIO2_1 = 0x84; /* RXD0 without resistors. */ #endif #if LLPC122x_SERIAL_TXD0_SELECTOR == TXD0_IS_PIO0_8 LPC_IOCON->PIO0_2 = 0x82; /* TDX0 without resistors. */ #else /* LPC122x_SERIAL_TXD0_SELECTOR == TXD0_IS_PIO2_2 */ LPC_IOCON->PIO2_2 = 0x84; /* TXD0 without resistors. */ #endif #endif #if LPC122x_SERIAL_USE_UART1 sdObjectInit(&SD2, NULL, notify1); SD2.uart = (LPC_UART0_Type *) LPC_UART1; #if LLPC122x_SERIAL_RXD1_SELECTOR == RXD1_IS_PIO0_8 LPC_IOCON->PIO0_8 = 0x82; /* RXD1 without resistors. */ #elif LPC122x_SERIAL_RXD1_SELECTOR == RXD1_IS_PIO2_11 LPC_IOCON->PIO2_11 = 0x85; /* RXD1 without resistors. */ #else /* LPC122x_SERIAL_RXD1_SELECTOR == RXD1_IS_PIO2_12 */ LPC_IOCON->PIO2_12 = 0x83; /* RXD1 without resistors. */ #endif #if LLPC122x_SERIAL_TXD1_SELECTOR == TXD1_IS_PIO0_8 LPC_IOCON->PIO0_9 = 0x82; /* TXD1 without resistors. */ #elif LPC122x_SERIAL_TXD1_SELECTOR == TXD1_IS_PIO2_11 LPC_IOCON->PIO2_10 = 0x85; /* TXD1 without resistors. */ #else /* LPC122x_SERIAL_TXD1_SELECTOR == TXD1_IS_PIO2_12 */ LPC_IOCON->PIO2_13 = 0x83; /* TXD1 without resistors. */ #endif #endif } /** * @brief Low level serial driver configuration and (re)start. * * @param[in] sdp pointer to a @p SerialDriver object * @param[in] config the architecture-dependent serial driver configuration. * If this parameter is set to @p NULL then a default * configuration is used. * * @notapi */ void sd_lld_start(SerialDriver *sdp, const SerialConfig *config) { if (config == NULL) config = &default_config; if (sdp->state == SD_STOP) { #if LPC122x_SERIAL_USE_UART0 if (&SD1 == sdp) { LPC_SYSCON->SYSAHBCLKCTRL |= (1 << 12); LPC_SYSCON->UART0CLKDIV = LPC122x_SERIAL_UART0CLKDIV; nvicEnableVector(UART0_IRQn, CORTEX_PRIORITY_MASK(LPC122x_SERIAL_UART0_IRQ_PRIORITY)); } #endif #if LPC122x_SERIAL_USE_UART1 if (&SD2 == sdp) { LPC_SYSCON->SYSAHBCLKCTRL |= (1 << 13); LPC_SYSCON->UART1CLKDIV = LPC122x_SERIAL_UART1CLKDIV; nvicEnableVector(UART1_IRQn, CORTEX_PRIORITY_MASK(LPC122x_SERIAL_UART1_IRQ_PRIORITY)); } #endif } uart_init(sdp, config); } /** * @brief Low level serial driver stop. * @details De-initializes the UART, stops the associated clock, resets the * interrupt vector. * * @param[in] sdp pointer to a @p SerialDriver object * * @notapi */ void sd_lld_stop(SerialDriver *sdp) { if (sdp->state == SD_READY) { uart_deinit(sdp->uart); #if LPC122x_SERIAL_USE_UART0 if (&SD1 == sdp) { LPC_SYSCON->UART0CLKDIV = 0; LPC_SYSCON->SYSAHBCLKCTRL &= ~(1 << 12); nvicDisableVector(UART0_IRQn); return; } #endif #if LPC122x_SERIAL_USE_UART1 if (&SD2 == sdp) { LPC_SYSCON->UART1CLKDIV = 0; LPC_SYSCON->SYSAHBCLKCTRL &= ~(1 << 13); nvicDisableVector(UART1_IRQn); return; } #endif } } #endif /* HAL_USE_SERIAL */ /** @} */

27.122396

80

0.574748

86011b4b97f32ac11d84907ed46977ae5f57ee2c

8,715

c

C

src/contrib/elftoolchain/elfcopy/binary.c

lastweek/source-freebsd

0821950b0c40cbc891a27964b342e0202a3859ec

[ "Naumen", "Condor-1.1", "MS-PL" ]

null

src/contrib/elftoolchain/elfcopy/binary.c

lastweek/source-freebsd

0821950b0c40cbc891a27964b342e0202a3859ec

[ "Naumen", "Condor-1.1", "MS-PL" ]

null

src/contrib/elftoolchain/elfcopy/binary.c

lastweek/source-freebsd

0821950b0c40cbc891a27964b342e0202a3859ec

[ "Naumen", "Condor-1.1", "MS-PL" ]

null

/*- * Copyright (c) 2010,2011 Kai Wang * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/param.h> #include <sys/stat.h> #include <ctype.h> #include <err.h> #include <gelf.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include "elfcopy.h" ELFTC_VCSID("$Id: binary.c 3757 2019-06-28 01:15:28Z emaste $"); /* * Convert ELF object to `binary'. Sections with SHF_ALLOC flag set * are copied to the result binary. The relative offsets for each section * are retained, so the result binary file might contain "holes". */ void create_binary(int ifd, int ofd) { Elf *e; Elf_Scn *scn; Elf_Data *d; Elf64_Addr baseaddr; GElf_Shdr sh; off_t baseoff, off; int elferr; if ((e = elf_begin(ifd, ELF_C_READ, NULL)) == NULL) errx(EXIT_FAILURE, "elf_begin() failed: %s", elf_errmsg(-1)); baseaddr = 0; baseoff = 0; if (lseek(ofd, baseoff, SEEK_SET) < 0) err(EXIT_FAILURE, "lseek failed"); /* * Find base offset in the first iteration. */ baseoff = -1; scn = NULL; while ((scn = elf_nextscn(e, scn)) != NULL) { if (gelf_getshdr(scn, &sh) == NULL) { warnx("gelf_getshdr failed: %s", elf_errmsg(-1)); (void) elf_errno(); continue; } if ((sh.sh_flags & SHF_ALLOC) == 0 || sh.sh_type == SHT_NOBITS || sh.sh_size == 0) continue; if (baseoff == -1 || (off_t) sh.sh_offset < baseoff) { baseoff = sh.sh_offset; baseaddr = sh.sh_addr; } } elferr = elf_errno(); if (elferr != 0) warnx("elf_nextscn failed: %s", elf_errmsg(elferr)); if (baseoff == -1) return; /* * Write out sections in the second iteration. */ scn = NULL; while ((scn = elf_nextscn(e, scn)) != NULL) { if (gelf_getshdr(scn, &sh) == NULL) { warnx("gelf_getshdr failed: %s", elf_errmsg(-1)); (void) elf_errno(); continue; } if ((sh.sh_flags & SHF_ALLOC) == 0 || sh.sh_type == SHT_NOBITS || sh.sh_size == 0) continue; (void) elf_errno(); if ((d = elf_rawdata(scn, NULL)) == NULL) { elferr = elf_errno(); if (elferr != 0) warnx("elf_rawdata failed: %s", elf_errmsg(-1)); continue; } if (d->d_buf == NULL || d->d_size == 0) continue; /* lseek to section offset relative to `baseaddr'. */ off = sh.sh_addr - baseaddr; if (lseek(ofd, off, SEEK_SET) < 0) err(EXIT_FAILURE, "lseek failed"); /* Write out section contents. */ if (write(ofd, d->d_buf, d->d_size) != (ssize_t) d->d_size) err(EXIT_FAILURE, "write failed"); } elferr = elf_errno(); if (elferr != 0) warnx("elf_nextscn failed: %s", elf_errmsg(elferr)); } #define _SYMBOL_NAMSZ 1024 /* * Convert `binary' to ELF object. The input `binary' is converted to * a relocatable (.o) file, a few symbols will also be created to make * it easier to access the binary data in other compilation units. */ void create_elf_from_binary(struct elfcopy *ecp, int ifd, const char *ifn) { char name[_SYMBOL_NAMSZ]; struct section *sec, *sec_temp, *shtab; struct stat sb; GElf_Ehdr oeh; GElf_Shdr sh; void *content; uint64_t off, data_start, data_end, data_size; char *sym_basename, *p; /* Reset internal section list. */ if (!TAILQ_EMPTY(&ecp->v_sec)) TAILQ_FOREACH_SAFE(sec, &ecp->v_sec, sec_list, sec_temp) { TAILQ_REMOVE(&ecp->v_sec, sec, sec_list); free(sec); } if (fstat(ifd, &sb) == -1) err(EXIT_FAILURE, "fstat failed"); /* Read the input binary file to a internal buffer. */ if ((content = malloc(sb.st_size)) == NULL) err(EXIT_FAILURE, "malloc failed"); if (read(ifd, content, sb.st_size) != sb.st_size) err(EXIT_FAILURE, "read failed"); /* * TODO: copy the input binary to output binary verbatim if -O is not * specified. */ /* Create EHDR for output .o file. */ if (gelf_newehdr(ecp->eout, ecp->oec) == NULL) errx(EXIT_FAILURE, "gelf_newehdr failed: %s", elf_errmsg(-1)); if (gelf_getehdr(ecp->eout, &oeh) == NULL) errx(EXIT_FAILURE, "gelf_getehdr() failed: %s", elf_errmsg(-1)); /* Initialise e_ident fields. */ oeh.e_ident[EI_CLASS] = ecp->oec; oeh.e_ident[EI_DATA] = ecp->oed; /* * TODO: Set OSABI according to the OS platform where elfcopy(1) * was build. (probably) */ oeh.e_ident[EI_OSABI] = ELFOSABI_NONE; oeh.e_machine = ecp->oem; oeh.e_type = ET_REL; oeh.e_entry = 0; ecp->flags |= RELOCATABLE; /* Create .shstrtab section */ init_shstrtab(ecp); ecp->shstrtab->off = 0; /* * Create `.data' section which contains the binary data. The * section is inserted immediately after EHDR. */ off = gelf_fsize(ecp->eout, ELF_T_EHDR, 1, EV_CURRENT); if (off == 0) errx(EXIT_FAILURE, "gelf_fsize() failed: %s", elf_errmsg(-1)); (void) create_external_section(ecp, ".data", NULL, content, sb.st_size, off, SHT_PROGBITS, ELF_T_BYTE, SHF_ALLOC | SHF_WRITE, 1, 0, 1); /* Insert .shstrtab after .data section. */ if ((ecp->shstrtab->os = elf_newscn(ecp->eout)) == NULL) errx(EXIT_FAILURE, "elf_newscn failed: %s", elf_errmsg(-1)); insert_to_sec_list(ecp, ecp->shstrtab, 1); /* Insert section header table here. */ shtab = insert_shtab(ecp, 1); /* Count in .symtab and .strtab section headers. */ shtab->sz += gelf_fsize(ecp->eout, ELF_T_SHDR, 2, EV_CURRENT); if ((sym_basename = strdup(ifn)) == NULL) err(1, "strdup"); for (p = sym_basename; *p != '\0'; p++) if (!isalnum(*p & 0xFF)) *p = '_'; #define _GEN_SYMNAME(S) do { \ snprintf(name, sizeof(name), "%s%s%s", "_binary_", sym_basename, S); \ } while (0) /* * Create symbol table. */ create_external_symtab(ecp); data_start = 0; data_end = data_start + sb.st_size; data_size = sb.st_size; _GEN_SYMNAME("_start"); add_to_symtab(ecp, name, data_start, 0, 1, ELF32_ST_INFO(STB_GLOBAL, STT_NOTYPE), 0, 1); _GEN_SYMNAME("_end"); add_to_symtab(ecp, name, data_end, 0, 1, ELF32_ST_INFO(STB_GLOBAL, STT_NOTYPE), 0, 1); _GEN_SYMNAME("_size"); add_to_symtab(ecp, name, data_size, 0, SHN_ABS, ELF32_ST_INFO(STB_GLOBAL, STT_NOTYPE), 0, 1); finalize_external_symtab(ecp); create_symtab_data(ecp); #undef _GEN_SYMNAME free(sym_basename); /* * Write the underlying ehdr. Note that it should be called * before elf_setshstrndx() since it will overwrite e->e_shstrndx. */ if (gelf_update_ehdr(ecp->eout, &oeh) == 0) errx(EXIT_FAILURE, "gelf_update_ehdr() failed: %s", elf_errmsg(-1)); /* Update sh_name pointer for each section header entry. */ ecp->flags |= SYMTAB_EXIST; update_shdr(ecp, 0); /* Properly set sh_link field of .symtab section. */ if (gelf_getshdr(ecp->symtab->os, &sh) == NULL) errx(EXIT_FAILURE, "692 gelf_getshdr() failed: %s", elf_errmsg(-1)); sh.sh_link = elf_ndxscn(ecp->strtab->os); if (!gelf_update_shdr(ecp->symtab->os, &sh)) errx(EXIT_FAILURE, "gelf_update_shdr() failed: %s", elf_errmsg(-1)); /* Renew oeh to get the updated e_shstrndx. */ if (gelf_getehdr(ecp->eout, &oeh) == NULL) errx(EXIT_FAILURE, "gelf_getehdr() failed: %s", elf_errmsg(-1)); /* Resync section offsets. */ resync_sections(ecp); /* Store SHDR offset in EHDR. */ oeh.e_shoff = shtab->off; /* Update ehdr since we modified e_shoff. */ if (gelf_update_ehdr(ecp->eout, &oeh) == 0) errx(EXIT_FAILURE, "gelf_update_ehdr() failed: %s", elf_errmsg(-1)); /* Write out the output elf object. */ if (elf_update(ecp->eout, ELF_C_WRITE) < 0) errx(EXIT_FAILURE, "elf_update() failed: %s", elf_errmsg(-1)); /* Release allocated resource. */ free(content); free_elf(ecp); }

29.542373

77

0.672404

8602c27b032d339687dbacc163eb2b1fe84a2051

4,851

h

C

xls/netlist/function_parser.h

isabella232/xls

ec1fd4868bee8a0964ced09885b5691afc2c67e4

[ "Apache-2.0" ]

null

xls/netlist/function_parser.h

isabella232/xls

ec1fd4868bee8a0964ced09885b5691afc2c67e4

[ "Apache-2.0" ]

null

xls/netlist/function_parser.h

isabella232/xls

ec1fd4868bee8a0964ced09885b5691afc2c67e4

[ "Apache-2.0" ]

null

// Copyright 2020 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Defines routines for parsing the "function" component of cell library // "cell" groups. // Specifications taken from the liberty reference: // https://people.eecs.berkeley.edu/~alanmi/publications/other/liberty07_03.pdf #ifndef XLS_NETLIST_FUNCTION_PARSER_H_ #define XLS_NETLIST_FUNCTION_PARSER_H_ #include <string> #include <vector> #include "absl/status/statusor.h" #include "absl/types/optional.h" #include "xls/common/integral_types.h" namespace xls { namespace netlist { namespace function { // Represents a single token in a cell group "function" attribute. class Token { public: // The "kind" of the token; the lexographic element it represents. enum class Kind { kIdentifier, kOpenParen, kCloseParen, kAnd, kOr, kXor, kInvertFollowing, kInvertPrevious, kLogicOne, kLogicZero, }; // Builder for identifier tokens. static Token Identifier(const std::string& s, int64 pos); // Builder for all other tokens. static Token Simple(Kind kind, int64 pos); Token(Kind kind, int64 pos, absl::optional<std::string> payload = absl::nullopt) : kind_(kind), pos_(pos), payload_(payload) {} Kind kind() { return kind_; } int64 pos() { return pos_; } std::string payload() { return payload_.value(); } private: Kind kind_; int64 pos_; absl::optional<std::string> payload_; }; // Scans a function attribute and returns the component tokens. // Only needs a single element of lookahead, so repeated calls to Peek() without // an intervening Pop() will always return the same token. class Scanner { public: Scanner(std::string function); absl::StatusOr<Token> Pop(); absl::StatusOr<Token> Peek(); bool Eof() { return current_pos_ == function_.size(); } private: // Returns true if this character starts an identifier. bool IsIdentifierStart(char next_char); // Processes a single identifier. absl::StatusOr<Token> ScanIdentifier(); // Looks at and optionally consumes the next character of input. absl::StatusOr<char> PeekChar(); absl::Status DropChar(); // Drops all spaces until the next token. absl::Status DropSpaces(); std::string function_; // Set if we've peeked @ a token. Calling Pop() will clear it. absl::optional<Token> peeked_; int64 current_pos_; }; // Represents the logical computation represented by a function attribute in a // pin's "function" attribute (or subtree thereof). class Ast { public: // Since our grammer is so simple, we'll squish all AST node types into one // enum. enum class Kind { kIdentifier, kLiteralZero, kLiteralOne, kAnd, kOr, kXor, kNot }; static Ast Identifier(const std::string& name, int64 pos) { return Ast(Kind::kIdentifier, pos, name); } static Ast LiteralOne(int64 pos) { return Ast(Kind::kLiteralOne, pos); } static Ast LiteralZero(int64 pos) { return Ast(Kind::kLiteralZero, pos); } static Ast Not(Ast expr, int64 pos) { Ast ast(Kind::kNot, pos); ast.children_.push_back(expr); return ast; } static Ast BinOp(Kind kind, Ast lhs, Ast rhs, int64 pos) { Ast ast(kind, pos); ast.children_.push_back(lhs); ast.children_.push_back(rhs); return ast; } Ast(Kind kind, int64 pos, std::string name = "") : kind_(kind), pos_(pos), name_(name) {} Kind kind() const { return kind_; } int64 pos() const { return pos_; } std::string name() const { return name_; } const std::vector<Ast>& children() const { return children_; } private: Kind kind_; int64 pos_; std::string name_; std::vector<Ast> children_; }; // Creates a function AST from an input cell/pin function description. class Parser { public: static absl::StatusOr<Ast> ParseFunction(std::string function); private: Parser(std::string function); // Parsers for each syntactic element in a function, here ordered from highest // to lowest precedence. absl::StatusOr<Ast> ParseTerm(); absl::StatusOr<Ast> ParseInvertPrev(); absl::StatusOr<Ast> ParseInvertNext(); absl::StatusOr<Ast> ParseXor(); absl::StatusOr<Ast> ParseAnd(); absl::StatusOr<Ast> ParseOr(); Scanner scanner_; }; } // namespace function } // namespace netlist } // namespace xls #endif // XLS_NETLIST_FUNCTION_PARSER_H_

27.252809

80

0.701711

8602f9be76cb253f4652b37dccbca17985a56e50

15,564

h

C

Software/LQuser/drivers/inc/fsl_cmp_hal.h

DUT-GengBao/MKV58-smart-car-main-control-board

70cc3d654b72f70c48f12e33ea81804c9333bef1

[ "MIT" ]

null

Software/LQuser/drivers/inc/fsl_cmp_hal.h

DUT-GengBao/MKV58-smart-car-main-control-board

70cc3d654b72f70c48f12e33ea81804c9333bef1

[ "MIT" ]

null

Software/LQuser/drivers/inc/fsl_cmp_hal.h

DUT-GengBao/MKV58-smart-car-main-control-board

70cc3d654b72f70c48f12e33ea81804c9333bef1

[ "MIT" ]

null

/* * Copyright (c) 2013 - 2014, Freescale Semiconductor, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * o Redistributions of source code must retain the above copyright notice, this list * of conditions and the following disclaimer. * * o Redistributions in binary form must reproduce the above copyright notice, this * list of conditions and the following disclaimer in the documentation and/or * other materials provided with the distribution. * * o Neither the name of Freescale Semiconductor, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef __FSL_CMP_HAL_H__ #define __FSL_CMP_HAL_H__ #include <stdint.h> #include <stdbool.h> #include <assert.h> #include "fsl_device_registers.h" #if FSL_FEATURE_SOC_CMP_COUNT /*! * @addtogroup cmp_hal * @{ */ /****************************************************************************** * Enumerations *****************************************************************************/ /*! * @brief CMP status return codes. */ typedef enum _cmp_status { kStatus_CMP_Success = 0U, /*!< Success */ kStatus_CMP_InvalidArgument = 1U, /*!< Invalid argument existed */ kStatus_CMP_Failed = 2U /*!< Execution failed */ } cmp_status_t; /*! * @brief Defines the selections of the hard block hysteresis control level. * * The hysteresis control level indicates the smallest window between the two * inputs when asserting the change of output. See the chip * Data Sheet for detailed electrical characteristics. Generally, the lower level * represents the smaller window. */ typedef enum _cmp_hystersis_mode { kCmpHystersisOfLevel0 = 0U, /*!< Level 0 */ kCmpHystersisOfLevel1 = 1U, /*!< Level 1 */ kCmpHystersisOfLevel2 = 2U, /*!< Level 2 */ kCmpHystersisOfLevel3 = 3U /*!< Level 3 */ } cmp_hystersis_mode_t; /*! * @brief Defines the selections of the filter sample counter. * * The selection item represents the number of consecutive samples that must * agree prior to the comparator output filter accepting a new output state. */ typedef enum _cmp_filter_counter_mode_t { kCmpFilterCountSampleOf0 = 0U, /*!< Disable the filter */ kCmpFilterCountSampleOf1 = 1U, /*!< One sample must agree */ kCmpFilterCountSampleOf2 = 2U, /*!< 2 consecutive samples must agree */ kCmpFilterCountSampleOf3 = 3U, /*!< 3 consecutive samples must agree */ kCmpFilterCountSampleOf4 = 4U, /*!< 4 consecutive samples must agree */ kCmpFilterCountSampleOf5 = 5U, /*!< 5 consecutive samples must agree */ kCmpFilterCountSampleOf6 = 6U, /*!< 6 consecutive samples must agree */ kCmpFilterCountSampleOf7 = 7U /*!< 7 consecutive samples must agree */ } cmp_filter_counter_mode_t; /*! * @brief Defines the selections of reference voltage source for the internal DAC. */ typedef enum _cmp_dac_ref_volt_src_mode_t { kCmpDacRefVoltSrcOf1 = 0U, /*!< Vin1 - Vref_out */ kCmpDacRefVoltSrcOf2 = 1U /*!< Vin2 - Vdd */ } cmp_dac_ref_volt_src_mode_t; /*! * @brief Define the selection of the CMP channel mux. */ typedef enum _cmp_chn_mux_mode_t { kCmpInputChn0 = 0U, /*!< Comparator input channel 0. @internal gui name="Input 0" */ kCmpInputChn1 = 1U, /*!< Comparator input channel 1. @internal gui name="Input 1" */ kCmpInputChn2 = 2U, /*!< Comparator input channel 2. @internal gui name="Input 2" */ kCmpInputChn3 = 3U, /*!< Comparator input channel 3. @internal gui name="Input 3" */ kCmpInputChn4 = 4U, /*!< Comparator input channel 4. @internal gui name="Input 4" */ kCmpInputChn5 = 5U, /*!< Comparator input channel 5. @internal gui name="Input 5" */ kCmpInputChn6 = 6U, /*!< Comparator input channel 6. @internal gui name="Input 6" */ kCmpInputChn7 = 7U, /*!< Comparator input channel 7. @internal gui name="Input 7" */ kCmpInputChnDac = kCmpInputChn7 /*!< Comparator input channel 7. @internal gui name="DAC output" */ } cmp_chn_mux_mode_t; /****************************************************************************** * Definitions *****************************************************************************/ /*! * @brief Defines a structure for configuring the comparator in the CMP module. * * This structure holds the configuration for the comparator * inside the CMP module. With the configuration, the CMP can be set as a * basic comparator without additional features. * @internal gui name="Basic configuration" id="cmpCfg" */ typedef struct CmpComparatorConfig { cmp_hystersis_mode_t hystersisMode; /*!< Set the hysteresis level. @internal gui name="Hysteresis level" id="HysteresisLevel" */ bool pinoutEnable; /*!< Enable outputting the CMPO to pin. @internal gui name="Out pin" id="OutPin" */ bool pinoutUnfilteredEnable; /*!< Enable outputting unfiltered result to CMPO. @internal gui name="Unfiltered output pin" id="UnfilteredOutPinEnable" */ bool invertEnable; /*!< Enable inverting the comparator's result. @internal gui name="Output inversion" id="InvertLogic" */ bool highSpeedEnable; /*!< Enable working in speed mode. @internal gui name="High speed" id="HighSpeed" */ #if FSL_FEATURE_CMP_HAS_DMA bool dmaEnable; /*!< Enable using DMA. @internal gui name="DMA" id="DMA" */ #endif /* FSL_FEATURE_CMP_HAS_DMA */ bool risingIntEnable; /*!< Enable using CMPO rising interrupt. @internal gui name="Rising interrupt" id="RisingInt" */ bool fallingIntEnable; /*!< Enable using CMPO falling interrupt. @internal gui name="Falling interrupt" id="FallingInt" */ cmp_chn_mux_mode_t plusChnMux; /*!< Set the Plus side input to comparator. @internal gui name="Positive channel" id="PositiveChannel" default="0" */ cmp_chn_mux_mode_t minusChnMux; /*!< Set the Minus side input to comparator. @internal gui name="Negative channel" id="NegativeChannel" default="1" */ #if FSL_FEATURE_CMP_HAS_TRIGGER_MODE bool triggerEnable; /*!< Enable triggering mode. @internal gui name="Trigger mode" id="TriggerMode" */ #endif /* FSL_FEATURE_CMP_HAS_TRIGGER_MODE */ } cmp_comparator_config_t; /*! * @brief Definition selections of the sample and filter modes in the CMP module. * * Comparator sample/filter is available in several modes. Use the enumeration * to identify the comparator's status: * * kCmpContinuousMode - Continuous Mode: Both window control and filter blocks are completely bypassed. The comparator output is updated continuously. * kCmpSampleWithNoFilteredMode - Sample, Non-Filtered Mode: Window control is completely bypassed. The comparator output is sampled whenever a rising-edge is detected on the filter block clock input. The filter clock prescaler can be configured as a divider from the bus clock. * kCmpSampleWithFilteredMode - Sample, Filtered Mode: Similar to "Sample, Non-Filtered Mode", but the filter is active in this mode. The filter counter value also becomes configurable. * kCmpWindowedMode - Windowed Mode: In Windowed Mode, only output of analog comparator is passed when the WINDOW signal is high. The last latched value is held when the WINDOW signal is low. * kCmpWindowedFilteredMode - Window/Filtered Mode: This is a complex mode because it uses both window and filtering features. It also has the highest latency of all modes. This can be approximated to up to 1 bus clock synchronization in the window function + ( ( filter counter * filter prescaler ) + 1) bus clock for the filter function. */ typedef enum _cmp_sample_filter_mode { kCmpContinuousMode = 0U, /*!< Continuous Mode */ kCmpSampleWithNoFilteredMode = 1U, /*!< Sample, Non-Filtered Mode */ kCmpSampleWithFilteredMode = 2U, /*!< Sample, Filtered Mode */ kCmpWindowedMode = 3U, /*!< Window Mode */ kCmpWindowedFilteredMode = 4U /*!< Window/Filtered Mode */ } cmp_sample_filter_mode_t; /*! * @brief Defines a structure to configure the window/filter in CMP module. * * This structure holds the configuration for the window/filter inside * the CMP module. With the configuration, the CMP module can operate in * advanced mode. * @internal gui name="Filter configuration" id="filterCfg" */ typedef struct CmpSampleFilterConfig { cmp_sample_filter_mode_t workMode; /*!< Sample/Filter's work mode. @internal gui name="Work mode" id="WorkMode" */ bool useExtSampleOrWindow; /*!< Switcher to use external WINDOW/SAMPLE signal. @internal gui name="External sample/window signal" id="ExtSampleWinSignal" */ uint8_t filterClkDiv; /*!< Filter's prescaler which divides from the bus clock. @internal gui name="Filter divider" id="FiltClkDiv" */ cmp_filter_counter_mode_t filterCount; /*!< Sample count for filter. See "cmp_filter_counter_mode_t". @internal gui name="Filter sample count" id="FiltCnt" */ } cmp_sample_filter_config_t; /*! * @brief Defines a structure to configure the internal DAC in the CMP module. * * This structure holds the configuration for the DAC * inside the CMP module. With the configuration, the internal DAC * provides a reference voltage level and is chosen as the CMP input. * @internal gui name="DAC configuration" id="dacCfg" */ typedef struct CmpDacConfig { bool dacEnable; /*!< Enable the internal 6-bit DAC. @internal gui name="D/A converter" id="DacEnable" */ cmp_dac_ref_volt_src_mode_t refVoltSrcMode; /*!< Select the reference voltage source for internal DAC. @internal gui name="Input reference" id="Reference" */ uint8_t dacValue; /*!< Set the value for internal DAC. @internal gui name="Output level value" id="DacValue" range="0..63" */ } cmp_dac_config_t; /******************************************************************************* * APIs ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @brief Resets the CMP registers to a known state. * * This function resets the CMP registers to a known state. This state is * defined in the chip Reference Manual, which is power on reset value. * * @param base Register base address for the module. */ void CMP_HAL_Init(CMP_Type * base); /*! * @brief Configures the CMP comparator function. * * This function configures the CMP comparator function. * * @param base Register base address for the module. * @param configPtr Pointer to configuration structure. See to "cmp_comparator_config_t". */ void CMP_HAL_ConfigComparator(CMP_Type * base, const cmp_comparator_config_t *configPtr); /*! * @brief Configures the CMP DAC function. * * This function configures the CMP DAC function. * * @param base Register base address for the module. * @param configPtr Pointer to configuration structure. See to "cmp_dac_config_t". */ void CMP_HAL_ConfigDacChn(CMP_Type * base, const cmp_dac_config_t *configPtr); /*! * @brief Configures the CMP sample or the filter function. * * This function configures the CMP sample or filter function. * * @param base Register base address for the module. * @param configPtr Pointer to configuration structure. See to "cmp_sample_filter_config_t". */ void CMP_HAL_ConfigSampleFilter(CMP_Type * base, const cmp_sample_filter_config_t *configPtr); /*! * @brief Enables the comparator in the CMP module. * * This function enables the comparator in the CMP module. The analog * comparator is the core component in the CMP module. Only when it is enabled, all * other functions for advanced features are meaningful. * * @param base Register base address for the module. */ static inline void CMP_HAL_Enable(CMP_Type * base) { CMP_BWR_CR1_EN(base, 1U); } /*! * @brief Disables the comparator in the CMP module. * * This function disables the comparator in the CMP module. The analog * comparator is the core component in the CMP module. When it is disabled, it * remains in the off state and consumes no power. * * @param base Register base address for the module. */ static inline void CMP_HAL_Disable(CMP_Type * base) { CMP_BWR_CR1_EN(base, 0U); } /*! * @brief Gets the comparator logic output in the CMP module. * * This function gets the comparator logic output in the CMP module. * It returns the current value of the analog comparator output. The value * is reset to 0 and read as de-asserted value when the CMP module is * disabled. When setting to invert mode, the comparator logic output is * inverted as well. * * @param base Register base address for the module. * @return The logic output is assert or not. */ static inline bool CMP_HAL_GetOutputLogic(CMP_Type * base) { return ( 1U == CMP_BRD_SCR_COUT(base) ); } /*! * @brief Gets the logic output falling edge event in the CMP module. * * This function gets the logic output falling edge event in the CMP module. * It detects a falling-edge on COUT and returns the asserted state when the * falling-edge on COUT has occurred. * * @param base Register base address for the module. * @return The falling-edge on COUT has occurred or not. */ static inline bool CMP_HAL_GetOutputFallingFlag(CMP_Type * base) { return ( 1U == CMP_BRD_SCR_CFF(base) ); } /*! * @brief Clears the logic output falling edge event in the CMP module. * * This function clears the logic output falling edge event in the CMP module. * * @param base Register base address for the module. */ static inline void CMP_HAL_ClearOutputFallingFlag(CMP_Type * base) { CMP_BWR_SCR_CFF(base, 1U); } /*! * @brief Gets the logic output rising edge event in the CMP module. * * This function gets the logic output rising edge event in the CMP module. * It detects a rising-edge on COUT and returns the asserted state when the * rising-edge on COUT has occurred. * * @param base Register base address for the module. * @return The rising-edge on COUT has occurred or not. */ static inline bool CMP_HAL_GetOutputRisingFlag(CMP_Type * base) { return ( 1U == CMP_BRD_SCR_CFR(base) ); } /*! * @brief Clears the logic output rising edge event in the CMP module. * * This function clears the logic output rising edge event in the CMP module. * * @param base Register base address for the module. */ static inline void CMP_HAL_ClearOutputRisingFlag(CMP_Type * base) { CMP_BWR_SCR_CFR(base, 1U); } #if defined(__cplusplus) } #endif /*! * @} */ #endif #endif /* __FSL_CMP_HAL_H__ */ /******************************************************************************* * EOF ******************************************************************************/

40.957895

162

0.702519

860309326d0609c4ff26291152e62663e65cb9a3

2,081

c

C

texture_loader/loader.c

krystalgamer/spidey-tools

59648b5305e829718c22ec8fd91c795f7551d89d

[ "MIT" ]

15

2017-07-04T20:27:43.000Z

2022-03-21T21:30:55.000Z

texture_loader/loader.c

krystalgamer/spidey-tools

59648b5305e829718c22ec8fd91c795f7551d89d

[ "MIT" ]

7

2017-12-04T11:13:07.000Z

2020-07-27T18:42:23.000Z

texture_loader/loader.c

krystalgamer/spidey-tools

59648b5305e829718c22ec8fd91c795f7551d89d

[ "MIT" ]

5

2018-08-21T17:02:22.000Z

2022-03-21T21:18:46.000Z

#include "md5.h" #include "patches.h" #include "forwards.h" #define CTL_VERSION "0.4" BOOL ApplyHooks(); BOOL CheckBinkwVersion(); BOOL WINAPI DllMain(HINSTANCE hInstDll, DWORD fdwReason, LPVOID reserverd){ if(fdwReason == DLL_PROCESS_ATTACH){ //Console is now allocated only with -console directive char *args = GetCommandLine(); if(strstr(args, " -console")){ AllocConsole(); if(!freopen("CONOUT$", "w", stdout)){ MessageBoxA(NULL, "Error", "Couldn't allocate console...Closing", 0); return FALSE; } } printf("Custom texture loader v%s\n", CTL_VERSION); if(!CheckBinkwVersion()){ puts("Wrong binkw32 version.. Please download the correct version"); return FALSE; } if (!GetModuleHandle("binkw32.dll")){ printf("Original binkw32 doesn't seem to be loaded...Quitting"); MessageBoxA(NULL, "Error", "Couldn't get an handle to the original binkw32", 0); return FALSE; } return ApplyHooks(); } else if(fdwReason == DLL_PROCESS_DETACH) FreeConsole(); return TRUE; } unsigned char binkwChecksum[16] = { 0x62, 0xBe, 0xE9, 0x3E, 0xF9, 0xE3, 0x97, 0x4A, 0x9E, 0x2C, 0x59, 0xF2, 0xA8, 0x32, 0xB0, 0xA5 }; unsigned char binkwBuffer[1024]; BOOL CheckBinkwVersion(){ FILE *fp; fp = fopen("binkw32_.dll", "rb"); if(!fp){ MessageBoxA(NULL, "Error", "Couldn't open binkw32_.dll.. Quitting", 0); puts("Couldn't open binkw32_.dll.. Quitting"); return FALSE; } MD5_CTX ctx; MD5_Init(&ctx); DWORD bytesRead = 0; while((bytesRead = fread(binkwBuffer, 1, 1024, fp)) != 0) MD5_Update(&ctx, binkwBuffer, bytesRead); if(!feof(fp)){ MessageBoxA(NULL, "Error", "There was an error reading the file", 0); puts("There was an error reading the file"); return FALSE; } fclose(fp); unsigned char checksum[16]; MD5_Final((void*)&checksum, &ctx); if(memcmp(checksum, binkwChecksum, 16)){ MessageBoxA(NULL, "Error", "Wrong binkw version or corrupted!", 0); puts("Wrong binkw version or corrupted!"); return FALSE; } return TRUE; } BOOL ApplyHooks(){ return (FileLoader() && TextureLoader()); }

22.376344

83

0.67852

8603c898bceed0736ebe1d41e4173aff8e59e116

282

h

C

ShipHub/LabelRowTemplate.h

opsroller/shiphub-cocoa

33e62ab5ff2f180183be95a649f8cdd01ffa6138

[ "MIT" ]

30

2018-07-29T00:01:59.000Z

2022-01-16T08:38:14.000Z

ShipHub/LabelRowTemplate.h

opsroller/shiphub-cocoa

33e62ab5ff2f180183be95a649f8cdd01ffa6138

[ "MIT" ]

null

ShipHub/LabelRowTemplate.h

opsroller/shiphub-cocoa

33e62ab5ff2f180183be95a649f8cdd01ffa6138

[ "MIT" ]

6

2018-07-29T00:01:34.000Z

2020-08-09T04:08:21.000Z

// // LabelRowTemplate.h // ShipHub // // Created by James Howard on 7/24/16. // Copyright © 2016 Real Artists, Inc. All rights reserved. // #import <Cocoa/Cocoa.h> @interface LabelRowTemplate : NSPredicateEditorRowTemplate // for subclassers - (NSPopUpButton *)popUp; @end

16.588235

60

0.70922

8605f0452d0b4aaa6db467c14a9865eb0d962f5f

3,433

h

C

gloox-1.0.22/src/chatstatefilter.h

zhichao281/SuperWisdom

e3bd1608a7aaf9b36dc274138081cf427ba4bbfc

[ "Apache-2.0" ]

9

2019-04-13T03:15:32.000Z

2021-06-22T09:57:19.000Z

gloox-1.0.22/src/chatstatefilter.h

zhichao281/SuperWisdom

e3bd1608a7aaf9b36dc274138081cf427ba4bbfc

[ "Apache-2.0" ]

null

gloox-1.0.22/src/chatstatefilter.h

zhichao281/SuperWisdom

e3bd1608a7aaf9b36dc274138081cf427ba4bbfc

[ "Apache-2.0" ]

8

2019-09-12T03:18:05.000Z

2021-06-22T09:57:22.000Z

/* Copyright (c) 2005-2017 by Jakob Schröter <js@camaya.net> This file is part of the gloox library. http://camaya.net/gloox This software is distributed under a license. The full license agreement can be found in the file LICENSE in this distribution. This software may not be copied, modified, sold or distributed other than expressed in the named license agreement. This software is distributed without any warranty. */ #ifndef CHATSTATEFILTER_H__ #define CHATSTATEFILTER_H__ #include "messagefilter.h" #include "gloox.h" namespace gloox { class Tag; class ChatStateHandler; class MessageSession; class Message; /** * @brief This class adds Chat State Notifications (@xep{0085}) support to a MessageSession. * * This implementation of Chat States is fully transparent to the user of the class. * If the remote entity does not request chat states, ChatStateFilter will not send * any, even if the user requests it. (This is required by the protocol specification.) * You MUST annouce this capability by use of Disco (associated namespace is XMLNS_CHAT_STATES). * (This is also required by the protocol specification.) * * @note You must register ChatState as a StanzaExtension by calling * ClientBase::registerStanzaExtension() for notifications to work. * * @author Jakob Schröter <js@camaya.net> * @since 0.8 */ class GLOOX_API ChatStateFilter : public MessageFilter { public: /** * Constructs a new Chat State filter for a MessageSession. * @param parent The MessageSession to decorate. */ ChatStateFilter( MessageSession* parent ); /** * Virtual destructor. */ virtual ~ChatStateFilter(); /** * Use this function to set a chat state as defined in @xep{0085}. * @note The Spec states that Chat States shall not be sent to an entity * which did not request them. Reasonable effort is taken in this function to * avoid spurious state sending. You should be safe to call this even if Message * Events were not requested by the remote entity. However, * calling setChatState( CHAT_STATE_COMPOSING ) for every keystroke still is * discouraged. ;) * @param state The state to set. */ void setChatState( ChatStateType state ); /** * The ChatStateHandler registered here will receive Chat States according * to @xep{0085}. * @param csh The ChatStateHandler to register. */ void registerChatStateHandler( ChatStateHandler* csh ) { m_chatStateHandler = csh; } /** * This function clears the internal pointer to the ChatStateHandler. * Chat States will not be delivered anymore after calling this function until another * ChatStateHandler is registered. */ void removeChatStateHandler() { m_chatStateHandler = 0; } // reimplemented from MessageFilter virtual void decorate( Message& msg ); // reimplemented from MessageFilter virtual void filter( Message& msg ); protected: /** A handler for incoming chat state changes. */ ChatStateHandler* m_chatStateHandler; /** Holds the state sent last. */ ChatStateType m_lastSent; /** Indicates whether or not chat states are currently enabled. */ bool m_enableChatStates; }; } #endif // CHATSTATEFILTER_H__

32.386792

98

0.688319

860740111e4d987da5a98c0b88c4f604ecf755d9

1,405

c

C

src/cmd_export.c

mhufflep/msh

c6344f95357d74b42aad889439280ba4ef58fc3a

[ "MIT" ]

2

2021-10-04T06:40:19.000Z

2021-10-05T18:51:38.000Z

src/cmd_export.c

mhufflep/msh

c6344f95357d74b42aad889439280ba4ef58fc3a

[ "MIT" ]

null

src/cmd_export.c

mhufflep/msh

c6344f95357d74b42aad889439280ba4ef58fc3a

[ "MIT" ]

2

2021-05-04T20:47:20.000Z

2021-06-20T14:29:44.000Z

#include "msh.h" int env_valid(t_env *env) { int i; i = 0; if (ft_isdigit(env->key[0])) return (0); while (env->key[i] != '\0') { if (!(ft_isalnum(env->key[i]) || env->key[i] == '_')) return (0); i++; } return (1); } void print_export_node(void *data) { t_env *env; env = (t_env *)data; if (env != NULL) { ft_putstr_fd("declare -x ", STDOUT_FILENO); ft_putstr_fd(env->key, STDOUT_FILENO); ft_putstr_fd(env->sep, STDOUT_FILENO); if (env->val != NULL) { ft_putstr_fd("\"", STDOUT_FILENO); ft_putstr_fd(env->val, STDOUT_FILENO); ft_putstr_fd("\"", STDOUT_FILENO); } ft_putendl_fd("", STDOUT_FILENO); } } int export_try_add(t_sh *sh, t_cmd *cmd) { t_env *found; t_env *env; int i; i = 1; while (cmd->args[i]) { env = copy_to_env(cmd->args[i]); if (env_valid(env)) { found = env_get_local(env->key); if (found != NULL) env_update(found, env); else env_add(sh, env); } else { cmd_error(cmd->args[0], cmd->args[i], CMD_NOT_VALID_ID); } env_del(env); i++; } return (0); } int cmd_export(t_sh *sh, t_cmd *cmd) { t_blst *lst_copy; if (sizeof_array(&cmd->args[1]) == 0) { lst_copy = bd_lstcopy(sh->env_list, env_dup); bd_lstsort_merge(&(lst_copy), env_cmp); bd_lstiter(lst_copy, print_export_node); bd_lstclear(&lst_copy, env_del); } else { sh->exit_code = export_try_add(sh, cmd); } return (0); }

16.72619

59

0.610676

86094baa41cc6631dee8abe297a7fa367442763a

484

h

C

modules/scene_manager/include/map_msgs/srv/set_map_projections__response.h

Omnirobotic/godot

d50b5d047bbf6c68fc458c1ad097321ca627185d

[ "CC-BY-3.0", "Apache-2.0", "MIT" ]

null

modules/scene_manager/include/map_msgs/srv/set_map_projections__response.h

Omnirobotic/godot

d50b5d047bbf6c68fc458c1ad097321ca627185d

[ "CC-BY-3.0", "Apache-2.0", "MIT" ]

3

2019-11-14T12:20:06.000Z

2020-08-07T13:51:10.000Z

modules/scene_manager/include/map_msgs/srv/set_map_projections__response.h

Omnirobotic/godot

d50b5d047bbf6c68fc458c1ad097321ca627185d

[ "CC-BY-3.0", "Apache-2.0", "MIT" ]

null

// generated from rosidl_generator_c/resource/msg.h.em // generated code does not contain a copyright notice #ifndef MAP_MSGS__SRV__SET_MAP_PROJECTIONS__RESPONSE_H_ #define MAP_MSGS__SRV__SET_MAP_PROJECTIONS__RESPONSE_H_ #include "map_msgs/srv/set_map_projections__response__struct.h" #include "map_msgs/srv/set_map_projections__response__functions.h" #include "map_msgs/srv/set_map_projections__response__type_support.h" #endif // MAP_MSGS__SRV__SET_MAP_PROJECTIONS__RESPONSE_H_

40.333333

69

0.873967